CN212751648U - Double-end hot peeling quilt machine - Google Patents

Abstract

The utility model discloses a double-end hot peeling quilt machine, which comprises a bottom plate, a hot peeling mechanism and a material moving mechanism; the hot peeling mechanism is provided with a first driving device and two cutter modules which are arranged at a left and right interval; each cutter module comprises an upper mold cutter, a lower mold cutter and a heating block, and the first driving device drives the upper mold cutter connected with the two cutter modules; the material moving mechanism is provided with a second driving device and a wire positioning plate; the second driving device drives the wire positioning plate to selectively move back and forth so as to convey the wire to a position between the upper die cutter and the lower die cutter, and the first driving device drives the upper die cutters of the two cutter modules to move towards the corresponding lower die cutter so as to realize the outer-cover hot stripping of the two ends of the wire. So, through setting up the hot peeling mechanism and moving material mechanism, the manual work is put into the wire rod and is moved material mechanism, moves material mechanism and automatic send the wire rod to the hot peeling mechanism and carry out automatic hot peeling and is put out the quilt, to the double-end hot peeling operation simultaneously of wire rod, dimensional error is little, efficient, and the quality uniformity is good.

Description

Double-end hot peeling quilt machine

Technical Field

The utility model relates to a machine field technique of quilt is shelled to heat especially indicates a bi-polar heat is shelled by machine, and it is mainly but not restricted to the operation of the quilt is shelled to earphone wire's heat.

Background

In the technical field of wire processing, in order to improve the wear resistance, reliability and service life of a wire, an insulating layer of the wire is usually made of a material with good toughness and good wear resistance, in production and processing, in order to improve the peeling speed, a peeling device is commonly used, the device mostly uses a metal blade to peel the insulating layer of the wire in an annular manner, and when the device peels the wire made of the material with good wear resistance, due to the wear resistance and toughness of the insulating layer, the blade is often difficult to cut the skin or not cut the skin completely when cutting the skin, so that the defects of low working efficiency, irregular cut and the like are caused.

Later, a thermal wire stripping device for stripping wires by heating is provided, which utilizes hot cutting parts of an upper hot stripping knife and a lower hot stripping knife of the thermal wire stripping device to heat to the hot melting temperature of a wear-resistant protective layer, then the upper hot stripping knife and the lower hot stripping knife are driven by a driving device to be closed, the wear-resistant protective layer of the wire harness is cut off by hot melting of the hot cutting parts of the upper hot stripping knife and the lower hot stripping knife, and then the wire harness is drawn out. However, in the processing process of the hot wire stripping device, some hot wire stripping devices adopt a mode of manually placing an electric wire on a hot stripping blade to thermally strip one end of the electric wire, so that potential safety hazards exist, operators are easy to fatigue, the labor cost is high, the size error is large, the operation efficiency is limited, and some wire harnesses are fed into a knife edge and are pulled out through a wire feeder, but the hot wire stripping devices are complex in structure and high in manufacturing cost, and are difficult to popularize, produce and use.

Therefore, a new technical solution is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses to the disappearance that prior art exists, its main objective provides a bi-polar heat is shelled and is shelled by machine, and it shells the mechanism and move the material mechanism through setting up the heat, and the manual work is put into the wire rod and is moved the material mechanism, moves the material mechanism and send the wire rod to the heat and shell the mechanism and carry out automatic heat and shell the quilt, and the bi-polar of wire rod is hot simultaneously and is shelled the operation, and size error is little, and is efficient, and the quality uniformity is good.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a double-end hot peeling external quilt machine comprises a bottom plate, a hot peeling mechanism vertically arranged on the bottom plate and a material moving mechanism horizontally arranged on the bottom plate; wherein:

the hot peeling mechanism is provided with a first driving device and two cutter modules which are arranged at a left and right interval; each cutter module comprises an upper die cutter, a lower die cutter and a heating block, wherein the upper die cutter and the lower die cutter are arranged oppositely up and down, the lower die cutter is fixedly connected to the bottom plate, and the heating block heats the upper die cutter and/or the lower die cutter; the first driving device drives an upper die cutter connected with the two cutter modules;

the material moving mechanism is provided with a second driving device and a wire positioning plate; the second driving device drives the wire positioning plate to selectively move back and forth so as to convey the wire to a position between the upper die cutter and the lower die cutter, and the first driving device drives the upper die cutters of the two cutter modules to move towards the corresponding lower die cutter so as to realize the outer-cover hot stripping of the two ends of the wire.

As a preferred scheme, a material pressing movable rod is arranged on one side of the upper die cutter; the material pressing movable rod is provided with a buffering type material pressing bottom, and the material pressing movable rod is in contact with the wire before the upper die cutter is in contact with the wire so as to fix the wire.

As a preferable scheme, the first driving device is in driving connection with a connecting plate, the left end and the right end of the connecting plate are respectively connected with a pressure plate, the pressure plate is connected with a corresponding upper die cutter, the pressure plate is provided with a first strip-shaped mounting hole in the left-right direction, and the upper die cutter can be mounted on the pressure plate in a left-right adjusting mode;

the lower die cutter is arranged on the bottom plate through a cutter holder, the cutter holder is provided with a second strip-shaped mounting hole in the left-right direction, and the lower die cutter can be mounted on the bottom plate in a left-right adjusting mode.

Preferably, the upper die cutter is mounted on the inner side of a heating block, and the heating block can be mounted on the lower side of the pressure plate in a left-right adjusting mode and heats the upper die cutter.

As a preferable scheme, a slide rail is arranged at the rear side of the connecting plate, a slide block is arranged on the slide rail, and the slide block is connected to the connecting plate; the slide rail is installed and connected on the vertical plate.

Preferably, the second driving device is connected with the wire positioning plate through a sliding movable plate, and a guide shaft connected with the sliding movable plate is arranged on the left side and/or the right side of the second driving device.

Preferably, one end of the guide shaft is provided with a bearing connected to the sliding movable plate through a bearing seat.

As a preferred scheme, the second driving device, the guide shaft and the wire positioning plate are arranged on the sliding table bottom plate, and the sliding table bottom plate is detachably arranged on the bottom plate.

Preferably, the hot peeling mechanism is covered with a protective cover.

As a preferred scheme, the safety cover is including left side safety cover, right side safety cover and top safety cover, left side safety cover, right side safety cover respectively in the outside of lower die cutter, the top safety cover covers in the last die cutter and the piece that generates heat of two knife module groups.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, concretely speaking, can know from above-mentioned technical scheme, it is mainly through setting up hot peeling mechanism and moving material mechanism, the manual work is put into the wire rod and is moved the material mechanism, move the material mechanism and send the wire rod to the hot peeling mechanism automatically and carry out automatic hot peeling off the quilt, to the both ends of wire rod hot peeling operation simultaneously, size error is little, efficient, the quality uniformity is good, solved and adopted the manual work to place the electric wire on the hot peeling blade one end hot peeling one end have the problem of potential safety hazard in the traditional art; and, the utility model discloses a bi-polar hot peeling quilt machine, simple structure, manufacturing cost is lower, is suitable for and promotes a great deal of processing factory merchant and produces and use.

Secondly, the hot stripping mechanism and the material moving mechanism are reasonably arranged and provided with a sliding rail, a sliding block, a guide shaft and a bearing, so that the machine is accurate in material moving and stripping and good in consistency.

Moreover, the protective cover is arranged on the outer cover of the hot peeling mechanism, so that the safety of personnel is further guaranteed.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is an assembled perspective view of an embodiment of the present invention;

fig. 2 is a top view of an exploded view of an embodiment of the present invention;

FIG. 3 is a cross-sectional view of an embodiment of the present invention;

FIG. 4 is another exploded view of an embodiment of the present invention;

FIG. 5 is an enlarged partial view of FIG. 4;

fig. 6 is a further exploded partial view of an embodiment of the present invention.

The attached drawings indicate the following:

11. first driving device 111 and connecting plate

112. Pressure flitch 1120, first bar mounting hole

113. Slide rail 114, slider

12. Second driving device 120 and sliding movable plate

121. Guide shaft 21 and upper die cutter

22. Lower die cutter 23 and heating block

24. Tool apron 240 and second strip-shaped mounting hole

31. Wire positioning plate 310 and wire positioning block

41. Material pressing movable rod

51. Vertical plate 510 and chute

100. Bottom plate 200, slip table bottom plate

300. Protective cover 301, left protective cover

302. Right side shield 303, top shield.

Detailed Description

Fig. 1 to 6 show specific structures of embodiments of the present invention.

A double-end hot peeling external quilt machine comprises a bottom plate 100, a hot peeling mechanism vertically arranged on the bottom plate 100 and a material moving mechanism horizontally arranged on the bottom plate 100; wherein: the hot peeling mechanism is provided with a first driving device 11 and two cutter modules which are arranged at a left-right interval; each knife module comprises an upper die knife 21, a lower die knife 22 and a heating block 23, the upper die knife 21 and the lower die knife 22 are arranged oppositely up and down, the lower die knife 22 is fixedly connected to the bottom plate 100, and the heating block 23 heats the upper die knife 21 and/or the lower die knife 22; the first driving device 11 drives an upper die cutter 21 connected with the two cutter modules;

the material moving mechanism is provided with a second driving device 12 and a wire positioning plate 31; the first driving device 11 and the second driving device 12 are connected and controlled with a first control switch and a second control switch, by opening and closing the second control switch, the second driving device 12 drives the wire positioning plate 31 to selectively move back and forth so as to convey the wire to a position between the upper die cutter 21 and the lower die cutter 22, then the first control switch is started, and the first driving device 11 drives the upper die cutters 21 of the two cutter modules to move towards the corresponding lower die cutters 22 so as to realize the outer-casing hot stripping of the two ends of the wire. So, through setting up the heat and shelling the mechanism and moving material mechanism, the manual work is put into the wire rod and is moved material mechanism, moves material mechanism and automatic deliver to the heat with the wire rod and shell the mechanism and carry out automatic heat and shell the quilt, to the bi-polar of wire rod hot simultaneously shell the operation, the product dimensional error that obtains is little, and the quality uniformity is good, has solved and has taken the manual work to arrange the electric wire in on the hot blade of shelling one end hot and has shelled the problem that there is the potential safety hazard, hot inefficiency.

Meanwhile, wire positioning blocks 310 are further disposed at two ends of the wire positioning plate 31 to fix the wire.

Specifically, the method comprises the following steps: as shown in fig. 2 and 3, a material pressing movable rod 41 is arranged on one side of the upper die knife 21; the material pressing movable rod 41 is provided with a buffer type material pressing bottom, and the material pressing movable rod 41 is in contact with the wire before the upper die cutter 21 is in contact with the wire so as to fix the wire; then the upper die cutter 21 is pressed downwards continuously to conduct hot stripping on the wire; so, reduced the removal of wire rod and shelled the influence of quality to the heat, the location is more accurate, and the heat is shelled the quality better.

Further, the first driving device 11 is connected to a connecting plate 111 in a driving manner, the left end and the right end of the connecting plate 111 are respectively connected to a pressure plate 112, the pressure plate 112 is connected to a corresponding upper die cutter 21, the pressure plate 112 has a first strip-shaped mounting hole 1120 in the left-right direction, and the upper die cutter 21 can be mounted on the pressure plate 112 in a left-right adjustable manner; generally, the first driving device 11 is an air cylinder or a hydraulic cylinder, specifically, the upper die cutter 21 is installed inside the heating block 23 and is fixedly connected with the heating block 23, the heating block 23 has a first locking hole matched with the first bar-shaped installation hole 1120, and the heating block 23 can be adjusted left and right to be installed on the lower side of the pressure plate 112 and heat the upper die cutter 21; therefore, the upper die cutter 21 can be mounted on the pressure plate 112 in a left-right adjusting manner;

correspondingly, the lower die cutter 22 is arranged on the bottom plate 100 through a cutter holder 24, the cutter holder 24 is provided with a second strip-shaped mounting hole 240 in the left-right direction, the bottom plate 100 is provided with a second locking hole matched with the second strip-shaped mounting hole 240, and the lower die cutter 22 can be arranged on the bottom plate 100 in a left-right adjusting mode.

With further reference to fig. 2, a slide rail 113 is disposed at the rear side of the connecting plate 111, a slider 114 is disposed on the slide rail 113, and the slider 114 is connected to the connecting plate 111; the sliding rail 113 is installed and connected to a vertical plate 51, and the vertical plate 51 is provided with a sliding groove 510 adapted to the sliding rail 113. The connecting plate 111 is guided by the sliding rail 113, so that the connecting plate 111 can slide more smoothly and accurately.

As shown in fig. 3 to 5, the second driving device 12 is connected to the wire positioning plate 31 through a sliding movable plate 120, and a guide shaft 121 is provided on the left and/or right side of the second driving device 12 to be connected to the sliding movable plate 120. In the present embodiment, the second driving device 12 is a cylinder, and preferably, one end of the guide shaft 121 is provided with a bearing connected to the slide moving plate 120 through a bearing seat, so as to enable the wire positioning plate 31 to slide forward and backward smoothly and stably.

The cylinder, the guide shaft 121 and the wire positioning plate 31 are arranged on a sliding table bottom plate 200 to form a driving assembly of the material moving mechanism, and the sliding table bottom plate 200 is detachably arranged on the bottom plate 100; therefore, the machine is convenient to disassemble and assemble, and is convenient for personnel to check and maintain.

Preferably, the hot peeling mechanism is covered with a protective cover 300; specifically, the protection cover 300 includes a left protection cover 301, a right protection cover 302 and a top protection cover 303, the left protection cover 301 and the right protection cover 302 cover the outer sides of the lower die cutter 22 respectively, and the top protection cover 303 covers the upper die cutter 21 and the heating block 23 of the two die sets. So, establish safety cover 300 through shelling the mechanism dustcoat at the heat, further provide the guarantee to personnel's safety, avoided the staff to be close to the die cutter carelessly and cause the injury to the staff.

The utility model is mainly designed in such a way that the hot peeling mechanism and the material moving mechanism are arranged, the wire rod is manually put into the material moving mechanism, the material moving mechanism automatically sends the wire rod to the hot peeling mechanism to automatically hot peel the outer quilt, the double ends of the wire rod are simultaneously hot peeled, the size error is small, the efficiency is high, the quality consistency is good, and the problem of potential safety hazard caused by manually placing the wire on the hot peeling blade at one end of the hot peeling blade in the traditional technology is solved; and, the utility model discloses a bi-polar hot peeling quilt machine, simple structure, manufacturing cost is lower, is suitable for and promotes a great deal of processing factory merchant and produces and use.

Secondly, the hot stripping mechanism and the material moving mechanism are reasonably arranged and provided with a sliding rail, a sliding block, a guide shaft and a bearing, so that the machine is accurate in material moving and stripping and good in consistency.

Moreover, the protective cover is arranged on the outer cover of the hot peeling mechanism, so that the safety of personnel is further guaranteed.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (10)

1. A double-end hot peeling external quilt machine is characterized in that: comprises a bottom plate (100), a hot stripping mechanism vertically arranged on the bottom plate (100) and a material moving mechanism horizontally arranged on the bottom plate (100); wherein:

the hot peeling mechanism is provided with a first driving device (11) and two cutter modules which are arranged at a left-right interval; each knife module comprises an upper die knife (21), a lower die knife (22) and a heating block (23), the upper die knife (21) and the lower die knife (22) are arranged oppositely up and down, the lower die knife (22) is fixedly connected to the bottom plate (100), and the heating block (23) heats the upper die knife (21) and/or the lower die knife (22); the first driving device (11) drives an upper die cutter (21) connected with the two cutter modules;

the material moving mechanism is provided with a second driving device (12) and a wire positioning plate (31); the second driving device (12) drives the wire positioning plate (31) to selectively move back and forth so as to feed the wire between the upper die cutter (21) and the lower die cutter (22), and the first driving device (11) drives the upper die cutters (21) of the two cutter modules to move towards the corresponding lower die cutter (22) so as to realize the outer-cover hot peeling of the two ends of the wire.

2. A double-ended hot-peel quilt machine according to claim 1, characterized in that: a material pressing movable rod (41) is arranged on one side of the upper die cutter (21); the material pressing movable rod (41) is provided with a buffering type material pressing bottom, and the material pressing movable rod (41) contacts the wire before the upper die cutter (21) contacts the wire to fix the wire.

3. A double-ended hot-peel quilt machine according to claim 1, characterized in that: the first driving device (11) is connected with a connecting plate (111) in a driving mode, the left end and the right end of the connecting plate (111) are respectively connected with a material pressing plate (112), the material pressing plate (112) is connected with corresponding upper die cutters (21), the material pressing plate (112) is provided with first strip-shaped mounting holes (1120) in the left-right direction, and the upper die cutters (21) can be mounted on the material pressing plate (112) in a left-right adjusting mode;

the lower die cutter (22) is arranged on the bottom plate (100) through a cutter holder (24), the cutter holder (24) is provided with a second strip-shaped mounting hole (240) in the left-right direction, and the lower die cutter (22) can be mounted on the bottom plate (100) in a left-right adjusting mode.

4. A double-ended hot-peel quilt machine according to claim 3, characterized in that: the upper die cutter (21) is arranged on the inner side of the heating block (23), and the heating block (23) can be adjusted left and right to be arranged on the lower side of the pressure plate (112) and heats the upper die cutter (21).

5. A double-ended hot-peel quilt machine according to claim 3, characterized in that: a sliding rail (113) is arranged on the rear side of the connecting plate (111), a sliding block (114) is arranged on the sliding rail (113), and the sliding block (114) is connected to the connecting plate (111); the sliding rail (113) is installed and connected to the vertical plate (51).

6. A double-ended hot-peel quilt machine according to claim 1, characterized in that: the second driving device (12) is connected with the wire positioning plate (31) through a sliding movable plate (120), and a guide shaft (121) is arranged on the left side and/or the right side of the second driving device (12) and is connected with the sliding movable plate (120).

7. A double-ended hot-peel quilt machine according to claim 6, characterized in that: one end of the guide shaft (121) is provided with a bearing which is connected with the sliding movable plate (120) through a bearing seat.

8. A double-ended hot-peel quilt machine according to claim 7, characterized in that: second drive arrangement (12), guiding axle (121), wire rod locating plate (31) install in slip table bottom plate (), slip table bottom plate (200) is detachable to be installed on bottom plate (100).

9. A double-ended hot-peel quilt machine according to claim 1, characterized in that: the hot peeling mechanism is covered with a protective cover (300).

10. A double-ended hot-peel quilt machine according to claim 9, characterized in that: the safety cover is including left side safety cover (301), right side safety cover (302) and top protection cover (303), left side safety cover (301), right side safety cover (302) cover respectively in the outside of lower mould sword (22), top protection cover (303) cover in last mould sword (21) and the piece (23) that generates heat of two sword modules.

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