CN114939947A

CN114939947A - Plastic sole forming equipment capable of automatically discharging

Info

Publication number: CN114939947A
Application number: CN202210594868.3A
Authority: CN
Inventors: 姜云
Original assignee: Jieshou Xusheng Plastic Products Co ltd
Current assignee: Jieshou Xusheng Plastic Products Co ltd
Priority date: 2022-05-27
Filing date: 2022-05-27
Publication date: 2022-08-26
Anticipated expiration: 2042-05-27
Also published as: CN114939947B

Abstract

The invention belongs to the technical field of sole processing, and particularly relates to plastic sole forming equipment capable of automatically discharging. This but automatic discharge's plastic sole former, reached and driven the part of taking when rotatory at needs, joint through five inserted blocks and drive gear, in drive gear is rotatory, it rotates to drive an installation section of thick bamboo, when the part of taking goes up and down and not the irrotational in needs drive, drive the lifting disk downstream through the pneumatic cylinder, cancel being connected between an installation section of thick bamboo and the drive gear, make in the inserted link of linkage worm wheel dish below inserts the inserting groove, and make linkage worm wheel dish and worm meshing, it moves to drive the part of taking through drive mechanism, it drives different structures under the different situation through a drive unit to have reached, and reduce staff's fatigue strength through full mechanical operation, increase the effect to forming die's the efficiency of unloading.

Description

Plastic sole forming equipment capable of automatically discharging

Technical Field

The invention relates to the technical field of sole processing, in particular to plastic sole forming equipment capable of automatically discharging.

Background

The sole is rather complex in construction and in a broad sense may include all of the materials forming the sole, such as the outsole, midsole and heel. In a narrow sense, only the outsole is referred to, and the common characteristics of the general sole materials should have the characteristics of wear resistance, water resistance, oil resistance, heat resistance, pressure resistance, impact resistance, good elasticity, easy adaptation to the foot shape, difficult deformation after shaping, heat preservation, easy moisture absorption and the like, and simultaneously should be matched with the midsole to have the brake function of preventing slipping and easy stopping when the foot is changed during walking. The sole materials are of various types and can be divided into natural type bottom materials and synthetic type bottom materials. The natural bottom materials comprise natural bottom leather, bamboo, wood and the like, and the synthetic bottom materials comprise rubber, plastics, rubber and plastic combined materials, regenerated leather and elastic hardboard;

the existing sole needs a worker to take out the formed sole from the cavity after extrusion forming and place the formed sole in the storage box, the forming die operates the next sole, the worker needs to continuously bend to pull out the sole from the cavity, manual discharging reduces the efficiency of the forming die for processing the sole, and the labor intensity of the worker is increased.

Disclosure of Invention

The invention provides a plastic sole forming device capable of automatically discharging materials, which is based on the technical problems that after the existing sole is extruded and formed, workers are required to take out the formed sole from a cavity, manual discharging reduces the sole processing efficiency of a forming die, and the labor intensity of the workers is increased.

The invention provides plastic sole forming equipment capable of automatically discharging, which comprises a forming die, wherein a discharging device is arranged on one side surface of the forming die, the discharging device is composed of a first mounting block, a second mounting block, a combined driving part, a transmission mechanism and a taking part, the first mounting block and the second mounting block are both mounted on one side surface of the forming die, and the combined driving device drives the taking part to rotate and drives the taking part to ascend or descend through the transmission mechanism.

Preferably, the driving part comprises a driving motor, the driving motor is fixedly mounted on the inner wall of the first mounting block, a driving gear is fixedly sleeved on the surface of a main shaft of the driving motor, four insertion grooves distributed in an annular array are formed in the upper surface of the driving gear, a mounting cylinder is fixedly mounted on the lower surface of the second mounting block through a bearing, and a first mounting cavity is formed in the lower surface of the mounting cylinder;

through above-mentioned technical scheme, reached and installed driving motor through first installation piece to install the installation section of thick bamboo in the second installation piece through the bearing, make the installation section of thick bamboo can carry out rotatory effect in the second installation piece.

Preferably, a transition port is formed in the inner top wall of the first mounting cavity, a second mounting cavity is formed in the inner top wall of the transition port, a hydraulic cylinder is fixedly mounted on the inner wall of the upper end of the second mounting cavity, a lifting disc is fixedly connected to the surface of one end, away from the piston, of a hydraulic rod of the hydraulic cylinder, a piston ring is fixedly connected to the upper surface of the lifting disc, and the outer surface of the lifting disc is movably sleeved with the inner wall of the second mounting cavity;

through above-mentioned technical scheme, reached and installed the pneumatic cylinder through the second installation cavity to drive the effect that the lifting disk removed in the second installation cavity through the pneumatic cylinder.

Preferably, five shunting ports distributed in an annular array are formed in the inner side wall of the second mounting cavity, a communicating port is formed in the inner wall of one end of each shunting port, five inserting ports distributed in an annular array are formed in the inner side wall of the first mounting cavity, the inner walls of the five communicating ports are communicated with the inner walls of the five inserting ports respectively, an inserting block is movably inserted into the inner wall of each inserting port, a rubber block is fixedly connected to the surface of one side of each inserting block, and hydraulic oil is arranged in each of the second mounting cavity, the shunting ports and the communicating ports;

through the technical scheme, the hydraulic oil in the second mounting cavity is conveyed to the communication port and the inserting port through the five shunting ports, the inserting block in the inserting port is extruded, and the extending or retracting state of the inserting block is controlled.

Preferably, the inner wall of the transition port is fixedly connected with a guide sleeve through a bearing, the lower surface of the lifting disc is fixedly connected with a connecting rod through a bearing, the outer surface of the connecting rod is movably sleeved with the inner wall of the guide sleeve, the lower surface of the connecting rod is fixedly connected with a linkage worm wheel disc, and the lower surface of the linkage worm wheel disc is fixedly connected with four insertion rods distributed in an annular array;

through above-mentioned technical scheme, reached and led to the connecting rod through the uide bushing to through the uide bushing and cross being connected between the ferry-seat and the relation of being connected between connecting rod and the lifting disk, make linkage worm wheel dish can not drive lifting disk synchronous revolution's effect when rotatory.

Preferably, the four insertion rods are movably inserted into the inner walls of the four insertion grooves respectively, a first meshing groove is formed in the upper surface of the linkage worm wheel disc, the inner wall of the first meshing groove penetrates through and extends to the lower surface of the insertion rod, and the outer surface of one side of each of the five insertion blocks is movably inserted into the inner surface of the tooth socket of the driving gear;

through above-mentioned technical scheme, reached and stretched out in the interface through five grafting blocks of control to with joint between the drive gear, make when drive gear is rotatory, drive the installation section of thick bamboo and rotate, and make linkage worm wheel dish carry out rotatory effect along with drive gear through the cooperation of inserted bar and inserting groove.

Preferably, the transmission mechanism comprises a connecting block, a lifting port is formed in the upper surface of the connecting block, a through port is formed in the inner wall of the first mounting cavity, one end of the through port penetrates through and extends to the inner wall of the lifting port, a worm is fixedly connected to the inner wall of the through port through a bearing, the worm is in meshing transmission with the linkage worm wheel disc, a first mounting port is formed in the inner wall of the connecting block, and a first support rod and a second support rod are fixedly connected to the inner wall of one side of the first mounting port through bearings respectively;

through above-mentioned technical scheme, reached and installed the worm through the through-going mouth to mesh between linkage worm wheel dish decline back and the worm, and then carry out driven effect to the worm.

Preferably, a first belt pulley is fixedly sleeved on the outer surface of the worm inside the first mounting port, a second belt pulley and a first transmission gear are respectively fixedly sleeved on the outer surface of the first support rod, a second transmission gear is fixedly sleeved on the outer surface of the second support rod, the first belt pulley is in transmission connection with the second belt pulley through a belt, and the first transmission gear is in meshing transmission with the second transmission gear;

through above-mentioned technical scheme, reached and connected through the transmission between first belt pulley and the second belt pulley, driven first bracing piece and worm and carry out synchronous rotation to drive the effect that the second bracing piece carries out synchronous antiport through the meshing of first drive gear and second drive gear.

Preferably, the taking component comprises a second mounting opening, the second mounting opening is formed in the inner walls of two sides of the lifting opening, one end of each of the worm and the second support rod penetrates through the inner wall of one side of the second mounting opening and is fixed to the inner wall of the second mounting opening through a bearing, third transmission gears are fixedly sleeved on the outer surfaces of the worm and the second support rod, a lifting block is arranged on the inner wall of the lifting opening, second meshing grooves are formed in the surfaces of two sides of the lifting block, and the two third transmission gears are respectively in meshing transmission with the second meshing grooves on two sides of the lifting block;

through above-mentioned technical scheme, reached and made to carry out reverse synchronous revolution between worm and the second bracing piece through the cooperation of first belt pulley and second belt pulley and the cooperation of first drive gear and second drive gear, and then drive two third drive gears and carry out the operation with fast reversal, carry out the effect controlled to the lift of elevator.

Preferably, the lower surface of the lifting block is fixedly connected with a material taking block, two vacuum chucks are mounted on the lower surface of the material taking block, a third mounting opening is formed in the surface of one side of the second mounting block, a vacuum pump is fixedly mounted on the inner wall of the third mounting opening, and the vacuum pump controls the two vacuum chucks through a vacuum tube;

through above-mentioned technical scheme, reached through the control of vacuum pump to vacuum chuck for the effect of unloading is got and press from both sides to the sole of taking the piece in the die cavity.

The beneficial effects of the invention are as follows:

1. through setting up joint drive part, reached and driven when the part of taking is rotatory at needs, joint through five inserted blocks and drive gear, in drive gear is rotatory, it rotates to drive an installation section of thick bamboo, when the part of taking is gone up and down and irrotational to drive at needs, drive the lifting disk downstream through the pneumatic cylinder, cancel the connection between an installation section of thick bamboo and the drive gear, make the inserted link of linkage worm wheel dish below insert the inserting groove in, and make linkage worm wheel dish and worm meshing, drive the part of taking through drive mechanism and move, reached and driven different structure under the different situation through a drive unit, and reduce staff's fatigue strength through full mechanical operation, increase the effect to forming die's the efficiency of unloading.

2. Through setting up drive mechanism, reached and driven the linkage worm wheel dish through drive gear's rotation and rotate, and then driven the worm rotation that meshes with it, through the cooperation of first belt pulley and second belt pulley and the cooperation of first drive gear and second drive gear make and carry out reverse synchronous rotation's effect between worm and the second bracing piece.

3. Through the arrangement of the taking part, the purpose that the worm and the second supporting rod rotate reversely and synchronously to drive the two third transmission gears to run reversely at the same speed is achieved, the lifting of the lifting block is controlled, the vacuum sucker is controlled through the vacuum pump, the taking block is used for clamping and discharging the sole in the cavity, and the sole processing efficiency is improved.

Drawings

FIG. 1 is a schematic view of a plastic sole molding apparatus with automatic discharging function according to the present invention;

FIG. 2 is a perspective view of a shoe material device of the automatic discharging plastic shoe sole molding equipment according to the present invention;

FIG. 3 is a sectional view of a first installation cavity structure of the automatic discharging plastic sole molding equipment provided by the invention;

FIG. 4 is a partial sectional view of the structure of the mounting cylinder of the automatic discharging plastic shoe sole molding equipment of the present invention;

FIG. 5 is a perspective view of the combined driving part of the automatic discharging plastic shoe sole molding equipment according to the present invention;

FIG. 6 is an exploded view of the combined driving part of the automatic discharging plastic shoe sole molding equipment according to the present invention;

FIG. 7 is a sectional view of a connecting block structure of a plastic sole molding device capable of automatically discharging materials according to the present invention;

FIG. 8 is a perspective view of the plug block structure of the automatic discharging plastic shoe sole molding equipment according to the present invention.

In the figure: 1. forming a mold; 2. a first mounting block; 21. a second mounting block; 3. a drive motor; 31. a drive gear; 32. inserting grooves; 33. mounting the cylinder; 34. a first mounting cavity; 35. a transition port; 36. a second mounting cavity; 37. a hydraulic cylinder; 38. a lifting plate; 39. a piston ring; 310. a shunt port; 311. a communication port; 312. an interface; 313. an insertion block; 314. a rubber block; 315. a guide sleeve; 316. a connecting rod; 317. a linkage worm wheel disc; 318. a plug rod; 319. a first engaging groove; 4. connecting blocks; 41. a lifting port; 42. a through opening; 43. a worm; 44. a first mounting port; 45. a first support bar; 46. a second support bar; 47. a first pulley; 48. a second pulley; 49. a first transmission gear; 410. a second transmission gear; 5. a second mounting opening; 51. a third transmission gear; 52. a lifting block; 53. a second engaging groove; 54. taking a material block; 55. a vacuum chuck; 56. a third mounting port; 57. a vacuum pump.

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.

Referring to fig. 1-8, a plastic sole forming device capable of automatically discharging comprises a forming die 1, wherein a discharging device is arranged on one side surface of the forming die 1, the discharging device is composed of a first mounting block 2, a second mounting block 21, a combined driving part, a transmission mechanism and a taking part, the first mounting block 2 and the second mounting block 21 are both mounted on one side surface of the forming die 1, and the combined driving device drives the taking part to rotate and drives the taking part to ascend or descend through the transmission mechanism;

the driving part comprises a driving motor 3, the driving motor 3 is fixedly mounted on the inner wall of the first mounting block 2 in order to determine the mounting position of the driving motor 3, furthermore, a driving gear 31 is fixedly sleeved on the surface of a main shaft of the driving motor 3, in order to facilitate the connection between the driving gear 31 and other structures, four insertion grooves 32 distributed in an annular array are formed in the upper surface of the driving gear 31, in order to mount a mounting cylinder 33 and enable the mounting cylinder 33 to rotate after mounting, the mounting cylinder 33 is fixedly mounted on the lower surface of the second mounting block 21 through a bearing, and a first mounting cavity 34 is formed in the lower surface of the mounting cylinder 33;

in order to mount the hydraulic cylinder 37, the transition port 35 is formed in the inner top wall of the first mounting cavity 34, further, the second mounting cavity 36 is formed in the inner top wall of the transition port 35, the hydraulic cylinder 37 is fixedly mounted on the inner wall of the upper end of the second mounting cavity 36, in order to control the lifting of the lifting disc 38, the surface of one end, away from the piston, of a hydraulic rod of the hydraulic cylinder 37 is fixedly connected with the lifting disc 38, in order to seal the lifting disc 38 with hydraulic oil in the second mounting cavity 36, the piston ring 39 is fixedly connected to the upper surface of the lifting disc 38, further, the outer surface of the lifting disc 38 is movably sleeved with the inner wall of the second mounting cavity 36, and the effect that the lifting disc 38 is driven to move in the second mounting cavity 36 through the hydraulic cylinder 37 is achieved;

in order to control the position of the insertion block 313 by the hydraulic oil in the second mounting cavity 36, five branch ports 310 distributed in an annular array are formed in the inner side wall of the second mounting cavity 36, further, communication ports 311 are formed in the inner walls of one ends of the five branch ports 310, further, in order to mount the insertion block 313, five insertion ports 312 with inner walls in a T-shaped structure are formed in the inner side wall of the first mounting cavity 34, the inner walls of the five communication ports 311 are respectively communicated with the inner walls of the five insertion ports 312, further, the insertion block 313 is movably inserted into the inner wall of the insertion port 312, in order to prevent the hydraulic oil from flowing out of the insertion port 312, a rubber block 314 is fixedly connected to the surface of one side of the insertion block 313, the rubber block 314 is convenient for pushing the insertion block 313 by the hydraulic oil, and the hydraulic oil in the second mounting cavity 36 is transferred to the communication ports 311 and the insertion ports 312 by the five branch ports 310, the insertion block 313 in the insertion port 312 is extruded to control the extension or retraction state of the insertion block 313;

in order to guide the connecting rod 316, a guide sleeve 315 is fixedly connected to the inner wall of the transition port 35 through a bearing, further, in order to prevent the lifting disk 38 from rotating along with the linkage worm wheel disk, the lower surface of the lifting disk 38 is fixedly connected to the connecting rod 316 through a bearing, the outer surface of the connecting rod 316 is movably sleeved with the inner wall of the guide sleeve 315, further, the lower surface of the connecting rod 316 is fixedly connected to the linkage worm wheel disk 317, in order to enable the linkage worm wheel disk 317 to rotate along with the rotation of the driving gear 31, the lower surface of the linkage worm wheel disk 317 is fixedly connected to four insertion rods 318 distributed in an annular array, the four insertion rods 318 are respectively movably inserted into the inner walls of the four insertion grooves 32, in order to enable the linkage worm wheel disk 317 to be matched with the worm 43, a first engagement groove 319 is formed in the upper surface of the linkage worm wheel disk 317, and the inner wall of the first engagement groove 319 penetrates through and extends to the lower surface of the insertion rods 318, the outer surface of one side of the five insertion blocks 313 is movably inserted into the inner surface of the tooth groove of the driving gear 31, so that the five insertion blocks 313 are controlled to extend out of the insertion port 312 and are clamped with the driving gear 31, the driving gear 31 is driven to rotate, the mounting cylinder 33 is driven to rotate, and the linkage worm wheel disc 317 rotates along with the driving gear 31 through the matching of the insertion rod 318 and the insertion groove 32;

the transmission mechanism comprises a connecting block 4, a lifting port 41 is formed in the upper surface of the connecting block 4, in order to install the worm 43, a through port 42 is formed in the inner wall of the first installation cavity 34, one end of the through port 42 penetrates through and extends to the inner wall of the lifting port 41, further, the inner wall of the through port 42 is fixedly connected with the worm 43 through a bearing, the worm 43 is in meshing transmission with the linkage worm wheel disc 317, in order to install the transmission mechanism, a first installation port 44 is formed in the inner wall of the connecting block 4, and a first support rod 45 and a second support rod 46 are respectively and fixedly connected with the inner wall of one side of the first installation port 44 through bearings, so that the effect of meshing between the linkage worm wheel disc 317 and the worm 43 after the linkage worm wheel disc 317 descends is achieved, and the worm 43 is further driven;

in order to transmit the rotation of the worm 43 to the first support rod 45, a first belt pulley 47 is fixedly sleeved on the outer surface of the worm 43 inside the first mounting port 44, a second belt pulley 48 and a first transmission gear 49 are respectively fixedly sleeved on the outer surface of the first support rod 45, the first belt pulley 47 is in transmission connection with the second belt pulley 48 through a belt, further, in order to transmit the rotation force of the first support rod 45 to the second support rod 46 and enable the rotation directions of the first support rod 45 and the second support rod 46 to be opposite, a second transmission gear 410 is fixedly sleeved on the outer surface of the second support rod 46 and enable the first transmission gear 49 to be in meshing transmission with the second transmission gear 410, so that the effect of driving the first support rod 45 and the worm 43 to synchronously rotate through the transmission connection between the first belt pulley 47 and the second belt pulley 48 and driving the second support rod 46 to synchronously and reversely rotate through the meshing of the first transmission gear 49 and the second transmission gear 410 is achieved;

the taking component comprises a second mounting port 5, in order to mount two third transmission gears 51, the second mounting port 5 is arranged on the inner walls of two sides of the lifting port 41, so that one ends of the worm 43 and the second support rod 46 penetrate through the inner wall of one side of the second mounting port 5 and are fixed on the inner wall of the second mounting port 5 through bearings, the third transmission gears 51 are fixedly sleeved on the outer surfaces of the worm 43 and the second support rod 46, in order to drive the lifting block 52 through the two third transmission gears 51, the lifting block 52 is arranged on the inner wall of the lifting port 41, the second meshing grooves 53 are formed in the two side surfaces of the lifting block 52, the two third transmission gears 51 are respectively meshed with the second meshing grooves 53 on two sides of the lifting block 52 for transmission, and the purpose that the worm 43 and the second support rod 46 rotate reversely and synchronously through the matching of the first belt pulley 47 and the second belt pulley 48 and the matching of the first transmission gear 49 and the second transmission gear 410 is achieved, further driving the two third transmission gears 51 to run in the same speed and reverse directions, and controlling the lifting of the lifting block 52;

in order to ensure that the sole in the cavity is taken out, a material taking block 54 is fixedly connected to the lower surface of the lifting block 52, two vacuum suction cups 55 are mounted on the lower surface of the material taking block 54, in order to mount a vacuum pump 57, a third mounting port 56 is formed in one side surface of the second mounting block 21, and the vacuum pump 57 is fixedly mounted on the inner wall of the third mounting port 56, so that the vacuum pump 57 controls the two vacuum suction cups 55 through the vacuum tube, the vacuum suction cups 55 are controlled through the vacuum pump 57, and the sole in the cavity is clamped and unloaded by the material taking block 54.

The working principle is as follows: when the shoe material device is used, after the shoe sole is subjected to cold press molding by the molding mold 1, the shoe material device unloads the shoe sole in the cavity of the molding mold 1, the driving motor 3 drives the driving gear 31 to rotate, the hydraulic cylinder 37 drives the lifting disc 38 to move upwards, and then hydraulic oil in the second installation cavity 36 is extruded, so that the hydraulic oil in the second installation cavity 36 flows into the five insertion ports 312 through the diversion port 310 and the communication port 311, the insertion blocks 313 are extruded, the five insertion blocks 313 are clamped on the surface of the driving gear 31, and the driving gear 31 drives the installation cylinder 33 to rotate while rotating;

when the connecting block 4 on the mounting cylinder 33 rotates to one side of the forming die 1, the hydraulic cylinder 37 drives the lifting disc 38 to descend, the hydraulic oil in the inserting port 312, the communicating port 311 and the flow dividing port 310 is sucked into the second mounting cavity 36 again, so that the five inserting blocks 313 are retracted into the inserting port 312, the connection between the mounting cylinder 33 and the driving gear 31 is cancelled, meanwhile, the descending of the lifting disc 38 drives the connecting rod 316 to move downwards in the guide sleeve 315, the linkage worm wheel disc 317 is driven to descend, the inserting rod 318 below the linkage worm wheel disc 317 is inserted into the inserting groove 32, the linkage worm wheel disc 317 is meshed with the worm 43, the rotation of the driving gear 31 drives the linkage worm wheel disc 317 to rotate, and further, the worm 43 meshed with the linkage worm wheel disc 317 is driven to rotate;

the worm 43 drives the first belt pulley 47 and a third transmission gear 51 to rotate, the transmission of the first belt pulley 47 and the second belt pulley 48 drives the second supporting rod 46 to rotate, so that the first transmission gear 49 on the first supporting rod 45 is meshed with the second transmission gear 410 on the second supporting rod 46 for transmission, and further drives the second supporting rod 46 to rotate, the rotation of the second supporting rod 46 drives another third transmission gear 51 to rotate, so that the rotation directions of the two third transmission gears 51 are opposite, and further the lifting of the lifting block 52 is controlled simultaneously, so that the material taking block 54 extends into the cavity, and the vacuum pump 57 is used for adsorbing the sole in the cavity under the control of the vacuum suction cup 55, and further the discharging of the sole is completed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a but automatic discharge's plastic sole former, includes forming die (1), its characterized in that: a side surface of the forming die (1) is provided with a discharging device, the discharging device is composed of a first mounting block (2), a second mounting block (21), a combined driving component, a transmission mechanism and a taking component, the first mounting block (2) and the second mounting block (21) are mounted on the side surface of the forming die (1), and the combined driving device drives the taking component to rotate and pass through the transmission mechanism to drive the taking component to ascend or descend.

2. The apparatus for forming a plastic shoe sole capable of automatic discharging according to claim 1, wherein: the drive part comprises a drive motor (3), the drive motor (3) is fixedly installed on the inner wall of the first installation block (2), a drive gear (31) is sleeved on the surface of a main shaft of the drive motor (3), four insertion grooves (32) distributed in an annular array are formed in the upper surface of the drive gear (31), an installation barrel (33) is fixedly installed on the lower surface of the second installation block (21) through a bearing, and a first installation cavity (34) is formed in the lower surface of the installation barrel (33).

3. The apparatus for forming a plastic shoe sole capable of automatic discharging according to claim 2, wherein: transition opening (35) have been seted up to the interior roof of first installation cavity (34), second installation cavity (36) have been seted up to the interior roof of passing transition opening (35), the upper end inner wall fixed mounting of second installation cavity (36) has pneumatic cylinder (37), the one end fixed surface that the piston was kept away from to the hydraulic stem of pneumatic cylinder (37) is connected with lifting disk (38), the last fixed surface of lifting disk (38) is connected with piston ring (39), the surface of lifting disk (38) with the inner wall activity of second installation cavity (36) is cup jointed.

4. The apparatus for forming a plastic shoe sole with an automatic discharging function as claimed in claim 3, wherein: five diffluence ports (310) that are the ring array and distribute are seted up to the inside wall of second installation cavity (36), five intercommunication mouth (311) have all been seted up to the one end inner wall of diffluence port (310), five interface (312) that are the ring array and distribute are T shape structure are seted up to the inside wall of first installation cavity (34), five the inner wall of intercommunication mouth (311) respectively with five the inner wall of interface (312) communicates each other, the inner wall activity grafting of interface (312) has plug block (313), one side fixed surface of plug block (313) is connected with rubber block (314), the inside of second installation cavity (36), diffluence port (310) and intercommunication mouth (311) all is provided with hydraulic oil.

5. The apparatus for forming a plastic shoe sole capable of automatic discharging according to claim 4, wherein: the inner wall of crossing ferry (35) passes through bearing fixedly connected with uide bushing (315), the lower surface of lifter plate (38) passes through bearing fixedly connected with connecting rod (316), the surface of connecting rod (316) with the inner wall activity of uide bushing (315) is cup jointed, the lower fixed surface of connecting rod (316) is connected with linkage worm wheel dish (317), the lower fixed surface of linkage worm wheel dish (317) is connected with four pegs graft poles (318) that are the distribution of annular array.

6. The apparatus for forming a plastic shoe sole capable of automatic discharging according to claim 5, wherein: the four insertion rods (318) are movably inserted into the inner walls of the four insertion grooves (32), a first engagement groove (319) is formed in the upper surface of the linkage worm wheel disc (317), the inner wall of the first engagement groove (319) penetrates through and extends to the lower surface of the insertion rod (318), and the outer surface of one side of each of the five insertion blocks (313) is movably inserted into the inner surface of the tooth groove of the driving gear (31).

7. The apparatus for forming a plastic shoe sole capable of automatic discharging according to claim 5, wherein: drive mechanism includes connecting block (4), lift mouth (41) have been seted up to the upper surface of connecting block (4), the inner wall of first installation cavity (34) has been seted up and has been run through mouthful (42), just the one end that runs through mouthful (42) runs through and extends to the inner wall of lift mouth (41), the inner wall that runs through mouthful (42) passes through bearing fixedly connected with worm (43), worm (43) with linkage worm wheel dish (317) meshing transmission, first installing port (44) have been seted up to the inner wall of connecting block (4), one side inner wall of first installing port (44) passes through bearing difference fixedly connected with first bracing piece (45) and second bracing piece (46).

8. The automatic discharging plastic shoe sole forming equipment according to claim 7, wherein: worm (43) are located the fixed cover of the inside surface of first installing port (44) has connect first belt pulley (47), the fixed cover of the surface of first bracing piece (45) has connected second belt pulley (48) and first drive gear (49) respectively, second drive gear (410) has been cup jointed to the external fixation of second bracing piece (46), first belt pulley (47) with second belt pulley (48) are connected through belt drive, first drive gear (49) with second drive gear (410) meshing transmission.

9. The apparatus for forming a plastic shoe sole with an automatic discharging function according to claim 8, wherein: the taking component comprises a second mounting port (5), the second mounting port (5) is formed in the inner walls of two sides of the lifting port (41), one ends of the worm (43) and the second supporting rod (46) penetrate through the inner wall of one side of the second mounting port (5) and are fixed to the inner wall of the second mounting port (5) through bearings, third transmission gears (51) are fixedly sleeved on the outer surfaces of the worm (43) and the second supporting rod (46), lifting blocks (52) are arranged on the inner wall of the lifting port (41), second meshing grooves (53) are formed in the surfaces of two sides of each lifting block (52), and the two third transmission gears (51) are respectively meshed with the second meshing grooves (53) in two sides of each lifting block (52) for transmission.

10. The automatic discharging plastic shoe sole forming equipment according to claim 9, wherein: the lower surface of the lifting block (52) is fixedly connected with a material taking block (54), two vacuum suction cups (55) are mounted on the lower surface of the material taking block (54), a third mounting hole (56) is formed in the surface of one side of the second mounting block (21), a vacuum pump (57) is fixedly mounted on the inner wall of the third mounting hole (56), and the vacuum pump (57) controls the two vacuum suction cups (55) through vacuum tubes.