阅读说明：本技术 一种异口径连接管双向均冷防粘连脱模生产装置 (Two-way cold antiseized even drawing of patterns apparatus for producing of joining of patterns of different bore connecting pipe ) 是由 荀玉杰 于 2019-10-18 设计创作，主要内容包括：本发明涉及一种连接管,尤其涉及一种异口径连接管双向均冷防粘连脱模生产装置。本发明要解决的技术问题是提供一种异口径连接管双向均冷防粘连脱模生产装置,包括有支撑底板和支撑柱等；支撑底板顶端右侧与支撑柱进行焊接。为解决现有改性塑料异口径连接管生产装置在使用时,缺乏冷却装置,只能等融化塑料自行冷却,自行冷却速度慢且会出现冷却不均匀的现象,融化塑料有粘性,导致在脱模时,外表面冷却凝固后依旧可能会粘在模具壁上,同时内部未冷却,然后外部粘连内部导致整个产品形状被破坏的问题。本发明达到了快速均冷震动防粘连脱模,双翼转动式启模防擦伤成品表面形成擦痕影响美观,抱箍式迁移防受力不均导致成品夹持处变形影响使用的效果。(The invention relates to a connecting pipe, in particular to a bidirectional uniform-cooling anti-adhesion demolding production device for a different-caliber connecting pipe. The invention aims to solve the technical problem of providing a bidirectional cold-equalizing anti-adhesion demolding production device for a different-caliber connecting pipe, which comprises a supporting bottom plate, a supporting column and the like; and the right side of the top end of the supporting bottom plate is welded with the supporting column. For solving current different bore connecting pipe apparatus for producing of modified plastics when using, lack cooling device, can only wait to melt plastics and cool off by oneself, the cooling rate is slow and can appear cooling inhomogeneous phenomenon by oneself, it has viscidity to melt plastics, leads to when the drawing of patterns, and the surface cooling solidifies the back still can glue on the mould wall, and inside not cooling simultaneously, then outside adhesion inside leads to the destroyed problem of whole product shape. The invention achieves the effects of rapid uniform cooling, vibration, anti-adhesion and demoulding, attractive appearance caused by scratches formed on the surface of the anti-scratch finished product due to double-wing rotary type mould opening, and use influenced by deformation of the clamping position of the finished product due to uneven stress prevention due to hoop type migration.)

1. A bidirectional cold-equalizing anti-adhesion demolding production device for a different-caliber connecting pipe comprises a supporting base plate, a supporting column, a suspension supporting plate and a control screen, and is characterized by further comprising an internal-cooling vibration demolding device, a finished product traceless transfer device, a forming mold set and an external cold air nozzle; the right side of the top end of the supporting bottom plate is welded with the supporting column; an inner-cooling vibration demoulding device is arranged on the left side of the top end of the supporting bottom plate; the middle left part of the top end of the supporting bottom plate is connected with the forming die set; the top end of the supporting column is welded with the suspension supporting plate, and the middle part of the bottom of the suspension supporting plate is connected with the forming die set; the middle left part of the top end of the forming die set is connected with the control screen; a traceless transfer device is arranged at the right side of the bottom of the suspension support plate; the left side of the top end of the inner cooling vibration demoulding device is connected with an outer cooling air nozzle.

2. The bidirectional cold-equalizing anti-adhesion demolding production device for the different-caliber connecting pipe according to claim 1, wherein the internal-cooling vibration demolding device comprises a first electric push rod, a total power rotating shaft, an upper layer power gear, a lower layer power gear, a suspension plate, a second electric push rod, a first flat gear, a first helical gear, a second helical gear, a cam, a telescopic rod, a knocking demolding ball, a first spring, a first limiting plate, a second limiting plate and an internal-cooling transmission device; the top end of the first electric push rod is rotationally connected with the main power rotating shaft; an inner cooling transmission device is arranged on the right side of the first electric push rod; the upper side in the outer surface of the main power rotating shaft is mutually inserted with the upper layer power gear; the lower side in the outer surface of the main power rotating shaft is mutually inserted with the lower power gear; the top end of the total power rotating shaft is rotatably connected with the suspension plate; the right side of the bottom end of the suspension plate is connected with a second electric push rod; the middle left part of the bottom end of the suspension plate is connected with the first flat gear; the top end of the first flat gear is connected with a first helical gear, and the axle center of the first helical gear is connected with the suspension plate; the rear top of the first bevel gear is meshed with the second bevel gear, and the axle center of the front end of the second bevel gear is connected with the suspension plate; the rear end axle center of the second bevel gear is in transmission connection with the cam; a telescopic rod is arranged on the right of the cam, and the middle left side of the outer surface of the telescopic rod is connected with the suspension plate; the right side of the outer surface of the telescopic rod is welded with the knocking demoulding ball; the right side of the outer surface of the telescopic rod is mutually sleeved with the first spring, and the left side of the first spring is connected with the suspension plate; the left side of the outer surface of the telescopic rod is welded with the first limiting plate; the right side of the outer surface of the telescopic rod is welded with a second limiting plate, and the left side of the second limiting plate is connected with a first spring; the bottom end of the first electric push rod is connected with the supporting bottom plate; the left side of the top end of the suspension plate is connected with an external cold air nozzle; the bottom end of the second electric push rod is connected with the supporting bottom plate; the bottom end of the inner cooling transmission device is connected with the supporting bottom plate.

3. The production device for the bidirectional cold-equalizing anti-adhesion demolding production of the different-caliber connecting pipe according to claim 2, wherein the finished product traceless transfer device comprises a motor, a first driving wheel, a second flat gear, a third flat gear, a fourth flat gear, a third electric push rod, a fifth flat gear, a clamp control rod, a clamp frame, a screw rod, a third driving wheel, a fourth driving wheel, a first driving block, a second driving block, a first connecting rod, a second connecting rod and a soft clamp strip; the bottom end axis of the motor is connected with the first driving wheel; the bottom end axis of the motor is connected with a third flat gear, and the third flat gear is positioned below the first driving wheel; the left side of the outer surface of the first driving wheel is in transmission connection with a second driving wheel; the bottom end of the second transmission wheel is in transmission connection with the second flat gear; a fourth flat gear is arranged on the right of the third flat gear; the top end of the fourth flat gear is connected with a third electric push rod; a fifth flat gear is arranged at the right upper part of the fourth flat gear; the fifth flat gear axis is sleeved with the clamping control rod; the left middle part of the hoop clamping control rod is connected with the hoop clamping frame through a connecting rod; the middle upper part in the clamp frame is rotationally connected with the screw rod; the right side of the outer surface of the screw rod is mutually inserted with a third transmission wheel; the left side of the outer surface of the screw rod is connected with a first transmission block; the middle part of the outer surface of the screw rod is connected with a second transmission block; the bottom of the rice on the outer surface of the third driving wheel is in transmission connection with the fourth driving wheel; the middle part of the front end of the first transmission block is welded with the second connecting rod; the middle part of the front end of the second transmission block is welded with the first connecting rod; the left side of the first connecting rod is connected with the soft hoop strip through a bolt, and the left side of the front end of the soft hoop strip is connected with the second connecting rod; the bottom end of the motor is connected with the suspension support plate; the top end of the clamping control rod is connected with the suspension support plate.

4. The production device for realizing bidirectional cold equalizing, anti-adhesion and demolding of the different-caliber connecting pipe according to claim 3, wherein the forming die set comprises a fourth electric push rod, an inner base, an inner cooling channel, an outer die, an injection molding groove, a groove cover, a special-shaped connecting rod, an iron chain, a connecting square block, a thick steel wire, a first steel wire winding wheel, a fifth transmission wheel, a sixth transmission wheel, a seventh transmission wheel, a sixth flat gear, a seventh flat gear, a second steel wire winding wheel, a third bevel gear, a fourth bevel gear, an eighth transmission wheel, a fifth bevel gear, an eighth flat gear, a ninth flat gear, a fifth electric push rod and an injection molding port; the top end of the fourth electric push rod is connected with the inner base; an inner cooling channel is arranged on the right side of the outer surface of the inner base; the right side of the inner cooling channel is connected with the outer mold; the right side of the outer mold is provided with an injection molding groove; a groove cover is arranged on the right side of the injection molding groove; the right middle part of the groove cover is rotationally connected with the special-shaped connecting rod; the top end of the special-shaped connecting rod is connected with the iron chain; the top end of the iron chain is connected with the connecting rectangular block; the top end of the connecting rectangular block is connected with the thick steel wire; the thick steel wire is wound on the surface of the first steel wire winding wheel; the axle center of the front end of the first steel wire winding wheel is connected with a fifth transmission wheel; the left side of the outer surface of the fifth driving wheel is in transmission connection with the sixth driving wheel; the left side of the outer surface of the fifth driving wheel is in transmission connection with a seventh driving wheel, and the seventh driving wheel is positioned on the left side of the sixth driving wheel; the rear end axle center of the sixth driving wheel is in transmission connection with the third bevel gear; the rear end axle center of the seventh driving wheel is in transmission connection with the sixth flat gear; the left side of the outer surface of the sixth flat gear is meshed with the seventh flat gear; the axle center at the rear end of the seventh flat gear is in transmission connection with the second steel wire winding wheel; the front top of the third helical gear is meshed with the fourth helical gear; the front bottom of the third helical gear is meshed with the fifth helical gear; the top end of the fourth bevel gear is in transmission connection with an eighth transmission wheel; the bottom end of the fifth helical gear is in transmission connection with the eighth flat gear; the left side of the eighth spur gear is meshed with the ninth spur gear; the bottom end of the ninth flat gear is rotatably connected with the fifth electric push rod; the bottom end of the fifth electric push rod is connected with the injection port; the bottom end of the fourth electric push rod is connected with the supporting bottom plate; the outer surface of the eighth driving wheel is connected with a finished product traceless transfer device.

5. The production device for the bidirectional cold equalizing anti-adhesion demolding production of the different-caliber connecting pipe as claimed in claim 4, wherein the internal cooling transmission device comprises a lower annular chute, a first cylinder, a second cylinder, an internal and external double-tooth gear, an upper annular chute, a second spring, a stretching plate, a first internal cold air nozzle, a first push rod, a second internal cold air nozzle and a third spring; the left side of the bottom end of the lower annular sliding chute is connected with a first cylinder; the right side of the bottom end of the lower annular sliding chute is connected with a second cylinder; the top end of the lower annular chute is in sliding connection with the inner and outer double-tooth gears; the top ends of the inner and outer double-tooth gears are in sliding connection with the upper annular chute; the left side of the top in the upper annular chute is welded with the second spring; the right side of the top in the upper annular chute is welded with a third spring; the bottom of the second spring is welded with the stretching plate; the middle left side of the top end of the stretching plate is connected with a first inner cooling air nozzle; the left side of the top end of the stretching plate is welded with a first push resisting rod, and the first push resisting rod is positioned on the right side of the first inner cooling air nozzle; the middle right side of the top end of the stretching plate is welded with the second push resisting rod; the middle right side of the top end of the stretching plate is connected with a second inner cooling air nozzle, the second inner cooling air nozzle is positioned on the right side of the second push resisting rod, and the right side of the top end of the stretching plate is connected with a third spring; the bottom end of the first cylinder is connected with the supporting bottom plate; the bottom end of the second cylinder is connected with the supporting bottom plate.

6. The production device for the bidirectional cold-equalizing anti-adhesion demolding production of the different-caliber connecting pipe as claimed in claim 5, wherein the two groups of combined devices consisting of the inner cooling channel, the outer mold, the injection molding groove, the groove cover, the special-shaped connecting rod, the iron chain, the connecting rectangular block and the thick steel wire are respectively arranged on the left side and the right side of the inner base.

7. The production device for bidirectional cold equalizing anti-adhesion demolding of the different-caliber connecting pipe according to claim 6, wherein four combined devices consisting of the first flat gear, the first helical gear, the second helical gear, the cam, the telescopic rod, the knocking demolding ball, the first spring, the first limiting plate and the second limiting plate are arranged in pairs and are respectively positioned on the left side and the right side of the bottom end of the suspension plate.

8. The production device of claim 7, wherein two outer cold air nozzles are provided, and are respectively located on the left side of the top end and the right side of the top end of the inner cold vibration demoulding device.

9. The production device for bi-directional cold-equalizing anti-adhesion demolding of a different-caliber connecting pipe as claimed in claim 8, wherein three support blocks are arranged inside the inner cooling channel and are respectively located at the inner bottom, the inner middle part and the inner top of the inner cooling channel.

Technical Field

The invention relates to a connecting pipe, in particular to a bidirectional uniform-cooling anti-adhesion demolding production device for a different-caliber connecting pipe.

Background

The modified plastic is a plastic product which is processed and modified by methods such as filling, blending, reinforcing and the like on the basis of general plastics and engineering plastics and has improved performances such as flame retardance, strength, impact resistance, toughness and the like. Compared with metal, the modified plastic is lighter and lighter in volume and more corrosion-resistant, so that in the manufacturing of partial conveying pipelines, the modified plastic has a tendency of slowly replacing metal, particularly in the connecting pipelines needing to bear strong pressure change, the modified plastic is popular due to the characteristic of firmness and corrosion resistance, but the modified plastic is different from the metal, most of metal can be perfectly bonded with the same metal when being solidified from molten liquid during welding, but the plastic is different, a joint surface gap can be generated, the problem can be avoided only by solidification at the same time or within a short time, and the prior art has not strong pertinence to the problem.

Disclosure of Invention

The invention aims to overcome the defects that when the existing production device for the modified plastic different-caliber connecting pipe is used, a cooling device is lacked, molten plastic which is only injected into a mold can be automatically cooled, the automatic cooling is slow, the phenomena of inconsistent cooling speed and uneven cooling of an inner region, an outer region and a different region can occur, an internal fault can be caused finally, and the molten plastic has viscosity, so that when the mold is demolded, the outer surface can be stuck on the wall of the mold after being cooled and solidified, meanwhile, the inner part is not cooled, and then the outer part is stuck to the inner part when the mold is opened, so that the shape is damaged, and; when a finished product is subsequently moved away, the surface of the connecting pipe is not completely hardened, the common clamping is adopted at two sides, the contact surface is small, the pressure is large, the product is easy to be sunken, the appearance of the connecting pipe is damaged, and the defect of potential safety hazard is overcome.

The invention is achieved by the following specific technical means:

a bidirectional cold-equalizing anti-adhesion demolding production device for a different-caliber connecting pipe comprises a supporting bottom plate, a supporting column, a suspension supporting plate, a control screen, an internal-cooling vibration demolding device, a finished product traceless transfer device, a forming mold set and an external cold air nozzle; the right side of the top end of the supporting bottom plate is welded with the supporting column; an inner-cooling vibration demoulding device is arranged on the left side of the top end of the supporting bottom plate; the middle left part of the top end of the supporting bottom plate is connected with the forming die set; the top end of the supporting column is welded with the suspension supporting plate, and the middle part of the bottom of the suspension supporting plate is connected with the forming die set; the middle left part of the top end of the forming die set is connected with the control screen; a traceless transfer device is arranged at the right side of the bottom of the suspension support plate; the left side of the top end of the inner cooling vibration demoulding device is connected with an outer cooling air nozzle.

Further preferably, the internal-cooling vibration demoulding device comprises a first electric push rod, a total power rotating shaft, an upper layer power gear, a lower layer power gear, a suspension plate, a second electric push rod, a first flat gear, a first helical gear, a second helical gear, a cam, a telescopic rod, a knocking demoulding ball, a first spring, a first limiting plate, a second limiting plate and an internal-cooling transmission device; the top end of the first electric push rod is rotationally connected with the main power rotating shaft; an inner cooling transmission device is arranged on the right side of the first electric push rod; the upper side in the outer surface of the main power rotating shaft is mutually inserted with the upper layer power gear; the lower side in the outer surface of the main power rotating shaft is mutually inserted with the lower power gear; the top end of the total power rotating shaft is rotatably connected with the suspension plate; the right side of the bottom end of the suspension plate is connected with a second electric push rod; the middle left part of the bottom end of the suspension plate is connected with the first flat gear; the top end of the first flat gear is connected with a first helical gear, and the axle center of the first helical gear is connected with the suspension plate; the rear top of the first bevel gear is meshed with the second bevel gear, and the axle center of the front end of the second bevel gear is connected with the suspension plate; the rear end axle center of the second bevel gear is in transmission connection with the cam; a telescopic rod is arranged on the right of the cam, and the middle left side of the outer surface of the telescopic rod is connected with the suspension plate; the right side of the outer surface of the telescopic rod is welded with the knocking demoulding ball; the right side of the outer surface of the telescopic rod is mutually sleeved with the first spring, and the left side of the first spring is connected with the suspension plate; the left side of the outer surface of the telescopic rod is welded with the first limiting plate; the right side of the outer surface of the telescopic rod is welded with a second limiting plate, and the left side of the second limiting plate is connected with a first spring; the bottom end of the first electric push rod is connected with the supporting bottom plate; the left side of the top end of the suspension plate is connected with an external cold air nozzle; the bottom end of the second electric push rod is connected with the supporting bottom plate; the bottom end of the inner cooling transmission device is connected with the supporting bottom plate.

Further preferably, the finished product traceless transfer device comprises a motor, a first driving wheel, a second flat gear, a third flat gear, a fourth flat gear, a third electric push rod, a fifth flat gear, a clamping control rod, a clamping frame, a screw rod, a third driving wheel, a fourth driving wheel, a first driving block, a second driving block, a first connecting rod, a second connecting rod and a soft clamping strip; the bottom end axis of the motor is connected with the first driving wheel; the bottom end axis of the motor is connected with a third flat gear, and the third flat gear is positioned below the first driving wheel; the left side of the outer surface of the first driving wheel is in transmission connection with a second driving wheel; the bottom end of the second transmission wheel is in transmission connection with the second flat gear; a fourth flat gear is arranged on the right of the third flat gear; the top end of the fourth flat gear is connected with a third electric push rod; a fifth flat gear is arranged at the right upper part of the fourth flat gear; the fifth flat gear axis is sleeved with the clamping control rod; the left middle part of the hoop clamping control rod is connected with the hoop clamping frame through a connecting rod; the middle upper part in the clamp frame is rotationally connected with the screw rod; the right side of the outer surface of the screw rod is mutually inserted with a third transmission wheel; the left side of the outer surface of the screw rod is connected with a first transmission block; the middle part of the outer surface of the screw rod is connected with a second transmission block; the bottom of the rice on the outer surface of the third driving wheel is in transmission connection with the fourth driving wheel; the middle part of the front end of the first transmission block is welded with the second connecting rod; the middle part of the front end of the second transmission block is welded with the first connecting rod; the left side of the first connecting rod is connected with the soft hoop strip through a bolt, and the left side of the front end of the soft hoop strip is connected with the second connecting rod; the bottom end of the motor is connected with the suspension support plate; the top end of the clamping control rod is connected with the suspension support plate.

Further preferably, the forming die set comprises a fourth electric push rod, an inner base, an inner cooling channel, an outer die, an injection molding groove, a groove cover, a special-shaped connecting rod, an iron chain, a connecting square block, a thick steel wire, a first steel wire winding wheel, a fifth transmission wheel, a sixth transmission wheel, a seventh transmission wheel, a sixth flat gear, a seventh flat gear, a second steel wire winding wheel, a third bevel gear, a fourth bevel gear, an eighth transmission wheel, a fifth bevel gear, an eighth flat gear, a ninth flat gear, a fifth electric push rod and an injection molding port; the top end of the fourth electric push rod is connected with the inner base; an inner cooling channel is arranged on the right side of the outer surface of the inner base; the right side of the inner cooling channel is connected with the outer mold; the right side of the outer mold is provided with an injection molding groove; a groove cover is arranged on the right side of the injection molding groove; the right middle part of the groove cover is rotationally connected with the special-shaped connecting rod; the top end of the special-shaped connecting rod is connected with the iron chain; the top end of the iron chain is connected with the connecting rectangular block; the top end of the connecting rectangular block is connected with the thick steel wire; the thick steel wire is wound on the surface of the first steel wire winding wheel; the axle center of the front end of the first steel wire winding wheel is connected with a fifth transmission wheel; the left side of the outer surface of the fifth driving wheel is in transmission connection with the sixth driving wheel; the left side of the outer surface of the fifth driving wheel is in transmission connection with a seventh driving wheel, and the seventh driving wheel is positioned on the left side of the sixth driving wheel; the rear end axle center of the sixth driving wheel is in transmission connection with the third bevel gear; the rear end axle center of the seventh driving wheel is in transmission connection with the sixth flat gear; the left side of the outer surface of the sixth flat gear is meshed with the seventh flat gear; the axle center at the rear end of the seventh flat gear is in transmission connection with the second steel wire winding wheel; the front top of the third helical gear is meshed with the fourth helical gear; the front bottom of the third helical gear is meshed with the fifth helical gear; the top end of the fourth bevel gear is in transmission connection with an eighth transmission wheel; the bottom end of the fifth helical gear is in transmission connection with the eighth flat gear; the left side of the eighth spur gear is meshed with the ninth spur gear; the bottom end of the ninth flat gear is rotatably connected with the fifth electric push rod; the bottom end of the fifth electric push rod is connected with the injection port; the bottom end of the fourth electric push rod is connected with the supporting bottom plate; the outer surface of the eighth driving wheel is connected with a finished product traceless transfer device.

Further preferably, the internal cooling transmission device comprises a lower annular chute, a first cylinder, a second cylinder, an internal and external double-tooth gear, an upper annular chute, a second spring, a stretching plate, a first internal cooling air nozzle, a first push rod, a second internal cooling air nozzle and a third spring; the left side of the bottom end of the lower annular sliding chute is connected with a first cylinder; the right side of the bottom end of the lower annular sliding chute is connected with a second cylinder; the top end of the lower annular chute is in sliding connection with the inner and outer double-tooth gears; the top ends of the inner and outer double-tooth gears are in sliding connection with the upper annular chute; the left side of the top in the upper annular chute is welded with the second spring; the right side of the top in the upper annular chute is welded with a third spring; the bottom of the second spring is welded with the stretching plate; the middle left side of the top end of the stretching plate is connected with a first inner cooling air nozzle; the left side of the top end of the stretching plate is welded with a first push resisting rod, and the first push resisting rod is positioned on the right side of the first inner cooling air nozzle; the middle right side of the top end of the stretching plate is welded with the second push resisting rod; the middle right side of the top end of the stretching plate is connected with a second inner cooling air nozzle, the second inner cooling air nozzle is positioned on the right side of the second push resisting rod, and the right side of the top end of the stretching plate is connected with a third spring; the bottom end of the first cylinder is connected with the supporting bottom plate; the bottom end of the second cylinder is connected with the supporting bottom plate.

Preferably, the inner cooling channel, the outer die, the injection molding groove, the groove cover, the special-shaped connecting rod, the iron chain, the connecting square block and the thick steel wire are arranged in two groups and are respectively positioned on the left side and the right side of the inner base.

Preferably, the combined device composed of the first flat gear, the first helical gear, the second helical gear, the cam, the telescopic rod, the knocking demolding ball, the first spring, the first limiting plate and the second limiting plate is provided with four combined devices, and every two combined devices are in one group and are respectively positioned on the left side of the bottom end of the suspension plate and on the right side of the bottom end of the suspension plate.

Further preferably, the number of the outer cold air nozzles is two, and the two outer cold air nozzles are respectively positioned on the left side of the top end and the right side of the top end of the inner cold vibration demoulding device.

Further preferably, the inner part of the inner cooling channel is provided with three supporting blocks which are respectively positioned at the inner bottom, the inner middle part and the inner top of the inner cooling channel.

Compared with the prior art, the invention has the following beneficial effects:

the production device aims to solve the problems that when the existing production device for the modified plastic different-caliber connecting pipe is used, a cooling device is lacked, molten plastic which is only injected into a mold can be automatically cooled, the automatic cooling is slow, the phenomena of inconsistent cooling speed and uneven cooling of an inner region, an outer region and a different region can occur, an internal fault can be caused finally, the molten plastic has viscosity, the outer surface can be stuck to the wall of the mold after being cooled and solidified during demolding, the inner part is not cooled, and then the outer part is stuck to the inner part during mold opening, so that the shape is damaged, and a finished product is scrapped; when a finished product is subsequently moved away, the surface of the connecting pipe is not completely hardened, general clamping is carried out on two sides, the contact surface is small, the pressure is large, a recess is easily left on the product, the appearance of the connecting pipe is damaged, and the problem of potential safety hazard is solved.

Drawings

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

FIG. 2 is a schematic structural view of an internal cooling vibration mold release device according to the present invention;

FIG. 3 is a schematic structural diagram of a finished traceless transfer device according to the present invention;

FIG. 4 is a schematic structural diagram of a molding die set according to the present invention;

FIG. 5 is a schematic structural view of the internal cooling transmission device of the present invention;

FIG. 6 is an enlarged view of region A of the present invention.

The labels in the figures are: 1-supporting bottom plate, 2-supporting column, 3-suspension supporting plate, 4-control screen, 5-internal cooling vibration demoulding device, 6-finished product traceless transfer device, 7-forming die set, 8-external cold air nozzle, 501-first electric push rod, 502-total power rotating shaft, 503-upper power gear, 504-lower power gear, 505-suspension plate, 506-second electric push rod, 507-first flat gear, 508-first helical gear, 509-second helical gear, 5010-cam, 5011-telescopic rod, 5012-knocking demoulding ball, 5013-first spring, 5014-first limiting plate, 5015-second limiting plate, 5016-internal cooling transmission device, 601-motor, 602-first transmission wheel, 603-second transmission wheel, 604-a second flat gear, 605-a third flat gear, 606-a fourth flat gear, 607-a third electric push rod, 608-a fifth flat gear, 609-a clamp control rod, 6010-a clamp frame, 6011-a screw rod, 6012-a third driving wheel, 6013-a fourth driving wheel, 6014-a first driving block, 6015-a second driving block, 6016-a first connecting rod, 6017-a second connecting rod, 6018-a soft hoop strip, 701-a fourth electric push rod, 702-an inner base, 703-an inner cooling channel, 704-an outer mold, 705-an injection molding groove 706, 706-a groove cover, 707-a special-shaped connecting rod, 708-an iron chain, 709-a connecting moment block, 7010-a thick steel wire, 7011-a first steel wire reel, 7012-a fifth driving wheel, 7013-a sixth driving wheel, 7014-seventh driving wheel, 7015-sixth flat gear, 7016-seventh flat gear, 7017-second wire reel, 7018-third helical gear, 7019-fourth helical gear, 7020-eighth driving wheel, 7021-fifth helical gear, 7022-eighth flat gear, 7023-ninth flat gear, 7024-fifth electric push rod, 7025-injection port, 501601-lower annular chute, 501602-first cylinder, 501603-second cylinder, 501604-inner and outer double-toothed gear, 501605-upper annular chute, 501606-second spring, 501607-stretching plate, 501608-first inner nozzle cold air, 501609-first resistance push rod, 5016010-second resistance push rod, 5016011-second inner nozzle cold air, 5016012-third spring.

Detailed Description

The invention is further described below with reference to the figures and examples.