CN219294736U - Dual-module thermal shrinkage device - Google Patents

Abstract

The utility model provides a double-module heat shrinkage device, which comprises a bedplate, wherein a case is arranged on the lower surface of the bedplate, a top cover is arranged on the rear side of the upper surface of the bedplate, a bracket is arranged on the inner front side of the top cover, the bracket is of a U-shaped structure, two ends of the bracket are connected and fixed with the bedplate, two mounting openings are symmetrically arranged on the upper surface of the bedplate at the position in the top cover, two heating modules for heating a heat shrinkage tube sleeved on a bus are arranged in the two mounting openings and right above the mounting openings, the heating modules in the mounting openings are connected and fixed with the bedplate, the heating modules right above the mounting openings are connected and fixed with the bracket, and two groups of moving pieces which can move between the two heating modules corresponding up and down and are used for storing the position of the bus provided with the heat shrinkage tube in a sleeved mode are arranged on the upper surface of the bedplate, and the double-module heat shrinkage device has the following advantages: realize that the double module carries out pyrocondensation to female wire, improve work efficiency.

Description

Dual-module thermal shrinkage device

Technical Field

The utility model relates to a double-module thermal shrinkage device, and belongs to the field of thermal shrinkage of wires.

Background

The end part of the female wire is usually required to be provided with a wiring terminal, so that the female wire is connected with other electrical equipment conveniently, after the wiring terminal is connected with the female wire, the female wire position of the heat shrinkable tube capable of thermal shrinkage deformation is sleeved at the positions of the female wire and the wiring terminal, and the position of the female wire of the heat shrinkable tube is damaged and deformed in a heating mode, so that the connection position of the female wire and the wiring terminal is covered. At present, the heat shrinkage device for deforming the position of the female wire of the heat shrinkage tube sleeved on the female wire comprises two electric heating parts which are arranged up and down, then one end of the female wire, which is provided with a wiring terminal, is prevented from being arranged on a positioning seat and pushed between the two electric heating parts which are arranged up and down, after the heat shrinkage of the female wire of the heat shrinkage tube on the female wire is completed, the female wire is taken out after the positioning seat is taken out, then the female wire which needs to be subjected to heat shrinkage is placed in the positioning seat and pushed into the two electric heating parts which are arranged up and down again, and the mode needs to wait for the heat shrinkage of the female wire of the next batch after the heat shrinkage of the female wire of the previous batch is completed.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide a double-module heat shrinkage device so as to solve the problems in the background art.

In order to achieve the above object, the present utility model is realized by the following technical scheme: the utility model provides a bimodulus group pyrocondensation device, includes the platen, surface mounting organic case under the platen, the top cap is installed to platen upper surface rear side, the front side is equipped with the support in the top cap, the support is U type structure, the both ends of support are all fixed with the platen connection, two installing ports have been seted up to the position symmetry that the platen upper surface is in the top cap, two in the installing port and all be equipped with the module that generates heat that is used for heating the heat shrinkage tube that the cover was established on the bus, the module that generates heat in the installing port is connected fixedly with the platen, the module that generates heat and the leg joint of installing port are fixed directly over, the moving part that is used for depositing the cover between two sets of movable upper and lower corresponding modules that generate heat is equipped with the bus position of pyrocondensation pipe is installed to the platen upper surface mounting.

Further, the heating module comprises a heat shield, a plurality of electric heating pipes are arranged in the heat shield, the heat shield in the mounting opening is fixedly connected with the bedplate, the opening end of the heat shield in the mounting opening is upwards arranged, the opening end of the heat shield fixedly connected with the bracket is downwards arranged, and two corresponding fans for sending air into the heat shield are respectively arranged at the closed ends of the heat shield.

Further, the moving part comprises a supporting frame, two supporting frames which can extend to a position between two heating modules corresponding to each other up and down are arranged on the upper side of the bedplate, a positioning seat for storing a female wire position with a heat shrink tube is arranged in the supporting frame, two supporting frames are arranged on one side, deviating from each other, of each supporting frame, each supporting frame is fixedly connected with the bedplate, a horizontally arranged guide rail is fixedly connected to one side, facing the supporting frame, of each supporting frame, two sliding seats are fixedly connected to one side, facing the battens, of each supporting frame, each guide rail is inserted in each sliding seat and is in sliding contact with the corresponding sliding seat, one side, far from each supporting frame, of each sliding seat is fixedly connected with a driving belt, a plurality of tooth grooves are uniformly formed in the inner surface of each driving belt, two driving gears meshed with the tooth grooves are arranged in each driving belt, each driving gear is rotationally connected with a carrier plate, each carrier plate is arranged on the lower surface of the bedplate through screws, and one driving gear in each driving belt is fixedly connected with the output end of a servo motor, and each servo motor is arranged on the lower surface of the carrier plate through screws.

Further, one side of the upper surface of the positioning seat, which is far away from the heating module, is provided with a first heat insulation plate, one end of the first heat insulation plate is hinged to one side edge of the upper surface of the positioning seat through a hinge, one side of the upper surface of the positioning seat, which is far away from the first heat insulation plate, is provided with a second heat insulation plate, and one end of the second heat insulation plate is hinged to one side edge of the upper surface of the positioning seat through a hinge.

Further, two detachable side protection shields are symmetrically arranged on one side, away from the top cover, of the upper surface of the bedplate, and one end of each slat extends into each side protection shield.

Further, a plurality of first heat dissipation openings are formed in two parallel side faces of the chassis, and a plurality of second heat dissipation openings are formed in two parallel side faces of the top cover.

Further, the idler wheels are arranged at four corners of the bottom of the case, one side of each idler wheel is provided with an adjusting foot, and the adjusting feet are arranged at the corners of the bottom of the case.

The utility model has the beneficial effects that:

1. the control two servo motor just rotate respectively with the reversal, and then the servo motor drives the carriage through drive gear and drive belt's transmission back and removes, and the carriage drives the positioning seat and removes, and then one positioning seat shifts out from two heat shields that correspond from top to bottom between two, and another positioning seat removes to two heat shields that correspond from top to bottom between, realizes placing the female wire that needs pyrocondensation when taking out the female wire that pyrocondensation finishes, realizes that double module carries out pyrocondensation to female wire, improves work efficiency.

2. One end of the bus wire mounting wiring terminal is arranged in the positioning seat, then the first heat insulation plate and the second heat insulation plate are turned over, so that the first heat insulation plate and the second heat insulation plate realize pressing holding of the bus wire, the relative position of the bus wire and the positioning seat is kept unchanged, and meanwhile, under the blocking of the first heat insulation plate and the second heat insulation plate, only the part, provided with the heat shrinkage tube, of the bus wire sleeve is heated, and other parts of the bus wire are prevented from being damaged due to heating.

Drawings

Other features, objects and advantages of the present utility model will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

FIG. 1 is a schematic diagram of a dual-module heat shrink device according to the present utility model;

FIG. 2 is a schematic diagram of the assembly of a support frame, drive belt, servo motor and slat in a dual-module heat shrink device according to the present utility model;

FIG. 3 is a schematic view of the assembly of a support frame, drive belt, batten, positioning seat and platen in a dual-module heat shrink device according to the present utility model;

FIG. 4 is a schematic diagram of an assembly of a fan, heat shield, electric heating tube and platen in a dual-module heat shrink device of the present utility model;

in the figure: the heat-insulating cabinet comprises a 1-platen, a 2-cabinet, a 3-first heat-radiating opening, a 4-second heat-radiating opening, a 5-top cover, a 6-first heat-insulating plate, a 7-side protection cover, an 8-cabinet door, a 9-adjusting foot, 10-rollers, 11-battens, 12-guide rails, 13-sliding seats, 14-supporting frames, 15-driving belts, 16-driving gears, 17-carrier plates, 18-servo motors, 19-mounting openings, 20-positioning seats, 21-second heat-insulating plates, 22-brackets, 23-heat-insulating covers, 24-fans and 25-electric heating pipes.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

Referring to fig. 1, 3 and 4, the present utility model provides a technical solution: the utility model provides a bimodulus group pyrocondensation device, including platen 1, platen 1 lower surface mounting has quick-witted case 2, machine case 2 one side articulates there are two chamber doors 8, chamber door 8 realizes the shutoff to quick-witted case 2 open end, top cap 5 is installed to platen 1 upper surface rear side, the space that top cap 5 and quick-witted case 2 formed is used for hiding the thermal shield 23 of depositing in installing port 19 and install the thermal shield 23 on support 22, all install gyro wheel 10 in four corners in quick-witted case 2 bottom, the position of quick-witted case 2 is convenient for remove, the regulation foot 9 that is in gyro wheel 10 one side is all installed to four corners in quick-witted case 2 bottom simultaneously, adjust the height of regulation foot 9, make gyro wheel 10 break away from ground, be convenient for the restriction to quick-witted case 2 position.

Referring to fig. 1, fig. 3 and fig. 4, the front side is equipped with the support 22 of U type in the top cover 5, wherein both ends of support 22 are all fixed with platen 1 connection, two installing openings 19 have been seted up to the position symmetry that platen 1 upper surface is in the top cover 5, both install opening 19 in and just above installing opening 19 are equipped with heat exchanger 23, heat exchanger 23 in installing opening 19 is fixed with platen 1 connection and the heat exchanger 23 open end in installing opening 19 is upwards arranged, heat exchanger 23 just above installing opening 19 is fixed with support 22 connection and is fixed with heat exchanger 23 open end down of support 22 connection, install a plurality of electric heating pipes 25 that are used for the pyrocondensation pipe of heating jacket on the bus bar, the fan 24 that sends in to heat exchanger 23 is all installed to the blind end of two corresponding heat exchangers 23, switch on fan 24 and electric heating pipe 25's circuit, fan 24 blows into heat exchanger 23 in, electric heating pipe 25 heats the air in the heat exchanger 23 and forms the high temperature air, high temperature air blows to be equipped with the position of heat exchanger 23 and makes heat shrink tube end cover and the heat shrink tube, and two side face down in parallel to two machine case 5 side face-to two side face of the top cover 2, two side face-down heat dissipation machine case 5 are all set up in parallel to two terminal pair top cover 2.

Referring to fig. 1, 2, 3 and 4, the upper side of the bedplate 1 is provided with two supporting frames 14 which can extend between two heat shields 23 corresponding up and down, wherein a positioning seat 20 for storing a parent wire position sleeved with a heat shrink tube is arranged in each supporting frame 14, one side of each supporting frame 14 facing away from the bedplate 1 is provided with a slat 11 fixedly connected with the bedplate 1, one side of each slat 11 facing the supporting frame 14 is fixedly connected with a horizontally arranged guide rail 12, the guide rail 12 is inserted into two sliding seats 13 fixedly connected with one side of each supporting frame 14 facing the slat 11, the guide rail 12 is in sliding contact with the sliding seat 13, one side of each slat 11 linearly supports one side of the supporting frame 14, one side of each supporting frame 14 far away from each sliding seat 13 is fixedly connected with a transmission belt 15, a plurality of tooth grooves are uniformly processed on the inner surface of the transmission belt 15, two transmission gears 16 meshed with the tooth grooves and rotationally connected with the carrier 17 are arranged in the transmission belt 15, the carrier plate 17 is arranged on the lower surface of the bedplate 1 through screws, one transmission gear 16 of two transmission gears 16 in one transmission belt 15 is fixedly connected with the output end of the servo motor 18, wherein the servo motor 18 is arranged on the lower surface of the carrier plate 17 through screws, the two servo motors 18 are controlled to respectively rotate forward and backward, the servo motor 18 drives the supporting frame 14 to move through the transmission of the transmission gears 16 and the transmission belts 15, the supporting frame 14 drives the positioning seat 20 to move, one positioning seat 20 moves out from between two heat-insulating covers 23 corresponding to the upper part and the lower part, the other positioning seat 20 moves between two heat-insulating covers 23 corresponding to the upper part and the lower part, the mother wire which needs to be heat-shrunk is placed while the mother wire which is heat-shrunk is taken out is realized, the heat shrinkage of the mother wire by the double modules is realized, the work efficiency is improved, two detachable side protection shields 7 are symmetrically arranged on one side, far away from the top cover 5, of the upper surface of the bedplate 1, one end of each slat 11 extends into the side protection shield 7, and the position, located on the outer side of the top cover 5, of each slat 11 is shielded and hidden.

Referring to fig. 1 and 3, a first heat insulation plate 6 is arranged on one side, far away from a heat insulation cover 23, of the upper surface of a positioning seat 20, one end of the first heat insulation plate 6 is hinged to the edge of one side of the upper surface of the positioning seat 20 through a hinge, a second heat insulation plate 21 is arranged on one side, far away from the first heat insulation plate 6, of the upper surface of the positioning seat 20, one end of a female wire mounting wiring terminal is arranged in the positioning seat 20 through the hinge, then the first heat insulation plate 6 and the second heat insulation plate 21 are turned over, and further the first heat insulation plate 6 and the second heat insulation plate 21 realize pressing and holding of the female wire, so that the relative positions of the female wire and the positioning seat 20 are kept unchanged, and meanwhile, under the blocking of the first heat insulation plate 6 and the second heat insulation plate 21, only the part, where a heat shrinkage tube is arranged on the female wire sleeve, is heated, so that other parts of the female wire are prevented from being damaged due to heating.

Although the present disclosure describes embodiments, not every embodiment is described in terms of a single embodiment, and such description is for clarity only, and one skilled in the art will recognize that the embodiments described in the disclosure as a whole may be combined appropriately to form other embodiments that will be apparent to those skilled in the art.

Claims (7)

1. A dual-module heat shrink device comprising a platen (1), characterized in that: the utility model discloses a solar heat collector is characterized in that a chassis (2) is installed on the lower surface of a bedplate (1), a top cover (5) is installed on the rear side of the upper surface of the bedplate (1), a support (22) is arranged on the inner front side of the top cover (5), the support (22) is of a U-shaped structure, two ends of the support (22) are connected and fixed with the bedplate (1), two mounting openings (19) are symmetrically formed in the position of the upper surface of the bedplate (1) in the top cover (5), two heating modules used for heating heat shrink tubes sleeved on a bus are arranged in the mounting openings (19) and right above the mounting openings (19), the heating modules in the mounting openings (19) are connected and fixed with the bedplate (1), and two groups of movable moving pieces which are arranged between the two heating modules and correspond up and down and are used for storing the positions of the bus, wherein the heat shrink tubes are arranged on the bus.

2. The dual-module heat shrink device of claim 1, wherein: the heating module comprises a heat shield (23), a plurality of electric heating pipes (25) are arranged in the heat shield (23), the heat shield (23) in the mounting opening (19) is fixedly connected with the bedplate (1), the opening end of the heat shield (23) in the mounting opening (19) is upwards arranged, the opening end of the heat shield (23) fixedly connected with the bracket (22) is downwards arranged, and two corresponding fans (24) for sending air into the heat shield (23) are respectively arranged at the closed ends of the heat shields (23).

3. The dual-module heat shrink device of claim 1, wherein: the movable part comprises a supporting frame (14), two supporting frames (14) which can extend to a position between two heating modules corresponding to each other up and down are arranged on the upper side of the bedplate (1), positioning seats (20) for storing positions of female wires sleeved with heat shrink tubes are arranged in the supporting frames (14), battens (11) are arranged on one sides, deviating from each other, of the supporting frames (14), the battens (11) are fixedly connected with the bedplate (1), horizontally arranged guide rails (12) are fixedly connected to one side, facing the supporting frames (14), of the supporting frames (14) facing the battens (11), two sliding seats (13) are fixedly connected to one side, facing the battens (11), of the guide rails (12) are inserted in the sliding seats (13) and are in sliding contact with the sliding seats (13), one side, far away from the sliding seats (13), of the supporting frames (14) are fixedly connected with a driving belt (15), a plurality of tooth grooves are uniformly formed in the inner surface of the driving belt (15), two driving gears (16) meshed with the tooth grooves are arranged in the driving belt (15), driving gears (16) are fixedly connected with one driving end (17) of the driving belt (16) through screws (17) in the driving end (16), the servo motor (18) is arranged on the lower surface of the carrier plate (17) through screws.

4. A dual-module heat shrink device as set forth in claim 3 wherein: one side that module that generates heat was kept away from to positioning seat (20) upper surface is equipped with first heat insulating board (6), first heat insulating board (6) one end is articulated in positioning seat (20) upper surface one side edge through the hinge, one side that first heat insulating board (6) was kept away from to positioning seat (20) upper surface is equipped with second heat insulating board (21), second heat insulating board (21) one end is articulated in positioning seat (20) upper surface one side edge through the hinge.

5. A dual-module heat shrink device as set forth in claim 3 wherein: two detachable side protection shields (7) are symmetrically arranged on one side, far away from the top cover (5), of the upper surface of the bedplate (1), and one end of each slat (11) extends into the side protection shield (7).

6. The dual-module heat shrink device of claim 1, wherein: a plurality of first heat dissipation openings (3) are formed in two parallel side faces of the chassis (2), and a plurality of second heat dissipation openings (4) are formed in two parallel side faces of the top cover (5).

7. The dual-module heat shrink device of claim 1, wherein: the four corners of the bottom of the case (2) are provided with rollers (10), one side of each roller (10) is provided with an adjusting foot (9), and each adjusting foot (9) is arranged at the corner of the bottom of the case (2).

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