CN219583527U - Automatic feeding and thermal shrinkage device for thermal shrinkage pipe - Google Patents

Abstract

The utility model discloses an automatic feeding and thermal shrinkage device for a thermal shrinkage pipe, and relates to the technical field of thermal shrinkage devices, comprising a bottom plate and a feeding component; a bottom plate: the upper side is provided with a fixing component, a heat shrinkage component and a cutting component in sequence from left to right; and a feeding assembly: the device comprises a fixed plate, a connecting plate, a first motor, a rotating shaft and a conveying wheel, wherein the right end of the upper side of a bottom plate is fixed with the fixed plate and the connecting plate, the first motor is installed at the right end of the front side of the fixed plate, six corresponding rotating shafts are rotationally connected at the front side of the connecting plate, the conveying wheel is fixed on the circumferential surface of each rotating shaft, an output shaft of the first motor is fixed on the front end surface of the rotating shaft at the lower end of the right side, and a connecting assembly is installed at the rear side of the fixed plate and drives a heat shrinkage tube to move through the arrangement of a feeding assembly; wherein: the input end of the first motor is electrically connected with the output end of the external control switch group, and the heat shrinkage tube can be conveniently fed and subjected to heat shrinkage.

Description

Automatic feeding and thermal shrinkage device for thermal shrinkage pipe

Technical Field

The utility model relates to the technical field of heat shrinkage devices, in particular to an automatic feeding and heat shrinkage device for heat shrinkage pipes.

Background

In the micro-motor processing process, the heat shrinkage tube is sleeved at the joint of the coil end of the stator enamelled coil and the lead wire to play roles of insulating flame-retardant protection, rust prevention and corrosion prevention, and the working procedure is currently finished by manual operation, so that the following defects exist: the automatic feeding and heat shrinkage device for the heat shrinkage tube is provided with a plurality of people, takes up space, has complicated procedures, is low in production efficiency and cannot guarantee quality, and finally affects the assembly efficiency of motor stator products.

Disclosure of Invention

The utility model aims to overcome the existing defects, and provides an automatic feeding and thermal shrinkage device for thermal shrinkage pipes, which can conveniently feed and thermally shrink the thermal shrinkage pipes and can effectively solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an automatic feeding and thermal shrinkage device for thermal shrinkage pipes comprises a bottom plate and a feeding component;

a bottom plate: the upper side is provided with a fixing component, a heat shrinkage component and a cutting component in sequence from left to right;

and a feeding assembly: the device comprises a fixed plate, a connecting plate, a first motor, a rotating shaft and a conveying wheel, wherein the right end of the upper side of a bottom plate is fixed with the fixed plate and the connecting plate, the first motor is installed at the right end of the front side of the fixed plate, six corresponding rotating shafts are rotationally connected at the front side of the connecting plate, the conveying wheel is fixed on the circumferential surface of each rotating shaft, an output shaft of the first motor is fixed on the front end surface of the rotating shaft at the lower end of the right side, and a connecting assembly is installed at the rear side of the fixed plate and drives a heat shrinkage tube to move through the arrangement of a feeding assembly;

wherein: the input end of the first motor is electrically connected with the output end of the external control switch group.

Further, the coupling assembling contains gear, sprocket and chain, the rear end of pivot is fixed with the gear, and the three gears of upside meshes with the three gears of downside, and the rear end of the gear of downside is fixed with the sprocket, and three sprockets link to each other through the chain.

Further, the cutting assembly comprises a fixed frame, an electric telescopic rod, a cutter holder, a cutting edge and a cutter groove, the left side of the fixed plate is fixed with the fixed frame, the electric telescopic rod is installed on the upper side of the fixed frame, the telescopic arm of the electric telescopic rod is fixed on the upper side of the cutter holder, the cutting edge is fixed on the lower side of the cutter holder, the cutter groove is formed in the lower side of the inner portion of the fixed frame, the input end of the electric telescopic rod is electrically connected with the output end of the external control switch group, and the heat shrinkage tube is cut through the cutting assembly.

Further, the pyrocondensation subassembly contains air heater, connecting pipe, air supply pipe, air outlet box, joint box and arc, the upside of bottom plate is fixed with the joint box, the joint box is located the left side of fixed frame, the upside of joint box is fixed with the arc, the gas vent has been seted up at the middle part of arc, the air heater is installed to the upside of bottom plate, the gas outlet internal fixation of air heater has the connecting pipe, the one end that the air heater was kept away from to the connecting pipe is fixed with the air outlet box, the air outlet box corresponds with the arc each other, the opening has been seted up on the periphery of connecting pipe, open-ended inside is fixed with the air supply pipe, the front end of air supply pipe is fixed in the inside of the air inlet that the joint box rear side set up, the output of outside control switch group is connected to the input electricity of air heater, carries out the pyrocondensation through setting up the pyrocondensation subassembly.

Further, fixed subassembly contains fixed frame, second motor, movable plate, two-way screw rod and gag lever post, the left end of bottom plate upside is fixed with fixed frame, the second motor is installed to fixed frame's upside, and the inside of two fixed frames is provided with two corresponding movable plates, the screw hole has been seted up to the rear side portion of movable plate, and two screw hole screw threads are opposite, and the inside threaded connection of two screw holes has two-way screw rod, two-way screw rod is formed by the welding of two screw rod opposite screw threads, the upper end at two-way screw rod is fixed to the output shaft of second motor, the slide hole has been seted up at the front side portion of movable plate, and the inside sliding connection of two slide holes has the gag lever post, the gag lever post is fixed in fixed frame's inside, the output of outside control switch group is connected to the input electricity of second motor, fixes the wire through setting up fixed subassembly.

Further, the side of the movable plate is fixedly provided with an anti-skid block, and the side of the anti-skid block is provided with anti-skid grooves which are uniformly distributed.

Compared with the prior art, the utility model has the beneficial effects that: this pyrocondensation pipe automatic feed and pyrocondensation device has following benefit:

through setting up fixed subassembly and fixing the wire, insert the pyrocondensation pipe between six delivery wheels after the fixed, start first motor after inserting and make six delivery wheels rotate and drive pyrocondensation pipe left movement, can carry out automatic feed under such circumstances, the pyrocondensation pipe left movement can make pyrocondensation pipe cover on the wire, start cutting assembly after cup jointing and cut off the pyrocondensation pipe, start the air heater after cutting off and advance the inside of connecting box and giving vent to anger the case with hot air injection, enter into the connecting box and give vent to anger the inside hot air of case and will spout to the pyrocondensation pipe and make it pyrocondensation fast, convenience very.

Drawings

FIG. 1 is a schematic view of the front side structure of the present utility model;

FIG. 2 is a schematic view of the rear side structure of the present utility model;

FIG. 3 is a schematic view of a cutting assembly according to the present utility model.

In the figure: 1 a bottom plate, 2 a feeding component, 21 a fixed plate, 22 a connecting plate, 23 a first motor, 24 a rotating shaft, 25 a conveying wheel, 3 a connecting component, 31 a gear, 32 a chain wheel, 33 a chain, 4 a cutting component, 41 a fixed frame, 42 an electric telescopic rod, 43 a cutter holder, 44 a cutting edge, 45 a cutter slot, 5 a heat shrinkage component, 51 a hot air blower, 52 a connecting pipe, 53 an air supply pipe, 54 an air outlet box, 55 a connecting box, 56 an arc plate, 6 a fixed component, 61 a fixed frame, 62 a second motor, 63 a moving plate, 64 a bidirectional screw rod, 65 a limiting rod and 7 a non-slip block.

Detailed Description

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. 1-3, the present embodiment provides a technical solution: an automatic feeding and thermal shrinkage device for thermal shrinkage pipes comprises a bottom plate 1 and a feeding component 2;

the base plate 1: the upper side is provided with a fixing component 6, a thermal shrinkage component 5 and a cutting component 4 in sequence from left to right, the cutting component 4 comprises a fixing frame 41, an electric telescopic rod 42, a cutter holder 43, a cutting edge 44 and a cutter groove 45, the left side of the fixing plate 21 is fixedly provided with the fixing frame 41, the electric telescopic rod 42 is arranged on the upper side of the fixing frame 41, a telescopic arm of the electric telescopic rod 42 is fixed on the upper side of the cutter holder 43, the lower side of the cutter holder 43 is fixedly provided with the cutting edge 44, the lower side of the inside of the fixing frame 41 is provided with the cutter groove 45, the input end of the electric telescopic rod 42 is electrically connected with the output end of an external control switch group, the thermal shrinkage component 5 comprises a hot air blower 51, a connecting pipe 52, an air supply pipe 53, an air outlet box 54, a connecting box 55 and an arc plate 56, the upper side of the bottom plate 1 is fixedly provided with the connecting box 55, the connecting box 55 is positioned on the left side of the fixing frame 41, the upper side of the connecting box 55 is fixedly provided with the arc plate 56, the middle of the arc plate 56 is provided with an air outlet, the upper side of the bottom plate 1 is provided with an air heater 51, a connecting pipe 52 is fixed in an air outlet of the air heater 51, one end of the connecting pipe 52 far away from the air heater 51 is fixed with an air outlet box 54, the air outlet box 54 corresponds to an arc plate 56, the periphery of the connecting pipe 52 is provided with an opening, the inside of the opening is fixed with an air supply pipe 53, the front end of the air supply pipe 53 is fixed in an air inlet arranged at the rear side of the connecting box 55, the input end of the air heater 51 is electrically connected with the output end of an external control switch group, the fixing assembly 6 comprises a fixing frame 61, a second motor 62, a moving plate 63, a bidirectional screw 64 and a limiting rod 65, the left end of the upper side of the bottom plate 1 is fixed with the fixing frame 61, the upper side of the fixing frame 61 is provided with the second motor 62, the two fixing frames 61 are internally provided with two corresponding moving plates 63, the rear side edge of the moving plate 63 is provided with threaded holes, the two screw holes are opposite in screw thread, the two screw holes are internally connected with a bidirectional screw rod 64 in screw thread, the bidirectional screw rod 64 is formed by welding two screw rods with opposite screw threads, an output shaft of a second motor 62 is fixed at the upper end of the bidirectional screw rod 64, sliding holes are formed in the front side edge of a moving plate 63, limit rods 65 are slidably connected in the two sliding holes, the limit rods 65 are fixed in a fixed frame 61, the input end of the second motor 62 is electrically connected with the output end of an external control switch group, a wire is fixed through a fixing component 6, heat shrinkage is performed through a heat shrinkage component 5, and a heat shrinkage pipe is cut through a cutting component 4;

feeding assembly 2: the heat-shrinkable tube comprises a fixed plate 21, a connecting plate 22, a first motor 23, a rotating shaft 24 and a conveying wheel 25, wherein the right end of the upper side of a bottom plate 1 is fixedly provided with the fixed plate 21 and the connecting plate 22, the right end of the front side of the fixed plate 21 is provided with the first motor 23, the front side of the connecting plate 22 is rotationally connected with six corresponding rotating shafts 24, the circumferential surface of each rotating shaft 24 is fixedly provided with the conveying wheel 25, the output shaft of the first motor 23 is fixedly arranged on the front end surface of the rotating shaft 24 at the lower end of the right side, the rear side of the fixed plate 21 is provided with a connecting assembly 3, the connecting assembly 3 comprises a gear 31, a chain wheel 32 and a chain 33, the rear end of each rotating shaft 24 is fixedly provided with the gear 31, the upper three gears 31 are meshed with the lower three gears 31, the rear end of each lower gear 31 is fixedly provided with the chain wheel 32, and the three chain wheels 32 are connected through the chain 33, and the heat-shrinkable tube is driven to move by the feeding assembly 2;

wherein: the input end of the first motor 23 is electrically connected with the output end of the external control switch group

Wherein: the side of the moving plate 63 is fixed with an anti-skid block 7, and the side of the anti-skid block 7 is provided with evenly distributed anti-skid grooves.

The utility model provides an automatic feeding and thermal shrinkage device for thermal shrinkage pipes, which has the following working principle: firstly, the second motor 62 is started to enable the bidirectional screw 64 to rotate, the bidirectional screw 64 rotates to drive the two movable plates 63 to approach gradually, a wire needing a sleeve is placed between the two movable plates 63 in the process that the two movable plates 63 approach gradually, the wire can be fixed by the two movable plates 63 approaching gradually at the moment, a heat shrinkage pipe is inserted between the six conveying wheels 25 after the wire is fixed, the first motor 23 is started after the wire is inserted to enable the six conveying wheels 25 to rotate to drive the heat shrinkage pipe to move leftwards, automatic feeding can be carried out under the condition that the heat shrinkage pipe moves leftwards, the heat shrinkage pipe can be sleeved on the wire, the electric telescopic rod 42 is started after the wire is sleeved to enable the cutting edge 44 to move downwards to cut off the heat shrinkage pipe, and after the wire is cut off, hot air is started to be injected into the inside the connecting box 55 and the air outlet box 54 through the connecting pipe 52 and the air supply pipe 53, and hot air inside the connecting box 55 and the air outlet box 54 is sprayed to the heat shrinkage pipe to enable the heat shrinkage pipe to be quickly shrunk on the surface of the wire, and the convenience is achieved.

It should be noted that the external control switch set disclosed in the above embodiment is provided with buttons corresponding to the first motor 23, the second motor 62, the electric telescopic rod 42 and the air heater 51 one by one, the first motor 23 and the second motor 62 may be 1LE0003 three-phase asynchronous motors, the electric telescopic rod 42 may be se:Sub>A TGC-se:Sub>A high-thrust electric telescopic rod, and the air heater 51 may be se:Sub>A TN-QG20-T16 air heater.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (6)

1. Automatic feeding and pyrocondensation device of pyrocondensation pipe, its characterized in that: comprises a bottom plate (1) and a feeding component (2);

bottom plate (1): a fixing component (6), a heat shrinkage component (5) and a cutting component (4) are sequentially arranged on the upper side from left to right;

feed assembly (2): the automatic feeding device comprises a fixed plate (21), a connecting plate (22), a first motor (23), rotating shafts (24) and conveying wheels (25), wherein the right end of the upper side of a bottom plate (1) is fixedly provided with the fixed plate (21) and the connecting plate (22), the right end of the front side of the fixed plate (21) is provided with the first motor (23), the front side of the connecting plate (22) is rotationally connected with six corresponding rotating shafts (24), the circumferential surface of each rotating shaft (24) is fixedly provided with the conveying wheels (25), the output shaft of each first motor (23) is fixed on the front end surface of the corresponding rotating shaft (24) at the lower end of the right side, and the rear side of the fixed plate (21) is provided with a connecting assembly (3);

wherein: the input end of the first motor (23) is electrically connected with the output end of the external control switch group.

2. The automatic feeding and heat shrinkage device for heat shrinkage pipes according to claim 1, wherein: the connecting assembly (3) comprises a gear (31), a chain wheel (32) and a chain (33), wherein the gear (31) is fixed at the rear end of the rotating shaft (24), three gears (31) at the upper side are meshed with three gears (31) at the lower side, the chain wheel (32) is fixed at the rear end of the gear (31) at the lower side, and the three chain wheels (32) are connected through the chain (33).

3. The automatic feeding and heat shrinkage device for heat shrinkage pipes according to claim 1, wherein: the utility model provides a cutting assembly (4) contains fixed frame (41), electric telescopic handle (42), blade holder (43), cutting edge (44) and sword groove (45), the left side of fixed plate (21) is fixed with fixed frame (41), electric telescopic handle (42) are installed to the upside of fixed frame (41), the upside at blade holder (43) is fixed to the flexible arm of electric telescopic handle (42), the downside of blade holder (43) is fixed with cutting edge (44), sword groove (45) have been seted up to the downside of fixed frame (41) inside, the output of outside control switch group is connected to the input electricity of electric telescopic handle (42).

4. A heat shrink tubing automatic feed and heat shrink device as set forth in claim 3 wherein: the utility model provides a heat shrinkage subassembly (5) contains air heater (51), connecting pipe (52), air supply pipe (53), gives vent to anger case (54), connecting box (55) and arc (56), the upside of bottom plate (1) is fixed with connecting box (55), connecting box (55) are located the left side of fixed frame (41), the upside of connecting box (55) is fixed with arc (56), the gas vent has been seted up at the middle part of arc (56), air heater (51) are installed to the upside of bottom plate (1), the gas outlet internal fixation of air heater (51) has connecting pipe (52), the one end that air heater (51) were kept away from to connecting pipe (52) is fixed with air outlet case (54), air outlet case (54) and arc (56) correspond each other, the opening has been seted up on the periphery of connecting pipe (52), the inside of open-ended is fixed with air supply pipe (53), the front end of air supply pipe (53) is fixed in the inside of the air inlet that connecting box (55) rear side set up, the output of the electric control switch of air heater (51) is connected to the outside.

5. The automatic feeding and heat shrinkage device for heat shrinkage pipes according to claim 4, wherein: the utility model provides a fixed subassembly (6) contains fixed frame (61), second motor (62), movable plate (63), two-way screw rod (64) and gag lever post (65), fixed frame (61) are fixed with to the left end of bottom plate (1) upside, second motor (62) are installed to the upside of fixed frame (61), and the inside of two fixed frames (61) is provided with two corresponding movable plates (63), threaded hole has been seted up at the rear side portion of movable plate (63), and two threaded hole screw threads are opposite, and the inside threaded connection of two threaded holes has two-way screw rod (64), two-way screw rod (64) are formed by two threaded rod welding that the screw thread is opposite, the upper end at two-way screw rod (64) is fixed to the output shaft of second motor (62), slide hole has been seted up at the front side portion of movable plate (63), the inside sliding connection of two slide hole has gag lever posts (65), the inside at fixed frame (61), the output of outside control switch group is connected to the input electricity of second motor (62).

6. The automatic feeding and heat-shrinking device for heat-shrinking tubes as claimed in claim 5, wherein: the anti-skid blocks (7) are fixed on the side surfaces of the moving plates (63), and anti-skid grooves which are uniformly distributed are formed in the side surfaces of the anti-skid blocks (7).