CN114121508A

CN114121508A - Finished product hot pressing mechanism

Info

Publication number: CN114121508A
Application number: CN202111460055.7A
Authority: CN
Inventors: 余晟武
Original assignee: Changzhou Savy Machine Co ltd
Current assignee: Changzhou Savy Machine Co ltd
Priority date: 2021-12-02
Filing date: 2021-12-02
Publication date: 2022-03-01
Anticipated expiration: 2041-12-02
Also published as: CN114121508B

Abstract

The invention belongs to the technical field of film capacitor winding machines, in particular to a finished product hot pressing mechanism, which comprises a hot pressing assembly, a flattening mechanism and a transportation assembly, wherein the hot pressing assembly comprises a fixed frame, a hot pressing cylinder, a hot pressing top plate and a bearing frame, the hot pressing cylinder is fixed in the fixed frame, a supporting frame is fixed on the fixed frame, a lower hot pressing plate is fixed on the bearing frame through a heat insulation column, the hot pressing top plate is fixed on the supporting frame through a supporting column, an upper hot pressing plate is fixed at the bottom of the hot pressing top plate through the heat insulation column, heating pipes are arranged in the upper hot pressing plate and the lower hot pressing plate, an electric conveying belt is arranged at one side of the hot pressing assembly, the mechanism can firstly carry out shaping prepressing on a capacitor core, then the capacitor core is hot pressed by the hot pressing plate, the capacitor core is not easy to rebound and deform, the good quality of the capacitor core is ensured, and the hot pressing assembly can be matched with other mechanisms for use, the automation degree is high, manual operation is reduced, and the hot pressing machine can be used for single hot pressing.

Description

Finished product hot pressing mechanism

Technical Field

The invention belongs to the technical field of film capacitor winding machines, and particularly relates to a finished product hot-pressing mechanism.

Background

The metallized film capacitor is widely used in the fields of electronics, communication, electric power and the like due to the high insulation resistance, small capacitance loss, reliability, safety and explosion resistance of the metallized film capacitor, and the metallized film is a main material for manufacturing the metallized film capacitor; the base material of the material is an organic film such as polyester, polypropylene and the like, and metal is plated on a medium base material in a vacuum coating mode; the capacitor is formed by winding two or more than two metalized films and plain films; since the metal plating layer of the metallized film is very thin and is very easy to oxidize, if wrinkles are generated in the manufacturing process and air or moisture is contained in the wrinkles, the metal plating layer is easy to ionize or oxidize, so that the characteristics of the capacitor are reduced, and the capacitance of the capacitor is reduced in attenuation or failure.

The capacitor product corresponding to the invention is mainly applied to direct current supporting occasions such as new energy automobiles, electrified locomotives, solar power generation and the like, if the capacitor fails, huge loss can be brought, when the capacitor is manufactured, flattening the capacitor core after winding is an important link, the good flattening process directly influences the quality of the capacitor, the traditional flattening mechanism has simple function, the flattened capacitor can rebound, the flattening effect is poor, defective products are generated, and the subsequent production is influenced.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a finished product hot-pressing mechanism, which uses the technology that after a finished product core is pre-flattened, the finished product hot-pressing mechanism carries out hot pressing again, so that the capacitor core is not easy to rebound and deform after being flattened, the subsequent gold spraying of the capacitor core is ensured, and the like, and the problem of poor flattening effect of the existing mechanism is solved.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: a finished product hot-pressing mechanism comprises a hot-pressing assembly, a flattening mechanism and a conveying assembly;

the hot-pressing assembly comprises a fixing frame, a hot-pressing cylinder, a hot-pressing top plate and a pressure-bearing frame, wherein the hot-pressing cylinder is fixed in the fixing frame, a supporting frame is fixed on the fixing frame, a lower hot-pressing plate is fixed on the pressure-bearing frame through a heat insulation column, the hot-pressing top plate is fixed on the supporting frame through a supporting column, an upper hot-pressing plate is fixed at the bottom of the hot-pressing top plate through the heat insulation column, heating pipes are arranged in the upper hot-pressing plate and the lower hot-pressing plate, an electric conveying belt is arranged at one side of the hot-pressing assembly, and a power plug is arranged at one side of the fixing frame through a power cord;

the transportation assembly comprises a material conveying mechanism, a material pushing mechanism and a material distributing assembly, the material conveying mechanism is fixed on the fixing frame, the material pushing mechanism is fixed on the side wall of the hot-pressing top plate, the material distributing mechanism is fixedly installed on the supporting frame, and the material distributing assembly and the lower hot-pressing plate are respectively provided with a capacitor core.

Preferably, one side of the electric conveyor belt is provided with a material sliding plate, and one end of the material sliding plate extends to one side of the upper hot pressing plate.

Through adopting above-mentioned scheme, the slide-plate can conveniently be fallen to electric conveyer belt by the electric capacity core after the hot pressing on, play the guide effect, then electric conveyer belt leaves electric capacity core transportation.

Preferably, the flattening mechanism comprises a flattening cylinder, a flattening bottom plate and a fixing block, the flattening bottom plate is fixedly installed on the flattening cylinder, the flattening cylinder is fixedly installed on the fixing block, the flattening mechanism is located above the material conveying assembly, and the fixing block is fixed on the external support body.

Through adopting above-mentioned scheme, when the electric capacity core was transported on the transportation subassembly, it can extend to flatten the cylinder, and then makes and flatten the bottom plate and flatten the electric capacity core, carries out the flat operation of pre-compaction to the electric capacity core to make things convenient for follow-up hot pressing subassembly to carry out secondary hot briquetting to the electric capacity core, and flattening mechanism fixes on external support body according to actual space when erectting, and the installation is used more in a flexible way like this.

Preferably, fortune material mechanism includes fortune material track, fortune material motor and fortune material seat, fortune material track passes through the fixed plate to be fixed on the mount, fortune material seat slip joint is in on the fortune material track, fortune material motor is fixed on the fixed plate, the meshing has the fortune material hold-in range on the fortune material motor, one side of fortune material hold-in range with the bottom fixed connection of fortune material seat, the meshing has the fortune material axis body on the fortune material hold-in range.

Through adopting above-mentioned scheme, when using this mechanism, the fortune material axis body needs to install to the source department of electric capacity core, and convenient transportation like this uses manpower sparingly, and fortune material motor can drive fortune material hold-in range and remove, then fortune material hold-in range can drive fortune material seat and slide on fortune material track, then electric capacity core can be placed on fortune material seat, can transport electric capacity core.

Preferably, the material pulling mechanism comprises a parallel cylinder, a vertical cylinder, a material pulling rail plate and a pulling plate, the parallel cylinder is fixed on the upper surface of the hot-pressing top plate, the material pulling rail plate is fixed on the side wall of the hot-pressing top plate, the vertical cylinder is in sliding clamping connection with the side wall of the material pulling rail plate, the execution end of the parallel cylinder is fixedly connected to the side wall of the vertical cylinder, and the pulling plate is fixed on the execution end of the vertical cylinder.

Through adopting above-mentioned scheme, dial material mechanism and can shift the electric capacity core in the fortune material mechanism to dividing the material subassembly on, transport the material seat and transport the electric capacity core back that targets in place, parallel cylinder can extend, drives perpendicular cylinder and moves on dialling the material rail board, then perpendicular cylinder can drive and dial the board down will place the position of electric capacity core, then parallel cylinder shrink, and then drive and dial the board and draw the electric capacity core to connecing the material to shift on the board.

Preferably, divide the material subassembly including dividing the material hold-in range, dividing the material motor, connect material transfer board, slide rail base and push away the core mechanism, it installs to push away core mechanism fixed mounting in the bottom of hot pressing roof, divide the material motor to pass through the connecting plate to be fixed the bottom of support frame, divide the inboard of material hold-in range with the output shaft that divides the material motor meshes mutually, the slide rail base is fixed on the support frame, divide the material hold-in range to pass through belt dabber movable mounting between the slide rail base, it connects material transfer board slip joint on the slide rail base, divide the lateral wall of material hold-in range with the bottom that connects the material transfer board is fixed mutually.

By adopting the scheme, the material distributing motor can drive the material distributing synchronous belt to rotate so as to enable the material receiving transfer plate to move on the slide rail base, and then the capacitor cores are moved to the corresponding hot pressing assembly, and then the capacitor cores on the material receiving transfer plate can be transferred before and after hot pressing by the core pushing mechanism.

Preferably, a photoelectric detector is fixed on the side wall of the slide rail base, and a detection plate matched with the photoelectric detector for use is arranged on the side wall of the material receiving transfer plate.

Through adopting above-mentioned scheme, dividing the material motor and being servo motor, photoelectric detector can trigger when being sheltered from by the detection board, plays the effect of reference servo motor origin, and servo motor is current equipment, and its corollary equipment all uses ripe extensive in each field, does not do too much here and describes the introduction.

Preferably, the core pushing mechanism comprises an upper slide rail, a slide plate, a push plate, a primary air cylinder and a secondary air cylinder, the upper slide rail is fixed at the bottom of the hot-pressing top plate, the slide plate is slidably clamped on the side wall of the upper slide rail, the push plate is fixed on the side wall of the slide plate, the execution end of the primary air cylinder is fixed on the side wall of the upper slide rail, a reverse folding plate is fixed on the cylinder body of the primary air cylinder, the secondary air cylinder is fixed on the side wall of the reverse folding plate, and the execution end of the secondary air cylinder is fixed on the slide plate.

By adopting the scheme, when the capacitor core on the material receiving transfer plate is required to be transferred onto the lower hot pressing plate, the secondary cylinder shrinks to drive the sliding plate to move, so that the push plate pushes the capacitor core to move onto the lower hot pressing plate, then after hot pressing, the primary cylinder shrinks to drive the secondary cylinder to move, so that the sliding plate continues to move, and then the push plate pushes the capacitor core onto the sliding plate.

(III) advantageous effects

Compared with the prior art, the invention provides a finished product hot-pressing mechanism which has the following beneficial effects:

this mechanism can finalize the design the pre-compaction to the electric capacity core earlier, then utilizes the hot pressboard to carry out the hot pressing to the electric capacity core, makes the difficult bounce-back deformation of electric capacity core, has guaranteed the good quality of electric capacity core, and hot pressing assembly can cooperate the use with other mechanisms in addition, and the high manual operation that reduces of degree of automation also can regard as independent hot pressing to use, and the suitability is good.

Drawings

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

FIG. 2 is a front view of the hot press assembly of the present invention;

FIG. 3 is an enlarged schematic view of FIG. 1 at A according to the present invention;

FIG. 4 is a schematic diagram of a side view of the capacitor core of the present invention on a receiving and transferring plate;

FIG. 5 is a schematic diagram showing a side view of the capacitor core of the present invention on a lower heating plate;

FIG. 6 is a schematic view of the hot press assembly of the present invention with the hot press cylinder not extended;

FIG. 7 is a schematic view of the hot press assembly of the present invention with the hot press cylinder extended;

in the figure:

1. a hot pressing assembly; 11. a fixed mount; 12. a hot-pressing cylinder; 13. hot-pressing the top plate; 14. a pressure bearing frame; 15. a support frame; 16. a lower hot pressing plate; 17. an upper hot pressing plate; 18. heating a tube; 19. an electric conveyor belt; 191. a material sliding plate;

2. a flattening mechanism; 21. flattening the air cylinder; 22. flattening the bottom plate; 23. a fixed block;

3. a transport assembly; 31. a material conveying mechanism; 311. a material conveying track; 312. a material conveying motor; 313. a material conveying seat; 314. a material conveying synchronous belt; 315. a material transporting shaft body; 32. a material poking mechanism; 321. a parallel cylinder; 322. a vertical cylinder; 323. a material shifting rail plate; 324. dialing a plate; 33. a material distributing component; 331. a material-distributing synchronous belt; 332. a material distributing motor; 333. a receiving transfer plate; 334. a slide rail base; 34. a core pushing mechanism; 341. an upper slide rail; 342. a sliding plate; 343. pushing the plate; 344. a primary cylinder; 345. a secondary cylinder; 35. a photodetector; 351. detecting a plate;

4. and a capacitor core.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

A finished product hot-pressing mechanism comprises a hot-pressing assembly 1, a flattening mechanism 2 and a conveying assembly 3;

the hot-pressing assembly 1 comprises a fixed frame 11, a hot-pressing cylinder 12, a hot-pressing top plate 13 and a pressure bearing frame 14, wherein the hot-pressing cylinder 12 is fixed in the fixed frame 11, a support frame 15 is fixed on the fixed frame 11, a lower hot-pressing plate 16 is fixed on the pressure bearing frame 14 through a heat insulation column, the hot-pressing top plate 13 is fixed on the support frame 15 through a support column, an upper hot-pressing plate 17 is fixed at the bottom of the hot-pressing top plate 13 through the heat insulation column, heating pipes 18 are arranged in the upper hot-pressing plate 17 and the lower hot-pressing plate 16, an electric conveying belt 19 is arranged on one side of the hot-pressing assembly 1, and a power plug is arranged on one side of the fixed frame 11 through a power line;

the transportation assembly 3 comprises a material conveying mechanism 31, a material poking mechanism 32 and a material distribution assembly 33, the material conveying mechanism 31 is fixed on the fixing frame 11, the material poking mechanism 32 is fixed on the side wall of the hot-pressing top plate 13, the material distribution mechanism is fixedly installed on the supporting frame 15, and the material distribution assembly 33 and the lower hot-pressing plate 16 are both provided with capacitor cores 4.

One side of the electric conveyor belt 19 is provided with a material sliding plate 191, and one end of the material sliding plate 191 extends to one side of the upper hot pressing plate 17.

The flattening mechanism 2 comprises a flattening cylinder 21, a flattening bottom plate 22 and a fixing block 23, the flattening bottom plate 22 is fixedly arranged on the flattening cylinder 21, the flattening cylinder 21 is fixedly arranged on the fixing block 23, the flattening mechanism 2 is positioned above the material conveying assembly, and the fixing block 23 is fixed on an external support body.

Referring to fig. 1-7, firstly, the power connector on one side of the fixing frame 11 is connected to an external power supply, when in use, when the capacitor core 4 is transported on the material transporting mechanism 31, the flattening cylinder 21 can extend to further enable the flattening bottom plate 22 to flatten the capacitor core 4, and perform pre-pressing and flattening operation on the capacitor core 4, so as to facilitate the subsequent hot-pressing assembly 1 to perform secondary hot-pressing molding on the capacitor core 4, while the flattening mechanism 2 is fixed on an external support body according to actual space during erection, so that the installation and use are more flexible, then the material shifting mechanism 32 can move the capacitor core 4 onto the material distributing assembly 33, the material distributing assembly 33 can move the capacitor core 4 to the corresponding lower hot-pressing plate 16 and move the capacitor core 4 onto the lower hot-pressing plate 16, then the hot-pressing cylinder 12 can push the pressure bearing frame 14 to move, the pressure bearing frame 14 slides on the supporting frame 15 and pushes the lower hot-pressing plate 16, then electric capacity core 4 can be flattened down between hot pressboard 16 and the hot pressing roof 13, heating pipe 18 can heat hot pressboard 16 and hot pressing roof 13 down, thereby better carry out hot pressing design to electric capacity core 4, and thermal-insulated post can reduce thermal transmission, electric capacity core 4 after being hot-pressed is pushed away to on the sliding plate 191 by core pushing mechanism 34 on the branch material subassembly 33, sliding plate 191 can conveniently be fallen to electric conveyer belt 19 by electric capacity core 4 after the hot pressing on, play the guide effect, then electric conveyer belt 19 transports electric capacity core 4 away.

Example two

The function of flexibly distributing the capacitor cores 4 is added on the basis of the first embodiment.

The material transporting mechanism 31 comprises a material transporting track 311, a material transporting motor 312 and a material transporting seat 313, wherein the material transporting track 311 is fixed on the fixing frame 11 through a fixing plate, the material transporting seat 313 is in sliding clamped connection with the material transporting track 311, the material transporting motor 312 is fixed on the fixing plate, a material transporting synchronous belt 314 is meshed on the material transporting motor 312, one side of the material transporting synchronous belt 314 is fixedly connected with the bottom of the material transporting seat 313, and a material transporting shaft body 315 is meshed on the material transporting synchronous belt 314.

The material shifting mechanism 32 comprises a parallel cylinder 321, a vertical cylinder 322, a material shifting rail plate 323 and a shifting plate 324, the parallel cylinder 321 is fixed on the upper surface of the hot-pressing top plate 13, the material shifting rail plate 323 is fixed on the side wall of the hot-pressing top plate 13, the vertical cylinder 322 is slidably clamped on the side wall of the material shifting rail plate 323, the executing end of the parallel cylinder 321 is fixedly connected on the side wall of the vertical cylinder 322, and the shifting plate 324 is fixed on the executing end of the vertical cylinder 322.

Divide material subassembly 33 to include material synchronous belt 331, divide material motor 332, connect material transfer board 333, slide rail base 334 and push away core mechanism 34, it is in to push away core mechanism 34 fixed mounting the bottom of hot briquetting board 13, divide material motor 332 to fix through the connecting plate the bottom of support frame 15, divide the inboard of material synchronous belt 331 with the output shaft that divides material motor 332 meshes mutually, slide rail base 334 is fixed on the support frame 15, divide material synchronous belt 331 to pass through belt dabber movable mounting in between the slide rail base 334, connect material transfer board 333 slip joint to be in on the slide rail base 334, divide the lateral wall of material synchronous belt 331 with the bottom that connects material transfer board 333 is fixed mutually.

The side wall of the slide rail base 334 is fixed with a photoelectric detector 35, and the side wall of the material receiving transfer plate 333 is provided with a detection plate 351 matched with the photoelectric detector 35 for use.

Referring to fig. 1-7, when the mechanism is used, the material transporting shaft 315 needs to be installed at the source of the capacitor core 4, so that transportation is facilitated, and labor is saved, the material transporting motor 312 can drive the material transporting synchronous belt 314 to move, then the material transporting synchronous belt 314 can drive the material transporting seat 313 to slide on the material transporting track 311, then the capacitor core 4 can be placed on the material transporting seat 313, so that the capacitor core 4 can be transported, the material shifting mechanism 32 can transfer the capacitor core 4 on the material transporting mechanism 31 to the material distributing assembly 33, after the material transporting seat 313 transports the capacitor core 4 in place, the parallel cylinder 321 can extend to drive the vertical cylinder 322 to move on the material shifting rail plate 323, then the vertical cylinder 322 can drive the material shifting plate 324 to the position where the capacitor core 4 is to be placed, then the parallel cylinder 321 contracts, so as to drive the material shifting plate 324 to pull the capacitor core 4 to the material receiving transfer plate 333, divide material motor 332 to drive and divide material hold-in range 331 to rotate and then make and connect material transfer plate 333 to move on slide rail base 334, and then remove electric capacity core 4 to corresponding hot pressing subassembly 1 department, then connect electric capacity core 4 on the material transfer plate 333 to carry out the transfer before the hot pressing and after the hot pressing by core pushing mechanism 34, divide material motor 332 to be servo motor, photoelectric detector 35 can trigger when being sheltered from by detection board 351, play and refer to servo motor original point effect, servo motor is current equipment, its corollary equipment all uses ripe extensive in each field, do not describe here too much.

EXAMPLE III

The function of stabilizing the core 4 of the transfer capacitor is added to the first embodiment.

The core pushing mechanism 34 includes an upper slide rail 341, a sliding plate 342, a pushing plate 343, a primary air cylinder 344 and a secondary air cylinder 345, the upper slide rail 341 is fixed at the bottom of the hot pressing top plate 13, the sliding plate 342 is slidably engaged with a side wall of the upper slide rail 341, the pushing plate 343 is fixed at a side wall of the sliding plate 342, an execution end of the primary air cylinder 344 is fixed at a side wall of the upper slide rail 341, a reverse flap is fixed at a cylinder body of the primary air cylinder 344, the secondary air cylinder 345 is fixed at a side wall of the reverse flap, and an execution end of the secondary air cylinder 345 is fixed at the sliding plate 342.

Referring to fig. 1-7, when the capacitor core 4 on the receiving material transfer plate 333 needs to be transferred to the lower hot press plate 16, the secondary cylinder 345 contracts to drive the sliding plate 342 to move, so that the pushing plate 343 pushes the capacitor core 4 to move to the lower hot press plate 16, then after hot pressing, the primary cylinder 344 contracts to drive the secondary cylinder 345 to move, so that the sliding plate 342 continues to move, then the pushing plate 343 pushes the capacitor core 4 to the sliding plate 191, and the primary cylinder 344 and the secondary cylinder 345 perform actions in several times, thereby simplifying the pushing action, and therefore, the capacitor core 4 is moved more stably.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a finished product hot pressing mechanism which characterized in that: comprises a hot-pressing assembly (1), a flattening mechanism (2) and a transportation assembly (3);

the hot-pressing assembly (1) comprises a fixing frame (11), a hot-pressing cylinder (12), a hot-pressing top plate (13) and a pressure-bearing frame (14), the hot-pressing cylinder (12) is fixed in the fixing frame (11), a supporting frame (15) is fixed on the fixing frame (11), a lower hot-pressing plate (16) is fixed on the pressure-bearing frame (14) through a heat insulation column, the hot-pressing top plate (13) is fixed on the supporting frame (15) through a supporting column, an upper hot-pressing plate (17) is fixed at the bottom of the hot-pressing top plate (13) through the heat insulation column, heating pipes (18) are arranged in the upper hot-pressing plate (17) and the lower hot-pressing plate (16), an electric conveying belt (19) is arranged on one side of the hot-pressing assembly (1), and a power plug is arranged on one side of the fixing frame (11) through a power cord;

the transportation assembly (3) comprises a material conveying mechanism (31), a material stirring mechanism (32) and a material distributing assembly (33), the material conveying mechanism (31) is fixed on the fixed frame (11), the material stirring mechanism (32) is fixed on the side wall of the hot-pressing top plate (13), the material distributing mechanism is fixedly installed on the supporting frame (15), and the material distributing assembly (33) and the lower hot-pressing plate (16) are provided with capacitor cores (4).

2. The finished product hot press mechanism of claim 1, wherein: one side of the electric conveyor belt (19) is provided with a material sliding plate (191), and one end of the material sliding plate (191) extends to one side of the upper hot pressing plate (17).

3. The finished product hot press mechanism of claim 1, wherein: the flattening mechanism (2) comprises a flattening cylinder (21), a flattening bottom plate (22) and a fixing block (23), the flattening bottom plate (22) is fixedly installed on the flattening cylinder (21), the flattening cylinder (21) is fixedly installed on the fixing block (23), the flattening mechanism (2) is located above the material conveying assembly, and the fixing block (23) is fixed on an external supporting body.

4. The finished product hot press mechanism of claim 1, wherein: fortune material mechanism (31) are including fortune material track (311), fortune material motor (312) and fortune material seat (313), fortune material track (311) are fixed through the fixed plate on mount (11), fortune material seat (313) slip joint is in on fortune material track (311), fortune material motor (312) are fixed on the fixed plate, it has fortune material hold-in range (314) to mesh on fortune material motor (312), one side of fortune material hold-in range (314) with the bottom fixed connection of fortune material seat (313), it has fortune material axis body (315) to mesh on fortune material hold-in range (314).

5. The finished product hot press mechanism of claim 1, wherein: dial material mechanism (32) including parallel cylinder (321), perpendicular cylinder (322), dial material rail plate (323) and dial board (324), parallel cylinder (321) are fixed on the upper surface of hot pressing roof (13), it fixes to dial material rail plate (323) on the lateral wall of hot pressing roof (13), perpendicular cylinder (322) slip joint is in dial on the lateral wall of material rail plate (323), the execution end fixed connection of parallel cylinder (321) is in on the lateral wall of perpendicular cylinder (322), it fixes to dial board (324) on the execution end of perpendicular cylinder (322).

6. The finished product hot press mechanism of claim 1, wherein: divide material subassembly (33) including dividing material hold-in range (331), dividing material motor (332), connecing material transfer board (333), slide rail base (334) and push away core mechanism (34), push away core mechanism (34) fixed mounting in the bottom of roof of the hot pressing (13), divide material motor (332) to fix through the connecting plate the bottom of support frame (15), divide the inboard of material hold-in range (331) with the output shaft of dividing material motor (332) meshes mutually, slide rail base (334) are fixed on support frame (15), divide material hold-in range (331) to pass through belt dabber movable mounting in between slide rail base (334), connect material transfer board (333) slip joint in on slide rail base (334), divide the lateral wall of material hold-in range (331) with the bottom that connects material transfer board (333) is fixed mutually.

7. The finished product hot press mechanism of claim 6, wherein: the side wall of the sliding rail base (334) is fixedly provided with a photoelectric detector (35), and the side wall of the material receiving transfer plate (333) is provided with a detection plate (351) matched with the photoelectric detector (35) for use.

8. The finished product hot press mechanism of claim 6, wherein: the core pushing mechanism (34) comprises an upper sliding rail (341), a sliding plate (342), a pushing plate (343), a primary air cylinder (344) and a secondary air cylinder (345), wherein the upper sliding rail (341) is fixed at the bottom of the hot-pressing top plate (13), the sliding plate (342) is slidably clamped on the side wall of the upper sliding rail (341), the pushing plate (343) is fixed on the side wall of the sliding plate (342), the execution end of the primary air cylinder (344) is fixed on the side wall of the upper sliding rail (341), a reverse folding plate is fixed on the cylinder body of the primary air cylinder (344), the secondary air cylinder (345) is fixed on the side wall of the reverse folding plate, and the execution end of the secondary air cylinder (345) is fixed on the sliding plate (342).