CN220180020U - Mining cable hook forming die - Google Patents

Mining cable hook forming die Download PDF

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Publication number
CN220180020U
CN220180020U CN202321687280.9U CN202321687280U CN220180020U CN 220180020 U CN220180020 U CN 220180020U CN 202321687280 U CN202321687280 U CN 202321687280U CN 220180020 U CN220180020 U CN 220180020U
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China
Prior art keywords
fixedly arranged
base
cooling
circulating pipe
cooling tank
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Active
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CN202321687280.9U
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Chinese (zh)
Inventor
范光豹
范光涛
张月建
宋方周
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Wenzhou Bo Chuang Technology Co ltd
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Wenzhou Bo Chuang Technology Co ltd
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Priority to CN202321687280.9U priority Critical patent/CN220180020U/en
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Abstract

The utility model discloses a mining cable hook forming die which comprises a base, supporting legs, supporting frames, electric telescopic rods, an upper module and a lower module, wherein the supporting legs are fixedly arranged at the lower end of the base, the supporting frames are fixedly arranged at the upper ends of the base, the electric telescopic rods are fixedly arranged at the lower ends of the supporting frames, the upper module is fixedly arranged at the output ends of the electric telescopic rods, the lower module is fixedly arranged at the upper ends of the base, a die cavity is formed in the inner side of the lower module, a cooling groove is formed in the inner side of the lower module, a cooling box is fixedly arranged at the upper ends of the base, and a circulating pump is fixedly arranged in the inner side of the cooling box. According to the mining cable hook forming die, the cooling box is fixedly arranged at the upper end of the base, when the cooling speed of hook raw materials is required to be accelerated, the circulating pumps at the two ends are operated, so that cooling liquid at the inner side of the cooling box circulates at the inner side of the cooling tank through the first circulating pipe and the second circulating pipe, the cooling of the hook raw materials is accelerated through the circulation of the cooling liquid, and the hook forming efficiency is improved.

Description

Mining cable hook forming die
Technical Field
The utility model relates to the technical field of dies, in particular to a mining cable hook forming die.
Background
When a coal mine is dug in a mine, a cable needs to be erected to provide power for an illuminating lamp, the cable needs to be hung on a wall when the cable is erected to prevent a worker tripping over when the worker walks, the cable needs to be laid on the wall by using a hook, the cable is hung on the wall by the hook, the hook used in the mine is generally made of iron materials, and the hook needs to be molded by an injection mold when being produced to be processed into a required shape and size.
The utility model provides a couple forming die of application number CN202223069543.8, includes bed frame, base plate, injection molding hole, slot, slide, slider, mould board, picture peg and blevile of push, the base plate is located on the bed frame, in the base plate was located to the injection molding hole, in the base plate was located to the slot, the slide slides and locates on the bed frame, slider locates on the bed frame and is connected with the slide, on the slide was located to the mould board, be equipped with the mould groove in the mould board, the picture peg is located on the slide and can insert in the slot, blevile of push locates on the slide. The utility model belongs to the technical field of dies, and particularly relates to a hook forming die capable of replacing manual unloading and improving production efficiency.
This contrast file pushes up the couple of mould inslot adhesion through blevile of push to reach the effect of using manpower sparingly, but the device does not set up the structure of accelerating cooling, and couple volume is less, the demand is great, need make its cooling harden in the shaping, takes out it afterwards, if rely on natural cooling to make couple raw and other materials carry out shaping, the speed that the speed is slower can influence the speed of processing.
Aiming at the problems, innovative design is urgently needed on the basis of the original desk structure.
Disclosure of Invention
The utility model aims to provide a mining cable hook forming die, which aims to solve the problems that in the background technology, the volume of a hook is smaller, the demand is larger, the hook needs to be cooled and hardened during shaping, then the hook is taken out, and if the hook raw material is shaped by means of natural cooling, the processing speed is influenced by slower speed.
In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a mining cable hook forming die, includes base, supporting leg, support frame, electric telescopic handle, goes up module and lower module, base lower extreme fixed mounting has the supporting leg, and base upper end fixed mounting has the support frame, support frame lower extreme fixed mounting has electric telescopic handle, and electric telescopic handle output fixed mounting has last module, base upper end fixed mounting has lower module, and the mould cavity has been seted up to the module inboard down to the cooling tank has been seted up to the module inboard down, base upper end fixed mounting has the cooling tank, and the inboard fixed mounting of cooling tank has the circulating pump, the circulating pump is connected with right side cooling tank through first circulating pipe, and first circulating pipe runs through the cooling tank inboard to right side circulating pump is connected with left side cooling tank through the second circulating pipe, and the second circulating pipe runs through the cooling tank inboard.
Preferably, the cooling grooves are symmetrically distributed in front and back with respect to the middle point of the die cavity, and the lower die block and the upper die block outside the die cavity are correspondingly distributed up and down; the cooling grooves are symmetrically distributed in front and back relative to the middle point of the die cavity, and can accelerate the cooling efficiency of the lower die block.
Preferably, the cooling boxes are symmetrically arranged in two groups about the midpoint of the base, and the cooling boxes at the two ends form a through structure through the first circulating pipe and the second circulating pipe; the cooling boxes at the two ends form a through structure through the first circulating pipe and the second circulating pipe, so that the circulating structure can be formed, and the cooling liquid can continuously flow to cool the lower module.
Preferably, the servo motor is fixedly arranged outside the base, a threaded rod is fixedly arranged at the output end of the servo motor, the threaded rod penetrates through the inner side of the base, a threaded connector is connected to the outer side of the threaded rod, a sliding rail is fixedly arranged inside the base, a connecting rod is nested inside the sliding rail, the connecting rod is fixedly arranged outside the threaded connector, a roller is fixedly arranged at the upper end of the threaded connector, a through groove is formed in the inner side of the lower module, the through groove penetrates through the inner side of the base, a telescopic spring is fixedly arranged in the inner side of the base, a top block is fixedly connected to the upper end of the telescopic spring, the top block penetrates through the inner side of the groove, and a bevel block is fixedly arranged at the lower end of the top block.
Preferably, the threaded connector is in threaded connection with the threaded rod through a threaded hole formed in the inner side, and the connecting rod on the outer side of the threaded connector and the base form a sliding structure through a sliding track; the threaded connector is in threaded connection with the threaded rod through a threaded hole formed in the inner side, and the threaded connector can be driven to move left and right through rotation of the threaded rod.
Preferably, the ejector block and the through groove form a sliding structure, and the ejector block and the base form an elastic structure through a telescopic spring; the telescopic spring can reset the top block through the elasticity of the telescopic spring.
Compared with the prior art, the utility model has the beneficial effects that: the mining cable hook forming die comprises:
1. be provided with the structure of cooling with higher speed, through at base upper end fixed mounting cooler bin, when the speed of couple raw and other materials cooling needs to be accelerated, the circulating pump at operation both ends makes the inboard coolant liquid of cooler bin circulate in the cooler bin inboard through first circulating pipe and second circulating pipe, accelerates the cooling of couple raw and other materials through the circulation of coolant liquid, improves the fashioned efficiency of couple.
2. Be provided with the structure of drawing of patterns of being convenient for, after the couple is moulded, through operation servo motor to drive the threaded rod and rotate, drive the threaded connector of outside and control and remove, extrude the bevel connection piece through the gyro wheel of upper end, make bevel connection piece upwards move and jack up the couple from the die cavity through the ejector pin, reach the structure of drawing of patterns of being convenient for, promoted work efficiency.
Drawings
FIG. 1 is a schematic diagram of the structure of the present utility model in a front cross-section;
FIG. 2 is a schematic elevational view of the present utility model;
FIG. 3 is a schematic top view of the base of the present utility model;
FIG. 4 is a schematic view of a partial side cross-sectional structure of a base of the present utility model;
fig. 5 is an enlarged schematic view of the structure of fig. 1 a according to the present utility model.
In the figure: 1. a base; 2. support legs; 3. a support frame; 4. an electric telescopic rod; 5. an upper module; 6. a lower module; 7. a mold cavity; 8. a cooling tank; 9. a cooling box; 10. a circulation pump; 11. a first circulation pipe; 12. a second circulation pipe; 13. a servo motor; 14. a threaded rod; 15. a threaded connector; 16. a sliding rail; 17. a connecting rod; 18. a roller; 19. a through groove; 20. a top block; 21. a telescopic spring; 22. and (5) a bevel block.
Description of the embodiments
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
Referring to fig. 1-5, the present utility model provides a technical solution: a mining cable hook forming die comprises a base 1, supporting legs 2, a supporting frame 3, an electric telescopic rod 4, an upper module 5, a lower module 6, a die cavity 7, a cooling tank 8, a cooling tank 9, a circulating pump 10, a first circulating pipe 11, a second circulating pipe 12, a servo motor 13, a threaded rod 14, a threaded connector 15, a sliding rail 16, a connecting rod 17, a roller 18, a through groove 19, a top block 20, a telescopic spring 21 and a bevel block 22.
The lower end of the base 1 is fixedly provided with a supporting leg 2, the upper end of the base 1 is fixedly provided with a supporting frame 3, the lower end of the supporting frame 3 is fixedly provided with an electric telescopic rod 4, the output end of the electric telescopic rod 4 is fixedly provided with an upper module 5, the upper end of the base 1 is fixedly provided with a lower module 6, the inner side of the lower module 6 is provided with a mold cavity 7, the inner side of the lower module 6 is provided with a cooling tank 8, the upper end of the base 1 is fixedly provided with a cooling tank 9, the inner side of the cooling tank 9 is fixedly provided with a circulating pump 10, the circulating pump 10 is connected with the right cooling tank 9 through a first circulating pipe 11, the first circulating pipe 11 penetrates the inner side of the cooling tank 8, the right circulating pump 10 is connected with the left cooling tank 9 through a second circulating pipe 12, and the second circulating pipe 12 penetrates the inner side of the cooling tank 8;
according to the figures 1-3, two groups of cooling grooves 8 are symmetrically distributed around the midpoint of the die cavity 7, and the lower die block 6 and the upper die block 5 outside the die cavity 7 are correspondingly distributed up and down; the cooling boxes 9 are symmetrically arranged in two groups on the midpoint of the base 1 in a left-right manner, and the cooling boxes 9 at two ends form a through structure through a first circulating pipe 11 and a second circulating pipe 12;
the structure firstly pours the hook raw material into the die cavity 7, then the electric telescopic rod 4 is operated, the upper module 5 moves downwards to be attached to the lower module 6 for molding the hook raw material, in the molding process, the circulating pump 10 is operated, the left circulating pump 10 conveys cooling liquid to the right cooling box 9 through the first circulating pipe 11, the right circulating pump 10 conveys cooling liquid to the left inner side of the cooling box 9 through the second circulating pipe 12, so that the cooling boxes 9 at two ends form a circulating system, and when the cooling liquid flows, the inner sides of the cooling grooves 8 penetrate through the first circulating pipe 11 and the second circulating pipe 12 to cool the inner sides of the lower module 6, thereby accelerating the molding efficiency of the hook raw material.
The servo motor 13 is fixedly arranged on the outer side of the base 1, the threaded rod 14 is fixedly arranged at the output end of the servo motor 13, the threaded rod 14 penetrates through the inner side of the base 1, the threaded connector 15 is connected to the outer side of the threaded rod 14, the sliding track 16 is fixedly arranged on the inner side of the base 1, the connecting rod 17 is nested on the inner side of the sliding track 16, the connecting rod 17 is fixedly arranged on the outer side of the threaded connector 15, the roller 18 is fixedly arranged at the upper end of the threaded connector 15, the through groove 19 is formed in the inner side of the lower module 6, the through groove 19 penetrates through the inner side of the base 1, the telescopic spring 21 is fixedly arranged on the inner side of the base 1, the upper end of the telescopic spring 21 is fixedly connected with the top block 20, the top block 20 penetrates through the inner side of the through groove 19, and the bevel block 22 is fixedly arranged at the lower end of the top block 20;
according to fig. 1-5, the threaded connector 15 is in threaded connection with the threaded rod 14 through a threaded hole formed in the inner side, and the connecting rod 17 on the outer side of the threaded connector 15 and the base 1 form a sliding structure through a sliding track 16; the top block 20 and the through groove 19 form a sliding structure, and the top block 20 and the base 1 form an elastic structure through a telescopic spring 21;
after the hook is formed, the servo motor 13 is operated, the threaded rod 14 is driven to rotate through the output end of the servo motor 13, the threaded rod 14 rotates to enable the threaded connector 15 in threaded connection on the outer side to move to the right, the idler wheel 18 on the upper end can squeeze the bevel block 22 along with continuous rightward movement of the threaded connector 15, the top block 20 on the upper end slides upwards along the inner side of the through groove 19 to push the hook out of the inner side of the lower module 6, and the effect of convenience in demolding is achieved through the structure.
What is not described in detail in this specification is prior art known to those skilled in the art.
Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a mining cable hook forming die, includes base (1), supporting leg (2), support frame (3), electric telescopic handle (4), goes up module (5) and lower module (6), its characterized in that: support leg (2) are fixedly arranged at the lower end of base (1), support frame (3) are fixedly arranged at the upper end of base (1), electric telescopic rod (4) are fixedly arranged at the lower end of support frame (3), upper module (5) are fixedly arranged at the output end of electric telescopic rod (4), lower module (6) are fixedly arranged at the upper end of base (1), die cavity (7) are arranged at the inner side of lower module (6), cooling tank (8) are arranged at the inner side of lower module (6), cooling tank (9) are fixedly arranged at the upper end of base (1), circulating pump (10) are fixedly arranged at the inner side of cooling tank (9), circulating pump (10) are connected with right side cooling tank (9) through first circulating pipe (11), first circulating pipe (11) penetrates the inner side of cooling tank (8), and right side circulating pump (10) are connected with left side cooling tank (9) through second circulating pipe (12), and second circulating pipe (12) penetrates the inner side of cooling tank (8).
2. The mining cable hook forming die according to claim 1, wherein: the cooling grooves (8) are symmetrically distributed in front and back with respect to the middle point of the die cavity (7), and the lower die block (6) and the upper die block (5) at the outer side of the die cavity (7) are correspondingly distributed up and down.
3. The mining cable hook forming die according to claim 1, wherein: the cooling boxes (9) are symmetrically arranged in two groups on the midpoint of the base (1) in a left-right mode, and the cooling boxes (9) at two ends form a through structure through the first circulating pipe (11) and the second circulating pipe (12).
4. The mining cable hook forming die according to claim 1, wherein: the automatic feeding device is characterized in that a servo motor (13) is fixedly arranged on the outer side of the base (1), a threaded rod (14) is fixedly arranged at the output end of the servo motor (13), the threaded rod (14) penetrates through the inner side of the base (1), a threaded connector (15) is connected to the outer side of the threaded rod (14), a sliding track (16) is fixedly arranged on the inner side of the base (1), a connecting rod (17) is nested on the inner side of the sliding track (16), the connecting rod (17) is fixedly arranged on the outer side of the threaded connector (15), a roller (18) is fixedly arranged at the upper end of the threaded connector (15), a through groove (19) is formed in the inner side of the lower module (6), the through groove (19) penetrates through the inner side of the base (1), a telescopic spring (21) is fixedly arranged on the inner side of the base (1), a top block (20) is fixedly connected to the upper end of the telescopic spring (21), and a through groove (19) is fixedly arranged on the inner side of the top block (20).
5. The mining cable hook molding die according to claim 4, wherein: the threaded connector (15) is in threaded connection with the threaded rod (14) through a threaded hole formed in the inner side, and the connecting rod (17) on the outer side of the threaded connector (15) and the base (1) form a sliding structure through a sliding track (16).
6. The mining cable hook molding die according to claim 4, wherein: the top block (20) and the through groove (19) form a sliding structure, and the top block (20) and the base (1) form an elastic structure through a telescopic spring (21).
CN202321687280.9U 2023-06-29 2023-06-29 Mining cable hook forming die Active CN220180020U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202321687280.9U CN220180020U (en) 2023-06-29 2023-06-29 Mining cable hook forming die

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202321687280.9U CN220180020U (en) 2023-06-29 2023-06-29 Mining cable hook forming die

Publications (1)

Publication Number Publication Date
CN220180020U true CN220180020U (en) 2023-12-15

Family

ID=89105613

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202321687280.9U Active CN220180020U (en) 2023-06-29 2023-06-29 Mining cable hook forming die

Country Status (1)

Country Link
CN (1) CN220180020U (en)

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