CN214589625U - Machining device for motor power line sleeve - Google Patents

Abstract

The utility model relates to the technical field of power line sleeve heat shrink tube processing, in particular to a processing device for a motor power line sleeve, which comprises a pipe conveying device, a cutting device and an adjusting and picking device; the pipe conveying device is provided with the cutting device, and the adjusting and picking device is arranged at a position close to a discharge port of the cutting device; the three heat shrinkable tubes are synchronously conveyed to the cutting device through the tube conveying device, the three heat shrinkable tubes are cut to the required length through the cutting device, the three heat shrinkable tubes with the required length are grabbed through the adjusting and picking device, and then the motor power line is subjected to tube sleeving action; the pipe conveying device comprises: the device comprises a case, a servo motor, a transmission assembly, an upper conveying roller, a lower conveying roller, a first guide assembly and a second guide assembly; the problem of the manual work will tailor during the pyrocondensation pipe embolias the 3 lines of power cord respectively, waste time and energy, inefficiency, workman intensity of labour is higher is solved.

Description

Machining device for motor power line sleeve

Technical Field

The utility model relates to a power cord cover pyrocondensation pipe processing technology field, concretely relates to processingequipment for motor power cord cover.

Background

The power line is a wire that transmits current. The usual way of current transfer is point-to-point transfer. The power line can be divided into an AC power line and a DC power line according to the purpose, generally, the AC power line is a wire rod passing through AC with higher voltage, and the wire rod needs to be unified standard due to higher voltage so as to obtain a safety certification party and can be formally produced. The DC line passes a direct current with a low voltage, so that the safety requirement is not strict as the AC line, but the countries still require uniform safety certification for safety. The heat-shrinkable tube insulating sheath is required to be sleeved at the wiring position of the power line to avoid the electric leakage phenomenon.

When the existing enterprises sleeve the heat shrinkable tubes related to the power lines of the motors, the cut heat shrinkable tubes are required to be manually sleeved into 3 lines of the power lines respectively, so that the time and the labor are wasted, the efficiency is low, and the labor intensity of workers is high. Therefore, it is necessary to develop a processing device for a motor power line bushing to solve the above problems.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a processingequipment for motor power cord cover has solved the manual work and will tailor during the pyrocondensation pipe embolias the 3 lines of power cord respectively, wastes time and energy, and is inefficient, the higher problem of workman intensity of labour.

The utility model discloses a following technical scheme realizes:

a processing device for a motor power line sleeve comprises a pipe conveying device, a cutting device and an adjusting and picking device; the pipe conveying device is provided with the cutting device, and the adjusting and picking device is arranged at a position close to a discharge port of the cutting device;

through send the pipe device with three pyrocondensation pipes synchronous transport extremely tailor device department, through tailor the device and tailor required length with three pyrocondensation pipes, through adjust the pick device will tailor three pyrocondensation pipes of required length and snatch, carry out the sleeve pipe action to the motor power cord afterwards.

Preferably, the pipe conveying device comprises: the device comprises a case, a servo motor, a transmission assembly, an upper conveying roller, a lower conveying roller, a first guide assembly and a second guide assembly; the machine case is provided with the servo motor, the output end of the servo motor is connected with the input end of the conveying assembly, the two output ends of the conveying assembly are respectively connected with the upper conveying roller and the lower conveying roller, and the first guiding assembly and the second guiding assembly are respectively arranged on the machine case on the front side and the rear side of the upper conveying roller and the lower conveying roller.

Preferably, the case further comprises a snapping rod, the snapping rod enables the upper conveying roller to rotate upwards, and the three heat-shrinkable tubes can be conveniently stretched into a gap between the upper conveying roller and the lower conveying roller for conveying.

Preferably, the first guide assembly and the second guide assembly each include: a fixing plate and a guide tube; three guide tubes are transversely and linearly inserted into the fixed plate.

Preferably, the cutting device includes: the blade clamping device comprises a clamping jaw cylinder I and a blade, wherein the blade is detachably mounted on each of two jaws of the clamping jaw cylinder.

Preferably, the adjusting and picking device comprises: the device comprises a guide rail, a moving plate, a first telescopic cylinder, a second clamping jaw cylinder, a sleeve guide clamp and an auxiliary fixing clamp; the movable plate is arranged on the guide rail in a sliding mode, the driving end of the first telescopic cylinder is connected with the lower end of the movable plate to drive the movable plate to slide on the guide rail, the upper end of the movable plate is provided with the second clamping jaw cylinder, two claws of the second clamping jaw cylinder are detachably provided with the sleeve guide clamp, and the auxiliary fixing clamp is arranged at a position close to the sleeve guide clamp.

Preferably, the cannula guide clamp includes: the upper clamping plate, the lower clamping plate, the plug board, the arc-shaped groove and the semicircular conical hole; the upper clamping plate and the lower clamping plate are detachably mounted on two claws of the clamping jaw air cylinder II respectively, the upper clamping plate and the lower clamping plate respectively comprise two insertion plates, the insertion plates are arranged on the upper side and the lower side, the upper clamping plate and the lower clamping plate are clamped in a staggered insertion mode, three arc-shaped grooves are linearly formed in the insertion plates, and three semicircular conical holes are linearly formed in the upper clamping plate and the lower clamping plate.

Preferably, the auxiliary fixing jig includes: the telescopic cylinder II, the driving plate, the L-shaped clamping plate and the L-shaped clamping seat; the L-shaped clamping seat is provided with a second telescopic cylinder, the driving end of the second telescopic cylinder is provided with the driving plate, and the driving plate is provided with the L-shaped clamping plate.

The utility model has the advantages that:

by adopting the design and the use of the structure, the utility model solves the problems that the cut heat shrinkable tubes are respectively sleeved into 3 wires of the power line by manpower, the time and the labor are wasted, the efficiency is low, and the labor intensity of workers is high;

and the utility model has the advantages of novel structure and reasonable design, it is nimble to handle, has stronger practicality.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a front view of the structure of the present invention;

FIG. 2 is a rear view of the structure of the present invention;

FIG. 3 is a first structural view of the auxiliary fixing clip of the present invention;

FIG. 4 is a second structural view of the auxiliary fixing clip of the present invention;

FIG. 5 is a structural view of the lower jaw of the present invention;

fig. 6 is a structural view of the upper splint according to the present invention.

In the figure: 1-a pipe conveying device, 11-a case, 12-a servo motor, 14-an upper conveying roller, 15-a lower conveying roller, 16-a first guide assembly, 17-a second guide assembly, 18-a breaking-off rod, 2-a cutting device, 21-a first clamping jaw air cylinder, 22-a blade, 3-an adjusting and picking device, 31-a guide rail, 32-a moving plate and 33-a first telescopic air cylinder, 34-a clamping jaw cylinder II, 35-a sleeve guide clamp, 351-an upper clamping plate, 352-a lower clamping plate, 353-an insertion plate, 354-an arc-shaped groove, 355-a semicircular conical hole, 36-an auxiliary fixing clamp, 361-a telescopic cylinder II, 362-a driving plate, 363-L-shaped clamping plates, 364-L-shaped clamping seats, 4-a heat-shrinkable tube and 5-a power line.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1 to 6, an embodiment of the present invention specifically discloses a technical solution of a processing device for a motor power line bushing, which includes a pipe feeding device 1, a cutting device 2, and an adjusting and picking device 3; the pipe conveying device 1 is provided with a cutting device 2, and an adjusting and picking device 3 is arranged at a position close to a discharge port of the cutting device 2;

carry three pyrocondensation pipes 4 in step to tailorring device 2 department through sending pipe device 1, tailor required certain length with three pyrocondensation pipes 4 through tailorring device 2, will tailor three pyrocondensation pipes 4 of required length and snatch through adjusting pickup assembly 3, adjust pickup assembly 3 through control afterwards, will snatch three fixed pyrocondensation pipes 4 and remove and keep away from and tailor device 2, carry out the sleeve pipe action to motor power cord 5 afterwards, carry out the sleeve pipe respectively through the manual work with three lines in the motor power cord 5 promptly.

Referring to fig. 1 to 6, in the embodiment, specifically, the pipe conveying device 1 includes: the device comprises a case 11, a servo motor 12, a transmission assembly, an upper conveying roller 14, a lower conveying roller 15, a first guide assembly 16 and a second guide assembly 17; install servo motor 12 on the quick-witted case 11, servo motor 12's output links to each other with transfer module's input, and transfer module's two outputs link to each other with last conveying roller 14, lower conveying roller 15 respectively, and direction subassembly one 16 and direction subassembly two 17 set up respectively on the quick-witted case 11 of last conveying roller 14, lower conveying roller 15 front and back both sides. Above-mentioned material feeding unit during operation, the work of control servo motor 12, servo motor 12 is through the transmission of conveying subassembly, with power transmission to last conveying roller 14, lower conveying roller 15 on, drive and go up conveying roller 14, lower conveying roller 15 synchronous rotation to the realization carries the purpose to pyrocondensation pipe 4. The first guide assembly 16 and the second guide assembly 17 achieve the purpose of guiding the conveyed heat shrinkable tube 4, and avoid the phenomenon of conveying dislocation or displacement.

On the basis of this embodiment, it is specific, still including breaking off with the fingers and thumb pole 18 of setting on the quick-witted case 11, break off with the fingers and thumb pole 18's setting here, for prior art, its concrete connection structure and relation event are no longer detailed repeatedly, carry out the rotation upwards with last conveying roller 14 through breaking off with the fingers and thumb pole 18, reach and conveniently stretch into three pyrocondensation pipes 4 and carry in the space between last conveying roller 14 and the lower conveying roller 15, further improved pyrocondensation pipe 4 and conveniently inserted the effect of carrying in its space.

On the basis of the present embodiment, specifically, the first guide assembly 16 and the second guide assembly 17 each include: a fixing plate and a guide tube; three guide tubes are transversely and linearly inserted into the fixed plate. That is, the heat shrinkable tube 4 is inserted through the guide tube, and the guide tube is used to guide the conveyance.

On the basis of the present embodiment, specifically, the cutting device 2 includes: the clamping jaw air cylinder I21 and the blade 22 are respectively and detachably mounted on two jaws of the clamping jaw air cylinder. When the cutting device 2 is used, the clamping jaw cylinder 21 is controlled to act to drive the two jaws to close, so that the blade 22 on the clamping jaw cylinder cuts the heat shrinkable tube 4.

On the basis of the present embodiment, specifically, the adjusting pickup device 3 includes: the device comprises a guide rail 31, a moving plate 32, a first telescopic cylinder 33, a second clamping jaw cylinder 34, a sleeve guide clamp 35 and an auxiliary fixing clamp 36; a moving plate 32 is slidably mounted on the guide rail 31, the driving end of a first telescopic cylinder 33 is connected with the lower end of the moving plate 32, the moving plate 32 is driven to slide on the guide rail 31, a second clamping jaw cylinder 34 is mounted at the upper end of the moving plate 32, a sleeve guide clamp 35 is detachably mounted on two jaws of the second clamping jaw cylinder 34, and an auxiliary fixing clamp 36 is arranged at a position close to the sleeve guide clamp 35. When the adjusting and picking device 3 is used, namely after the heat shrinkable tube 4 is conveyed to a certain required length, the clamping jaw cylinder II 34 is controlled to act at the moment, two claws of the clamping jaw cylinder II are driven to be closed, three heat shrinkable tubes 4 are clamped and fixed by using the sleeve guiding clamp 35 on the clamping jaw cylinder II, then the cutting device 2 is used for cutting, then the telescopic cylinder I33 is controlled to act, the driving moving plate 32 slides on the guide rail 31 until the cutting device 2 is far away, then 3 wires of the motor power line 5 are manually inserted into the 3 heat shrinkable tubes 4 respectively, meanwhile, the auxiliary positioning of the motor power line 5 can be further achieved through the arrangement of the auxiliary fixing clamp 36, and the sleeve effect is further improved.

On the basis of the present embodiment, specifically, the cannula guide jig 35 includes: the upper clamping plate 351, the lower clamping plate 352, the plug-in plate 353, the arc-shaped groove 354 and the semi-conical hole 355; last respectively demountable installation of two claws of clamping jaw cylinder two 34 has punch holder 351 and lower plate 352, all including two plugboard 353 that set up on punch holder 351, the lower plate 352, through the plugboard 353 that upper and lower both sides set up, carries out crisscross grafting block with punch holder 351 and lower plate 352, and three arc 354 has been seted up to the linearity on plugboard 353, and three semicircle taper hole 355 has been seted up to punch holder 351, the linearity on lower plate 352. When above-mentioned sleeve pipe guide jig 35 specifically used, the arc wall 354 of both sides about utilizing can carry out the joint with pyrocondensation pipe 4 and fix, and the semicircle taper hole 355 of both sides about utilizing can play the purpose of leading 3 lines respectively when inserting the sleeve pipe with 3 lines of motor power cord 5, improves sheathed tube efficiency, labour saving and time saving.

On the basis of the present embodiment, specifically, the auxiliary fixing jig 36 includes: a telescopic cylinder II 361, a driving plate 362, an L-shaped clamping plate 363 and an L-shaped clamping seat 364; a second telescopic cylinder 361 is installed on the L-shaped clamping seat 364, a driving plate 362 is arranged at the driving end of the second telescopic cylinder 361, and an L-shaped clamping plate 363 is arranged on the driving plate 362. When the auxiliary fixing clamp 36 is used specifically, the second telescopic cylinder 361 is controlled to act to drive the driving plate 362 to move downwards until the L-shaped clamping plate 363 is matched with the L-shaped clamping seat 364 at the bottom, so that the motor power line 5 is clamped and fixed, and the purpose of auxiliary fixing of the motor power line 5 is achieved.

The utility model discloses under the design and the use that adopt above-mentioned structure, solved the manual work and will tailor during pyrocondensation pipe 4 embolias 3 lines of power cord 5 respectively, waste time and energy, inefficiency, the higher problem of workman intensity of labour.

The control mode of above-mentioned electrical components that relate to is controlled through the switch board rather than supporting control terminal, and the switch board specifically can be the PLC model here, and control circuit can realize through the simple programming of technical staff in this field, belongs to the common general knowledge in this field, only uses it, does not improve it, and the utility model discloses mainly be used for protecting mechanical device, so the utility model discloses no longer detail is repeated control mode and circuit connection.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (8)

1. The machining device for the sleeve of the motor power line is characterized by comprising a pipe conveying device (1), a cutting device (2) and an adjusting and picking device (3); the pipe conveying device (1) is provided with the cutting device (2), and the adjusting and picking device (3) is arranged at a discharge port close to the cutting device (2);

through send tub device (1) with three pyrocondensation pipes (4) synchronous transport extremely cut out device (2) department, through cut out device (2) and cut out three pyrocondensation pipes (4) required length, through adjust pickup assembly (3) will cut out three pyrocondensation pipes (4) of required length and snatch, carry out the sleeve pipe action to motor power cord (5) afterwards.

2. The machining device for the bushing of the power line of an electric motor according to claim 1, characterized in that said pipe feeding device (1) comprises: the device comprises a case (11), a servo motor (12), a transmission assembly, an upper conveying roller (14), a lower conveying roller (15), a first guide assembly (16) and a second guide assembly (17); the automatic feeding machine is characterized in that the servo motor (12) is installed on the machine box (11), the output end of the servo motor (12) is connected with the input end of the conveying assembly, two output ends of the conveying assembly are respectively connected with the upper conveying roller (14) and the lower conveying roller (15), and the first guide assembly (16) and the second guide assembly (17) are respectively arranged on the machine box (11) on the front side and the rear side of the upper conveying roller (14) and the lower conveying roller (15).

3. The processing device for the bushing of the power line of the motor according to claim 2, characterized in that, the machine box (11) further comprises a snapping rod (18), the upper conveying roller (14) is rotated upwards by the snapping rod (18), so as to facilitate the three heat-shrinkable tubes (4) to extend into the gap between the upper conveying roller (14) and the lower conveying roller (15) for conveying.

4. The machining device for the bushing of the power line of the electric motor according to claim 2, characterized in that said first guide assembly (16) and said second guide assembly (17) each comprise: a fixing plate and a guide tube; three guide tubes are transversely and linearly inserted into the fixed plate.

5. The machining device for bushings of electric motor power lines according to claim 1, characterized in that said cutting device (2) comprises: the cutter comprises a clamping jaw cylinder I (21) and a cutter blade (22), wherein the cutter blade (22) is detachably mounted on each of two jaws of the clamping jaw cylinder.

6. A machining device for bushings of electric motor power lines according to claim 1, characterized in that said adjustment pick-up means (3) comprise: the device comprises a guide rail (31), a moving plate (32), a first telescopic cylinder (33), a second clamping jaw cylinder (34), a sleeve guide clamp (35) and an auxiliary fixing clamp (36); slidable mounting has on guide rail (31) movable plate (32), the drive end of telescopic cylinder (33) with the lower extreme of movable plate (32) links to each other, drives movable plate (32) are in slide on guide rail (31), install the upper end of movable plate (32) clamping jaw cylinder two (34), demountable installation is gone up to two claws of clamping jaw cylinder two (34) sleeve pipe direction anchor clamps (35) are close to sleeve pipe direction anchor clamps (35) department is equipped with supplementary mounting fixture (36).

7. The machining device for bushings of motor power lines according to claim 6, characterized in that said bushing guide clamp (35) comprises: the device comprises an upper clamping plate (351), a lower clamping plate (352), an insertion plate (353), an arc-shaped groove (354) and a semi-conical hole (355); the two claws of the clamping jaw cylinder II (34) are respectively provided with the upper clamping plate (351) and the lower clamping plate (352) in a detachable mode, the upper clamping plate (351) comprises two insertion plates (353) which are arranged on the lower clamping plate (352), the insertion plates (353) are arranged on the upper side and the lower side, the upper clamping plate (351) and the lower clamping plate (352) are clamped in a staggered insertion mode, the insertion plates (353) are provided with three arc-shaped grooves (354) in a linear mode, and the upper clamping plate (351) and the lower clamping plate (352) are provided with three semicircular holes (355) in a linear mode.

8. The machining device for motor power line bushings as claimed in claim 6, characterized in that said auxiliary fixing clamp (36) comprises: a telescopic cylinder II (361), a driving plate (362), an L-shaped clamping plate (363) and an L-shaped clamping seat (364); the L-shaped clamping seat (364) is provided with a second telescopic cylinder (361), the driving end of the second telescopic cylinder (361) is provided with the driving plate (362), and the driving plate (362) is provided with the L-shaped clamping plate (363).

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