CN112402805A

CN112402805A - Optical microwave therapeutic instrument

Info

Publication number: CN112402805A
Application number: CN202011535777.XA
Authority: CN
Inventors: 董旭
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-23
Filing date: 2020-12-23
Publication date: 2021-02-26

Abstract

The invention discloses an optical microwave therapeutic apparatus, which comprises a microwave radiation amount control device, an isolation device and an isolation bin connecting module, wherein a control motor fixing plate is fixedly arranged on a control bottom plate, a control motor is fixedly arranged on the control motor fixing plate, a control bevel gear is fixedly arranged on a control motor transmission shaft, the rotation of the control motor is transmitted to the control bevel gear, the control motor is finally transmitted to a control rack frame by controlling the bevel gear transmission force, the control rack frame drives an isolation bearing plate on a fixing surface to transversely move, a radiation plate radiates microwaves, and the microwave radiation amount control device is used for adjusting according to the therapeutic height.

Description

Optical microwave therapeutic instrument

Technical Field

The invention relates to the field of radiation therapy, in particular to an optical microwave therapeutic instrument.

Background

The microwave therapeutic apparatus is used as a thermotherapy apparatus, and the prevention of scald is necessary to be paid attention to, although the microwave therapeutic apparatus is a characteristic of all thermotherapy apparatuses, because the penetration capability of microwave is far stronger than infrared ray, the scald has a certain depth and must be paid attention to, so the microwave therapeutic apparatus requires that a patient insensitive to heat is forbidden on the use specification, namely, the prevention of burn, the application number: CN200320102122.9 discloses a light microwave therapeutic instrument radiator, which has the advantages of no need of anesthesia and simplicity, but has a precaution measure against scald and a too small depth.

Disclosure of Invention

In view of the above technical problems, the present invention provides an optical microwave therapeutic apparatus, which comprises a microwave radiation amount control device, an isolation device and an isolation bin connection module, wherein the microwave radiation amount control device comprises: controlling the rack; the isolation device comprises: the isolation bearing plate, the isolation left bin gate fixing plate and the isolation right bin gate fixing plate are arranged on the isolation bearing plate; the isolation bin connection module comprises: a left bin gate, a right bin gate, a treatment bed and an external fixed bin.

Keep apart bearing plate fixed mounting on the control rack, left door fixed mounting is on keeping apart left door fixed plate, and right door fixed mounting is on keeping apart right door fixed plate, and treatment bed fixed mounting is on keeping apart the bearing plate, and outside fixed bin fixed mounting is on left door.

Further, the microwave radiation amount control device further comprises: a control bottom plate, a control bracket, a control right side fixing plate, a control left side fixing plate, a control motor, a control helical tooth, a control right side transmission shaft, a control middle fluted disc, a control middle transmission shaft, a control middle straight tooth, a control middle gear, a control middle vertical transmission shaft, a control middle helical tooth, a control middle upper transmission shaft and a control middle upper straight tooth, wherein the control motor fixing plate is fixedly arranged on the control bottom plate, the control motor is fixedly arranged on the control motor fixing plate, the control helical tooth is fixedly arranged on the control motor transmission shaft, the control helical tooth and the control right side helical tooth form gear engagement, the control right side helical tooth is fixedly arranged in the middle of the control right side transmission shaft, two ends of the control right side transmission shaft are respectively and rotatably arranged on the, the control right side gear and the control middle fluted disc form gear engagement, the control middle fluted disc is fixedly arranged at one end of a control middle transmission shaft, two ends of the control middle transmission shaft are respectively and rotatably arranged on a control bottom plate and a control support, a control middle straight tooth is fixedly arranged at one end of the control middle transmission shaft, the control middle straight tooth and the control middle gear form gear engagement, the control middle gear is fixedly arranged on a control middle vertical transmission shaft, the control middle vertical transmission shaft is rotatably arranged on the control bottom plate, a control middle oblique tooth is fixedly arranged at one end of the control middle vertical transmission shaft, the control middle oblique tooth and the control middle upper oblique tooth form gear engagement, the control middle upper oblique tooth is fixedly arranged at one end of the control middle upper transmission shaft, the control middle upper transmission shaft is rotatably arranged on the control support, the control middle upper straight tooth is fixedly arranged at the other end of the, the control rack is slidably mounted on the control bracket.

Further, the isolation device further comprises: an isolation support column, an isolation support plate, an isolation left side bearing frame, an isolation left bearing frame, an isolation right side bearing frame, an isolation right bearing frame, an isolation left door motor, an isolation left straight tooth, an isolation left middle transmission shaft, an isolation left middle gear, an isolation left straight tooth, an isolation left transmission shaft, an isolation left middle straight tooth, an isolation left upper transmission shaft, an isolation left upper oblique tooth, an isolation left transmission shaft, an isolation auxiliary motor, an isolation right oblique tooth, an isolation right upper toothed transmission shaft, an isolation right middle toothed disc, an isolation right upper transmission shaft, an isolation right straight tooth, an isolation right upper gear, an isolation right transmission shaft and an isolation rotary fixing frame, wherein the isolation left door motor is fixedly installed on the isolation support plate, the isolation left straight tooth is fixedly installed on the isolation left door motor transmission shaft, the isolation left straight tooth and the isolation left middle straight tooth form, an isolation left middle straight tooth is fixedly arranged at one end of an isolation left middle transmission shaft, the isolation left middle transmission shaft is rotatably arranged on an isolation left bearing frame, the isolation left middle gear is fixedly arranged in the middle of the isolation left middle transmission shaft, the isolation left middle gear and the isolation left straight tooth form gear engagement, the isolation left straight tooth is fixedly arranged at one end of the isolation left transmission shaft, the isolation left transmission shaft is rotatably arranged on the isolation left bearing frame, the isolation left middle straight tooth is fixedly arranged in the middle of the isolation left transmission shaft, the isolation left middle straight tooth and the isolation left upper straight tooth form gear engagement, the isolation left upper straight tooth is fixedly arranged in the middle of the isolation left upper transmission shaft, the isolation left upper transmission shaft is rotatably arranged on the isolation left bearing frame, the isolation left upper helical tooth is fixedly arranged at one end of the isolation left upper transmission shaft, the isolation left upper helical tooth and the isolation left, an isolation left side helical gear is fixedly arranged at one end of an isolation left transmission shaft, two ends of the isolation left transmission shaft are respectively and rotatably arranged on an isolation left bearing frame and an isolation right bearing frame, an isolation left bin gate fixing plate is fixedly arranged on the isolation left transmission shaft, an isolation auxiliary motor is fixedly arranged on the isolation right side bearing frame, an isolation right helical gear is fixedly arranged at one end of a transmission shaft of the isolation auxiliary motor, the isolation right helical gear and the isolation right upper helical gear form gear engagement, the isolation right upper helical gear is fixedly arranged on the isolation right upper toothed transmission shaft, the isolation right upper toothed transmission shaft is rotatably arranged on the isolation right side bearing frame, a middle gear of the isolation right upper toothed transmission shaft and an isolation right middle gear form gear engagement, the isolation right middle gear is fixedly arranged at one end of the isolation right upper transmission shaft, the isolation right upper transmission shaft is rotatably arranged on the isolation right side bearing frame, and an isolation right straight gear is fixedly, keep apart right side straight-tooth and keep apart right side upper right gear and form gear engagement, keep apart right side upper right gear fixed mounting on keeping apart right drive shaft, keep apart right drive shaft both ends respectively rotatory install keep apart right side bearing bracket and keep apart the rotatory mount on, keep apart right door fixed plate fixed mounting on keeping apart right drive shaft.

Further, the isolation bin connection module further comprises: the radiation plate is fixedly arranged on the treatment couch.

Further, the control support is fixedly installed on the control bottom plate, the control right side fixing plate is fixedly installed on the control bottom plate, and the control left side fixing plate is fixedly installed on the control bottom plate.

Further, keep apart support column fixed mounting on keeping apart the bearing plate, keep apart backup pad fixed mounting on keeping apart the support column, keep apart left side bearing bracket fixed mounting in keeping apart the backup pad, keep apart left bearing bracket fixed mounting in keeping apart the backup pad, keep apart right side bearing bracket fixed mounting on keeping apart the support column, keep apart right bearing bracket fixed mounting in keeping apart the backup pad, keep apart rotary fixing frame fixed mounting in keeping apart the backup pad.

Furthermore, there are two isolating right bin gate fixing plates and two isolating rotary fixing frames respectively.

Furthermore, the surface of the radiation plate is provided with a microwave coil.

Compared with the prior art, the invention has the beneficial effects that: the internal heating has the advantages that the injured tissues are instantly solidified from inside to outside, but the temperature is lower, the boundary of the injured part is clear, and meanwhile, the heating part is uniform; the corresponding irradiation treatment probe is matched, so that the local blood circulation can be improved, the metabolic process can be enhanced, the nutrition of local tissues can be enhanced, and the phagocytosis of white blood cells can be promoted; the radiation of the optical microwaves is harmless to the human body, and the adverse effect is caused.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 and 3 are schematic structural views of a microwave radiation amount control device according to the present invention.

Fig. 4 and 5 are schematic structural views of the isolation device of the invention.

Fig. 6 and 7 are schematic views illustrating installation of the isolation bin connection module of the present invention.

Reference numerals: 1-microwave radiation amount control device; 2-an isolation device; 3-an isolation bin connecting module; 101-a control backplane; 102-a control bracket; 103-control right side fixing plate; 104-controlling the left fixing plate; 105-control motor fixing plate; 106-control the motor; 107-control helical teeth; 108-control right helical teeth; 109-controlling the right transmission shaft; 110-control right gear; 111-control the middle fluted disc; 112-control the middle drive shaft; 113-control middle spurs; 114-control middle gear; 115-control the middle vertical transmission shaft; 116-control middle helical teeth; 117-control the upper middle helical teeth; 118-control the upper drive shaft; 119-control the upper middle straight teeth; 120-control the rack; 201-isolating the bearing plate; 202-isolated support columns; 203-an isolation support plate; 204-isolating the left bearing bracket; 205-isolating the left bearing frame; 206-isolating the right side bearing frame; 207-isolating the right bearing bracket; 208-isolating the left door motor; 209-isolating the left spur; 210-isolating the left medial spur; 211-isolating the left central drive shaft; 212-isolating the left middle gear; 213-isolating the left spur; 214-isolating the left drive shaft; 215-isolating the left medial spur; 216-isolating the upper left spur; 217-isolating the left upper drive shaft; 218-isolating the left upper helical teeth; 219-isolating left skewed teeth; 220-isolating the left transmission shaft; 221-isolating left bin gate fixing plate; 222-an isolated secondary motor; 223-isolating the right skewed tooth; 224-isolating the upper right helical teeth; 225-isolating the upper right toothed drive shaft; 226-isolating the right middle fluted disc; 227-isolating the upper right drive shaft; 228-isolating the right spur; 229-isolating the upper right gear; 230-isolating the right drive shaft; 231-isolating the rotary mount; 232-isolating right bin gate fixing plate; 301-left bin gate; 302-right bin gate; 303-treatment bed; 304-a radiation plate; 305-external fixed bin.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Referring to fig. 1, 2, 3, 4, 5, 6 and 7, the optical microwave therapeutic apparatus comprises a microwave radiation control device 1, an isolation device 2 and an isolation chamber connection module 3.

The microwave radiation amount control apparatus 1 includes; controls the rack 120; the isolation device 2 includes: an isolation bearing plate 201, an isolation left bin gate fixing plate 221 and an isolation right bin gate fixing plate 232; the isolation bin connection module 3 includes: a left bin door 301, a right bin door 302, a treatment couch 303, and an external fixation bin 305.

Keep apart bearing plate 201 fixed mounting on control rack 120, left door 301 fixed mounting is on keeping apart left door fixed plate 221, and right door 302 fixed mounting is on keeping apart right door fixed plate 232, and treatment bed 303 fixed mounting is on keeping apart bearing plate 201, and outside fixed bin 305 fixed mounting is on left door 301.

The microwave radiation amount control apparatus 1 further includes: a control bottom plate 101, a control bracket 102, a control right side fixing plate 103, a control left side fixing plate 104, a control motor fixing plate 105, a control motor 106, a control helical tooth 107, a control right side helical tooth 108, a control right side transmission shaft 109, a control right side gear 110, a control middle toothed disc 111, a control middle transmission shaft 112, a control middle straight tooth 113, a control middle gear 114, a control middle vertical transmission shaft 115, a control middle helical tooth 116, a control middle upper helical tooth 117, a control middle upper transmission shaft 118 and a control middle upper straight tooth 119, wherein the control motor fixing plate 105 is fixedly arranged on the control bottom plate 101, the control motor 106 is fixedly arranged on the control motor fixing plate 105, the control helical tooth 107 is fixedly arranged on the transmission shaft of the control motor 106, the control helical tooth 107 and the control right side helical tooth 108 form gear engagement, the control right side helical tooth 108 is fixedly arranged in the middle of the control right side transmission shaft 109, two ends of the control right side transmission, the control right side gear 110 is fixedly arranged at one end of a control right side transmission shaft 109, the control right side gear 110 is in gear engagement with a control middle gear disc 111, the control middle gear disc 111 is fixedly arranged at one end of a control middle transmission shaft 112, two ends of the control middle transmission shaft 112 are respectively and rotatably arranged on the control bottom plate 101 and the control support 102, a control middle straight tooth 113 is fixedly arranged at one end of the control middle transmission shaft 112, a control middle straight tooth 113 is in gear engagement with a control middle gear 114, a control middle gear 114 is fixedly arranged on a control middle vertical transmission shaft 115, the control middle vertical transmission shaft 115 is rotatably arranged on the control bottom plate 101, a control middle oblique tooth 116 is fixedly arranged at one end of the control middle vertical transmission shaft 115, a control middle oblique tooth 116 is in gear engagement with a control middle oblique tooth 117, a control middle upper oblique tooth 117 is fixedly arranged at one end of a control, the upper control straight tooth 119 is fixedly arranged at the other end of an upper control transmission shaft 118, the upper control straight tooth 119 and a control rack frame 120 form gear engagement, the control rack frame 120 is slidably arranged on a control support 102, a control motor 106 rotates and transmits the control straight tooth to a control helical tooth 107, the transmission force is finally transmitted to the control rack frame 120 through the control helical tooth 107, the control rack frame 120 drives an isolation bearing plate 201 on a fixed surface to move transversely, a radiation plate 304 radiates microwaves, and the microwave radiation quantity control device 1 adjusts the microwave radiation quantity according to the treatment height.

The isolation device 2 further comprises: an isolation support column 202, an isolation support plate 203, an isolation left bearing frame 204, an isolation left bearing frame 205, an isolation right bearing frame 206, an isolation right bearing frame 207, an isolation left door motor 208, an isolation left straight tooth 209, an isolation left middle straight tooth 210, an isolation left middle transmission shaft 211, an isolation left middle gear 212, an isolation left straight tooth 213, an isolation left transmission shaft 214, an isolation left middle straight tooth 215, an isolation left upper straight tooth 216, an isolation left upper transmission shaft 217, an isolation left upper helical tooth 218, an isolation left oblique tooth 219, an isolation left transmission shaft 220, an isolation auxiliary motor 222, an isolation right helical tooth 223, an isolation right upper helical tooth 224, an isolation right upper toothed transmission shaft 225, an isolation right middle gear plate 226, an isolation right upper transmission shaft 227, an isolation straight tooth 228, an isolation right upper gear 229, an isolation right transmission shaft 230 and an isolation rotary fixing frame 231, wherein the isolation left door motor 208 is fixedly installed on the isolation support plate 203, an isolation left straight tooth 209 is fixedly arranged on a transmission shaft of an isolation left door motor 208, the isolation left straight tooth 209 and an isolation left middle straight tooth 210 form gear meshing, the isolation left middle straight tooth 210 is fixedly arranged at one end of an isolation left middle transmission shaft 211, the isolation left middle transmission shaft 211 is rotatably arranged on an isolation left side bearing frame 204, the isolation left middle gear 212 is fixedly arranged in the middle of the isolation left middle transmission shaft 211, the isolation left middle gear 212 and the isolation left side straight tooth 213 form gear meshing, the isolation left side straight tooth 213 is fixedly arranged at one end of an isolation left side transmission shaft 214, the isolation left side transmission shaft 214 is rotatably arranged on the isolation left side bearing frame 204, the isolation left middle straight tooth 215 is fixedly arranged in the middle of the isolation left side transmission shaft 214, the isolation left middle straight tooth 215 and the isolation left side upper straight tooth 216 form gear meshing, the isolation left side upper straight tooth 216 is fixedly arranged in the middle of an isolation left side upper transmission shaft 217, the isolation, an isolation left upper helical gear 218 is fixedly arranged at one end of an isolation left upper transmission shaft 217, the isolation left upper helical gear 218 and the isolation left helical gear 219 form gear engagement, the isolation left helical gear 219 is fixedly arranged at one end of an isolation left transmission shaft 220, two ends of the isolation left transmission shaft 220 are respectively and rotatably arranged on an isolation left bearing frame 205 and an isolation right bearing frame 207, an isolation left bin door fixing plate 221 is fixedly arranged on the isolation left transmission shaft 220, an isolation auxiliary motor 222 is fixedly arranged on the isolation right bearing frame 206, an isolation right helical gear 223 is fixedly arranged at one end of a transmission shaft of the isolation auxiliary motor 222, the isolation right helical gear 223 and the isolation right upper helical gear 224 form gear engagement, the isolation right upper helical gear 224 is fixedly arranged on an isolation right upper toothed transmission shaft 225, the isolation right upper toothed transmission shaft 225 is rotatably arranged on the isolation right bearing frame 206, a middle gear of the isolation right upper toothed transmission shaft 225 forms gear engagement with an isolation right middle gear disc, an isolation right middle fluted disc 226 is fixedly arranged at one end of an isolation right upper transmission shaft 227, the isolation right upper transmission shaft 227 is rotatably arranged on an isolation right side bearing frame 206, an isolation right side straight tooth 228 is fixedly arranged at the other end of the isolation right upper transmission shaft 227, the isolation right side straight tooth 228 and an isolation right upper gear 229 form gear engagement, the isolation right upper gear 229 is fixedly arranged on an isolation right transmission shaft 230, two ends of the isolation right transmission shaft 230 are respectively rotatably arranged on the isolation right side bearing frame 206 and the isolation rotary fixing frame 231, an isolation right bin door fixing plate 232 is fixedly arranged on the isolation right transmission shaft 230, the isolation left door motor 208 rotates and transmits to the isolation left straight tooth 209, the transmission force of the isolation left straight tooth 209 drives other transmission pieces to finally transmit to the isolation left transmission shaft 220 for work, the operation rotation of the isolation auxiliary motor 222 at the other side drives the isolation right oblique tooth 223, the transmission force of the isolation right oblique tooth 223 drives other transmission pieces to finally, the isolation left transmission shaft 220 and the isolation right transmission shaft 230 rotate to respectively drive the isolation left bin gate fixing plate 221 and the isolation right bin gate fixing plate 232, and the isolation left bin gate fixing plate 221 and the isolation right bin gate fixing plate 232 drive the left bin gate 301 and the right bin gate 302 to open or close the bin gates to achieve the isolation purpose.

The isolation bin connection module 3 further includes: the radiation plate 304 is fixedly arranged on the treatment couch 303, the radiation plate 304 radiates microwaves through a microwave emitter arranged on the surface of the radiation plate 304, the modes can be divided into heat conduction, heat radiation or heat convection, and the treatment purpose is achieved through the three modes.

The control bracket 102 is fixedly installed on the control base plate 101, the control right side fixing plate 103 is fixedly installed on the control base plate 101, and the control left side fixing plate 104 is fixedly installed on the control base plate 101.

Isolation support column 202 fixed mounting is on keeping apart bearing plate 201, keeps apart backup pad 203 fixed mounting on keeping apart backup pad 202, keeps apart left side bearing bracket 204 fixed mounting on keeping apart backup pad 203, keeps apart left bearing bracket 205 fixed mounting on keeping apart backup pad 203, keeps apart right side bearing bracket 206 fixed mounting on keeping apart backup pad 202, keeps apart right bearing bracket 207 fixed mounting on keeping apart backup pad 203, keeps apart rotary fixing frame 231 fixed mounting on keeping apart backup pad 203.

There are two isolating right bin gate fixing plates 232 and two isolating rotary fixing frames 231 respectively. The surface of the radiation plate 304 is provided with a microwave coil.

The working principle of the invention is as follows: the rotation of the control motor 106 is transmitted to the control helical teeth 107, the transmission force is finally transmitted to the control rack frame 120 by the control helical teeth 107, the control rack frame 120 drives the isolation bearing plate 201 on the fixed surface to move transversely, the radiation plate 304 radiates microwaves, the microwaves are adjusted by the microwave radiation amount control device 1 according to the treatment height, the isolation left door motor 208 rotates and transmits to the isolation left straight teeth 209, the transmission force of the isolation left straight teeth 209 drives other transmission parts to finally transmit to the isolation left transmission shaft 220 to work, the isolation auxiliary motor 222 rotates and transmits to the isolation right helical teeth 223 on the other side, the transmission force of the isolation right helical teeth 223 drives other transmission parts to finally transmit to the isolation right transmission shaft 230 to work, the isolation left transmission shaft 220 and the isolation right transmission shaft 230 rotate to respectively drive the isolation left door fixing plate 221 and the isolation right door fixing plate 232, the isolation left door fixing plate 221 and the isolation right door fixing plate 232 drive the left door 301 and the right door 302 to open or close The isolation is achieved by closing the door, and the radiation plate 304 radiates microwaves through its surface-mounted microwave transmitter in a manner classified as thermal conduction, thermal radiation, or thermal convection, thereby achieving the therapeutic purpose.

Claims

1. The utility model provides a microwave light therapeutic instrument, includes microwave radiation volume controlling means (1), isolating device (2) and separation storehouse link module (3), its characterized in that:

the microwave radiation quantity control device (1) comprises; controlling the rack (120);

the isolation device (2) comprises: the isolation bearing plate (201), the isolation left bin gate fixing plate (221) and the isolation right bin gate fixing plate (232);

the isolation bin connection module (3) comprises: a left bin gate (301), a right bin gate (302), a treatment couch (303) and an external fixed bin (305);

keep apart bearing plate (201) fixed mounting on control rack (120), left door 301 fixed mounting keep apart left door fixed plate (221), right door (302) fixed mounting keep apart right door fixed plate (232), treatment bed (303) fixed mounting keep apart bearing plate (201) on, outside fixed bin (305) fixed mounting on left door (301).

2. An optical microwave treatment apparatus according to claim 1, wherein: the microwave radiation amount control device (1) further comprises: a control bottom plate (101), a control bracket (102), a control right side fixing plate (103), a control left side fixing plate (104), a control motor fixing plate (105), a control motor (106), a control helical tooth (107), a control right side helical tooth (108), a control right side transmission shaft (109), a control right side gear (110), a control middle fluted disc (111), a control middle transmission shaft (112), a control middle straight tooth (113), a control middle gear (114), a control middle vertical transmission shaft (115), a control middle helical tooth (116), a control middle upper helical tooth (117), a control middle upper transmission shaft (118) and a control middle upper straight tooth (119), wherein the control motor fixing plate (105) is fixedly arranged on the control bottom plate (101), the control motor (106) is fixedly arranged on the control motor fixing plate (105), the control helical tooth (107) is fixedly arranged on the control motor (106) transmission shaft, the control helical gear (107) and the control right helical gear (108) form gear engagement, the control right helical gear (108) is fixedly arranged in the middle of a control right transmission shaft (109), two ends of the control right transmission shaft (109) are respectively and rotatably arranged on a control right fixing plate (103) and a control left fixing plate (104), the control right gear (110) is fixedly arranged at one end of the control right transmission shaft (109), the control right gear (110) and a control middle gear disc (111) form gear engagement, the control middle gear disc (111) is fixedly arranged at one end of a control middle transmission shaft (112), two ends of the control middle transmission shaft (112) are respectively and rotatably arranged on a control bottom plate (101) and a control bracket (102), a control middle straight gear (113) is fixedly arranged at one end of the control middle transmission shaft (112), the control middle straight gear (113) and the control middle gear (114) form gear engagement, the control middle gear (114) is fixedly arranged on a control middle vertical transmission shaft (115), the control middle vertical transmission shaft (115) is rotatably arranged on the control bottom plate (101), the control middle helical teeth (116) are fixedly arranged at one end of the control middle vertical transmission shaft (115), the control middle helical teeth (116) are meshed with the control middle upper helical teeth (117) to form gears, the control middle upper helical teeth (117) are fixedly arranged at one end of the control middle upper transmission shaft (118), the control middle upper transmission shaft (118) is rotatably arranged on the control support (102), the control middle upper straight teeth (119) are fixedly arranged at the other end of the control middle upper transmission shaft (118), the control middle upper straight teeth (119) are meshed with the control middle rack (120) to form gears, and the control rack (120) is slidably arranged on the control support (102).

3. An optical microwave treatment apparatus according to claim 1, wherein: the isolation device (2) further comprises: the isolation support column (202), the isolation support plate (203), the isolation left side bearing frame (204), the isolation left bearing frame (205), the isolation right side bearing frame (206), the isolation right bearing frame (207), the isolation left door motor (208), the isolation left straight tooth (209), the isolation left middle straight tooth (210), the isolation left middle transmission shaft (211), the isolation left middle gear (212), the isolation left straight tooth (213), the isolation left transmission shaft (214), the isolation left middle straight tooth (215), the isolation left upper straight tooth (216), the isolation left upper transmission shaft (217), the isolation left upper oblique tooth (218), the isolation left oblique tooth (219), the isolation left transmission shaft (220), the isolation auxiliary motor (222), the isolation right oblique tooth (223), the isolation right upper oblique tooth (224), the isolation right upper toothed transmission shaft (225), the isolation right middle toothed disc (226), the isolation right upper transmission shaft (227), Keep apart right side straight-tooth (228), keep apart right upper right gear (229), keep apart right transmission shaft (230) and keep apart rotatory mount (231), keep apart left door motor (208) fixed mounting on keeping apart backup pad (203), keep apart left straight-tooth (209) fixed mounting on keeping apart left door motor (208) transmission shaft, keep apart left straight-tooth (209) and keep apart left well straight-tooth (210) and form gear engagement, keep apart left well straight-tooth (210) fixed mounting in keep apart left well transmission shaft (211) one end, keep apart left well transmission shaft (211) rotatory mounting on keeping apart left side bearing bracket (204), keep apart left well gear (212) fixed mounting in the middle of keeping apart left well transmission shaft (211), keep apart left well gear (212) and keep apart left side straight-tooth (213) and form gear engagement, keep apart left side straight-tooth (213) fixed mounting in keep apart left side transmission shaft (214) one end, keep apart left side transmission shaft (214) rotatory mounting on keeping apart left side bearing bracket (204), an isolation left middle straight tooth (215) is fixedly arranged in the middle of an isolation left transmission shaft (214), the isolation left middle straight tooth (215) and the isolation left upper straight tooth (216) form gear engagement, the isolation left upper straight tooth (216) is fixedly arranged in the middle of an isolation left upper transmission shaft (217), the isolation left upper transmission shaft (217) is rotatably arranged on an isolation left bearing frame (204), an isolation left upper helical tooth (218) is fixedly arranged at one end of the isolation left upper transmission shaft (217), the isolation left upper helical tooth (218) and the isolation left helical tooth (219) form gear engagement, the isolation left helical tooth (219) is fixedly arranged at one end of an isolation left transmission shaft (220), two ends of the isolation left transmission shaft (220) are respectively rotatably arranged on an isolation left bearing frame (205) and an isolation right bearing frame (207), and an isolation left bin door fixing plate (221) is fixedly arranged on the isolation left transmission shaft (220), an isolation auxiliary motor (222) is fixedly arranged on an isolation right side bearing frame (206), an isolation right helical tooth (223) is fixedly arranged at one end of a transmission shaft of the isolation auxiliary motor (222), the isolation right helical tooth (223) and the isolation right upper helical tooth (224) form gear meshing, the isolation right upper helical tooth (224) is fixedly arranged on an isolation right upper toothed transmission shaft (225), the isolation right upper toothed transmission shaft (225) is rotatably arranged on the isolation right side bearing frame (206), a middle tooth of the isolation right upper toothed transmission shaft (225) and an isolation right middle toothed disc (226) form gear meshing, the isolation right middle toothed disc (226) is fixedly arranged at one end of the isolation right upper transmission shaft (227), the isolation right upper transmission shaft (227) is rotatably arranged on the isolation right side bearing frame (206), an isolation right side straight tooth (228) is fixedly arranged at the other end of the isolation right upper transmission shaft (227), the isolation right straight tooth (228) and the isolation right upper gear (229) form gear meshing, an isolation right upper gear (229) is fixedly installed on an isolation right transmission shaft (230), two ends of the isolation right transmission shaft (230) are respectively and rotatably installed on an isolation right bearing frame (206) and an isolation rotary fixing frame (231), and an isolation right bin gate fixing plate (232) is fixedly installed on the isolation right transmission shaft (230).

4. An optical microwave treatment apparatus according to claim 1, wherein: the isolation bin connection module (3) further comprises: the radiation plate (304), the radiation plate (304) is fixedly arranged on the treatment couch (303).

5. An optical microwave treatment apparatus according to claim 2, wherein: the control bracket (102) is fixedly arranged on the control bottom plate (101), the control right side fixing plate (103) is fixedly arranged on the control bottom plate (101), and the control left side fixing plate (104) is fixedly arranged on the control bottom plate (101).

6. An optical microwave treatment apparatus according to claim 3, wherein: isolation support column (202) fixed mounting on keeping apart bearing plate (201), keep apart backup pad (203) fixed mounting on keeping apart support column (202), keep apart left side bearing bracket (204) fixed mounting on keeping apart backup pad (203), keep apart left bearing bracket (205) fixed mounting on keeping apart backup pad (203), keep apart right side bearing bracket (206) fixed mounting on keeping apart support column (202), keep apart right bearing bracket (207) fixed mounting on keeping apart backup pad (203), keep apart rotary fixing frame (231) fixed mounting on keeping apart backup pad (203).

7. An optical microwave treatment apparatus according to claim 3, wherein: the isolation right bin gate fixing plate (232) and the isolation rotary fixing frame (231) are respectively provided with two.

8. An optical microwave treatment apparatus according to claim 3, wherein: the surface of the radiation plate (30) is provided with a microwave coil.