CN115440442A - Motor wire sheath belt structure - Google Patents

Abstract

The invention discloses a motor wire sheath belt structure, comprising: can be with the work panel that vibrations conveyer is connected, the ribbon can be placed to the work panel below is equipped with the backup pad transversely be equipped with on the work panel and keep away the dead slot one end and run through and be equipped with the perforation one side is run through and is equipped with logical groove on the work panel backup pad left side activity is articulated to have can turn the ribbon afterbody toward the ribbon head and through perforation male insertion portion the work panel right side is equipped with can with the ribbon afterbody leading-in guide part in the ribbon head when turning the backup pad top is equipped with can be through leading to the stable clamping part of ribbon centre gripping through logical groove, contrast prior art, can remove the manual work from and tie up and cut, improves work efficiency and hangs down, and processing is accurate, is convenient for tailor preceding fixed for the ribbon is cutting the in-process easy stable off tracking not, improves and cuts easy precision, raises the efficiency.

Description

Motor wire sheath belt structure

Technical Field

The invention relates to the technical field of motor production equipment, in particular to a motor wire sheath belt structure.

Background

The motor wire harness is formed by arranging a group of motors and an insulating leather sheath together, and the motors are connected with the equipment through signals and power supplies in the coming and going process. The existing motor wire harness production is mostly that the manual work is adopted to bind and cut, the working efficiency is low, the precision is inconsistent, the existing wire harness cutting equipment is not convenient to fix before cutting, so that the wire harness is easy to deviate in the cutting process, the error is easy to appear in the cutting process, the cutting is incomplete, the working efficiency is influenced, and the cutting quality is influenced.

Disclosure of Invention

The invention aims to provide a motor wire outer skin belt structure which can solve at least one of the technical problems, and the technical scheme of the invention is as follows:

a motor wire sheath belt structure comprising: work panel that can connect with the vibrations conveyer, work panel can place the ribbon work panel below is equipped with the backup pad transversely is equipped with on the work panel and keeps away the dead slot one end and runs through and be equipped with the perforation one side is run through and is equipped with logical groove work panel is last one side activity hinge joint have can with the ribbon afterbody toward the ribbon head turn and through perforation male insertion portion work panel right side is equipped with can with the leading-in guide part in the ribbon head of ribbon afterbody when stirring the backup pad top is equipped with can be through leading to the stable clamping part of ribbon centre gripping through logical groove work panel below is equipped with the actuating mechanism that can drive clamping part and insertion portion function simultaneously work panel below is equipped with and drives the ribbon afterbody of inserting the ribbon head and tighten up the mechanism of cuting up and cut off down.

Furthermore, the inserting portion comprises a hinge lug fixedly arranged on the left side of the supporting plate, an inserting rod is movably hinged to the hinge lug, and a first straight gear and an arc-shaped hook are respectively fixed at two ends of the inserting rod.

Furthermore, the guide part comprises a bottom plate fixed on the right side of the working panel, an arc guide block is fixed on the bottom plate, and the radian of the arc guide block is consistent with that of the arc hook.

Furthermore, the clamping part comprises a guide rail fixed on the rear side of the supporting plate, a sliding block is movably inserted in the guide rail, an insertion shaft is fixed above the sliding block, a first chuck is movably inserted in the insertion shaft, a second chuck is fixedly arranged on the rear side of the through groove, inclined plane blocks are symmetrically fixed below the through groove and the working panel, inclined planes are symmetrically arranged below the first chuck, and a spring is fixedly connected between the sliding block and the first chuck.

Furthermore, actuating mechanism is including fixing the fixing base in the work panel below pneumatic push rod is fixed on the fixing base pneumatic push rod output is fixed with the rack the backup pad top is fixed with the track, the rack activity grafting is on the track, rack and first straight gear meshing the slant articulates there is the connecting rod between first straight gear and the slider.

Further, tighten up and cut mechanism and establish the tightening wheel that is located the work panel below in the perforation below including symmetry movable sleeve, it is a plurality of tightening wheel cover is established the end and is all fixed and be equipped with the second straight-teeth gear, and is a plurality of second straight-teeth gear intermeshing work panel below is fixed with the motor cabinet be fixed with the motor on the motor cabinet the motor output end is fixed with the third straight-teeth gear, third straight-teeth gear and one of them second straight-teeth gear meshing work panel has the fixed pneumatic scissors that is equipped with, pneumatic scissors end sets up in the tightening up wheel top.

Preferably, the end of the arc hook moves toward the through hole when turning over, and a plurality of supporting columns are fixedly connected between the supporting plate and the working panel.

In summary, compared with the prior art, the invention has the beneficial effects that:

the invention provides a motor wire sheath belt structure, which is characterized in that when in use, a belt is conveyed to a working panel through an external vibration conveyor, the head of the belt is conveyed in a clearance groove in an overhead manner, the tail of the belt is conveyed on the left side of the working panel in an overhead manner, when the belt is conveyed to a through hole and a through groove, a user places a motor sleeved with an insulating sheath above the belt, and simultaneously drives a clamping part and an inserting part to operate through a driving mechanism, so that the middle part of the belt is stably clamped through the clamping part, then the tail of the belt is turned towards a guiding part through the inserting part, when the belt is turned to the guiding part, the tail of the belt is guided to penetrate through the head of the belt by the guiding part, and finally the tail of the belt is tensioned downwards and cut off through a tightening and cutting mechanism.

Drawings

Fig. 1 is a perspective view of the present invention.

FIG. 2 is a partial cross-sectional schematic view of the present invention.

FIG. 3 is an exploded view of the present invention.

FIG. 4 is a second exploded view of the present invention.

FIG. 5 is an enlarged view of A-1 of FIG. 3 according to the present invention.

Description of reference numerals: 1. a working panel; 2. a support plate; 3. an empty avoiding groove; 4. perforating; 5. a through groove; 6. an insertion portion; 7. a guide portion; 8. a clamping part; 100. a drive mechanism; 200. tightening the shearing mechanism; 61. a hinge ear; 62. a plug-in rod; 63. a first straight gear; 64. an arc-shaped hook; 71. a base plate; 72. an arc-shaped guide block; 81. a guide rail; 82. a slider; 83. a plug shaft; 84. a first chuck; 85. a second chuck; 86. a bevel block; 87. a bevel; 88. a spring; 101. a fixed seat; 102. a pneumatic push rod; 103. a rack; 104. a connecting rod; 105. a track; 201. a tightening wheel; 202. a second spur gear; 203. a motor base; 204. a motor; 205. a third spur gear; 206. pneumatic scissors; 21. and (7) supporting the column.

Detailed Description

The invention will be further described with reference to the following description and embodiments in conjunction with the accompanying drawings:

a motor wire sheath belt structure as shown in fig. 1 to 5, comprising: work panel (1) that can connect with the vibrations conveyer, the ribbon can be placed in work panel (1) below is equipped with backup pad (2) transversely be equipped with on work panel (1) and keep away dead slot (3) one end and run through and be equipped with perforation (4) work panel (1) is gone up one side and is run through and be equipped with logical groove (5) backup pad (2) left side activity is articulated to have can turn the ribbon afterbody toward the ribbon head and through perforation (4) male insertion portion (6) work panel (1) right side is equipped with can be with leading-in guide part (7) in the ribbon head with the ribbon afterbody when turning backup pad (2) top is equipped with can through logical groove (5) with stable clamping part (8) of ribbon centre gripping work panel (1) below is equipped with actuating mechanism (100) that can drive clamping part (8) and insertion portion (6) function simultaneously work panel (1) below is equipped with can drive the afterbody ribbon and inserts the tensioning mechanism (200) that tightens up and cut off that can drive the afterbody of tensioning head down.

A motor wire crust band structure of above structure, it carries the ribbon through external shock conveyer toward work panel 1 during the use earlier, the head of ribbon is maked somebody's turn to do and is being maked somebody's turn to do the air and keep away empty inslot 3 and carry, and the ribbon afterbody is maked somebody's turn to do 1 board left side at the working face and carry, when the ribbon carries perforation 4 and logical groove 5 on, the user places the motor that the insulating leather sheath was established to the cover in the ribbon top, drive 8 portions of centre gripping and the 6 functions of insertion part simultaneously through actuating mechanism 100, make the middle part of ribbon pass 8 centre gripping stabilities of clamping part, then turn towards guide part 7 with the ribbon afterbody through insertion part 6, when the ribbon turns to guide part 7, guide part 7 passes the ribbon head with the direction of ribbon afterbody, at last shear mechanism 200 through tightening up down the ribbon afterbody and taut and cut off, contrast prior art, can remove the manual work from and restraint and cut, it is low to improve work efficiency, and process accurately, it fixes before being convenient to tailor, make it stabilize not easily at the in-process, make it is cutting process, improve easy off deviation degree.

As shown in fig. 4, in some embodiments of the present invention, the insertion portion (6) includes a hinge lug (61) fixedly disposed on the left side of the support plate (2), an insertion rod (62) is movably hinged on the hinge lug (61), a first straight gear (63) and an arc hook (64) are respectively fixed at two ends of the insertion rod (62), the arc hook (64) moves toward the through hole (4) when the end portion is turned over, a plurality of support columns (21) are fixedly connected between the support plate (2) and the working panel (1), when the insertion portion 6 is driven by the driving mechanism 100, the driving mechanism 100 drives the first straight gear 63 to rotate, so that the first straight gear 63 drives the insertion rod 62 to rotate in the hinge lug 61, when the insertion rod 62 rotates, the arc hook 64 is driven to turn over, and the ribbon body is soft because the arc hook 64 is arc-shaped and the ribbon body is rapidly turned over, the ribbon is deformed to move toward the through hole with a better radian and the guide portion 7.

As shown in fig. 3, in some embodiments of the present invention, the guide portion (7) includes a bottom plate (71) fixed to the right side of the working panel (1), an arc guide block (72) is fixed to the bottom plate (71), the arc of the arc guide block (72) is identical to the arc of the arc hook (64), the band tail is moved toward the arc guide block 72, the band tail deformed by the arc hook 64 is moved toward the arc guide block 72 in an oblique manner, and the band tail 72 is inserted into the through hole 4 and inserted into the band head through the arc guide block 72.

As shown in fig. 5, in some embodiments of the present invention, the clamping portion (8) includes a guide rail (81) fixed to a rear side of the support plate (2), a sliding block (82) movably inserted into the guide rail (81), an insertion shaft (83) fixed above the sliding block (82), a first clamping head (84) movably inserted into the insertion shaft (83), a second clamping head (85) fixed to a rear side of the through groove (5), a ramp block (86) symmetrically fixed below the through groove (5) and below the work panel (1), a ramp (87) symmetrically arranged below the first clamping head (84), a spring (88) fixedly connected between the sliding block (82) and the first clamping head (84), the sliding block (82) moving in the guide rail 81 by a driving mechanism 100, the first clamping head (84) moving by the insertion shaft 83 when the sliding block (82) moves, and when the first clamping head (84) moves the ramp block (86), the ramp 87 below the first clamping head (84) clings to the ramp block (86) and moves upward along the ramp block (86), so that the second clamping head (84) moves obliquely between the first clamping head (84).

As shown in fig. 2 and 3, in some embodiments of the present invention, in order to achieve an effect of driving the operation of the clamping portion (8) and the insertion portion (6) at the same time, the driving mechanism (100) includes a fixing base (101) fixed below the working panel (1), a pneumatic push rod (102) is fixed on the fixing base (101), a rack (103) is fixed on an output end of the pneumatic push rod (102), a track (105) is fixed on the supporting plate (2), the rack (103) is movably inserted on the track (105), the rack (103) is engaged with a first straight gear (63), and a connecting rod (104) is obliquely hinged between the first straight gear (63) and the sliding block (82).

When the motor wire sheath belt structure with the structure operates, the output end of the pneumatic push rod 102 on the fixing seat 101 pushes the rack 103 to move along the rail 105, at the moment, the rack 103 drives the connecting rod 104 to displace firstly, so that the connecting rod 104 drives the sliding block 82 to move, and the rear rack 105 drives the first straight gear 63 to rotate.

As shown in fig. 2 and 3, in some embodiments of the present invention, in order to drive the tail of the cable tie inserted into the head of the cable tie to be tensioned downwards and cut off, the tightening and shearing mechanism (200) includes tightening gears (201) symmetrically movably sleeved below the through hole (4) and located below the working panel (1), second spur gears (202) are fixedly disposed at the sleeved ends of the tightening gears (201), the second spur gears (202) are engaged with each other, a motor base (203) is fixed below the working panel (1), a motor (204) is fixed on the motor base (203), a third spur gear (205) is fixed at the output end of the motor (204), the third spur gear (205) is engaged with one of the second spur gears (202), pneumatic scissors (206) are fixedly disposed on the working panel (1), and the shearing ends of the pneumatic scissors (206) are disposed above the tightening gears (201).

When the motor wire outer skin binding band structure with the structure is used, when a binding band moves to a plurality of tightening wheels 201 through the guide part 7, firstly, the motor 204 fixed on the motor base 203 is powered on through power supply to drive, so that the output end of the motor 204 drives the third straight gear 202 to rotate, when the third straight gear 202 rotates, one of the second straight gears 202 is driven to rotate, meanwhile, one of the second straight gears 202 drives the other second straight gear 202 to rotate, when one of the second straight gears 202 and the other second straight gear 202 rotate, each tightening wheel 201 is driven to rotate, the plurality of tightening wheels 201 pull the binding band between the second straight gears downwards, and when the binding band tightly binds an insulating skin on a wire, the tail part of the binding band with the protruding head part is cut off through the pneumatic scissors (206).

When using a motor wire crust band structure of above-mentioned structure when the operation, because heating equipment 7 makes the pressure on chamber 2 right side be greater than the chamber 3 right side to the dry reason of hydrogen heating, hydrogen flows to semicircle body 305 from bell mouth 306 this moment, semicircle body 305 drives inserted bar 303 and moves left because of atmospheric pressure's reason for semicircle body 305, makes semicircle body 305 and bell mouth 306 separation, and gas flows into the left side in the chamber 2, and when pressure diminishes, drives hemisphere body 305 through spring 307 and resets, closes bell mouth 306 sealing cover.

While there have been shown and described the fundamental principles and principal features of the invention and advantages thereof, it will be understood by those skilled in the art that the invention is not limited by the embodiments described above, which are given by way of illustration of the principles of the invention, but is susceptible to various changes and modifications without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. A motor wire sheath belt structure, comprising: work panel (1) that can connect with the vibrations conveyer, the ribbon can be placed in work panel (1) below is equipped with backup pad (2) transversely be equipped with on work panel (1) and keep away dead slot (3) one end and run through and be equipped with perforation (4) work panel (1) is gone up one side and is run through and be equipped with logical groove (5) backup pad (2) left side activity hinge has can turn the ribbon afterbody toward the ribbon head and through perforation (4) male insertion portion (6) work panel (1) right side is equipped with can be with leading-in guide part (7) in the ribbon head of ribbon afterbody when turning backup pad (2) top is equipped with can be through leading to groove (5) with stable clamping part (8) of ribbon centre gripping work panel (1) below is equipped with can drive clamping part (8) and insertion portion (6) the actuating mechanism (100) that function simultaneously work panel (1) below is equipped with the ribbon that can drive the ribbon and insert the afterbody of head and tighten up down and cut off shearing mechanism (200).

2. The motor wire sheath belt structure as claimed in claim 1, wherein the insertion portion (6) includes a hinge lug (61) fixedly disposed at the left side of the support plate (2), an insertion rod (62) is movably hinged to the hinge lug (61), and a first straight gear (63) and an arc hook (64) are respectively fixed at both ends of the insertion rod (62).

3. The motor wire sheath belt structure according to claim 2, wherein the guide portion (7) includes a base plate (71) fixed to a right side of the working panel (1), an arc-shaped guide block (72) is fixed to the base plate (71), and an arc degree of the arc-shaped guide block (72) is identical to an arc degree of the arc-shaped hook (64).

4. The motor wire sheath belt structure as claimed in claim 2, wherein the clamping portion (8) includes a guide rail (81) fixed to a rear side of the support plate (2), a sliding block (82) is movably inserted into the guide rail (81), an insertion shaft (83) is fixed above the sliding block (82), a first clamping head (84) is movably inserted into the insertion shaft (83), a second clamping head (85) is fixed to a rear side of the through groove (5), inclined blocks (86) are symmetrically fixed below the through groove (5) and located below the working panel (1), inclined planes (87) are symmetrically arranged below the first clamping head (84), and a spring (88) is fixedly connected between the sliding block (82) and the first clamping head (84).

5. The motor wire sheath lacing structure according to claim 4, wherein the driving mechanism (100) comprises a fixed seat (101) fixed below the working panel (1), a pneumatic push rod (102) is fixed on the fixed seat (101), a rack (103) is fixed at the output end of the pneumatic push rod (102), a track (105) is fixed above the support plate (2), the rack (103) is movably inserted on the track (105), the rack (103) is engaged with the first straight gear (63), and a connecting rod (104) is obliquely hinged between the first straight gear (63) and the sliding block (82).

6. The motor wire sheath belt structure according to claim 1, wherein the tightening and shearing mechanism (200) comprises a tightening wheel (201) symmetrically movably sleeved below the through hole (4) and located below the working panel (1), a plurality of second spur gears (202) are fixedly arranged at the sleeving ends of the tightening wheel (201), the second spur gears (202) are mutually meshed, a motor base (203) is fixedly arranged below the working panel (1), a motor (204) is fixedly arranged on the motor base (203), a third spur gear (205) is fixedly arranged at the output end of the motor (204), the third spur gear (205) is meshed with one of the second spur gears (202), pneumatic scissors (206) are fixedly arranged on the working panel (1), and the shearing end of the pneumatic scissors (206) is arranged above the tightening wheel (201).

7. The motor wire sheath belt structure according to claim 3, wherein the curved hook (64) moves toward the through hole (4) when the end portion is turned over, and a plurality of support columns (21) are fixedly connected between the support plate (2) and the work panel (1).

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