CN114544035A - Targeted remote group body temperature monitoring equipment - Google Patents

Abstract

The invention discloses a targeted remote group body temperature monitoring device, which relates to the field of body temperature detection, wherein a pair of cameras is arranged at the outlet end of an elevator, a plurality of pairs of temperature measuring devices are arranged on an elevator handrail, each temperature measuring device comprises an arc-shaped rubber convex disc and a cluster type electronic temperature measuring probe, the outer ring of each arc-shaped rubber convex disc is fixedly connected in the elevator handrail, the middle of each arc-shaped rubber convex disc is suspended in the air, a temperature measuring starting button connected in the elevator handrail is arranged below the center of each arc-shaped rubber convex disc, the cluster type electronic temperature measuring probes are fixedly connected in the arc-shaped rubber convex discs, targeted detection is carried out one by utilizing the elevator handrails in stations, markets and the like, accuracy is improved by adopting electronic temperature measuring probes, and targeted photographing can be carried out after a heating individual is detected by a corresponding mechanism, so that searching is facilitated.

Description

Targeted remote group body temperature monitoring equipment

Technical Field

The invention relates to the field of body temperature detection, in particular to targeted remote group body temperature monitoring equipment.

Background

In order to deal with diseases, the physical condition of people needs to be checked, wherein the body temperature is a good physical condition index, and the remote group body temperature monitoring of people stream in places where people stream gather, such as stations, shopping malls and the like, is a great difficulty at present.

The main reason is that the detection range is too large and has no pertinence, so that a small number of heating individuals are difficult to detect, and the most common wide-range remote infrared temperature measurement equipment at present has large error and is easy to interfere. Even if the heat-generating individual is detected, the individual cannot be picked up, and the heat-generating individual is easily lost due to leaving the detection range under the condition that the crowd is mobile.

Disclosure of Invention

The invention aims to provide a targeted remote group body temperature monitoring device, which can perform targeted detection one by using elevator handrails in stations, markets and other places, improves the accuracy by adopting an electronic temperature measuring probe, and can take a picture in a targeted manner after a heating individual is detected by a corresponding mechanism so as to be convenient to find.

A targeted remote group body temperature monitoring device comprises an elevator and an elevator handrail, and is characterized in that a pair of camera supports are arranged at the outlet end of the elevator, a camera is arranged at the top of each camera support, and a plurality of pairs of temperature measuring devices are arranged on the elevator handrail;

the temperature measuring device comprises an arc-shaped rubber convex disc and a cluster type electronic temperature measuring probe, the outer ring of the arc-shaped rubber convex disc is fixedly connected in the elevator handrail, the middle of the arc-shaped rubber convex disc is suspended, a temperature measuring start button connected in the elevator handrail is arranged below the center of the arc-shaped rubber convex disc, and the cluster type electronic temperature measuring probe is fixedly connected in the arc-shaped rubber convex disc;

the bottom of elevator handrail is equipped with the rubber rack, is equipped with the handrail drive wheel that corresponds the meshing with it in the support of elevator handrail, the handrail drive wheel is connected with the drive wheel through driven belt, the drive wheel is connected with the elevator drive wheel through initiative belt, be equipped with a round of limit monodentate on the elevator drive wheel, the round of limit monodentate corresponds the wheel with the footboard and meshes, the footboard corresponds to taking turns to and is equipped with a plurality of footboards and corresponds the tooth, and all is equipped with flexible round head spare on every footboard corresponds the tooth, the right side that the footboard corresponds the wheel is equipped with one and flexible round head spare matched with camera trigger button.

Preferably, the bottom of the elevator handrail is provided with a conductive sliding rail, a support of the elevator handrail is internally provided with a metal sliding rail groove corresponding to the conductive sliding rail, the cluster type electronic temperature measuring probe and the temperature measuring start button are connected with the conductive sliding rail through a primary cable, and the metal sliding rail groove is connected with a power supply through a secondary cable.

Preferably, flexible button head spare sliding connection corresponds in the tooth at the footboard, the footboard corresponds and is equipped with solenoid in the tooth, the bottom of flexible round head spare is equipped with the permanent magnet, be connected with the spring between the bottom of solenoid and flexible round head spare, be connected with the trigger circuit breaker between solenoid and the power, the trigger circuit breaker is connected with the remote control end.

Preferably, the temperature measuring devices are separated by partition bars, and the elevator handrail, the arc-shaped rubber convex disc and the partition bars are all made of rubber materials.

Preferably, the temperature measurement starting button is connected to a power supply of the temperature measurement device.

Preferably, the cluster type electronic temperature measuring probe is connected with the remote control end in a wireless mode.

Preferably, the number of the corresponding teeth of the pedals is the same as that of the pedals, the corresponding teeth of the pedals correspond to the pedals one by one, and the logarithm of the temperature measuring device is the same as that of the pedals, corresponds to each other and moves synchronously.

The invention has the advantages that:

1. by utilizing elevators in places such as stations, markets and the like, almost all people can select the elevators under the condition that the elevators exist, each pedal on the elevator corresponds to one group of temperature measuring devices, and only one person can stand on each pedal, so that everyone can be detected;

2. the electronic temperature measuring probe is adopted, a passenger holds the elevator handrail by hands to measure the temperature of the palm of the passenger, the body temperature of the passenger can be accurately detected, most passengers taking the elevator are in a static state, the heating phenomenon caused by walking motion is avoided, and the temperature measuring accuracy is improved;

3. the temperature measuring device is started after a passenger puts hands on the temperature measuring device, useless work is reduced, electric quantity loss is reduced, a power supply of the temperature measuring device is connected through the sliding rail sliding groove, and the rubber is wrapped in the outer sliding rail sliding groove, so that power supply and safety are ensured;

4. after detecting the individual that generates heat, mark through the actuating mechanism of elevator, ensure that the individual footboard that generates heat moves to the exit end after, the camera starts to shoot the individual that generates heat to be convenient for follow-up searching.

Drawings

Fig. 1 is a schematic diagram of the structure of an elevator in the device of the invention;

fig. 2 is a schematic view of the structure of an elevator handrail in the apparatus of the present invention;

FIG. 3 is a schematic structural diagram of a temperature measuring device in the apparatus of the present invention;

FIG. 4 is a schematic diagram of the power cord connection of the temperature measuring device of the apparatus of the present invention;

fig. 5 is a schematic view of the drive of the elevator and the handrail of the elevator in the apparatus of the present invention;

FIG. 6 is a schematic view of the structure of the telescoping knob portion of the device of the present invention;

FIG. 7 is a schematic diagram of a photograph taken in accordance with the present invention;

01, an elevator, 02, an elevator handrail, 03, a temperature measuring device, 04, a parting bead, 05, a camera bracket, 06, a camera, 07, a pedal, 101, an arc rubber convex disc, 102, a cluster type electronic temperature measuring probe, 103, a temperature measuring start button, 104, a primary cable, 105, a conductive sliding rail, 106, a metal sliding rail groove, 107, a secondary cable, 108, a handrail driving wheel, 109, a rubber rack, 110, a driven belt, 111, a transmission wheel, 112, a driving belt, 113, an elevator driving wheel, 114, a driving motor, 115, wheel-side single teeth, 116, a pedal corresponding wheel, 117, pedal corresponding teeth, 118, a telescopic round head piece, 119, a camera trigger button, 120, a trigger circuit breaker, 121, an electromagnetic coil, 122, a permanent magnet, 123 and a spring.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 7, the elevator comprises an elevator 01 and an elevator handrail 02, and is characterized in that a pair of camera supports 05 is arranged at the outlet end of the elevator 01, a camera 06 is arranged at the top of each camera support 05, a plurality of pairs of temperature measuring devices 03 are arranged on the elevator handrail 02, the temperature measuring devices 03 are separated by partition bars 04, the elevator handrail 02, an arc-shaped rubber convex disc 101 and the partition bars 04 are all made of rubber, the number of pairs of the temperature measuring devices 03 is the same as that of pedals 07, and the temperature measuring devices correspond to one another and move synchronously.

Utilize the elevator in places such as station and market, under the condition of elevator again, nearly all people all can select the elevator, every footboard on the elevator corresponds a set of temperature measuring device, and only can stand alone on every footboard, carries out the body temperature through this kind of mode to the people on every footboard and detects to ensure all to detect everyone, improve the pertinence, and then detect the individuality of generating heat more easily.

The temperature measuring device 03 comprises an arc-shaped rubber convex disc 101 and a cluster type electronic temperature measuring probe 102, the outer ring of the arc-shaped rubber convex disc 101 is fixedly connected in the elevator handrail 02, the middle of the arc-shaped rubber convex disc is suspended, a temperature measuring start button 103 connected in the elevator handrail 02 is arranged below the center of the arc-shaped rubber convex disc 101, and the cluster type electronic temperature measuring probe 102 is fixedly connected in the arc-shaped rubber convex disc 101;

the electronic temperature measuring probe is adopted, a passenger holds the elevator handrail by hands to measure the temperature of the palm of the passenger, the body temperature of the passenger can be accurately detected, most passengers taking the elevator are in a static state, the heating phenomenon caused by walking motion is avoided, and the temperature measuring accuracy is improved; the cluster type electronic temperature measuring probe 102 is connected with the remote control end in a wireless mode, so that the detection result is ensured to be uploaded in time.

After the hands of the passengers are placed on the temperature measuring device, the gravity of the hands enables the arc-shaped rubber convex disc 101 to press down the temperature measuring start button 103, the temperature measuring device 03 is started to work, useless work is reduced, and electric quantity loss is reduced.

The bottom of the elevator handrail 02 is provided with a rubber rack 109, a handrail driving wheel 108 which is correspondingly meshed with the elevator handrail 02 is arranged in a support of the elevator handrail 02, the handrail driving wheel 108 is connected with a driving wheel 111 through a driven belt 110, the driving wheel 111 is connected with an elevator driving wheel 113 through a driving belt 112, a wheel-side single tooth 115 is arranged on the elevator driving wheel 113, the wheel-side single tooth 115 is meshed with a pedal corresponding wheel 116, a plurality of pedal corresponding teeth 117 are arranged on the pedal corresponding wheel 116, each pedal corresponding tooth 117 is provided with a telescopic round head piece 118, and a camera trigger button 119 which is matched with the telescopic round head piece 118 is arranged on the right side of the pedal corresponding wheel 116.

The handrail driving wheel 108 is driven to move synchronously by the elevator driving wheel 113, so that the logarithm of the temperature measuring device 03 and the pedals 07 are ensured to correspond one to one and move synchronously; meanwhile, the number of the corresponding teeth 117 of the pedals is the same as that of the pedals 07, and the corresponding teeth 117 of the pedals are in one-to-one correspondence, so that after the heating individual appears, the telescopic round head piece 118 on the corresponding teeth 117 of the pedals 07 where the heating individual is located extends out, and after the corresponding teeth 117 of the pedals 07 where the heating individual is located move to the camera trigger button 119 (at the moment, the pedals 07 where the heating individual is located just move to the outlet end of the elevator, as shown in the position of fig. 7), the telescopic round head piece 118 can extrude the camera trigger button 119, so that the camera takes a picture.

The bottom of the elevator handrail 02 is provided with a conductive sliding rail 105, a support of the elevator handrail 02 is provided with a metal sliding rail groove 106 corresponding to the conductive sliding rail, the cluster type electronic temperature measuring probe 102 and the temperature measuring start button 103 are connected with the conductive sliding rail 105 through a primary cable 104, and the metal sliding rail groove 106 is connected with a power supply through a secondary cable 107. The temperature measurement start button 103 is connected to the power supply of the temperature measurement device 03.

The power supply of the temperature measuring device 03 is connected through the sliding rail sliding groove, and the rubber is wrapped in the outer sliding rail sliding groove, so that power supply and safety are ensured;

specifically, flexible round head piece 118 sliding connection corresponds in the tooth 117 in the footboard, be equipped with solenoid 121 in the tooth 117 that the footboard corresponds, the bottom of flexible round head piece 118 is equipped with permanent magnet 122, be connected with spring 123 between solenoid 121 and the bottom of flexible round head piece 118, be connected with trigger circuit breaker 120 between solenoid 121 and the power, trigger circuit breaker 120 is connected with the remote control end.

Therefore, after the temperature measuring device 03 detects a heating individual, the circuit breaker 120 is triggered to be disconnected, the electromagnetic coil 121 is powered off and has no magnetism, and the telescopic round head piece 118 extends out under the action of the spring 123 to play a marking role.

Particularly, the temperature measuring devices 03 are separated by partition bars 04, and the elevator handrail 02, the arc-shaped rubber convex disc 101 and the partition bars 04 are all made of rubber materials.

The specific implementation mode and principle are as follows:

after the passenger takes the elevator 1, put the hand on elevator handrail 02, the back is put on it to the passenger hand, the gravity of hand makes arc rubber convex plate 101 push down temperature measurement start button 103, start temperature measuring device 03 work, reduce useless work, reduce the electric quantity loss, temperature measuring device 03 work back, bunched electronic temperature probe 102 begins to carry out the temperature measurement to the palm of the hand of passenger, can accurately detect out passenger's body temperature, and the passenger who takes the elevator is mostly in quiescent condition, the phenomenon of generating heat because of the motion of walking produces does not have, improve the temperature measurement accuracy.

The bottom of the elevator handrail 02 is provided with a conductive sliding rail 105, a support of the elevator handrail 02 is provided with a metal sliding rail groove 106 corresponding to the conductive sliding rail, the cluster type electronic temperature measuring probe 102 and the temperature measuring start button 103 are connected with the conductive sliding rail 105 through a primary cable 104, and the metal sliding rail groove 106 is connected with a power supply through a secondary cable 107. The temperature measurement start button 103 is connected to the power supply of the temperature measurement device 03. The power supply of the temperature measuring device 03 is connected through the sliding rail sliding groove, and the rubber is wrapped in the outer sliding rail sliding groove, so that power supply and safety are ensured;

when the temperature measuring device 03 detects a heating individual, the cluster-type electronic temperature measuring probe 102 is connected with the remote control end in a wireless mode, so that the detection result is timely uploaded, the circuit breaker 120 is triggered to receive a signal and then disconnected, the circuit breaker 120 is triggered to be disconnected, the electromagnetic coil 121 is powered off and has no magnetism, and the telescopic round head piece 118 extends out under the action of the spring 123 to play a marking role.

The handrail driving wheel 108 is driven to move synchronously by the elevator driving wheel 113, so that the logarithm of the temperature measuring device 03 and the pedals 07 are ensured to correspond one to one and move synchronously; meanwhile, the number of the corresponding teeth 117 of the pedals is the same as that of the pedals 07, and the corresponding teeth are in one-to-one correspondence, so that after the heating individual appears, the telescopic round head piece 118 on the corresponding teeth 117 of the pedal corresponding to the pedal 07 where the heating individual is located extends out, and after the corresponding teeth 117 of the pedal corresponding to the pedal 07 where the heating individual is located move to the camera trigger button 119 (at the moment, the pedal 07 where the heating individual is located just moves to the outlet end of the elevator, as shown in the position of fig. 7), the telescopic round head piece 118 can extrude the camera trigger button 119, so that the camera takes a picture, and subsequent finding is facilitated.

Based on the above, the electronic temperature measuring probe is adopted to improve the accuracy by utilizing the elevator handrails in the places such as stations, markets and the like to perform one-to-one targeted detection, and the corresponding mechanism is used to take a targeted photo after detecting the heating individual, so that the searching is facilitated.

It will be appreciated by those skilled in the art that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of or equivalence to the invention are intended to be embraced therein.

Claims (7)

1. A targeted remote group body temperature monitoring device comprises an elevator (01) and an elevator handrail (02), and is characterized in that a pair of camera supports (05) is arranged at the outlet end of the elevator (01), a camera (06) is arranged at the top of each camera support (05), and a plurality of pairs of temperature measuring devices (03) are arranged on the elevator handrail (02);

the temperature measuring device (03) comprises an arc-shaped rubber convex disc (101) and a cluster type electronic temperature measuring probe (102), the outer ring of the arc-shaped rubber convex disc (101) is fixedly connected in the elevator handrail (02), the middle of the arc-shaped rubber convex disc is suspended, a temperature measuring starting button (103) connected in the elevator handrail (02) is arranged below the center of the arc-shaped rubber convex disc (101), and the cluster type electronic temperature measuring probe (102) is fixedly connected in the arc-shaped rubber convex disc (101);

the elevator handrail is characterized in that a rubber rack (109) is arranged at the bottom of the elevator handrail (02), a handrail driving wheel (108) which is correspondingly meshed with the elevator handrail is arranged in a support of the elevator handrail (02), the handrail driving wheel (108) is connected with a driving wheel (111) through a driven belt (110), the driving wheel (111) is connected with an elevator driving wheel (113) through a driving belt (112), a wheel-side single tooth (115) is arranged on the elevator driving wheel (113), the wheel-side single tooth (115) is meshed with a pedal corresponding wheel (116), a plurality of pedal corresponding teeth (117) are arranged on the pedal corresponding wheel (116), a telescopic round head piece (118) is arranged on each pedal corresponding tooth (117), and a camera trigger button (119) matched with the telescopic round head piece (118) is arranged on the right side of the pedal corresponding wheel (116).

2. A targeted remote group temperature monitoring device according to claim 1, wherein: the bottom of the elevator handrail (02) is provided with a conductive sliding rail (105), a metal sliding rail groove (106) corresponding to the conductive sliding rail is arranged in a support of the elevator handrail (02), the cluster type electronic temperature measurement probe (102), the temperature measurement starting button (103) and the conductive sliding rail (105) are connected through a primary cable (104), and the metal sliding rail groove (106) is connected with a power supply through a secondary cable (107).

3. A targeted remote group temperature monitoring device according to claim 1, wherein: flexible round head spare (118) sliding connection corresponds in tooth (117) at the footboard, the footboard corresponds and is equipped with solenoid (121) in tooth (117), the bottom of flexible round head spare (118) is equipped with permanent magnet (122), be connected with spring (123) between the bottom of solenoid (121) and flexible round head spare (118), be connected with between solenoid (121) and the power and trigger circuit breaker (120), trigger circuit breaker (120) are connected with the remote control end.

4. A targeted remote group temperature monitoring device according to claim 1, wherein: the temperature measuring devices (03) are separated by partition bars (04), and the elevator handrail (02), the arc-shaped rubber convex disc (101) and the partition bars (04) are all made of rubber materials.

5. A targeted remote group temperature monitoring device according to claim 1, wherein: the temperature measurement starting button (103) is connected to a power supply of the temperature measurement device (03).

6. A targeted remote group temperature monitoring device according to claim 1, wherein: the cluster type electronic temperature measuring probe (102) is connected with the remote control end in a wireless mode.

7. A targeted remote group temperature monitoring device according to claim 1, wherein: the number of the corresponding teeth (117) of the pedals is the same as that of the pedals (07), the corresponding teeth correspond to the pedals one by one, and the logarithm of the temperature measuring device (03) is the same as that of the pedals (07), corresponds to each other and moves synchronously.

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