CN218770478U - Power cable head processing device - Google Patents

Abstract

The utility model discloses a power cable head processingequipment, including the hydro-cylinder, the hydro-cylinder includes cylinder body and output shaft, the cylinder body is close to the first supporting seat of one end fixedly connected with of output shaft, first supporting seat is provided with first via hole, first supporting seat is provided with first clamp splice, output shaft and first supporting seat sliding connection and be provided with the second clamp splice, one side of first supporting seat can be dismantled and be connected with the second supporting seat, the second supporting seat is provided with the second via hole that corresponds with first via hole, form the threading mouth between first via hole and the second via hole, one side of first supporting seat is provided with first recess, the opposite side of first supporting seat is provided with the second recess, one side of second supporting seat is provided with the third recess, the opposite side of second supporting seat is provided with the fourth recess, form the spread groove between first recess and the third recess, be provided with the connecting piece in the spread groove, form the spout between second recess and the fourth recess. The utility model discloses first clamp splice and second clamp splice of change that can be convenient.

Description

Power cable head processing device

Technical Field

The utility model relates to a cable head processing technology field especially relates to a power cable head processingequipment.

Background

When the cable head, that is, the end portion of the cable is connected to an electrical component, the end portion of the cable needs to be processed, specifically, the insulating layer at the end portion of the cable needs to be firstly stripped, the internal conducting wire needs to be exposed, then the copper nose is sleeved on the conducting wire, and then the processing device is used for extruding the copper nose, so that the copper nose is tightly connected with the conducting wire. After the copper nose is installed, in order to prevent the electric leakage on the side surface of the copper nose, an insulating adhesive tape needs to be wound on the outer side of the copper nose manually.

The existing machining device comprises two clamping blocks and an oil cylinder used for controlling the clamping blocks to open and close, the two clamping blocks are used for extruding the copper noses, the copper noses are easy to wear after being used for a long time, the clamping blocks need to be replaced after being worn, on the other hand, the copper noses of different specifications often need to be replaced to extrude the copper noses, and the existing machining device cannot replace the clamping blocks or is inconvenient to replace the clamping blocks.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the unable clamp splice of changing of current processingequipment or change the inconvenient shortcoming of clamp splice, provide a power cable head processingequipment, first clamp splice of change and second clamp splice that can be convenient.

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

the utility model provides a power cable head processingequipment, includes the hydro-cylinder, the hydro-cylinder includes cylinder body and output shaft, the cylinder body is close to the first supporting seat of one end fixedly connected with of output shaft, first supporting seat is provided with first via hole, first supporting seat is provided with first clamp splice, the output shaft with first supporting seat sliding connection and be provided with the second clamp splice, one side of first supporting seat can be dismantled and be connected with the second supporting seat, the second supporting seat be provided with the second via hole that first via hole corresponds, first via hole with form the threading mouth between the second via hole, one side of first supporting seat is provided with first recess, the opposite side of first supporting seat is provided with the second recess, one side of second supporting seat is provided with the third recess, the opposite side of second supporting seat is provided with the fourth recess, first recess with form the spread groove between the third recess, be provided with the connecting piece in the spread groove, first clamp splice with connecting piece fixed connection, the second recess with form the spout between the fourth recess, the output shaft pass the spout with sliding connection, the one end of spout sets up in the second threading connection piece can dismantle the output shaft and the second clamp splice.

Through the aforesaid setting, can conveniently change first clamp splice and second clamp splice, it is concrete, when first supporting seat and second supporting seat can dismantle the connection, first supporting seat and second supporting seat press from both sides the connecting piece tightly, thereby fix first clamp splice in the threading mouth, the spout has increased the stability of output shaft, make the axis direction motion of output shaft along the output shaft that the output shaft can be stable, copper nose cover back on the wire, copper nose passes through the threading mouth and passes through between first clamp splice and the second clamp splice, the hydro-cylinder operation, the first clamp splice motion of output shaft, first clamp splice and second clamp splice are drawn close and are extrudeed the copper nose and make the copper nose warp, thereby make copper nose and wire closely cooperate, then the hydro-cylinder resets, first clamp splice and second clamp splice are separately and loosen the copper nose, repeat above-mentioned action and can extrude the copper nose in the different positions of copper nose, make copper nose and wire cooperate inseparabler.

When the first clamping block and the second clamping block need to be replaced, the second supporting seat is detached from the first supporting seat, the first groove and the third groove are separated, the connecting piece is partially embedded into the first groove, the connecting piece can be taken out of the first groove of the first supporting seat at the moment, the connecting piece and the first clamping block are integrally formed, and a new connecting piece of the first clamping block is embedded into the first groove; in addition, after the second supporting seat is detached from the first supporting seat, the second groove and the fourth groove are separated, the output shaft and the fourth groove are detached, the second clamping block is conveniently detached, the second clamping block is replaced after the second clamping block is detached, then the second supporting seat is installed on the first supporting seat again, the connecting piece is embedded into the third groove, and the output shaft is embedded into the fourth groove.

Furthermore, one end of the output shaft is provided with a slot with an opening facing the second clamping block, one side of the second clamping block, which is far away from the first clamping block, is fixedly connected with a bolt, the bolt is inserted into the slot, one side of the output shaft, which is close to the second supporting seat, is provided with a first bolt, and the first bolt is in threaded connection with the bolt.

Through the arrangement, the second clamping block is convenient to disassemble and assemble. Specifically, after the second supporting seat is detached, the connecting piece and the first clamping block are taken out firstly, at the moment, the output shaft and the first bolt are exposed in the air, the first bolt is detached, the bolt can move along the axial direction of the slot, the axial direction of the output cylinder moves under the action of the cylinder, the bolt and the slot are separated, a new second clamping block is placed on the first supporting seat, the bolt and the slot are aligned, then under the action of the cylinder, the axial direction of the output bolt moves, the bolt is inserted into the slot, the bolt is fixed in the slot through the first bolt, the connecting piece of the new first clamping block is placed on the first groove, and then the second supporting seat is installed.

Furthermore, the connecting piece is T-shaped and is matched with the connecting groove.

Through the arrangement, when the connecting piece is clamped by the first supporting seat and the second supporting seat, the connecting piece is not easy to pull out from the connecting groove.

Furthermore, a second bolt penetrates through the second support seat, and the second bolt is in threaded connection with the first support seat.

Through the arrangement, the second supporting seat can be conveniently disassembled and assembled.

Furthermore, a first extrusion groove is formed in one side, close to the second clamping block, of the first clamping block, and a second extrusion groove is formed in one side, close to the first clamping block, of the second clamping block.

Through above-mentioned setting, conveniently extrude the copper nose, first clamp splice and second clamp splice are when extrudeing the copper nose, and the first extrusion groove of copper nose part embedding, copper nose part embedding second extrusion groove, and first extrusion groove and second extrusion groove all are trapezoidal basically, and when first clamp splice and second clamp splice folded, the outside of copper nose was the hexagon basically.

Furthermore, one side of the first supporting seat, which is far away from the output shaft, is rotatably connected with a rotating ring, one side of the cylinder body is provided with a driving device for driving the rotating ring to rotate, one side of the rotating ring, which is far away from the first supporting seat, is fixedly connected with a reciprocating screw rod, a matching sleeve is sleeved on the reciprocating screw rod, a damping device is arranged between the matching sleeve and the reciprocating screw rod, and an insulating adhesive tape is sleeved on the matching sleeve.

Furthermore, the damping device comprises rubber sleeves fixedly connected to two ends of the matching sleeve, and the rubber sleeves are sleeved on the reciprocating screw rods and abutted against the reciprocating screw rods.

Further, the insulating tape comprises a winding drum matched with the matching sleeve and an adhesive tape wound on the outer side of the winding drum, a blade is fixedly connected to the outer side of the matching sleeve, the extending direction of the blade is consistent with the extending direction of the axis of the matching sleeve, and the blade is embedded into the inner side of the winding drum.

Through the arrangement, the adhesive tape is convenient to wind, and the winding of the adhesive tape is more uniform. Specifically, after the copper nose is installed, the first clamping block and the second clamping block are loosened and move towards the insulating layer of the cable, specifically, the first clamping block and the second clamping block leave the copper nose and move to the insulating layer of the cable, the first clamping block and the second clamping block clamp the insulating layer of the cable, so that the reciprocating lead screw is fixed on one side of the copper nose, the extending direction of the reciprocating lead screw is consistent with the extending direction of the copper nose, the length of the reciprocating lead screw is matched with the length of the copper nose, one end of an adhesive tape is firstly manually bonded on the copper nose, then the rotating ring rotates at a constant speed under the action of the driving device, when the rotating ring is fixedly connected with the reciprocating lead screw, the reciprocating lead screw and the rotating ring synchronously rotate, and specifically, the reciprocating lead screw rotates around the axis of the copper nose, in the process, the adhesive tape is continuously wound and adhered on the copper nose, so that the adhesive tape is continuously released from the winding drum, the adhesive tape drives the winding drum to rotate around the axis of the reciprocating screw rod, the winding drum and the matching sleeve cannot rotate relatively, when the winding drum rotates around the axis of the reciprocating screw rod, the matching sleeve and the winding drum synchronously rotate, namely, the matching sleeve also rotates around the axis of the reciprocating screw rod, according to the characteristics of the reciprocating screw rod, when the matching sleeve rotates around the axis of the reciprocating screw rod, the matching sleeve simultaneously reciprocates along the axis of the reciprocating screw rod, namely, the matching sleeve reciprocates between two ends of the copper nose and uniformly winds the adhesive tape on the copper nose, after winding is finished, the driving device stops, and the adhesive tape is cut off, and the whole process is very convenient. The effect of damping device has increased the rotatory resistance of cooperation cover to make the pulling force of the sticky tape between winding cylinder and the reciprocal lead screw great, make the sticky tape inseparable winding on the copper nose. Specifically, when the cooperation cover is rotated, relative slip between rubber sleeve and the reciprocal lead screw, frictional force is great between rubber sleeve and the reciprocal lead screw to make the cooperation cover need overcome frictional force when rotating, and then make the rolling resistance great.

The blade makes synchronous rotation between bobbin and the cooperation cover, and the blade prevents to take place relative rotation between bobbin and the cooperation cover promptly, needs to explain, has great damping between blade and the bobbin, so bobbin and cooperation cover are when synchronous rotation, and the bobbin can not follow the axis motion of cooperation cover along the cooperation basically relatively. In addition, when the insulating tape needs to be replaced, the winding drum moves towards one side far away from the first supporting seat along the blade, the winding drum and the blade slide relatively and finally are separated from the blade, namely the winding drum and the matching sleeve are separated, when a new insulating tape is installed, the winding drum of the new insulating tape only needs to be sleeved on the matching sleeve, and in the process, the blade cuts the inner wall of the winding drum.

Furthermore, the matching sleeve is close to the outer side of one end of the first supporting seat and is fixedly connected with a limiting protrusion, and the winding drum is abutted to the limiting protrusion.

Through the arrangement, the limiting protrusion plays a limiting role in the winding drum, and when the insulating tape is installed, the winding drum is abutted against the limiting protrusion, namely the insulating tape is installed in place.

Furthermore, one end of the matching sleeve, which is far away from the first supporting seat, is provided with a chamfer which is convenient for sleeving the winding drum on the matching sleeve, and the outer diameter of the rubber sleeve is smaller than the inner diameter of the winding drum.

Further, the rotating ring is provided as a ring gear, and the driving device includes a driving gear engaged with the ring gear and a motor connected to the driving gear.

Through the arrangement, the rotating ring can be driven to rotate. Specifically, the motor drives the rotating ring to rotate through the driving gear, wherein the motor can be set to be a servo motor, so that the rotating ring is more stable in rotation.

Drawings

FIG. 1 is a side view of an embodiment.

FIG. 2 is a top view of the embodiment.

Fig. 3 is a schematic view of the second support seat removed.

Fig. 4 is a partial cross-sectional view of fig. 3.

FIG. 5 is a schematic view of the latch and socket disengaged.

Fig. 6 is a sectional view of the embodiment.

Fig. 7 is an enlarged view of fig. 6 at a.

Fig. 8 is a sectional view taken along line B-B of fig. 7.

FIG. 9 is a schematic view of a copper nose according to an embodiment.

FIG. 10 is a schematic view of an embodiment of a wrapping tape.

Detailed Description

The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.

Referring to fig. 1 to 10, a power cable head processingequipment, includes hydro-cylinder 11, hydro-cylinder 11 includes cylinder body 111 and output shaft 112, cylinder body 111 is close to the first supporting seat 12 of one end fixedly connected with of output shaft 112, first supporting seat 12 is provided with first via hole 121, first supporting seat 12 is provided with first clamp splice 13, output shaft 112 with first supporting seat 12 sliding connection and be provided with second clamp splice 14.

As an implementation manner, one side of the first supporting seat 12 can be detachably connected with the second supporting seat 15, the second supporting seat 15 is provided with a second via hole 151 corresponding to the first via hole 121, the first via hole 121 and a threading opening 152 is formed between the second via holes 151, one side of the first supporting seat 12 is provided with a first groove 122, the other side of the first supporting seat 12 is provided with a second groove 123, one side of the second supporting seat 15 is provided with a third groove 153, the other side of the second supporting seat 15 is provided with a fourth groove 154, the first groove 122 and a connecting groove is formed between the third groove 153, a connecting piece 131 is arranged in the connecting groove, the first clamping block 13 and the connecting piece 131 are fixedly connected, a sliding groove is formed between the second groove 123 and the fourth groove 154, the output shaft 112 passes through the sliding groove and is slidably connected with the sliding groove, one end of the output shaft 112 is arranged in the threading opening 152 and can be detachably connected with the second clamping block 14.

Through the arrangement, the first clamping block 13 and the second clamping block 14 can be conveniently replaced, specifically, when the first supporting seat 12 and the second supporting seat 15 are detachably connected, the first supporting seat 12 and the second supporting seat 15 clamp the connecting piece 131 tightly, so that the first clamping block 13 is fixed in the threading opening 152, the sliding groove increases the stability of the output shaft 112, the output shaft 112 can stably move along the axis direction of the output shaft 112, after the copper nose 21 is sleeved on the lead 22, the copper nose 21 penetrates through the threading opening 152 and passes through the space between the first clamping block 13 and the second clamping block 14, the oil cylinder 11 runs, the output shaft 112 moves towards the first clamping block 13, the first clamping block 13 and the second clamping block 14 are closed and extrude the copper nose 21 to deform the copper nose 21, so that the copper nose 21 is tightly matched with the lead 22, referring to fig. 9, then the oil cylinder 11 resets, the first clamping block 13 and the second clamping block 14 are separated and loosen the copper nose 21, and the copper nose 21 can be extruded at different positions of the copper 21 by repeating the actions, so that the copper nose 21 is more tightly matched with the lead 22.

When the first clamping block 13 and the second clamping block 14 need to be replaced, the second supporting seat 15 is detached from the first supporting seat 12, referring to fig. 3, the first groove 122 and the third groove 153 are separated, the connecting member 131 is partially embedded into the first groove 122, at this time, the connecting member 131 can be taken out of the first groove 122 of the first supporting seat 12, the connecting member 131 and the first clamping block 13 are integrally formed, and a new connecting member 131 of the first clamping block 13 is embedded into the first groove 122; in addition, when the second supporting seat 15 is detached from the first supporting seat 12, the second groove 123 and the fourth groove 154 are separated, the output shaft 112 and the fourth groove 154 are separated, the second clamping block 14 is conveniently detached, after the second clamping block 14 is detached, a new second clamping block 14 is replaced, then the second supporting seat 15 is installed on the first supporting seat 12 again, the connecting piece 131 is embedded into the third groove 153, and the output shaft 112 is embedded into the fourth groove 154.

In one implementation manner, an insertion groove 1121 with an opening facing the second clamping block 14 is formed at one end of the output shaft 112, a bolt 141 is fixedly connected to a side of the second clamping block 14 away from the first clamping block 13, the bolt 141 is inserted into the insertion groove 1121, a first bolt 1122 is formed on a side of the output shaft 112 close to the second support seat 15, and the first bolt 1122 and the bolt 141 are in threaded connection.

Through the arrangement, the second clamping block 14 is convenient to disassemble and assemble. Specifically, after the second support seat 15 is detached, the connecting member 131 and the first clamping block 13 are taken out, at this time, the output shaft 112 and the first bolt 1122 are exposed to the air, after the first bolt 1122 is detached, the pin 141 can move along the axial direction of the slot 1121, under the action of the cylinder 11, the output shaft 112 moves toward the cylinder 11, so that the pin 141 and the slot 1121 are disengaged, referring to fig. 5, a new second clamping block 14 is placed on the first support seat 12, so that the pin 141 and the slot 1121 are aligned, then under the action of the cylinder 11, the output shaft 112 moves toward the pin 141, so that the pin 141 is inserted into the slot 1121, then the pin 141 is fixed in the slot 1121 by using the first bolt 1122, then the connecting member 131 of the new first clamping block 13 is placed on the first groove 122, and then the second support seat 15 is installed.

As an implementation manner, the connecting member 131 is T-shaped and is adapted to the connecting groove.

With the above arrangement, when the first support seat 12 and the second support seat 15 clamp the connection member 131, the connection member 131 is not easily pulled out from the connection groove.

In one implementation manner, the second support seat 15 is penetrated by a second bolt 155, and the second bolt 155 is in threaded connection with the first support seat 12.

Through the arrangement, the second supporting seat 15 can be conveniently disassembled and assembled.

In one implementation manner, a first pressing groove 132 is disposed on a side of the first clamping block 13 close to the second clamping block 14, and a second pressing groove 142 is disposed on a side of the second clamping block 14 close to the first clamping block 13.

Through the arrangement, the copper noses 21 can be conveniently extruded, when the copper noses 21 are extruded by the first clamping block 13 and the second clamping block 14, the copper noses 21 are partially embedded into the first extrusion groove 132, the copper noses 21 are partially embedded into the second extrusion groove 142, the first extrusion groove 132 and the second extrusion groove 142 are both basically trapezoidal, and when the first clamping block 13 and the second clamping block 14 are closed, the outer sides of the copper noses 21 are basically hexagonal.

As an implementation manner, one side of the first support base 12, which is away from the output shaft 112, is rotatably connected with a rotating ring 16, one side of the cylinder body 111 is provided with a driving device 17 for driving the rotating ring 16 to rotate, one side of the rotating ring 16, which is away from the first support base 12, is fixedly connected with a reciprocating screw rod 161, a matching sleeve 162 is sleeved on the reciprocating screw rod 161, a damping device 18 is arranged between the matching sleeve 162 and the reciprocating screw rod 161, and an insulating tape 19 is sleeved on the matching sleeve 162.

As an implementation manner, the damping device 18 includes rubber sleeves 181 fixedly connected to two ends of the fitting sleeve 162, and the rubber sleeves 181 are sleeved on the reciprocating screw rod 161 and abut against the reciprocating screw rod 161.

As one implementation manner, the insulating tape 19 includes a winding drum 191 adapted to the fitting sleeve 162 and a tape 192 wound on the outside of the winding drum 191, a blade 163 is fixedly connected to the outside of the fitting sleeve 162, the extending direction of the blade 163 is the same as the extending direction of the axis of the fitting sleeve 162, and the blade 163 is embedded in the inside of the winding drum 191.

Through above-mentioned setting, conveniently twine sticky tape 192, and the winding of sticky tape 192 is more even. Specifically, after the copper nose 21 is installed, the copper nose 21 of the first clamping block 13 and the second clamping block 14 is loosened and moves towards the insulating layer 23 of the cable, specifically, the first clamping block 13 and the second clamping block 14 leave the copper nose 21 and move to the insulating layer 23 of the cable, the first clamping block 13 and the second clamping block 14 clamp the insulating layer 23 of the cable, thereby fixing the reciprocating screw rod 161 at one side of the copper nose 21, and at this time, the extension direction of the reciprocating screw rod 161 is identical to the extension direction of the copper nose 21, referring to fig. 10, the length of the reciprocating screw rod 161 is adapted to the length of the copper nose 21, then one end of the adhesive tape 192 is manually adhered to the copper nose 21, then the rotating ring 16 rotates at a constant speed under the action of the driving device 17, when the rotating ring 16 and the reciprocating screw rod 161 are fixedly connected, the reciprocating screw rod 161 and the rotating ring 16 rotate synchronously, specifically, the reciprocating screw rod 161 rotates around the axis of the copper nose 21, in the process, the adhesive tape 192 is continuously wound and adhered on the copper nose 21, so that the adhesive tape 192 is continuously released from the winding drum 191, the adhesive tape 192 drives the winding drum 191 to rotate around the axis of the reciprocating screw rod 161, the winding drum 191 and the matching sleeve 162 cannot relatively rotate, when the winding drum 191 rotates about the axis of the reciprocating screw 161, the engaging sleeve 162 and the winding drum 191 rotate synchronously, i.e., the fitting sleeve 162, is also rotated about the axis of the reciprocating screw 161, according to the characteristics of the reciprocating screw 161, when the fitting sleeve 162 rotates around the axis of the reciprocating screw 161, the fitting sleeve 162 reciprocates along the axis of the reciprocating screw 161 at the same time, that is, the fitting sleeve 162 reciprocates between both ends of the copper nose 21, and the adhesive tape 192 is uniformly wound around the copper nose 21, and after the winding is completed, the driving device 17 stops and the adhesive tape 192 is cut off, so that the whole process is very convenient. The damping means 18 acts to increase the resistance to the rotation of the fitting sleeve 162, so that the tension of the adhesive tape 192 between the winding drum 191 and the reciprocating screw 161 is large, and the adhesive tape 192 is tightly wound around the copper nose 21. Specifically, when the matching sleeve 162 rotates, the rubber sleeve 181 and the reciprocating screw rod 161 slide relatively, and the friction force between the rubber sleeve 181 and the reciprocating screw rod 161 is large, so that the matching sleeve 162 needs to overcome the friction force during rotation, and further the rotation resistance is large.

The blade 163 enables the synchronous rotation between the winding cylinder 191 and the matching sleeve 162, that is, the blade 163 prevents the relative rotation between the winding cylinder 191 and the matching sleeve 162, it should be noted that there is a large damping between the blade 163 and the winding cylinder 191, so that the winding cylinder 191 does not move along the axis of the matching sleeve 162 relative to the matching sleeve 162 when the winding cylinder 191 and the matching sleeve 162 rotate synchronously. In addition, when the insulating tape 19 needs to be replaced, the winding drum 191 moves along the blade 163 to the side away from the first support seat 12, the winding drum 191 and the blade 163 slide relatively and are finally separated from the blade 163, namely, the winding drum 191 and the matching sleeve 162 are separated, when a new insulating tape 19 is installed, only the winding drum 191 of the new insulating tape 19 is sleeved on the matching sleeve 162, and in the process, the blade 163 cuts the inner wall of the winding drum 191.

As one implementation manner, a limiting protrusion 164 is fixedly connected to an outer side of one end of the fitting sleeve 162 close to the first supporting seat 12, and the winding drum 191 abuts against the limiting protrusion 164.

With the arrangement, the limiting protrusion 164 limits the winding drum 191, and when the winding drum 191 abuts against the limiting protrusion 164 when the insulating tape 19 is mounted, the insulating tape 19 is mounted in place.

As an implementation manner, an end of the fitting sleeve 162 far away from the first supporting seat 12 is provided with a chamfer 1621 for facilitating the winding drum 191 to be sleeved on the fitting sleeve 162, and an outer diameter of the rubber sleeve 181 is smaller than an inner diameter of the winding drum 191.

As an implementation manner, the rotating ring 16 is provided as a ring gear, and the driving device 17 includes a driving gear 171 engaged with the ring gear and a motor 172 connected to the driving gear 171.

With the above arrangement, the rotary ring 16 can be driven to rotate. Specifically, the motor drives the rotating ring 16 to rotate through the driving gear 171, wherein the motor may be configured as a servo motor, so that the rotating ring 16 is more stable when rotating.

It will be understood that modifications and variations are possible to those skilled in the art in light of the above teachings and that all such modifications and variations are considered to be within the purview of the invention as set forth in the appended claims.

Claims (5)

1. The utility model provides a power cable head processingequipment, a serial communication port, including the hydro-cylinder, the hydro-cylinder includes cylinder body and output shaft, the cylinder body is close to the first supporting seat of one end fixedly connected with of output shaft, first supporting seat is provided with first via hole, first supporting seat is provided with first clamp splice, the output shaft with first supporting seat sliding connection and be provided with the second clamp splice, one side of first supporting seat can be dismantled and be connected with the second supporting seat, the second supporting seat be provided with the second via hole that first via hole corresponds, first via hole with form the through wires mouth between the second via hole, one side of first supporting seat is provided with first recess, the opposite side of first supporting seat is provided with the second recess, one side of second supporting seat is provided with the third recess, the opposite side of second is provided with the fourth recess, first recess with form the spread groove between the third recess, be provided with the spread groove connecting piece in the spread groove, first clamp splice with connecting piece fixed connection, the second recess with form the fourth recess, the output shaft pass the output shaft with the spout sliding connection spout.

2. The power cable head processing device according to claim 1, wherein an insertion groove with an opening facing the second clamping block is formed at one end of the output shaft, a plug is fixedly connected to a side of the second clamping block away from the first clamping block, the plug is inserted into the insertion groove, a first bolt is arranged on a side of the output shaft close to the second support seat, and the first bolt is in threaded connection with the plug.

3. The power cable head processing device according to claim 1, wherein the connecting member is T-shaped and is fitted with the connecting groove.

4. The power cable head processing device according to claim 1, wherein a second bolt passes through the second support base, and the second bolt is threadedly coupled to the first support base.

5. The power cable head processing device according to any one of claims 1 to 4, wherein a first extrusion groove is formed on a side of the first clamping block close to the second clamping block, and a second extrusion groove is formed on a side of the second clamping block close to the first clamping block.

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