CN112539209A

CN112539209A - Electronic mainboard hot-pressing reinforcing bonding device

Info

Publication number: CN112539209A
Application number: CN202110035834.6A
Authority: CN
Inventors: 祁发周
Original assignee: Chengdu Xinjikun Technology Co ltd
Current assignee: Chengdu Xinjikun Technology Co ltd
Priority date: 2021-01-12
Filing date: 2021-01-12
Publication date: 2021-03-23

Abstract

The invention discloses a hot-pressing reinforcing and bonding device for an electronic mainboard, which comprises a box body, wherein a transmission cavity is arranged in the box body, and the transmission cavity is provided with a shifting device used for pushing a processed workpiece out of a device.

Description

Electronic mainboard hot-pressing reinforcing bonding device

Technical Field

The invention relates to the field of hot-pressing bonding, in particular to a hot-pressing reinforcing bonding device for an electronic mainboard.

Background

The hot pressing is to mat formation shaping after the slab heating simultaneous pressurization make the process of having certain mechanical strength and water proofness ability fiberboard, and traditional mainboard hot press unit need use a large amount of time to adjust the processing well to work piece and device when processing the work piece, and is higher to operating personnel's proficiency moreover, and the processing cost is great, has processed the flow that has not moved back the piece in the back in addition, very easily because operating personnel's error causes the processing accident.

The present invention sets forth a device that solves the above problems.

Disclosure of Invention

The technical problem is as follows: traditional mainboard hot press unit adds man-hour because the time single face part heats to the condition that the bonding is not in place can appear in the work piece that leads to processing out produces, because do not have automatic orthotic devices in some devices before processing moreover, very easily takes place the skew of work piece in the processing, thereby leads to the work piece to scrap, and most device does not have the function of automatic piece that moves back in addition, takes place operating personnel's potential safety hazard easily.

In order to solve the problems, the embodiment designs an electronic mainboard hot-pressing reinforcing and bonding device, which comprises a box body, wherein a transmission cavity is arranged in the box body, the transmission cavity is provided with a stirring device used for pushing a processed workpiece out of the device, a rack cavity is arranged in the box body, a supporting device used for supporting and inflating a workpiece is arranged in the rack cavity, a hot-pressing cavity is arranged in the box body, a hot-pressing device used for stably hot-pressing the electronic mainboard is arranged in the hot-pressing cavity, the hot-pressing device comprises position correcting sliding strips which are in sliding connection with the box body and distributed left and right, sliding strip connecting rods are fixedly connected onto the position correcting sliding strips, a first spring is fixedly connected between the sliding strip connecting rods and the box body, wedge-shaped thin blocks are fixedly connected onto the sliding strip connecting rods, thin block inner cavities are arranged in the wedge-shaped thin blocks, and first push rods are slidably connected onto the wedge-shaped thin blocks, the first push rod is fixedly connected and positioned in the thin block inner cavity and is internally provided with an anti-falling wafer, the first push rod is fixedly connected with a correction push plate, a fourth spring is arranged between the correction push plate and the wedge-shaped thin block, the box body is fixedly connected with two supporting slide rods which are distributed leftwards and rightwards, the supporting slide rods are fixedly connected with a supporting main board, a second spring is arranged between the supporting main board and the box body, the supporting main board and the correction push plate can be in contact connection, the inner wall of the rack cavity is fixedly connected with a main thermal power supply, the main thermal power supply is fixedly connected with four main joints which are distributed leftwards and rightwards, the main joints can be in contact connection with the supporting slide rods, the box body is slidably connected with a sliding push plate, a first groove is arranged in the sliding push plate, the inner wall of the first groove is slidably connected with a first push plate, and, the last rotation of pulley shell is connected with the round pin, fixedly connected with runner on the round pin, the pulley shell with fixedly connected with third spring between the smooth push pedal, through supporting moving down of mainboard, make correct the push pedal not with support the mainboard contact, thereby make about two correct the push pedal and be in under the effect of fourth spring make the work piece adjusted in the middle of the mainboard is supported, and then reach automatic adjustment's effect, on the other hand works as the process that supports the mainboard and descend still can take support the slide bar together to descend, thereby make support the slide bar with the main joint connects out, realizes self-heating's effect, be equipped with the motor main cavity in the box, be equipped with in the motor main cavity and be used for providing the power device that presses down for the device.

Wherein the power device comprises a main motor fixedly connected with the inner wall of the main cavity of the motor, a rotating main shaft is rotatably connected with the inner wall of the main cavity of the motor, the rotating main shaft is fixedly connected with a first driving bevel gear, the box body is fixedly connected with a positioning long block which is rotatably connected with the rotating main shaft, a sliding bar is fixedly connected on the box body, a threaded sliding block is connected on the rotating main shaft in a threaded manner and is connected with the sliding bar in a sliding manner, a rotary oscillating bar is hinged on the positioning long block, an oscillating bar chute is arranged on the rotary oscillating bar, a shifting main pin is rotatably connected on the threaded sliding block, the main poking pin is connected with the swing rod chute in a sliding way, the box body is connected with a main sliding block in a sliding way, the main sliding block is provided with a shifting chute, the shifting chute is connected with a first driving block in a sliding mode, and the first driving block is hinged to the rotating swing rod.

Wherein, toggle device include with rotate the cam pivot of connection on the transmission intracavity wall, fixedly connected with cam in the cam pivot, the cam is equipped with the cam groove, the first driven pulleys of fixedly connected with in the cam pivot, fixedly connected with cam pin on the smooth push pedal, the cam pin with cam groove sliding connection, it is connected with first pivot to rotate on the box, fixedly connected with just is located in the first pivot be equipped with first driven awl tooth in the motor main cavity, it is connected with the second pivot to rotate on the box, the second pivot with first pivot is connected through the belt drive, fixedly connected with gusset plate on the transmission intracavity wall, the second pivot with the gusset plate rotates to be connected, fixedly connected with second initiative awl tooth in the second pivot.

Wherein the supporting device comprises an overhanging connecting rod fixedly connected with the sliding main block, a pressing connecting shaft is connected onto the overhanging connecting rod in a sliding manner, a pressing rod transmission plate is fixedly connected onto the pressing connecting shaft, a fifth spring is arranged between the pressing rod transmission plate and the overhanging connecting rod, a pressure-sensitive element is fixedly connected onto the box body and can be in contact connection with the pressing rod transmission plate, a third main shaft is rotatably connected onto the inner wall of the transmission cavity, a first driving pulley is fixedly connected onto the third main shaft, a belt is slidably connected between the first driving pulley and the first driven pulley, a square shaft sleeve is slidably connected onto the third main shaft, a second driven bevel gear is fixedly connected onto the square shaft sleeve and can be in meshing connection with the second driving bevel gear, and a stirring disc is fixedly connected onto the square shaft sleeve, the inner wall of the transmission cavity is fixedly connected with an executing element, the executing element is connected with the shifting disc in a sliding mode, the third spindle is fixedly connected with a driving gear, the rack cavity is connected with a rack in a sliding mode, and the rack is connected with the driving gear in a meshing mode.

The hot-pressing device comprises a second heat power source fixedly connected with the inside of the sliding main block, the sliding main block is connected with two second pressing sliding columns which are distributed on the left and right in a sliding mode, a second pressing plate is fixedly connected to the upper face of each second pressing sliding column, a sixth spring is arranged between each second pressing plate and the corresponding sliding main block, and the second pressing sliding columns can be in contact connection with the second heat power source.

The invention has the beneficial effects that: according to the invention, according to the relevant knowledge of mechanical transmission, the sliding main block is driven to move downwards through screw transmission, and the sliding main block and the pressing element are driven to separate from the pressure-sensitive element together, so that the executing element stirs the square shaft sleeve to stop the part removing device, the part removing device stops when the hot-pressing electronic mainboard is processed, and the part removing device starts to execute after processing is finished, thereby realizing the integrated automatic device for automatically processing and separating the workpiece, greatly improving the processing efficiency and avoiding the processing accidents caused by the operation errors of processing personnel.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of an overall structure of a thermal compression reinforcing and bonding device for an electronic motherboard according to the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 in the direction "A-A";

FIG. 3 is an enlarged view of a portion of FIG. 1 at "B";

fig. 4 is a partially enlarged view of the structure at "C" of fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a hot-press reinforcing and bonding device for an electronic mainboard, which is mainly applied to the hot-press reinforcing process, and the invention is further explained by combining the attached drawings of the invention as follows:

the invention relates to a hot-pressing reinforcing bonding device for an electronic mainboard, which comprises a box body 11, wherein a transmission cavity 12 is arranged in the box body 11, a toggle device 902 used for pushing a processed workpiece out of a device is arranged in the transmission cavity 12, a rack cavity 36 is arranged in the box body 11, a supporting device 903 used for supporting and inflating the workpiece is arranged in the rack cavity 36, a hot-pressing cavity 35 is arranged in the box body 11, a hot-pressing device 904 used for stably hot-pressing the electronic mainboard is arranged in the hot-pressing cavity 35, the hot-pressing device 904 comprises position-correcting sliding strips 42 which are in sliding connection with the box body 11 and distributed left and right, sliding strip connecting rods 44 are fixedly connected on the position-correcting sliding strips 42, first springs 43 are fixedly connected between the sliding strip connecting rods 44 and the box body 11, wedge-shaped thin blocks 45 are fixedly connected on the sliding strip connecting rods 44, thin block inner cavities 49 are arranged in the wedge-shaped thin blocks 45, and first push rods 48 are slidably connected on, the first push rod 48 is fixedly connected and positioned in the thin block inner cavity 49 and is internally provided with an anti-falling wafer 61, the first push rod 48 is fixedly connected with a correcting push plate 51, a fourth spring 50 is arranged between the correcting push plate 51 and the wedge-shaped thin block 45, the box body 11 is slidably connected with two supporting slide rods 54 which are distributed left and right, the supporting slide rods 54 are fixedly connected with a supporting main board 52, a second spring 53 is arranged between the supporting main board 52 and the box body 11, the supporting main board 52 and the correcting push plate 51 can be in contact connection, the inner wall of the rack cavity 36 is fixedly connected with a main heat source 39, the main heat source 39 is fixedly connected with four main connectors 40 which are distributed left and right, the main connectors 40 can be in contact connection with the supporting slide rods 54, the box body 11 is slidably connected with a sliding push plate 17, and a first groove 55 is arranged in the sliding push plate 17, a first push plate 56 is slidably connected to the inner wall of the first groove 55, a pulley housing 59 is fixedly connected to the first push plate 56, a wheel pin 58 is rotatably connected to the pulley housing 59, a rotating wheel 60 is fixedly connected to the wheel pin 58, a third spring 57 is fixedly connected between the pulley housing 59 and the slide push plate 17, the correcting push plate 51 is not in contact with the support main plate 52 by moving down the support main plate 52, so that the left and right correcting push plates 51 adjust the workpiece in the middle of the support main plate 52 under the action of the fourth spring 50, and an automatic adjustment effect is achieved, on the other hand, when the support main plate 52 descends, the support slide rod 54 is driven to descend together, so that the support slide rod 54 is connected with the main joint 40, and an automatic heating effect is achieved, a motor main cavity 13 is arranged in the box body 11, a power device 901 for providing pressing power for the device is arranged in the motor main cavity 13.

According to the embodiment, the power device 901 is described in detail below, the power device 901 includes a main motor 14 fixedly connected to an inner wall of the motor main cavity 13, a rotating main shaft 16 is rotatably connected to the inner wall of the motor main cavity 13, a first driving bevel gear 15 is fixedly connected to the rotating main shaft 16, a positioning long block 69 is fixedly connected to the box 11 and rotatably connected to the rotating main shaft 16, a sliding rod 70 is fixedly connected to the box 11, a threaded slider 71 is threadedly connected to the rotating main shaft 16, the threaded slider 71 is slidably connected to the sliding rod 70, a rotating swing rod 72 is hinged to the positioning long block 69, a swing rod sliding slot 73 is formed in the rotating swing rod 72, a toggle main pin 74 is rotatably connected to the threaded slider 71, the toggle main pin 74 is slidably connected to the swing rod sliding slot 73, and a sliding main block 68 is slidably connected to the box 11, it stirs spout 76 to be equipped with on the slip main block 68, it has first drive block 75 to stir sliding connection on the spout 76, first drive block 75 with it is articulated to rotate pendulum rod 72, through main motor 14 drives it rotates to rotate main shaft 16 rotate main shaft 16 with screw thread transmission between the screw thread slider 71 makes screw thread slider 71 stirs it rotates pendulum rod 72, and then drives slip main block 68 reciprocates and realizes pressing the work piece.

According to the embodiment, the toggle device 902 is described in detail below, the toggle device 902 includes a cam shaft 22 rotatably connected to the inner wall of the transmission cavity 12, a cam 20 is fixedly connected to the cam shaft 22, the cam 20 is provided with a cam groove 19, a first driven pulley 23 is fixedly connected to the cam shaft 22, a cam pin 18 is fixedly connected to the sliding plate 17, the cam pin 18 is slidably connected to the cam groove 19, a first shaft 81 is rotatably connected to the case 11, the first shaft 81 is fixedly connected to and located in the motor main cavity 13, a second shaft 82 is rotatably connected to the case 11, the second shaft 82 is connected to the first shaft 81 by a belt transmission, a reinforcing plate 26 is fixedly connected to the inner wall of the transmission cavity 12, and the second shaft 82 is rotatably connected to the reinforcing plate 26, a second driving bevel gear 27 is fixedly connected to the second rotating shaft 82.

According to the embodiment, the details of the supporting device 903 are described below, the supporting device 903 includes an external link 67 fixedly connected to the sliding main block 68, a pressing connecting shaft 65 is slidably connected to the external link 67, a pressing rod transmission plate 63 is fixedly connected to the pressing connecting shaft 65, a fifth spring 66 is disposed between the pressing rod transmission plate 63 and the external link 67, a pressure sensitive element 62 is fixedly connected to the case 11, the pressure sensitive element 62 can be in contact connection with the pressing rod transmission plate 63, a third main shaft 28 is rotatably connected to the inner wall of the transmission cavity 12, a first driving pulley 33 is fixedly connected to the third main shaft 28, a belt 24 is slidably connected between the first driving pulley 33 and the first driven pulley 23, a square shaft sleeve 30 is slidably connected to the third main shaft 28, and a second driven bevel gear 29 is fixedly connected to the square shaft sleeve 30, the second driven bevel gear 29 can be meshed with the second driving bevel gear 27, a toggle disc 31 is fixedly connected to the square shaft sleeve 30, an actuator 32 is fixedly connected to the inner wall of the transmission cavity 12, the actuator 32 is slidably connected to the toggle disc 31, a driving gear 38 is fixedly connected to the third spindle 28, a rack 37 is slidably connected to the rack cavity 36, the rack 37 is meshed with the driving gear 38, the pressing connecting shaft 65 on the overhanging connecting rod 67 is driven to move upwards together by the return of the sliding main block 68, the pressure sensitive element 62 is pressed by the pressure lever transmission plate 63 to transmit a pressure signal to the actuator 32, and the square shaft sleeve 30 is toggled to enable the second driven bevel gear 29 to be meshed with the second driving bevel gear 27, so as to drive the driving gear 38 to rotate and drive to move upwards together, the workpiece is pulled up.

In the following, a hot press apparatus 904 is described in detail, according to an embodiment, the hot press apparatus 904 includes a second heat power source 77 fixedly connected to the inside of the sliding main block 68, two second pressing sliding columns 78 distributed at the left and the right are connected on the sliding main block 68 in a sliding manner, a second pressing plate 80 is fixedly connected on the second pressing sliding columns 78, a sixth spring 79 is arranged between the second pressing plate 80 and the sliding main block 68, the second pressing sliding column 78 and the second heat power supply 77 can be in contact connection, when the sliding main block 68 moves downwards, the second pressing plate 80 is driven to move downwards together, when the second pressing plate 80 is in contact with the workpiece, the slide main block 68 moves downward, and the second pressing plunger 78 contacts the second heat power source 77, so that the second pressing plate 80 starts to be heated, and the upper surface of the workpiece is thermocompressed.

The use steps herein are described in detail below with reference to fig. 1-4:

initially, the push plate 17 is at the leftmost side, the main slide block 68 is at the uppermost side, the rack 37 is at the lowermost side, the second driven bevel gear 29 is engaged with the second driving bevel gear 27, and the pressure-sensitive element 62 is pressed by the pressure-sensitive plate 63.

At the beginning, the main motor 14 is started, on one hand, the main motor 14 drives the threaded slider 71 to move right through the thread transmission between the rotating main shaft 16 and the sliding push plate 17 by rotating the main shaft 16, drives the rotating swing rod 72 to rotate through the toggle main pin 74 on the threaded slider 71, then the rotating swing rod 72 is hinged with the first driving block 75 to drive the first driving block 75 to move right, the sliding main block 68 is also driven to move downwards together in the process of moving right through the first driving block 75, the pressure rod transmission plate 63 can be separated from the pressure sensitive element 62 in the process of moving downwards, and the pressure sensitive element 62 loses the pressure signal so that the executive element 32 toggles the disc 31 to separate the toggle bevel gear 29 from the second driving bevel gear 27, the sliding main block 68 presses the workpiece through the second pressing plate 80 in the process of moving downwards, the supporting main plate 52 can drive the workpiece to be the next workpiece to be driven by the supporting main plate 52, and the straightening push the workpiece on the supporting main plate 52 to be straightened in the middle of the supporting main plate 52 when the, when a hot pressing process is finished, the main motor 14 is started to rotate reversely, so that the threaded sliding block 71 drives the rotating swing rod 72 to rotate, the first driving block 75 is shifted to move left, the sliding main block 68 moves upwards, the pressing connecting shaft 65 on the driving overhanging connecting rod 67 presses the pressure-sensitive element 62, a signal is transmitted to the executive component 32 through the pressure-sensitive element 62, the shifting disc 31 is shifted to enable the second driven bevel gear 29 on the square shaft sleeve 30 and the second driving bevel gear 27 to be meshed between the rotating main shaft 16 and the first rotating shaft 81 to drive the first rotating shaft 81 to rotate, the belt wheel transmission between the first rotating shaft 81 and the second rotating shaft 82 drives the second driving bevel gear 27 on the second rotating shaft 82 to rotate, the second driving bevel gear 27 and the second driven bevel gear 29 are meshed to rotate to drive the third main shaft 28 to rotate, the rotation of the third main shaft 28 moves upwards through the rack-and pinion rotating rack 37 between the driving gear 38 and the rack 37, the workpiece on the supporting main board 52 is jacked up, on the other hand, the cam 20 is driven to rotate through belt wheel transmission between the third main shaft 28 and the cam rotating shaft 22, the sliding push plate 17 is driven to move rightwards through sliding connection between the cam groove 19 and the cam pin 18, the workpiece jacked up by the rack 37 is pushed out of the device, the automatic workpiece-removing effect is achieved, and the machining efficiency is improved.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides an electron mainboard hot pressing reinforcing adhesive device, includes the box, its characterized in that: the box body is internally provided with a transmission cavity, the transmission cavity is provided with a stirring device used for pushing a processed workpiece out of the device, the box body is internally provided with a rack cavity, the rack cavity is internally provided with a supporting device used for supporting a processed workpiece, the box body is internally provided with a hot-pressing cavity, the hot-pressing cavity is internally provided with a hot-pressing device used for stably hot-pressing the electronic mainboard, the hot-pressing device comprises a position correcting sliding strip which is in sliding connection with the box body and distributed leftwards and rightwards, the position correcting sliding strip is fixedly connected with a sliding strip connecting rod, a first spring is fixedly connected between the sliding strip connecting rod and the box body, the sliding strip connecting rod is fixedly connected with a wedge-shaped thin block, a thin block inner cavity is arranged in the wedge-shaped thin block, the wedge-shaped thin block is in sliding connection with a first push rod, the first push rod is fixedly connected and positioned in the thin block inner, a fourth spring is arranged between the correcting push plate and the wedge-shaped thin block, two supporting slide bars which are distributed left and right are connected on the box body in a sliding manner, a supporting main plate is fixedly connected on the supporting slide bars, a second spring is arranged between the supporting main plate and the box body, the supporting main plate and the correcting push plate can be in contact connection, a main thermal power supply is fixedly connected on the inner wall of the rack cavity, four main connectors which are distributed left and right are fixedly connected on the main thermal power supply, the main connectors can be in contact connection with the supporting slide bars, a sliding push plate is connected on the box body in a sliding manner, a first groove is arranged in the sliding push plate, a first push plate is connected on the inner wall of the first groove in a sliding manner, a pulley shell is fixedly connected on the first push plate, a wheel pin is rotatably connected on the pulley shell, a rotating wheel is fixedly connected on the wheel pin, and a third spring, through supporting moving down of mainboard, make correct the push pedal not with support the mainboard contact to make two about correcting the push pedal and being in make the work piece adjusted under the effect of fourth spring in the middle of supporting the mainboard, and then reach automatic adjustment's effect, on the other hand works as the process that supports the mainboard and descend still can take support the slide bar together to descend, thereby makes support the slide bar with the primary joint connects out, realizes self-heating's effect, be equipped with the motor main cavity in the box, be equipped with in the motor main cavity and be used for providing the power device who presses power for the device.

2. A thermal compression reinforcing and bonding apparatus for electronic boards as claimed in claim 1, wherein: the power device comprises a main motor fixedly connected with the inner wall of the main cavity of the motor, a rotating main shaft is rotatably connected with the inner wall of the main cavity of the motor, the rotating main shaft is fixedly connected with a first driving bevel gear, the box body is fixedly connected with a positioning long block which is rotatably connected with the rotating main shaft, a sliding bar is fixedly connected on the box body, a threaded sliding block is connected on the rotating main shaft in a threaded manner and is connected with the sliding bar in a sliding manner, a rotary oscillating bar is hinged on the positioning long block, an oscillating bar chute is arranged on the rotary oscillating bar, a shifting main pin is rotatably connected on the threaded sliding block, the main poking pin is connected with the swing rod chute in a sliding way, the box body is connected with a main sliding block in a sliding way, the main sliding block is provided with a shifting chute, the shifting chute is connected with a first driving block in a sliding mode, and the first driving block is hinged to the rotating swing rod.

3. A thermal compression reinforcing and bonding apparatus for electronic boards as claimed in claim 1, wherein: striking gear include with rotate the cam pivot of connection on the transmission intracavity wall, fixedly connected with cam in the cam pivot, the cam is equipped with the cam groove, the first driven pulleys of fixedly connected with in the cam pivot, fixedly connected with cam round pin on the smooth push pedal, the cam round pin with cam groove sliding connection, it is connected with first pivot to rotate on the box, fixed connection just is located in the first pivot be equipped with first driven awl tooth in the motor main cavity, it is connected with the second pivot to rotate on the box, the second pivot with first pivot is connected through the belt drive, fixedly connected with gusset plate on the transmission intracavity wall, the second pivot with the gusset plate rotates to be connected, fixedly connected with second initiative awl tooth in the second pivot.

4. A thermal compression reinforcing and bonding apparatus for electronic boards as claimed in claim 1, wherein: the supporting device comprises an outward extending connecting rod fixedly connected with the sliding main block, a pressing connecting shaft is connected onto the outward extending connecting rod in a sliding mode, a pressing rod transmission plate is fixedly connected onto the pressing connecting shaft, a fifth spring is arranged between the pressing rod transmission plate and the outward extending connecting rod, a pressure-sensitive element is fixedly connected onto the box body and can be in contact connection with the pressing rod transmission plate, a third main shaft is rotatably connected onto the inner wall of the transmission cavity, a first driving belt wheel is fixedly connected onto the third main shaft, a belt is slidably connected between the first driving belt wheel and the first driven belt wheel, a square shaft sleeve is slidably connected onto the third main shaft, a second driven bevel gear is fixedly connected onto the square shaft sleeve and can be in meshing connection with the second driving bevel gear, a stirring disc is fixedly connected onto the square shaft sleeve, and an executing element is fixedly connected onto the inner wall of the transmission cavity, the actuating element is connected with the poking disc in a sliding mode, the third spindle is fixedly connected with a driving gear, a rack is connected to the rack cavity in a sliding mode, and the rack is connected with the driving gear in a meshed mode.

5. A thermal compression reinforcing and bonding apparatus for electronic boards as claimed in claim 1, wherein: the hot press unit comprises a second thermal power supply fixedly connected with the inside of the sliding main block, the sliding main block is connected with two second pressing sliding columns distributed left and right in a sliding mode, a second pressing plate fixedly connected with the upper surface of each second pressing sliding column is arranged between the second pressing plate and the sliding main block, and the second pressing sliding columns can be in contact connection with the second thermal power supply.