CN113459499A

CN113459499A - Criticize first pyrocondensation pipe and cup joint production line

Info

Publication number: CN113459499A
Application number: CN202110819140.1A
Authority: CN
Inventors: 邓灿光
Original assignee: Jinye Tianjin Light Industrial Products Co ltd
Current assignee: Jinye Tianjin Light Industrial Products Co ltd
Priority date: 2021-07-20
Filing date: 2021-07-20
Publication date: 2021-10-01
Anticipated expiration: 2041-07-20
Also published as: CN113459499B

Abstract

The invention discloses a batch head heat-shrinkable tube sleeving production line, which relates to the technical field of batch head production equipment and comprises a rack, wherein an unreeling mechanism, a sleeve stretching and cutting mechanism, a batch head feeding mechanism, a batch head sleeving mechanism, a heat-shrinkable mechanism and a batch head blanking mechanism are sequentially arranged on the rack; the sleeve opening and cutting mechanism comprises a material guide pipe which is arranged on the rack and used for opening the heat-shrinkable coiled material, two conveying rollers are rotatably arranged at the inlet of the material guide pipe, and two cutting knives are movably arranged on the material guide pipe; criticize first coupling mechanism including rotating the carousel that sets up on one side of the pay-off frame is close to the passage, and the shaping has a plurality of via holes on the carousel, and the via hole elasticity is provided with the clamp splice that is used for pressing from both sides tight criticizing head, and passage export one side elasticity is provided with and cuts the elasticity claw of sword simultaneous movement. The invention provides a batch head heat-shrinkable tube sleeving production line which is reliable to use and suitable for batch head sleeving operation of various specifications, wherein a sleeve is opened through a material guide tube, and the batch head heat-shrinkable tube is automatically sleeved by the aid of elastic claws in an auxiliary sleeving manner.

Description

Criticize first pyrocondensation pipe and cup joint production line

Technical Field

The invention relates to the technical field of batch head production equipment, in particular to a batch head heat-shrinkable tube sleeving production line.

Background

The screwdriver head is a detachable screwdriver head on the combined screwdriver, and in order to make the screwdriver head more beautiful or mark different types of screwdriver heads, the buffer area of the screwdriver head is usually sleeved with a heat-shrinkable tube.

As shown in fig. 1, a conventional heat shrinkable tube batch head 100 is shown, which includes a batch head body 110, a buffer area 120 formed in the middle of the batch head body, and a heat shrinkable tube 130 sleeved on the buffer area 120. In this production process of first is criticized to pyrocondensation pipe, need cut into isometric pyrocondensation pipeline section with the pyrocondensation pipe of lapping earlier, later the staff twists with the pyrocondensation pipe of platykurtic and cup joints the buffer area position at the first is criticized to the pyrocondensation pipe, place again and get into the oven and heat on the tray, make the pyrocondensation pipe carry out even cladding outside the buffer area, but the mode work load of manual work twisting with fingers the pyrocondensation pipe is big, and cup joint and carry out the pyrocondensation after accomplishing again, the circulation cycle length, production efficiency is lower.

Disclosure of Invention

The invention aims to provide a batch head heat-shrinkable tube sleeving production line, which can complete the expanding sleeving and the heat-shrinkable operation of a heat-shrinkable coiled material at one time by arranging a sleeve production line, effectively reduce the workload of workers, reduce the circulation period of batch head production and improve the production efficiency.

The technical purpose of the invention is realized by the following technical scheme:

a batch head heat-shrinkable tube sleeving production line comprises a rack, wherein an unreeling mechanism, a sleeve stretching and cutting mechanism, a batch head feeding mechanism, a batch head sleeving mechanism, a heat-shrinkable mechanism and a batch head blanking mechanism are sequentially arranged on the rack;

the unwinding mechanism comprises an unwinding frame and a heat-shrinkable coiled material, wherein the unwinding frame is rotatably arranged on one side of the frame, and the heat-shrinkable coiled material is fixed on the unwinding frame;

the sleeve opening and cutting mechanism comprises a material guide pipe which is arranged on the rack and used for opening the heat-shrinkable coiled material, two conveying rollers are rotatably arranged at the inlet of the material guide pipe, and two cutting knives are movably arranged on the material guide pipe;

the batch head feeding mechanism comprises a feeding frame arranged on the rack, a vibration disc and a slide way connected with the vibration disc are fixed on the feeding frame, and an ejector rod penetrating through the lower part of the slide way and used for pushing a batch head is movably arranged on the feeding frame;

the batch head sleeving and blanking mechanism comprises a rotary disc which is rotatably arranged on one side of a feeding frame close to a material guide pipe, a plurality of through holes are formed in the rotary disc, clamping blocks used for clamping batch heads are elastically arranged in the through holes, and an elastic claw which moves synchronously with a cutting knife is elastically arranged on one side of an outlet of the material guide pipe;

the thermal shrinkage mechanism comprises an electric heating box which is arranged on the feeding frame and is in sliding fit with the turntable;

the batch head blanking mechanism comprises a blanking rod which is movably arranged on the feeding frame and corresponds to one through hole in the feeding frame; and the feeding frame is provided with a synchronizing mechanism for driving the ejector rod, the blanking rod and the clamping block to move synchronously.

By adopting the technical scheme, when the automatic feeding device is used, the unreeling frame unreels the thermal shrinkage coiled material, the end part of the thermal shrinkage coiled material extends into the material guide pipe through the conveying roller, the thermal shrinkage coiled material is conveyed and opened through the material guide pipe, the opened thermal shrinkage coiled material partially extends out of the material guide pipe, the batch heads are directionally arranged and conveyed to the ejector rod through the vibration disc and the slide rail on the feeding frame, the ejector rod extends out and conveys the tail parts of the batch heads to the through holes corresponding to the ejector rod, and the synchronous mechanism drives the clamping blocks to clamp the tail ends of the batch heads; and at the moment, the end part of the screwdriver bit just extends into the opened heat-shrinkable coiled material; the passage continues to carry pyrocondensation coiled material to appointed length this moment, the sword that cuts stretches into in the passage cuts the pyrocondensation coiled material this moment, simultaneously the bullet material claw sends the pyrocondensation coiled material group to criticizing first buffer, the carousel rotates, the criticism head that the pyrocondensation coiled material was cup jointed to this moment respectively is in proper order through the electric heat box pyrocondensation, and release from the via hole under blanking pole and lazytongs ' combined action, through this kind of mode, the realization is to criticizing first pyrocondensation coiled material's automatic operation of cup jointing, effectively reduce staff's the amount of labour and criticize first circulation cycle of production, and the production efficiency is improved.

The invention is further configured to: the cross section of the inlet of the material guide pipe is of a horizontal flat sleeve structure, the cross section of the middle part of the material guide pipe is of a vertical flat sleeve structure, and the cross section of the outlet of the material guide pipe is of a cylindrical structure.

Through adopting above-mentioned technical scheme, through the passage entry of the flat sleeve column structure of level form, ensure that the pyrocondensation coiled material of platykurtic can stably enter into the passage, utilize the passage middle part of the flat sleeve column structure of vertical form to carry out vertical extrusion to the pyrocondensation coiled material, ensure that the pyrocondensation coiled material can be stable entering into opening in the passage exit, improve the reliability that the device used.

The invention is further configured to: the cutting device is characterized in that a plurality of opening wheels are arranged at the middle of the material guide pipe at intervals, the two cutting knives are hinged to the material guide pipe, a cutting cylinder is fixedly arranged on the rack, a guide block is fixed at the extending end of the cutting cylinder, and two guide pillars which are respectively in sliding fit with the two cutting knives are fixed on the guide block.

Through adopting above-mentioned technical scheme, the during operation, pyrocondensation coiled material gets into the passage under the effect of conveying roller, under passage and each effect of opening the wheel, progressively expand and be cylindric structure to stretch out near the one end of carousel at the passage, when needs are tailor, cut the cylinder shrink, drive the guide block and move up, the guide block slides and drives two and cut the sword and rotate and cut the pyrocondensation coiled material to guide inside of pipe through the guide pillar on two cutting knives.

The invention is further configured to: the middle part of each elastic claw is hinged to the end part of the material guide pipe, and a first elastic part is fixedly connected between the elastic claw and the material guide pipe; the utility model discloses a material guide pipe, including baffle pipe, feed pipe outer wall, ratchet outside rigid coupling have the synchronization disc, the shaping of synchronization disc outer wall has a plurality of draw-in grooves with bullet material claw tail end joint complex, draw-in groove one side shaping has the first inclined plane that supplies bullet material claw roll-off, be provided with on the feed pipe and drive the one-way pivoted actuating mechanism that pauses of synchronization disc.

Through adopting above-mentioned technical scheme, when cutting, actuating mechanism drives the synchronizing disk unidirectional rotation, and this moment the bullet material claw tail end is followed first inclined plane and is slided to synchronizing disk excircle department in the draw-in groove, and first elastic component is tensile this moment, and the front end of bullet material claw cup joints the pyrocondensation coiled material butt at batch head buffer part with the part, and after cutting the completion, the bullet material claw tail end removes just to in another draw-in groove on the synchronizing disk outer wall to on the buffer is delivered to with the whole bullet of pyrocondensation coiled material.

The invention is further configured to: the driving mechanism comprises a driving seat arranged on the outer wall of the material guide pipe in a sliding mode, a connecting rod is hinged between the tail end of the driving seat and the guide block, a driving rod is elastically arranged at the front end of the driving seat, a plurality of driving grooves matched with the driving rod in an inserting mode are formed in the side wall of the synchronous disc, and a second inclined plane is formed in one side of each driving groove.

Through adopting above-mentioned technical scheme, the during operation, when cutting the cylinder and driving the guide block and shift up, the guide block drives through the connecting rod and drives the drive seat and slide at the passage outer wall, the actuating lever grafting setting is inside driving the inslot this moment, and drive synchronous dish unidirectional rotation, when cutting the completion back, it moves down to cut the cylinder and drive the guide block, the guide block passes through the connecting rod reverse slip this moment, further drive and drive the reverse slip of drive seat, and synchronous dish can not the reversal under ratchet mechanism's effect, the actuating lever that elasticity set up this moment slides out and further moves to adjacent drive inslot along the second inclined plane from driving the inslot.

The invention is further configured to: one end of the material guide pipe outlet is formed with a notch for the end part of the bit to pass through, and a gap for the end part of the bit to pass through is formed between the elastic claws close to the notch.

Through adopting above-mentioned technical scheme, utilize the breach to ensure that batch head tip can stretch into inside the passage to ensure batch head and heat shrinkage bush's stable butt joint, improve the stability that the heat shrinkage bush cup jointed.

The invention is further configured to: each the clamp splice middle part all articulates the setting on the carousel, fixedly connected with third elastic component between clamp splice and the carousel inside, the clamp splice front end stretches into the downthehole, the clamp splice tail end shaping has the spigot surface, the equal shaping of position that the carousel corresponds each clamp splice tail end has the annular.

Through adopting above-mentioned technical scheme, the front end that utilizes the third elastic component to drive the clamp splice stretches into the tail end of boring the head and carries out the centre gripping, can improve the stability that the head tip got into pyrocondensation coiled material on the one hand, and on the other hand can prevent effectively that when the pyrocondensation coiled material was stirred to the bullet material claw, the head produced relative slip with the synchronizing disk, and the pyrocondensation coiled material of influence cup joints and subsequent pyrocondensation operation to further improve the reliability that the device used.

The invention is further configured to: the synchronous mechanism comprises a propulsion oil cylinder fixedly arranged on the feeding frame, the extension end of the propulsion oil cylinder is fixed with a synchronous frame, the blanking rod and the ejector rod are fixedly arranged on the synchronous frame, two ejector rings sleeved outside the blanking rod and the ejector rod are elastically arranged on the synchronous frame, and the ejector rings stretch into the annular groove and are in butt fit with the guide surface.

By adopting the technical scheme, when the feeding device works, the pushing oil cylinder extends out to drive the synchronous frame to be close to the rotary table, at the moment, the elastically arranged top ring extends into the annular groove to be abutted against the guide surface, so that the front end of each clamping block is driven to retract into the rotary table, at the moment, the synchronous frame continues to move, and the ejector rod drives the bit to enter the corresponding through hole of the ejector rod, so that the feeding operation is completed; and the blanking rod pushes the thermally shrunk batch head out of the through hole corresponding to the through hole, so that the blanking operation is completed.

The invention is further configured to: the feeding frame is arranged on the rack in a sliding mode, a screw rod in threaded connection with the feeding frame is arranged on the rack in a rotating mode, an alignment plate is arranged on one side, close to the rotary disc, of the slide in a sliding mode, and a locking bolt in abutting fit with the slide is connected to the alignment plate in a threaded mode.

Through adopting above-mentioned technical scheme, utilize the pay-off frame that slides and set up in the frame and the alignment board of setting on the slide that slides, make the device can adapt to the operation of cup jointing of batch head of different length to improve the suitability that the device used.

In conclusion, the beneficial technical effects of the invention are as follows:

(1) by arranging the sleeve production line, the opening and sleeving of the heat-shrinkable coiled material and the heat-shrinkable operation can be completed at one time, so that the workload of workers is effectively reduced, the circulation period of batch production is shortened, and the production efficiency is improved;

(2) the end part of the batch head can be ensured to stably enter the interior of the heat-shrinkable coiled material by utilizing the notch formed on the material guide pipe, and the heat-shrinkable coiled material can be ensured to stably enter the batch head buffer zone by matching the elastic claw and the clamping block which are elastically arranged; the reliability of the device is improved;

(3) utilize the pay-off frame and the alignment board that slide and set up, make things convenient for the staff to adjust the assembly line to make the device can adapt to the operation of criticizing first pyrocondensation cup jointing of different specifications, improve the suitability that the device used.

Drawings

FIG. 1 is an axial view of a heat shrinkable tube batch head according to the prior art;

FIG. 2 is an axial schematic view of the overall structure of one embodiment of the present invention;

FIG. 3 is an axial view of a portion of a conduit according to an embodiment of the invention showing the positional connection of the various components of the conduit;

FIG. 4 is a schematic diagram of an axis of a synchronization disk portion according to an embodiment of the present invention, showing the connection relationship of the positions of the components on the synchronization disk;

FIG. 5 is a schematic view of an axis measurement of a batch head feeding frame according to an embodiment of the present invention, showing the position connection relationship of each component on the feeding frame;

fig. 6 is a sectional view of a center line of a turntable portion according to an embodiment of the present invention, showing a positional connection relationship between a pressure block and a top ring.

Reference numerals: 100. a heat shrink tubing bit; 110. a bit body; 120. a buffer area; 130. heat shrink tubing; 1. a frame; 2. unwinding the frame; 3. heat-shrinkable coiled material; 4. a material guide pipe; 5. a conveying roller; 6. cutting knife; 7. a feeding frame; 8. a vibrating pan; 9. a slideway; 10. a top rod; 11. a turntable; 12. a via hole; 13. a clamping block; 14. a material ejection claw; 15. an electric heating box; 16. a blanking rod; 17. opening a groove; 18. an opening wheel; 19. a notch; 20. a conveying motor; 21. cutting a groove; 22. a cutting cylinder; 23. a guide block; 24. a guide post; 25. a first elastic member; 26. a ratchet mechanism; 27. a synchronization disc; 28. a card slot; 29. a first inclined plane; 30. a driving seat; 31. a connecting rod; 32. a drive rod; 33. a fourth elastic member; 34. a drive slot; 35. A second inclined plane; 36. a screw; 37. an alignment plate; 38. a propulsion cylinder; 39. a synchronous frame; 40. a top ring; 41. a fifth elastic member; 42. a first gear; 43. a drive motor; 44. a second gear; 45. a channel; 46. a material collecting box; 47. a third elastic member; 48. a guide surface; 49. and a ring groove.

Detailed Description

The present invention will now be described more fully hereinafter with reference to the accompanying examples.

Referring to the attached drawing 2, the batch head heat-shrinkable tube sleeving production line comprises a rack 1, wherein the rack 1 can be of a cuboid frame structure, and an unwinding mechanism, a sleeve opening and cutting mechanism, a batch head feeding mechanism, a batch head sleeving mechanism, a heat-shrinkable mechanism and a batch head discharging mechanism are sequentially arranged on the rack 1.

Unwinding mechanism sets up the frame 2 of unreeling in 1 length direction one side of frame including rotating, unreels and fixedly on the frame 2 to be provided with pyrocondensation coiled material 3. The sleeve opening and cutting mechanism comprises a material guide pipe 4 which is arranged on a rack 1 and used for opening a heat-shrinkable coiled material 3, two conveying rollers 5 (shown in figure 3) are arranged at the inlets of the material guide pipe 4 in a rotating mode in opposite directions, and two cutting knives 6 are movably arranged on the material guide pipe 4.

The batch head feeding mechanism comprises a feeding frame 7 arranged on the rack 1, a vibration disc 8 and a slide way 9 connected with the vibration disc 8 are fixed on the feeding frame 7, and an ejector rod 10 which penetrates through the lower part of the slide way 9 and is used for pushing a batch head is movably arranged on the feeding frame 7; batch head sleeving mechanism, including rotating the carousel 11 that sets up in pay-off frame 7 and be close to passage 4 one side, the even interval shaping of its circumference has a plurality of via holes 12 on the carousel 11, and the elasticity is provided with the clamp splice 13 (shown in figure 6) that is used for pressing from both sides tight batch head in the via hole 12, and passage 4 export one side elasticity is provided with the elasticity claw 14 with cutting knife 6 simultaneous movement.

The thermal shrinkage mechanism comprises an electric heating box 15 which is arranged on the feeding frame 7 and is in sliding fit with the rotary table 11; the batch head blanking mechanism comprises a blanking rod 16 which is movably arranged on the feeding frame 7 and corresponds to one through hole 12, and a synchronizing mechanism for driving the ejector rod 10, the blanking rod 16 and the clamping block 13 to move synchronously is arranged on the feeding frame 7.

The during operation, unreel frame 2 and unreel pyrocondensation coiled material 3, conveying roller 5 and the cooperation of passage 4 carry out opening and the transport of pyrocondensation coiled material 3, and cut sword 6 and cut pyrocondensation coiled material 3, vibration dish 8 and slide 9 cooperation are arranged wholely simultaneously, ejector pin 10 carries out the pay-off to wholely, carousel 11 and via hole 12 press from both sides tightly wholely with the cooperation of clamp splice 13, bullet material claw 14 is stabilized to pyrocondensation coiled material 3 and is cup jointed, after carousel 11 drives wholely get into electric heat box 15, utilize unloading pole 16 to criticize first unloading from carousel 11 in with.

Referring to the attached drawing 3, the material guiding pipe 4 is fixedly arranged in the middle of the frame 1 through a plurality of support rods, the section of the inlet of the material guiding pipe 4 is of a horizontal flat sleeve structure, the section of the middle of the material guiding pipe 4 is of a vertical flat sleeve structure, the section of the outlet of the material guiding pipe 4 is of a cylindrical structure, two sides of the gradual change part of the shape of the material guiding pipe 4 are provided with opening grooves 17, an opening wheel 18 used for opening the heat-shrinkable coiled material 3 in a matched manner is rotatably arranged on the frame 1, and part of the opening wheel 18 extends into the opening grooves 17 through the opening grooves 17; a gap 19 for the end part of the batch head to pass through is formed at one end of the outlet of the material guiding pipe 4; and a conveying motor 20 with an output end fixedly connected with one conveying roller 5 is fixedly arranged on the frame 1. The shape through passage 4 carries out vertical extrusion at passage 4 middle part to the pyrocondensation coiled material 3 of platykurtic to ensure that pyrocondensation coiled material 3 can be cylindricly entering into 4 exit of passage, make things convenient for the cup joint of criticizing the head, improve the reliability that the device used.

Referring to fig. 3 and fig. 4, a cutting groove 21 is formed in the guide tube 4 near the outlet, the two cutting knives 6 are symmetrically and hingedly arranged on the guide tube 4, the cutting edges of the two cutting knives 6 are abutted against each other, a cutting cylinder 22 is fixedly arranged on the frame 1 corresponding to the position above the guide tube 4, a guide block 23 is fixed at the downward extending end of the cutting cylinder 22, and two guide posts 24 which are respectively in sliding fit with one side of the two cutting knives 6 far away from the cutting edges are fixed on the guide block 23. Utilize guide pillar 24 to drive two and cut sword 6 and swing around its pin joint to vertically cut pyrocondensation coiled material 3, ensure that pyrocondensation coiled material 3 can kick-back to cylindric after cutting.

The middle part of each material claw 14 is hinged at one end of the outlet of the material guide pipe 4, each material claw 14 is uniformly arranged around the axial direction of the material guide pipe 4 at intervals, and a gap enough for a bit to pass through is formed between two adjacent material claws 14 at the notch 19; a first elastic part 25 is fixedly connected between the material guide pipes 4 on one side of the material claw 14 close to the tail end of the material claw, the first elastic part 25 can be made of a spring, and the front end of the material claw 14 can be of an arc-shaped elastic sheet structure and is abutted against the buffer area 120 of the batch head to deform in work; a ratchet mechanism 26 is fixed on the outer wall of the material guide pipe 4 close to the material claw 14, a synchronous disc 27 is fixedly connected to the outer portion of the ratchet mechanism 26, a plurality of clamping grooves 28 which are in clamping fit with the tail end of the material claw 14 are formed on the outer wall of the synchronous disc 27 at equal intervals along the axial direction of the synchronous disc, a first inclined surface 29 for the material claw 14 to slide out is formed on one side of the clamping grooves 28 opposite to the rotation direction of the synchronous disc 27, and a driving mechanism for driving the synchronous disc 27 to rotate in a one-way pause mode is arranged on the material guide pipe 4. Since the ratchet mechanism 26 is prior art, the principle thereof will not be described in detail herein.

The driving mechanism comprises a driving seat 30 which is arranged on the outer wall of the material guide pipe 4 in a sliding manner along the circumferential direction of the material guide pipe 4, a connecting rod 31 is hinged between the tail end of the driving seat 30 and the guide block 23, a driving rod 32 is arranged at the front end of the driving seat 30 in a sliding manner along the axial direction of the material guide pipe 4, a fourth elastic part 33 is fixedly connected between the driving rod 32 and the side wall of the driving seat 30, and the fourth elastic part 33 can be made of a spring; a plurality of driving grooves 34 which are matched with the driving rod 32 in an inserting manner are formed on the side wall of the synchronizing disc 27 close to one side of the driving seat 30 at intervals along the axial direction, and a second inclined surface 35 for the driving rod 32 to slide out is formed on one side of the driving grooves 34 corresponding to the side of the synchronizing disc 27 opposite to the rotating direction.

Referring to fig. 5, the feeding frame 7 is slidably disposed on the frame 1 along the length direction of the frame 1, a screw 36 in threaded connection with the feeding frame 7 is rotatably disposed on the frame 1, an aligning plate 37 is slidably disposed on one side of the slide way 9 close to the turntable 11 along the width direction of the slide way 9, and a locking bolt (not shown) in tight fit with the lower surface of the slide way 9 is in threaded connection with the aligning plate 37.

The synchronizing mechanism comprises a pushing oil cylinder 38 fixedly arranged on the feeding frame 7, a synchronizing frame 39 in sliding fit with the feeding frame 7 is fixed at the extending end of the pushing oil cylinder 38, the synchronizing frame 39 can be of an I-shaped frame structure, the discharging rod 16 and the ejector rod 10 are respectively and fixedly arranged on one side, far away from the rotating disc 11, of the synchronizing frame 39, an ejector ring 40 is arranged on one side, close to the rotating disc 11, of the synchronizing frame 39 in a sliding mode, the two ejector rings 40 respectively correspond to the through holes 12 symmetrically arranged in the radial direction of the rotating disc 11, a fifth elastic part 41 is fixedly connected between one end, far away from the rotating disc 11, of the ejector ring 40 and the synchronizing frame 39, and the fifth elastic part 41 can be made of a spring.

Carousel 11 rotates and sets up in pay-off frame 7 middle part, the shaping of carousel 11 outer wall has first gear 42, pay-off frame 7 lower part one side is fixed with driving motor 43, driving motor 43 stretches out the end fixed be provided with first gear 42 meshing complex second gear 44, electric heat box 15 is fixed to be set up on pay-off frame 7 upper portion, and electric heat box 15 and the cooperation of keeping away from the lateral wall butt of pay-off frame 7 one side of carousel 11, electric heat box 15 can be arc box structure, and electric heat box 15 corresponds the position shaping of via hole 12 and has the passageway 45 that supplies the batch head to pass, place the collection workbin 46 (shown in figure 2) that is used for accepting the batch head on the frame 1 of unloading pole 16 one side is kept away from to carousel 11.

Referring to fig. 6, the clamping blocks 13 may be of a shoe-shaped structure, the clamping blocks 13 are uniformly arranged around the circumferential direction of the through hole 12 at intervals, the middle parts of the clamping blocks 13 are hinged to the rotary table 11, a third elastic member 47 is fixedly connected between the clamping blocks 13 and the inside of the rotary table 11, and the third elastic member 47 may be made of a spring; the front end of the clamping block 13 extends into the through hole 12 and faces one side of the material guide pipe 4, a guide surface 48 in sliding fit with the top ring 40 is formed at the tail end of the clamping block 13, and a ring groove 49 for the top ring 40 to extend into is formed at the position of the rotary table 11 corresponding to the tail end of each clamping block 13.

Utilize clamp splice 13 to press from both sides tight spacing to the afterbody of wholesale, effectively prevent that bullet claw 14 from wholesale and bullet claw 14 when stirring pyrocondensation coiled material 3 from producing the relative slip, effectively improve the group material effect of bullet claw 14, thereby prevent wholesale and carousel 11 to produce partial pyrocondensation pipe 130 when leading to the pyrocondensation and stretch into the via hole 12 simultaneously, and produce and be heated inhomogeneously, the poor problem of pyrocondensation effect.

The working principle of the embodiment is as follows: before work, the screw rod 36 is used for adjusting the position of the feeding frame 7, so that the end part of the batch head can just extend into the outlet of the material guide pipe 4; and meanwhile, the position of the alignment plate 37 is adjusted to enable the initial positions of the tail ends of the batch heads with different specifications to be consistent, and the tail ends of the batch heads are ensured to enter the through holes 12 of the rotary table 11 exactly.

During operation, conveying motor 20 drives conveying roller 5 and rotates, when opening a book pyrocondensation coiled material 3, with pyrocondensation coiled material 3 carry to inside the passage 4, pass through the flat sleeve structure of the inside level form of passage 4 and vertical flat sleeve structure in proper order to under the auxiliary action of opening wheel 18, thereby carry to the exit of passage 4 with cylindric structure.

Simultaneously, the vibration dish 8 is carried the batch head in proper order to the slide 9 in, propulsion cylinder 38 drives the step frame 39 and moves this moment, ejector pin 10 is carried the batch head of slide 9 lower extreme to its through hole 12 that corresponds in, the apical ring 40 that elasticity set up when playing the guide effect to the batch head, can drive inside each clamp splice 13 retraction to carousel 11, move to the tip part when the batch head and stretch into in the passage 4 export, conveying roller 5 rotates the preliminary cup joint of carrying out pyrocondensation pipe 130 this moment.

When pyrocondensation coiled material 3 carried to target in place, cut cylinder 22 and drive guide 23 and shift up, guide 23 drives two and cuts the pyrocondensation coiled material 3 in the passage 4, and guide 23 drives synchronous dish 27 unidirectional rotation through actuating mechanism simultaneously, and 14 front ends of bullet material claw and pyrocondensation coiled material 3 butt and produce deformation, when cutting the completion back, 14 tail ends of bullet material claw enter into draw-in groove 28 in, drive 14 front ends of bullet material claw and dial pyrocondensation coiled material 3 and send to wholesale first buffer 120.

At this time, the driving motor 43 drives the rotary table 11 to rotate through the second gear 44 and the first gear 42, the electric heating box 15 thermally shrinks the batch head entering the electric heating box, and the blanking rod 16 moving synchronously with the ejector rod 10 ejects the batch head in the corresponding through hole 12 and drops the batch head into the material collecting box 46. Through this kind of mode, realize criticizing the automated production that first pyrocondensation pipe 130 cup jointed, effectively reduce staff's work load and can reduce the circulation cycle of criticizing first production simultaneously, improve production efficiency.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited thereby, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. The utility model provides a first pyrocondensation pipe of wholesale cup joints production line, includes frame (1), its characterized in that: the frame (1) is sequentially provided with an unreeling mechanism, a sleeve opening and cutting mechanism, a bit feeding mechanism, a bit sleeving mechanism, a thermal shrinkage mechanism and a bit unloading mechanism;

the unwinding mechanism comprises an unwinding frame (2) rotatably arranged on one side of the rack (1) and a heat-shrinkable coiled material (3) fixed on the unwinding frame (2);

the sleeve opening and cutting mechanism comprises a material guide pipe (4) which is arranged on a rack (1) and used for opening a heat-shrinkable coiled material (3), wherein two conveying rollers (5) are rotatably arranged at an inlet of the material guide pipe (4), and two cutting knives (6) are movably arranged on the material guide pipe (4);

the batch head feeding mechanism comprises a feeding frame (7) arranged on the rack (1), a vibration disc (8) and a slide way (9) connected with the vibration disc (8) are fixed on the feeding frame (7), and an ejector rod (10) which penetrates through the lower part of the slide way (9) and is used for pushing a batch head is movably arranged on the feeding frame (7);

the batch head sleeving mechanism comprises a rotary disc (11) rotatably arranged on one side, close to the material guide pipe (4), of a feeding frame (7), a plurality of through holes (12) are formed in the rotary disc (11), clamping blocks (13) used for clamping batch heads are elastically arranged in the through holes (12), and an elastic claw (14) moving synchronously with the cutting knife (6) is elastically arranged on one side of an outlet of the material guide pipe (4);

the thermal shrinkage mechanism comprises an electric heating box (15) which is arranged on the feeding frame (7) and is in sliding fit with the rotary disc (11);

the batch head blanking mechanism comprises a blanking rod (16) which is movably arranged on the feeding frame (7) and corresponds to one through hole (12); comprises a blanking rod (16) which is movably arranged on a feeding frame (7) and corresponds to one through hole (12); and the feeding frame (7) is provided with a synchronous mechanism for driving the ejector rod (10), the blanking rod (16) and the clamping block (13) to synchronously move.

2. The batch head heat shrinkable tube sleeving production line of claim 1, wherein: the cross section of the inlet of the material guide pipe (4) is of a horizontal flat sleeve structure, the cross section of the middle part of the material guide pipe (4) is of a vertical flat sleeve structure, and the cross section of the outlet of the material guide pipe (4) is of a cylindrical structure.

3. The batch head heat shrinkable tube sleeving production line of claim 2, wherein: the cutting device is characterized in that a plurality of opening wheels (18) are arranged at the middle of the material guide pipe (4) at intervals, the two cutting knives (6) are hinged to the material guide pipe (4), a cutting cylinder (22) is fixedly arranged on the rack (1), a guide block (23) is fixed at the extending end of the cutting cylinder (22), and two guide posts (24) which are respectively in sliding fit with the two cutting knives (6) are fixed on the guide block (23).

4. The batch head heat shrinkable tube sleeving production line of claim 3, wherein: the middle part of each material ejection claw (14) is hinged to the end part of the material guide pipe (4), and a first elastic part (25) is fixedly connected between each material ejection claw (14) and the material guide pipe (4); the utility model discloses a material guide (4) and material guide (14) are fixed with ratchet (26), ratchet (26) outside rigid coupling has synchronization disc (27), synchronization disc (27) outer wall shaping has a plurality of with material claw (14) tail end joint complex draw-in grooves (28), draw-in groove (28) one side shaping has first inclined plane (29) that supply material claw (14) roll-off, be provided with on material guide (4) and drive synchronization disc (27) one-way pause pivoted actuating mechanism.

5. The batch head heat shrinkable tube sleeving production line of claim 4, wherein: actuating mechanism is including sliding the setting at passage (4) outer wall drive seat (30), it is provided with connecting rod (31) to articulate between drive seat (30) tail end and guide block (23), drive seat (30) front end elasticity is provided with actuating lever (32), synchronization disc (27) lateral wall shaping has a plurality of and actuating lever (32) complex drive groove (34) of pegging graft, drive groove (34) one side shaping has second inclined plane (35).

6. The batch head heat shrinkable tube sleeving production line of claim 1, wherein: one end of the outlet of the material guide pipe (4) is formed with a notch (19) for the end part of the bit to pass through, and a gap for the end part of the bit to pass through is formed between the elastic claws (14) close to the notch (19).

7. The batch head heat shrinkable tube sleeving production line of claim 1, wherein: each clamp splice (13) middle part all articulates the setting on carousel (11), fixedly connected with third elastic component (47) between clamp splice (13) and carousel (11) inside, clamp splice (13) front end stretches into in via hole (12), clamp splice (13) tail end shaping has spigot surface (48), carousel (11) all forms annular (49) in the position that corresponds each clamp splice (13) tail end.

8. The batch head heat shrinkable tube sleeving production line of claim 7, wherein: the synchronizing mechanism comprises a propulsion oil cylinder (38) fixedly arranged on a feeding frame (7), the propulsion oil cylinder (38) stretches out the end to be fixed with a synchronizing frame (39), a blanking rod (16) and an ejector rod (10) are fixedly arranged on the synchronizing frame (39), the synchronizing frame (39) is elastically provided with two top rings (40) which are respectively sleeved on the blanking rod (16) and the ejector rod (10) in the outside, and the top rings (40) stretch into the annular groove (49) to be matched with the guide surface (48) in an abutting mode.

9. The batch head heat shrinkable tube sleeving production line of claim 1, wherein: the feeding frame (7) is arranged on the frame (1) in a sliding mode, a screw rod (36) in threaded connection with the feeding frame (7) is arranged on the frame (1) in a rotating mode, an aligning plate (37) is arranged on one side, close to the rotary table (11), of the sliding way (9) in a sliding mode, and a locking bolt in abutting fit with the sliding way (9) is connected to the aligning plate (37) in a threaded mode.