CN209871465U - Automatic streamline type UV curing equipment - Google Patents

Abstract

The utility model discloses an automatic streamline type UV curing equipment, which comprises a machine case shell, a conveying line device and a UV lamp box, wherein the conveying line device can convey a carrier disc, a processing space is formed inside the machine case shell, the conveying line device is installed in the processing space, and the feeding side and the discharging side of the conveying line device are also respectively penetrated outside the machine case shell so as to be respectively connected with external feeding equipment and discharging equipment; the UV lamp box is also installed in the processing space, and simultaneously the UV lamp box is also arranged above the conveying line device. The UV curing equipment has high automation degree, can realize automatic feeding and discharging operation and simultaneous UV curing operation on a plurality of products on the carrier plate on one hand, and greatly improves the production efficiency; on the other hand, the UV light irradiates the UV light on each position of the carrier disc with consistent light intensity and curing effect, thereby greatly improving the precision and stability of UV curing and ensuring the reliable and stable product quality.

Description

Automatic streamline type UV curing equipment

Technical Field

The utility model relates to a cell-phone processing equipment technical field specifically provides an automatic streamlined formula UV curing equipment.

Background

At present, the process of curing after UV glue is dispensed on an IC of a mobile phone mainboard is mostly carried out through manual operation. However, the manual operation not only has low production efficiency, but also has low assembly precision and stability, thereby being not beneficial to ensuring the product quality. In view of this, the present invention is especially provided.

Disclosure of Invention

In order to overcome the defects, the utility model provides an automatic streamlined formula UV curing equipment, its degree of automation is high, machining precision and stability are high, production efficiency is high.

The utility model discloses a solve the technical scheme that its technical problem adopted and be: an automatic streamline UV curing device is used for carrying out UV curing treatment on a plurality of products placed on a carrier plate; the UV curing equipment comprises a machine box shell, a conveying line device and a UV lamp box, wherein the conveying line device can convey carrier discs, a processing space is formed inside the machine box shell, the conveying line device is installed in the processing space, and the feeding side and the discharging side of the conveying line device respectively penetrate out of the machine box shell to be respectively connected with external feeding equipment and external discharging equipment; the UV lamp box is also installed in the processing space, and simultaneously the UV lamp box is also arranged above the conveying line device.

As a further improvement of the present invention, the housing has a housing base and a housing upper shell, a horizontal support plate is positioned and disposed on the top side of the housing base, the housing upper shell is positioned and mounted on the upper side of the horizontal support plate, and the housing upper shell and the horizontal support plate surround the processing space;

in addition, the vertical walls at two opposite sides of the upper case shell are respectively provided with an inlet and an outlet for the feed side or the discharge side of the conveying line device to penetrate through.

As a further improvement of the present invention, the horizontal support plate is in the shape of a square plate, the two inlets and outlets have the same shape, and the two inlets and outlets are symmetrically distributed about the vertical center line of the horizontal support plate;

defining the central connecting line direction between the two inlets and the two outlets as an X-axis direction, and correspondingly defining a Y-axis direction which is vertical to the central connecting line direction between the two inlets and the two outlets and a vertical direction which is vertical to the X-axis direction and the Y-axis direction respectively;

conveyor adopts linear type conveyor, and it supplies including two installation sheet frames, two annular conveyer belt and actuating mechanism that the carrier dish was placed, wherein, two the rectangular form that do not extend along X axle direction is equallyd divide to the installation sheet frame, two the installation sheet frame still along Y axle direction set up side by side in horizontal support plate's upside, and each the length direction both sides of installation sheet frame still correspond respectively stretch out in two outside importing and exporting, two rotation that annular conveyer belt corresponds respectively is installed two on the installation sheet frame, and two annular conveyer belt still is mutual disposition, actuating mechanism also sets up on horizontal support plate's the upside, just actuating mechanism can drive two annular conveyer belt synchronous operation.

As a further improvement of the utility model, the conveyor line device further comprises two mounting seats, wherein the two mounting seats are respectively fixedly mounted on the upper side of the horizontal supporting plate and are arranged side by side along the X-axis direction; the two mounting plate frames are respectively installed on the top sides of the two mounting seats in a crossing manner;

the structure for realizing that the driving mechanism can also drive the two endless conveyor belts to synchronously run is as follows: the driving mechanism comprises two driving wheels, two driven wheels and two motors, wherein the two driving wheels are respectively and correspondingly rotatably installed on one side of the two mounting plate frames in the length direction, the two driven wheels are respectively and correspondingly rotatably installed on the other side of the two mounting plate frames in the length direction, one driving wheel and one driven wheel which are positioned on the same mounting plate frame are also matched to form a transmission wheel set, and the two annular conveyor belts are respectively and correspondingly sleeved on the two transmission wheel sets; two the location that the motor corresponds respectively is installed two on the installation sheet frame, and two the motor can also correspond and drive two the action wheel is rotatory, in addition two still be connected with the synchronizing shaft between the action wheel.

As a further improvement of the present invention, each of the driving wheels is rotatably mounted on one side of the mounting plate frame in the length direction through a first rotating shaft, and each of the driven wheels is rotatably mounted on the other side of the mounting plate frame in the length direction through a second rotating shaft;

realize two the motor can correspond and drive two the rotatory structure of action wheel does: the two transmission assemblies are respectively correspondingly matched with the two motors and the two first rotating shafts, each transmission assembly is respectively provided with two synchronizing wheels and a synchronizing belt, the two synchronizing wheels are respectively sleeved on the motors and the first rotating shafts in a corresponding positioning mode, and the two synchronizing wheels are further in transmission connection through the synchronizing belts.

As a further improvement of the utility model, still be equipped with the multiunit and be used for blockking the subassembly that blocks that restriction carrier dish, each it respectively has one to block the subassembly and blocks the cylinder, it installs to block the cylinder location on the outside of installation sheet frame, it is directional rather than one matched with that the piston rod that blocks the cylinder is the inboard of installation sheet frame, just it installs a baffle to block still the location on the piston rod of cylinder.

As a further improvement of the utility model, the multiunit it installs two to block the cylinder symmetry on the outside of installation sheet frame.

As a further improvement of the utility model, the UV lamp house is including lamp house shell and UV lamp, wherein, the lamp house shell is arranged in two through a grudging post location the top of installation sheet frame, UV lamp location install in the lamp house shell.

As a further improvement of the utility model, a human-computer interface is also arranged on the upper shell of the case;

the two motors, the multiple groups of blocking cylinders and the UV lamp are respectively and electrically connected to the human-computer interface.

The utility model has the advantages that: the UV curing equipment has high automation degree, can realize automatic feeding and discharging operation and can realize simultaneous UV curing operation on a plurality of products on the carrier plate, thereby greatly improving the production efficiency; on the other hand, the UV light irradiates the UV light on each position of the carrier disc with consistent light intensity and curing effect, thereby greatly improving the precision and stability of UV curing and ensuring the reliable and stable product quality. Secondly, when the UV curing equipment is operated, excessive operators are not needed, so that the production cost is effectively saved, and the labor intensity of the operators is reduced. The UV curing equipment has the functions of online display and data storage (through the market of a human-computer interface), is convenient for operators to adjust and look up various data online in real time, is convenient for enterprises to analyze data and establish acceptance reference standards, provides corresponding data for production line processing, and is convenient for accurately adjusting processing parameters of the production line processing to guide the production of corresponding products.

Drawings

Fig. 1 is a schematic perspective view of an automatic streamline UV curing apparatus according to the present invention;

fig. 2 is a schematic view of an assembly structure of the conveying line device and the UV lamp box of the present invention assembled on the chassis shell;

fig. 3 is a schematic view of an assembly structure of the conveying line device and the UV lamp box of the present invention when they are assembled together;

FIG. 4 is a front view of the mounting structure of FIG. 3;

FIG. 5 is a side view of the assembled structure of FIG. 3;

fig. 6 is a schematic top view of the assembly structure shown in fig. 3.

The following description is made with reference to the accompanying drawings:

1-casing 10-chassis base

11-upper case 12-horizontal support plate

13-inlet-outlet 2-conveying line device

20-mounting plate frame 21-ring conveyor belt

22-mounting seat 23-driving wheel

24-driven wheel 25-motor

26-blocking cylinder 3-UV lamp box

30-Lamp housing 31-UV Lamp

32-vertical frame 4-man-machine interface

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the drawings.

Example 1:

please refer to fig. 1 and fig. 2, which are schematic diagrams of a three-dimensional structure of the automatic streamline UV curing apparatus of the present invention, and an assembly structure of the conveying line device and the UV lamp box assembled on the chassis housing.

The utility model discloses an automatic streamline formula UV curing equipment is used for carrying out UV curing treatment to a plurality of products RAM arranged on a carrier plate T; the UV curing equipment comprises a machine case shell 1, a conveying line device 2 and a UV lamp box 3, wherein the conveying line device 2 can convey carrier discs, a processing space is formed inside the machine case shell 1, the conveying line device 2 is installed in the processing space, and the feeding side and the discharging side of the conveying line device 2 respectively penetrate out of the machine case shell 1 to be respectively connected with external feeding equipment and external discharging equipment; the UV lamp box 3 is also installed in the processing space, and simultaneously the UV lamp box 3 is also arranged above the conveyor line device 2.

In this embodiment, preferably, the chassis housing 1 has a chassis base 10 and a chassis upper shell 11, a horizontal support plate 12 is positioned on a top side of the chassis base 10, the chassis upper shell 11 is positioned and mounted on an upper side of the horizontal support plate 12, and the chassis upper shell 11 and the horizontal support plate 12 together enclose the processing space; in addition, an inlet and an outlet 13 for the feeding side or the discharging side of the conveying line device 2 to penetrate through are respectively arranged on the vertical walls at two opposite sides of the case upper shell 11.

In this embodiment, preferably, the horizontal support plate 12 is a square plate, the two inlets and outlets 13 have the same shape (a square opening may be selected), and the two inlets and outlets 13 are further symmetrically distributed about a vertical center line of the horizontal support plate 12;

defining the central connecting line direction between the two inlets and the two outlets 13 as an X-axis direction, and correspondingly defining a Y-axis direction which is perpendicular to the central connecting line direction between the two inlets and the two outlets 13 and a vertical direction which is perpendicular to the X-axis direction and the Y-axis direction respectively;

the conveyor line device 2 adopts a linear type conveyor line device, which comprises two mounting plate frames 20, two annular conveyor belts 21 for placing the carrier plates and a driving mechanism, and can be seen from figures 2 and 3, wherein, the two mounting plate frames 20 are respectively in a long strip shape extending along the X-axis direction, the two mounting plate frames 20 are also arranged on the upper side of the horizontal support plate 12 side by side along the Y-axis direction, and both sides of each mounting plate frame 20 in the length direction also respectively and correspondingly extend out of the two inlets and outlets 13, the two annular conveyor belts 21 are respectively and correspondingly rotatably mounted on the two mounting plate frames 20, and the two endless conveyor belts 21 are also oppositely arranged, the driving mechanism is also arranged on the upper side of the horizontal supporting plate 12, and the driving mechanism can drive the two endless conveyor belts 21 to synchronously operate.

Further preferably, as shown in fig. 3 to fig. 6, the conveying line device 2 further includes two mounting seats 22, the two mounting seats 22 are respectively and fixedly mounted on the upper side of the horizontal support plate 12, and the two mounting seats 22 are further arranged side by side along the X-axis direction; the two mounting plate frames 20 are respectively mounted on the top sides of the two mounting seats 22 in a crossing manner;

the structure for realizing that the driving mechanism can also drive the two endless conveyor belts 21 to synchronously operate is as follows: the driving mechanism comprises two driving wheels 23, two driven wheels 24 and two motors 25, wherein the two driving wheels 23 are respectively and correspondingly rotatably mounted on one side of the two mounting plate frames 20 in the length direction, the two driven wheels 24 are respectively and correspondingly rotatably mounted on the other side of the two mounting plate frames 20 in the length direction, one driving wheel 23 and one driven wheel 24 on the same mounting plate frame 20 are further matched to form a transmission wheel set, and the two annular conveyor belts 21 are respectively and correspondingly sleeved on the two transmission wheel sets; two the location that motor 25 corresponds respectively is installed two on the installation sheet frame 20, and two motor 25 can also correspond and drive two the action wheel 23 is rotatory, in addition two still be connected with the synchronizing shaft between the action wheel 23.

Preferably, each driving wheel 23 is rotatably mounted on one side of the mounting plate frame 20 in the length direction through a first rotating shaft, and each driven wheel 24 is rotatably mounted on the other side of the mounting plate frame 20 in the length direction through a second rotating shaft;

the two motors 25 can correspondingly drive the two driving wheels 23 to rotate: the two transmission assemblies are respectively correspondingly matched with the two motors 25 and the two first rotating shafts, each transmission assembly is respectively provided with two synchronizing wheels and a synchronizing belt, the two synchronizing wheels are respectively sleeved on the motors 25 and the first rotating shafts in a corresponding positioning mode, and the two synchronizing wheels are further in transmission connection through the synchronizing belts.

Further preferably, a plurality of groups of blocking assemblies for blocking and limiting the carrier plate are further provided, each blocking assembly is provided with a blocking cylinder 26, the blocking cylinder 26 is positioned and installed on the outer side of one mounting plate frame 20, a piston rod of the blocking cylinder 26 points to the inner side of the mounting plate frame 20 matched with the piston rod, and a baffle plate is further positioned and installed on the piston rod of the blocking cylinder 26.

It is further preferred that a plurality of sets of the dam cylinders 26 be symmetrically mounted on the outer sides of the two mounting plate frames 20.

In the present embodiment, preferably, referring to fig. 3 to fig. 6, the UV lamp box 3 includes a lamp box housing 30 and UV lamps 31, wherein the lamp box housing 30 is positioned above the two mounting plate frames 20 by a vertical frame 32, and the UV lamps 31 are positioned and mounted in the lamp box housing 30.

In this embodiment, preferably, a human-machine interface 4 is further installed on the upper case 11, which can be seen from fig. 1;

the two motors 25, the plurality of sets of air blocking cylinders 26, and the UV lamp 31 are electrically connected to the human-machine interface 4, respectively.

In summary, the UV curing equipment of the utility model has high automation degree, on one hand, the automatic feeding and discharging operation can be realized, and the simultaneous UV curing operation on a plurality of products on the carrier plate can be realized, thereby greatly improving the production efficiency; on the other hand, the UV light irradiates the UV light on each position of the carrier disc with consistent light intensity and curing effect, thereby greatly improving the precision and stability of UV curing and ensuring the reliable and stable product quality. In addition, when the UV curing equipment is operated, excessive operators are not needed, so that the production cost is effectively saved, and the labor intensity of the operators is reduced. The UV curing equipment has the functions of online display and data storage (through the market of a human-computer interface), is convenient for operators to adjust and look up various data online in real time, is convenient for enterprises to analyze the data and establish acceptance reference standards, provides corresponding data for production line processing, and is convenient for accurately adjusting the processing parameters of the enterprises to guide the production of corresponding products.

The above embodiments are merely illustrative of the efficacy of the present invention, and not intended to limit the present invention, and it should be noted that, for those skilled in the art, a number of modifications and variations can be made without departing from the technical principles of the present invention, and these modifications and variations should also be considered as within the scope of the present invention.

Claims (9)

1. An automatic streamline UV curing device is used for carrying out UV curing treatment on a plurality of products placed on a carrier plate; the method is characterized in that: the UV curing equipment comprises a machine box shell (1), a conveying line device (2) capable of conveying carrier discs and a UV lamp box (3), wherein a processing space is formed inside the machine box shell (1), the conveying line device (2) is installed in the processing space, and the feeding side and the discharging side of the conveying line device (2) respectively penetrate out of the machine box shell (1) to be respectively connected with external feeding equipment and external discharging equipment; the UV lamp box (3) is also mounted in the processing space, and simultaneously the UV lamp box (3) is also arranged above the conveying line device (2).

2. The automated, streamlined UV curing apparatus of claim 1, wherein: the machine box shell (1) is provided with a machine box base (10) and a machine box upper shell (11), a horizontal supporting plate (12) is positioned and arranged on the top side of the machine box base (10), the machine box upper shell (11) is positioned and arranged on the upper side of the horizontal supporting plate (12), and the machine box upper shell (11) and the horizontal supporting plate (12) are encircled to form the processing space;

in addition, an inlet and an outlet (13) for the feed side or the discharge side of the conveying line device (2) to penetrate are respectively arranged on the vertical walls at two opposite sides of the upper case shell (11).

3. The automated, streamlined UV curing apparatus of claim 2, wherein: the horizontal support plate (12) is in a square plate shape, the two inlet and outlet openings (13) are consistent in shape, and the two inlet and outlet openings (13) are also symmetrically distributed around the vertical center line of the horizontal support plate (12);

defining the central connecting line direction between the two inlets and the two outlets (13) as an X-axis direction, correspondingly defining a Y-axis direction which is vertical to the central connecting line direction between the two inlets and the two outlets (13) and a vertical direction which is vertical to the X-axis direction and the Y-axis direction respectively;

the conveying line device (2) adopts a linear type conveying line device and comprises two mounting plate frames (20), two annular conveying belts (21) for placing the carrier plates and a driving mechanism, wherein the two mounting plate frames (20) are respectively in a long strip shape extending along the X-axis direction, the two mounting plate frames (20) are also arranged on the upper side of the horizontal support plate (12) side by side along the Y-axis direction, and both sides of each mounting plate frame (20) in the length direction correspondingly extend out of the two inlets and outlets (13), the two annular conveyor belts (21) are correspondingly and respectively rotatably mounted on the two mounting plate frames (20), and the two endless conveyor belts (21) are also arranged oppositely, the driving mechanism is also arranged on the upper side of the horizontal supporting plate (12), and the driving mechanism can drive the two endless conveyor belts (21) to synchronously operate.

4. The automated, streamlined UV curing apparatus of claim 3, wherein: the conveying line device (2) further comprises two mounting seats (22), the two mounting seats (22) are respectively and fixedly mounted on the upper side of the horizontal supporting plate (12), and the two mounting seats (22) are arranged side by side along the X-axis direction; the two mounting plate frames (20) are respectively mounted on the top sides of the two mounting seats (22) in a crossing manner;

the structure for realizing that the driving mechanism can also drive the two endless conveyor belts (21) to synchronously operate is as follows: the driving mechanism comprises two driving wheels (23), two driven wheels (24) and two motors (25), wherein the two driving wheels (23) are respectively and correspondingly rotatably installed on one side of the two mounting plate frames (20) in the length direction, the two driven wheels (24) are respectively and correspondingly rotatably installed on the other side of the two mounting plate frames (20) in the length direction, one driving wheel (23) and one driven wheel (24) which are positioned on the same mounting plate frame (20) are matched to form a transmission wheel set, and the two annular conveyor belts (21) are respectively and correspondingly sleeved on the two transmission wheel sets; two the location that motor (25) corresponds respectively is installed two on installation sheet frame (20), and two motor (25) can also correspond and drive two action wheel (23) are rotatory, in addition two still be connected with the synchronizing shaft between action wheel (23).

5. The automated, streamlined UV curing apparatus of claim 4, wherein: each driving wheel (23) is rotatably mounted on one side of the mounting plate frame (20) in the length direction through a first rotating shaft, and each driven wheel (24) is rotatably mounted on the other side of the mounting plate frame (20) in the length direction through a second rotating shaft;

realize two motor (25) can correspond and drive two the rotatory structure of action wheel (23) is: the two transmission assemblies are respectively correspondingly matched with the two motors (25) and the two first rotating shafts, each transmission assembly is respectively provided with two synchronizing wheels and a synchronizing belt, the two synchronizing wheels are respectively sleeved on the motors (25) and the first rotating shafts in a corresponding positioning mode, and the two synchronizing wheels are further in transmission connection through the synchronizing belts.

6. The automated, streamlined UV curing apparatus of claim 4, wherein: still be equipped with the multiunit and be used for blockking the subassembly that blocks that restricts the carrier dish, each block the subassembly and respectively have one and block cylinder (26), block cylinder (26) location and install on one the outside of installation sheet frame (20), the piston rod point direction rather than matched with of blocking cylinder (26) one the inboard of installation sheet frame (20), and be in still location installation has a baffle on the piston rod of blocking cylinder (26).

7. The automated, streamlined UV curing apparatus of claim 6, wherein: and a plurality of groups of blocking cylinders (26) are symmetrically arranged on the outer sides of the two mounting plate frames (20).

8. The automated, streamlined UV curing apparatus of claim 6, wherein: UV lamp house (3) are including lamp house shell (30) and UV lamp (31), wherein, lamp house shell (30) arrange in two through a grudging post (32) location the top of installation sheet frame (20), UV lamp (31) location install in lamp house shell (30).

9. The automated, streamlined UV curing apparatus of claim 8, wherein: a human-computer interface (4) is also arranged on the upper case (11);

the two motors (25), the multiple groups of blocking cylinders (26) and the UV lamp (31) are respectively and electrically connected to the human-computer interface (4).