阅读说明：本技术 一种履带式热缩套管加工设备 (Crawler-type heat-shrinkable sleeve processing equipment ) 是由 谭晓龙 王选 何国彪 罗琦峰 彭聪 于 2021-08-18 设计创作，主要内容包括：本发明涉及热缩套管加工技术领域,具体的说是一种履带式热缩套管加工设备,包括放料组件,所述放料组件内部包括有出料斜型板和放料组件外壳,所述出料斜型板板身左侧前后两侧分别固定安装有放料组件外壳,每个所述放料组件外壳内部通过活动滑槽滑动安装有位移滑块；本发明通过放料组件可以在其出料斜型板板身左侧放置材料,之后对其材料进行位置的整齐,并引导至加工组件内部,有效防止因材料过多导致其材料发生混乱影响后期加工,通过加工组件实现对材料进行传动传输,并和固定组件进行配合传输实现对材料的位置固定,通过两侧加热灯安装夹内部夹住固定有加热灯安装板使得加热灯能够在两侧第二传输带之间进行对其材料的加热。(The invention relates to the technical field of heat-shrinkable tubing processing, in particular to crawler-type heat-shrinkable tubing processing equipment which comprises a discharging assembly, wherein a discharging inclined plate and a discharging assembly shell are arranged in the discharging assembly; according to the invention, materials can be placed on the left side of the discharging inclined plate body of the discharging assembly through the discharging assembly, then the materials are orderly in position and are guided into the processing assembly, the influence of disorder of the materials caused by excessive materials on later-stage processing is effectively prevented, the materials are transmitted through the processing assembly and are fixed in position through the transmission of the materials and the fixing assembly, and the heating lamp mounting plates are clamped and fixed in the heating lamp mounting clamps at two sides, so that the heating lamps can heat the materials between the second conveying belts at two sides.)

1. A crawler-type heat-shrinkable tubing processing device is characterized by comprising

The discharging assembly (3), the discharging assembly (3) comprises a discharging inclined plate (302) and discharging assembly shells (303), the discharging inclined plate (302) is fixedly provided with the discharging assembly shells (303) on the front side and the rear side of the left side of the plate body respectively, and a displacement slide block (307) is arranged in each discharging assembly shell (303) in a sliding mode through a movable sliding chute (306);

the fixing component (4), the fixing component (4) comprises a component supporting rod (401) and a component mounting plate (402) inside, the component supporting rod (401) is fixedly mounted at the right end of the upper surface of the equipment mounting table (1), the component mounting plate (402) is fixedly mounted on the left side of the top end of the equipment mounting table (1), a movable adjusting hole (403) penetrates through the middle of the left side of the component mounting plate (402), spring mounting shells (412) are fixedly mounted on the left side and the right side of the inside of the component mounting plate (402) respectively, each spring mounting shell (412) is hollow inside, and a rotating shaft mounting sleeve plate (411) is movably mounted at the top end of the inside through a spring limiting rod (409);

processing subassembly (5), processing subassembly (5) is inside including processing subassembly shell (501) and second transmission pivot (503), both ends about processing subassembly shell (501) inner wall are rotated respectively in second transmission pivot (503) both sides transmission respectively are connected with second transmission band (502), right-hand member around second transmission pivot (503) axle body is equipped with cooperation tooth (508) respectively, fixed mounting has the finished product to place board (7) between processing subassembly shell (501) and subassembly bracing piece (401).

2. The tracked heat-shrinkable tubing processing equipment of claim 1, wherein: every blowing subassembly shell (303) inside left and right sides is equipped with movable spout (306), every respectively the inside slidable mounting of movable spout (306) has displacement slider (307), every displacement slider (307) inboard runs through movable limiting plate (304) fixed mounting respectively and pushes down limiting plate (305), both ends fixed mounting respectively has subassembly support column (301), both ends around ejection of compact inclined plate (302) lower extreme left side both ends around subassembly support column (301) fixed mounting respectively are both ends around equipment fixing station (1) left side.

3. The tracked heat-shrinkable tubing processing equipment of claim 2, wherein: every it has handle (308) to push down limiting plate (305) the equal fixed mounting in upper surface of the plate body, equipment fixing platform (1) lower extreme fixed mounting respectively has four equipment support columns (2), and the front end is two fixed mounting has installation pole (8) between equipment support column (2), installation pole (8) pole body fixed mounting has two control box mounting sleeve (11), two control box mounting sleeve (11) lower extreme fixed mounting has control box (6).

4. The tracked heat-shrinkable tubing processing equipment of claim 1, wherein: every the inside rotation cover of pivot installation lagging (411) is equipped with first transmission shaft (408), two both ends transmission connection respectively has first transmission belt (406), both ends around between first transmission shaft (408) first transmission belt (406) surface is equipped with material non slipping spur (405), every the pot head is equipped with gag lever post movable sleeve (410) under spring gag lever post (409), every gag lever post movable sleeve (410) fixed mounting respectively is at pivot installation lagging (411) upper surface.

5. The tracked heat-shrinkable tubing processing equipment of claim 4, wherein: every fixed surface installs down compression spring (413), every on pivot installation lagging (411) fixed mounting respectively to spring installation shell (412) top surface, every down compression spring (413) the inner all overlaps and is equipped with spring gag lever post (409) and gag lever post movable sleeve (410), left side fixed surface installs L type connecting rod (407) on pivot installation lagging (411), L type connecting rod (407) run through movable adjusting hole (403) fixed mounting and adjust handle (404).

6. The tracked heat-shrinkable tubing processing equipment of claim 1, wherein: the utility model discloses a processing subassembly shell (501) inside bottom left side fixed mounting has motor (506), motor (506) output end fixed mounting has drive gear (505), drive gear (505) are connected with cooperation tooth (508) through drive chain (507) transmission, both sides second transmission band (502) surface is equallyd divide and is equipped with a plurality of material non slipping spur (405), processing subassembly shell (501) inner wall in the middle of the left and right sides fixed mounting respectively has heating lamp installation to press from both sides (504), both sides heating lamp installation is pressed from both sides (504) inside and is cliped and is fixed with heating lamp mounting panel (509).

7. The tracked heat-shrinkable tubing processing equipment of claim 6, wherein: heating lamp mounting panel (509) lower extreme electric connection has equipment cable (9), motor (506) left side electric connection has equipment cable (9), heating lamp mounting panel (509) upper end electric installation respectively has heating lamp (510), equipment cable (9) pass cable extension hole (10) and are connected to control box (6), cable extension hole (10) run through establish in processing subassembly shell (501) and equipment fixing platform (1) bottom, heating lamp (510) set up between both sides second transmission band (502).

Technical Field

The invention relates to the technical field of heat-shrinkable tubing processing, in particular to crawler-type heat-shrinkable tubing processing equipment.

Background

The heat shrinkable sleeve is a novel environment-friendly halogen-free flame-retardant sleeve and can provide insulation protection for wires, cables and wire terminals. The method is widely applied to insulation protection of wire harnesses, welding spots and inductors, rust prevention and corrosion prevention of metal tubes and bars and the like. When the heat-shrinkable tubing is processed, corresponding equipment is needed to heat the heat-shrinkable tubing, so that the working process of the heat-shrinkable tubing is realized.

However, the above solution has the following disadvantages in use: general processing equipment can not carry out crawler-type processing to having leaded to adding the operation that can not carry out automatic conveying man-hour, having made the process time obtain extravagant, having influenced its machining efficiency, and general processing equipment is tender effectual fixes the material, thereby takes place the condition that the material dropped easily when adding man-hour, thereby influences operation procedure.

Disclosure of Invention

The invention mainly aims to provide crawler-type heat-shrinkable tubing processing equipment which can effectively solve the problems in the background technology.

In order to achieve the purpose, the invention adopts the technical scheme that:

a crawler-type heat-shrinkable sleeve processing device comprises

The discharging assembly comprises a discharging inclined plate and a discharging assembly shell, the discharging inclined plate is fixedly arranged on the front side and the rear side of the left side of the plate body of the discharging inclined plate, and a displacement slide block is slidably arranged in each discharging assembly shell through a movable chute;

the fixing component comprises a component supporting rod and a component mounting plate, the component supporting rod is fixedly mounted at the right end of the upper surface of the equipment mounting table, the component mounting plate is fixedly mounted on the left side of the top end of the equipment mounting table, a movable adjusting hole penetrates through the middle of the left side of the component mounting plate, spring mounting shells are fixedly mounted on the left side and the right side of the interior of the component mounting plate respectively, each spring mounting shell is hollow, and a rotating shaft mounting sleeve plate is movably mounted at the top end of the interior of each spring mounting shell through a spring limiting rod;

the processing subassembly, the processing subassembly is inside including processing subassembly shell and second transmission pivot, both ends about processing subassembly shell inner wall are installed in the rotation respectively to second transmission pivot, both ends both sides transmission respectively are connected with the second transmission band, the right-hand member around the second transmission pivot axle body is equipped with the cooperation tooth respectively, fixed mounting has the finished product to place the board between processing subassembly shell and the subassembly bracing piece.

Preferably, every the inside left and right sides of blowing subassembly shell is equipped with movable spout respectively, every the inside slidable mounting of movable spout has the displacement slider, every the displacement slider inboard runs through movable limiting plate fixed mounting respectively and pushes down the limiting plate, both ends fixed mounting respectively has the subassembly support column, both ends around the oblique template lower extreme left side of ejection of compact both ends respectively the subassembly support column is fixed mounting both ends around the equipment fixing platform left side respectively.

Preferably, each equal fixed mounting of lower pressure limiting plate body upper surface has a handle, equipment fixing platform lower extreme fixed mounting has four equipment support columns respectively, and the front end is two fixed mounting has the installation pole between the equipment support column, installation pole body fixed mounting has two control box installation sleeves, two control box installation sleeve lower extreme fixed mounting has the control box.

Preferably, a first transmission rotating shaft is sleeved inside each rotating shaft installation sleeve plate, a first transmission belt is connected between the two first transmission rotating shafts in a transmission mode at the front end and the rear end respectively, material anti-skidding blocks are arranged on the outer surface of each first transmission belt at the two ends, a limiting rod movable sleeve is sleeved at the lower end of each spring limiting rod, and each limiting rod movable sleeve is fixedly installed on the upper surface of each rotating shaft installation sleeve plate respectively.

Preferably, every fixed surface installs down the compression spring on the pivot installation sleeve board, every the compression spring top is fixed mounting to spring mounting shell top surface, every respectively the inner cover of compression spring all is equipped with spring gag lever post and gag lever post movable sleeve, left side down fixed surface installs L type connecting rod on the pivot installation sleeve board, L type connecting rod runs through activity regulation hole fixed mounting and has the regulation handle.

As preferred, the inside bottom left side fixed mounting of processing subassembly shell has the motor, motor output fixed mounting has drive gear, drive gear is connected with cooperation tooth, both sides through the transmission of drive chain the second conveyer belt surface is equallyd divide and is do not be equipped with a plurality of material non slipping spur, the left and right sides is fixed mounting respectively has the heating lamp installation to press from both sides, both sides in the middle of the processing subassembly shell inner wall the heating lamp installation is pressed from both sides inside the centre and is carried and be fixed with the heating lamp mounting panel.

As preferred, heating lamp mounting panel lower extreme electric connection has the equipment cable, motor left side electric connection has the equipment cable, heating lamp mounting panel upper end electric mounting has the heating lamp respectively, the equipment cable passes cable extension hole and is connected to the control box, the cable extends the hole and runs through and establish in processing subassembly shell and equipment fixing platform bottom, the heating lamp sets up between the second transmission band of both sides.

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

(1) through the technical scheme, can place the material in its ejection of compact inclined plate body left side through the blowing subassembly, later carry out neatly of position to its material, and guide to the processing subassembly inside, thereby effectively prevent to lead to its material to take place chaotic influence post processing because of the material is too much, and there is the displacement slider through the inside slidable mounting of every movable chute, every displacement slider inboard runs through movable limiting plate fixed mounting respectively and pushes down the limiting plate, realize the position guide to its material, and utilize the handle to operate and adjust, through fixed subassembly, thereby can realize fixing the material that transmits from the blowing subassembly, and carry out position restriction according to its size, prevent that the skew of taking place the position in processing from leading to processing to receive the influence, the pot head is equipped with the gag lever post through every spring gag lever post under the gag lever post, every gag lever post movable sleeve is fixed mounting respectively and realizes that pivot installation lagging can carry out at spring mounting apron upper surface that pivot installation lagging can go on spring mounting The up-and-down position in the shell is moved, so that the interior of the shell is fixed, and the condition that the processing effect is reduced due to deviation generated in processing is effectively reduced;

(2) can realize carrying out transmission to the material through the processing subassembly, and cooperate the transmission with fixed subassembly and realize the rigidity to the material, and clip through both sides heating lamp installation clamp inside and be fixed with the heating lamp mounting panel and make the heating lamp can carry out the heating to its material between the second transmission band of both sides, thereby it carries out manual control to need not personnel, still utilize heating lamp mounting panel lower extreme electric connection to have the equipment cable, motor left side electric connection has the equipment cable, and equipment cable connection control box realizes that control box controls internal plant, reduce personnel's operation and accelerate machining efficiency.

Drawings

FIG. 1 is a schematic view of the overall structure of a crawler-type heat-shrinkable tubing processing apparatus of the present invention;

FIG. 2 is a schematic structural diagram of a crawler-type heat-shrinkable tubing processing apparatus according to the present invention in a front view;

FIG. 3 is a schematic bottom view of the apparatus for processing a crawler-type heat-shrinkable sleeve according to the present invention;

FIG. 4 is a front view structural section of a crawler-type heat-shrinkable tubing processing apparatus of the present invention;

FIG. 5 is a top view structural section of a track-mounted heat-shrinkable tubing processing apparatus of the present invention;

FIG. 6 is a left side cross-section of a fixing assembly of the crawler-type heat-shrinkable tubing processing apparatus of the present invention.

In the figure: 1. an equipment mounting table; 2. an equipment support column; 3. a discharging component; 301. an assembly support post; 302. discharging the inclined plate; 303. a discharge assembly housing; 304. a movable limit plate; 305. pressing the limiting plate; 306. a movable chute; 307. a displacement slide block; 308. a handle; 4. a fixing assembly; 401. an assembly support rod; 402. a component mounting plate; 403. a movable adjusting hole; 404. adjusting the grip; 405. a material non-slip block; 406. a first conveyor belt; 407. an L-shaped connecting rod; 408. a first transmission rotating shaft; 409. a spring limit rod; 410. a limiting rod movable sleeve; 411. mounting a sleeve plate on the rotating shaft; 412. a spring mounting housing; 413. pressing down the spring; 5. processing the assembly; 501. processing the component shell; 502. a second conveyor belt; 503. a second transmission rotating shaft; 504. a heating lamp mounting clip; 505. a transmission gear; 506. a motor; 507. a drive chain; 508. matching teeth; 509. a heating lamp mounting plate; 510. a heating lamp; 6. a control box; 7. a finished product placing plate; 8. mounting a rod; 9. an equipment cable; 10. a cable extension hole; 11. control box installation cover.

Detailed Description

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

Examples

As shown in figures 1-6, a crawler-type heat-shrinkable sleeve processing device comprises

The discharging assembly 3 comprises a discharging inclined plate 302 and a discharging assembly shell 303 inside the discharging assembly 3, the discharging assembly shells 303 are fixedly mounted on the front side and the rear side of the left side of the discharging inclined plate 302 respectively, and a displacement slide block 307 is mounted inside each discharging assembly shell 303 in a sliding mode through a movable sliding chute 306;

the assembly fixing device comprises a fixing assembly 4, wherein an assembly supporting rod 401 and an assembly mounting plate 402 are arranged inside the fixing assembly 4, the assembly supporting rod 401 is fixedly mounted at the right end of the upper surface of an equipment mounting table 1, the assembly mounting plate 402 is fixedly mounted at the left side of the top end of the equipment mounting table 1, a movable adjusting hole 403 penetrates through the middle of the left side of the assembly mounting plate 402, spring mounting shells 412 are fixedly mounted at the left side and the right side of the inside of the assembly mounting plate 402 respectively, each spring mounting shell 412 is hollow inside, and a rotating shaft mounting sleeve plate 411 is movably mounted at the top end of the inside of each spring mounting shell 412 through a spring limiting rod 409;

the processing subassembly 5, the processing subassembly 5 is inside including processing subassembly shell 501 and second transmission pivot 503, and second transmission pivot 503 rotates respectively and installs both ends about processing subassembly shell 501 inner wall, and both sides are connected with second transmission band 502 around the second transmission pivot 503 of both ends transmission respectively, and right-hand member second transmission pivot 503 shaft body is equipped with cooperation tooth 508 respectively, and fixed mounting has the finished product to place board 7 between processing subassembly shell 501 and the subassembly bracing piece 401.

Through the technical scheme, the discharging component 3 can be used for placing materials on the left side of the plate body of the discharging inclined plate 302, then the materials are tidied in position and guided into the processing component 5, so that the situation that the materials are disordered due to excessive materials and influence the later processing is effectively prevented, the displacement slide block 307 is slidably arranged in each movable sliding chute 306, the inner side of each displacement slide block 307 is fixedly provided with the downward pressing limiting plate 305 through the movable limiting plate 304 respectively, the position guiding of the materials is realized, the lifting handle 308 is used for operation and adjustment, the fixing component 4 is used for fixing the materials transmitted from the discharging component 3, the position limitation is carried out according to the size of the materials, the influence on the processing caused by the position deviation in the processing is prevented, the limiting rod movable sleeve 410 is sleeved at the lower end 409 of each spring limiting rod, each limiting rod movable sleeve 410 is respectively and fixedly arranged on the upper surface of the rotating shaft mounting sleeve plate 411 to realize that the rotating shaft mounting sleeve plate 411 can move up and down in the spring mounting shell 412, thereby realizing the fixation of the inner part, thereby effectively reducing the condition that the processing effect is reduced due to the deviation generated in processing, the material can be transmitted through the processing component 5 and is matched with the fixed component 4 to realize the position fixation of the material, and the heating lamp mounting plates 509 are clamped and fixed in the heating lamp mounting clamps 504 at the two sides, so that the heating lamps 510 can heat the material between the second transmission belts 502 at the two sides, thereby the manual control of personnel is not needed, the lower end of the heating lamp mounting plate 509 is electrically connected with the equipment cable 9, the left side of the motor 506 is electrically connected with the equipment cable 9, and the equipment cable 9 is connected with the control box 6 to realize the control of the internal equipment by the control box 6, the operation of personnel is reduced and the processing efficiency is accelerated.

In this embodiment, the inside left and right sides of every blowing subassembly shell 303 is equipped with movable spout 306 respectively, the inside slidable mounting of every movable spout 306 has displacement slider 307, every displacement slider 307 inboard runs through movable limiting plate 304 fixed mounting respectively and pushes down limiting plate 305, both ends fixed mounting respectively has assembly support post 301 around ejection of compact inclined plate 302 lower extreme left side, both ends assembly support post 301 is fixed mounting both ends around 1 left side of equipment fixing platform respectively, every pushes down limiting plate 305 equal fixed mounting in upper surface of the body has handle 308, 1 lower extreme fixed mounting respectively has four equipment support posts 2 of equipment fixing platform, fixed mounting has installing rod 8 between two equipment support posts 2 of front end, 8 pole bodies of installing rod fixed mounting have two control box mounting sleeves 11, 11 lower extreme fixed mounting of two control box mounting sleeves has control box 6. Thereby can realize the preparation to the blowing through above structure to carry out spacing of position to the material, prevent that the factor volume is too much to lead to the material to overlap and lead to its processing confusion, still to the fixed mounting of control box 6 position.

Wherein, the inside rotation cover of every pivot installation lagging 411 is equipped with first transmission pivot 408, and both ends are connected with first transmission area 406 respectively in the transmission around between two first transmission pivot 408, and the first transmission area 406 surface in both ends is equipped with material non slipping spur 405 respectively, and the pot head is equipped with gag lever post movable sleeve 410 under every spring gag lever post 409, and every gag lever post movable sleeve 410 is fixed mounting respectively on pivot installation lagging 411 upper surface. Thereby can realize installing first transmission rotating shaft 408 through above structure to the realization is adjusted its upper and lower position, realizes processing different width materials, and carries out the height restriction to it, prevents that it from taking place the activity and influencing processing effect.

It can be understood that in this application, fixed surface installs down spring 413 on every pivot installation lagging 411, and every down spring 413 top is fixed mounting to spring mounting shell 412 top surface respectively, and every down spring 413 inner all overlaps and is equipped with spring gag lever post 409 and gag lever post movable sleeve 410, and fixed surface installs L type connecting rod 407 on the pivot installation lagging 411 of left side, and L type connecting rod 407 runs through activity regulation hole 403 fixed mounting and has the regulation handle 404. Through the structure, the automatic pressing of the interior of the machine can be realized, and the position fixation of the interior material during processing is ensured.

When specifically setting up, the inside bottom left side fixed mounting of processing subassembly shell 501 has motor 506, and motor 506 output fixed mounting has drive gear 505, and drive gear 505 is connected with cooperation tooth 508 through the transmission of drive chain 507, and both sides second transmission band 502 surface is equallyd divide and is equipped with a plurality of material non slipping spur 405 respectively, and the left and right sides is fixed mounting respectively in the middle of the processing subassembly shell 501 inner wall has heating lamp installation clamp 504, and both sides heating lamp installation clamp 504 is inside to be cliied and is fixed with heating lamp mounting panel 509. Thereby can realize through above structure that second transmission band 502 drives the material and outwards transmits to transmit to the finished product after the completion and place board 7 upper surface and prevent that the too high personnel of processing back temperature can't transmit.

It should be noted that the lower end of the heating lamp mounting plate 509 is electrically connected to an equipment cable 9, the left side of the motor 506 is electrically connected to the equipment cable 9, the upper ends of the heating lamp mounting plate 509 are respectively and electrically mounted with heating lamps 510, the equipment cable 9 passes through a cable extension hole 10 and is connected to the control box 6, the cable extension hole 10 penetrates through the processing assembly housing 501 and the bottom end of the equipment mounting table 1, and the heating lamps 510 are disposed between the second conveyor belts 502 on both sides. Through the structure, the processing of internal materials can be realized, and the control and installation of internal equipment can be realized.

The working principle of the crawler-type heat-shrinkable tubing processing equipment is as follows:

during the use, at first place the material and place the material in ejection of compact inclined plate 302 board body left side, later carry out the neatly of position to its material, and guide to processing subassembly 5 inside, and through the inside slidable mounting of every activity spout 306 there is displacement slider 307, the inboard movable limiting plate 304 fixed mounting that runs through respectively of every displacement slider 307 has a limiting plate 305 that pushes down, realize the position guide to its material, and utilize handle 308 to operate and adjust, later through the lower pot head of every spring gag lever post 409 there is gag lever post movable sleeve 410, every gag lever post movable sleeve 410 is fixed mounting respectively on pivot installation lagging 411 upper surface and realizes that pivot installation lagging 411 can carry out the activity of position from top to bottom in spring installation shell 412 inside, thereby realize fixing its inside, thereby effectively reduce the skew that takes place during processing and lead to the circumstances that the processing effect descends, it is fixed with heating lamp mounting panel 509 to clip through the inside both sides heating lamp mounting clip 504 thereupon and makes heating lamp 510 can be in two inside the activity of spring installation shell 412 Carry out the heating to its material between the second transmission band 502 of side to need not personnel and carry out manual control, still utilize heating lamp mounting panel 509 lower extreme electric connection to have equipment cable 9, motor 506 left side electric connection has equipment cable 9, and equipment cable 9 connection control case 6 realizes that control case 6 controls internal plant, reduces personnel's operation and accelerates machining efficiency.

It should be noted that the specific model specification of the motor 506 is 60ZFMA1-0D40 DB; the specific model specification of the control box 6 is GCS; the specific model specification of the heating lamp 510 is the starhan UV lamp 100 w.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.