CN208820221U - peeling mechanism - Google Patents

Abstract

The utility model provides a peeling mechanism, include: an upper cutter assembly; the lower cutter assembly is matched with the upper cutter assembly to cut the outer skin of the wire core of the power line; the transmission assembly is connected with the upper cutter assembly and the lower cutter assembly and drives the upper cutter assembly and the lower cutter assembly to move relatively, so that the outer skin of the wire core of the power line is cut by the upper cutter assembly and the lower cutter assembly; the power assembly is in driving connection with the transmission assembly to drive the transmission assembly to move along a preset peeling direction, and the transmission assembly drives the upper cutter assembly and the lower cutter assembly to move along the preset peeling direction after the upper cutter assembly and the lower cutter assembly cut the outer skin of the wire core, so that the outer skin positioned on the wire core is peeled off from the core body of the wire core. The problem of the inefficiency of the three-core power cord head endothelium stripping mode among the prior art is solved.

Description

Peeling procedure

Technical field

The utility model relates to a kind of stripping endothelium fields of power supply line, in particular to a kind of peeling procedure.

Background technique

Currently, need the head endothelium by three core power supply lines to peel off using in field in three core power supply lines, with connection or Person installs attaching plug.

Traditional three core power supply lines stripping endothelium needs a large amount of manual operation, influences subsequent make to prevent peeling to be not thorough With the degree of automation is low, and processing efficiency is low.

Utility model content

The main purpose of the utility model is to provide a kind of peeling procedures, to solve three cores power supply line in the prior art Shell the problem of low efficiency of endothelium mode in head.

To achieve the goals above, the utility model provides a kind of peeling procedure, comprising: upper cutter component；Lower cutter Component, incision knife assembly and upper cutter component, which cooperate, carries out cutting operation with the crust of the core to power supply line；Transmission group Part, transmission component are all connected with upper cutter component and incision knife assembly, and transmission component drives upper cutter component and incision knife assembly Relative motion, so that upper cutter component is cut with crust of the incision knife assembly to the core of power supply line；Power Component, power Component and transmission component are drivingly connected, to drive transmission component to move along predetermined peeling direction, in upper cutter component and incision Knife assembly makes transmission component drive upper cutter component and incision knife assembly along predetermined peeling side after cutting to the crust of core To movement, so that the crust for being located at core is removed from the core of core.

Further, peeling procedure further include: line pressing component, line pressing component are arranged in upper cutter component and incision knife assembly Side, it is logical so that after line pressing component compresses core to compress core positioned at upper cutter component and incision knife assembly between It crosses upper cutter component and incision knife assembly cuts the crust of core.

Further, line pressing component includes: supporting vertical plate；Support transverse slat, be mounted on the end of supporting vertical plate and with support Vertical plate is vertical；Tension disc, tension disc is mounted on support transverse slat, for compressing power supply line.

Further, it supports on transverse slat and is provided with slider cylinder；Tension disc is mounted in slider cylinder, so that tension disc leans on Close or remote from core.

Further, tension disc has pressing groove；Tension disc is contacted by the cell wall of pressing groove with core, and pressing groove card is set On core, power supply line to be compressed when upper cutter component carries out debarking action with incision knife assembly.

Further, upper cutter component includes: upper cutter, is provided on upper cutter and cuts for the core to power supply line The upper cutting groove cut, upper cutting groove are multiple；Wherein, it is additionally provided with holding tank on upper cutter, in multiple upper cutting grooves at least One is located in holding tank.

Further, incision knife assembly includes: lower cutter, is provided on lower cutter and cuts for the core to power supply line The lower cutting groove cut, lower cutting groove be it is multiple, multiple lower cutting grooves are arranged in a one-to-one correspondence with upper cutting groove；Wherein, on lower cutter It is additionally provided with the lug boss being correspondingly arranged with holding tank, at least one of multiple lower cutting grooves are located on lug boss, lug boss It is at least partially housed in holding tank, is cut with multiple cores in discrete state to the power supply line.

Further, peeling procedure further include: waste suction material component, the material sucking port of waste suction material component towards upper cutter component and Incision knife assembly setting, to draw the crust waste material for the core removed through upper cutter component and incision knife assembly.

Further, waste suction material component includes: support plate；Suction pipe, suction pipe installation are fixed on the supporting plate and by press strip, One end nozzle of suction pipe is arranged towards upper cutter component and incision knife assembly, and the other end nozzle of suction pipe is connected to getter device.

Further, transmission component includes: driving device, for providing power for transmission component；Gear set, gear set with Upper cutter component and incision knife assembly are all connected with, driving device drive gear set rotation, so that gear set drive upper cutter component With incision knife assembly relative motion.

Further, transmission component further include: synchronous pulley group, synchronous pulley group connect with driving device and gear set It connects, driving device driving synchronous pulley group is rotated, so that synchronous pulley group drives gear set rotation；Baffle, synchronous pulley Group is mounted on the first mounting surface of baffle, and gear set is mounted on the second mounting surface of baffle；Bottom plate, driving device are mounted on On bottom plate, escape groove is provided on bottom plate, baffle is at least partially seated in escape groove.

Further, gear set includes: driving wheel；Driven wheel, driving wheel are engaged with driven wheel, the two sides difference of driven wheel It is connected with crankshaft and lower crankshaft, upper crankshaft is connect with upper cutter component, and lower crankshaft is connect with incision knife assembly.

Further, synchronous pulley group includes: the first synchronous pulley, and the first synchronous pulley is connect with driving device；Second Synchronous pulley, the second synchronous pulley are connect by synchronous belt with the first synchronous pulley, and the second synchronous pulley is connect with driving wheel, with Drive driving wheel rotation.

Further, transmission component further include: adjustment block, adjustment block are mounted on the first mounting surface, open up in adjustment block There is adjusting hole；Tensioning plate, tensioning plate are mounted on the first mounting surface, and tensioning plate has the vertical panel perpendicular with the first mounting surface Face；It is tensioned wheel of falling, wheel of falling is tensioned and is mounted on tensioning plate, by the way that adjustment part is passed through adjusting hole and is abutted to vertical plate face On, so that tensioning is fallen and takes turns on the outer surface for being connected to synchronous belt to compress synchronous belt.

Further, upper cutter component includes: upper junction plate, and upper junction plate is connect by upper connecting rod with upper crankshaft, so that Upper junction plate is mobile relative to incision knife assembly；Upper cutter, upper cutter are connect with upper junction plate, be provided on upper cutter for pair The upper cutting groove that the crust of the core is cut；Upper sliding rail mounting plate, upper junction plate are at least partly movably mounted at On upper sliding rail mounting plate.

Further, incision knife assembly includes: lower connecting plate, and lower connecting plate is connect by lower link with lower crankshaft, so that Lower connecting plate is mobile relative to upper cutter component；Lower cutter, lower cutter are connect with lower connecting plate, are provided on lower cutter and are above cut It cuts slot and descends cutting groove correspondingly, upper cutting groove is matched with lower cutting groove and cut with the core crust to power supply line； Glidepath mounting plate, lower connecting plate are movably mounted on glidepath mounting plate.

Further, Power Component includes: driving part, is drivingly connected with transmission component, to drive transmission component along pre- It is mobile to determine peeling direction；Lead screw is connect with driving part；Link block is set on lead screw and cooperates with threads of lead screw, transmission group Part is connect with link block, to drive transmission component to move along predetermined peeling direction.

Further, Power Component further include: sliding rail；Sliding block, sliding block are installed on the slide rail, and transmission component is connect with sliding block So that transmission component is moved along the direction perpendicular to predetermined peeling direction；Wherein, Power Component and transmission component are installed in base On seat.

Using the technical solution of the utility model, peeling procedure include upper cutter component, incision knife assembly, transmission component and Power Component, incision knife assembly and upper cutter component, which cooperate, carries out cutting operation with the crust of the core to power supply line；It passes Dynamic component is all connected with upper cutter component and incision knife assembly, and transmission component drives upper cutter component fortune opposite with incision knife assembly It is dynamic, so that upper cutter component is cut with crust of the incision knife assembly to the core of power supply line；Power Component and transmission component Be drivingly connected, to drive transmission component to move along predetermined peeling direction, in upper cutter component and incision knife assembly to core Crust makes transmission component that upper cutter component and incision knife assembly be driven to move along predetermined peeling direction after being cut, so as to be located at The crust of core is removed from the core of core.Increase the automatic of the operation removed from the core of core to the crust of core Change control, improves the working efficiency that power supply wire core is decorticated.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide a further understanding of the present invention, this is practical Novel illustrative embodiments and their description are not constituteed improper limits to the present invention for explaining the utility model. In the accompanying drawings:

Fig. 1 shows the structural schematic diagram at the first visual angle of peeling procedure according to the present utility model；

Fig. 2 shows the structural schematic diagrams at the second visual angle of peeling procedure according to the present utility model；

Fig. 3 shows the structural schematic diagram of the embodiment of the upper cutter component of peeling procedure according to the present utility model；

Fig. 4 shows the structural schematic diagram of the embodiment of upper cutter according to fig. 2；

Fig. 5 shows the structural schematic diagram of the embodiment of the incision knife assembly of peeling procedure according to the present utility model；

Fig. 6 shows the structural schematic diagram of the embodiment of the lower cutter according to Fig. 4；

Fig. 7 shows the structural schematic diagram of the embodiment of the transmission component of peeling procedure according to the present utility model；

Fig. 8 shows the structural schematic diagram of the embodiment of the Power Component of peeling procedure according to the present utility model；

Fig. 9 shows the structural schematic diagram of the embodiment of the line pressing component of peeling procedure according to the present utility model；And

Figure 10 shows the structural schematic diagram of the embodiment of the waste suction material component of peeling procedure according to the present utility model.

Wherein, the above drawings include the following reference numerals:

10, upper cutter component；11, upper junction plate；12, upper connecting rod；13, upper cutter；14, upper sliding rail mounting plate；15, it is cut on Tool apron；131, holding tank；132, upper cutting groove；

20, incision knife assembly；21, lower connecting plate；22, lower link；23, lower cutter；24, glidepath mounting plate；231, convex The portion of rising；232, lower cutting groove；25, incision tool apron；

30, transmission component；31, driving device；32, gear set；33, synchronous pulley group；34, baffle；341, the first installation Face；342, the second mounting surface；35, bottom plate；351, escape groove；321, driving wheel；322, driven wheel；36, upper crankshaft；37, lower song Axis；331, the first synchronous pulley；332, the second synchronous pulley；333, synchronous belt；38, adjustment block；381, adjusting hole；39, it is tensioned Plate；391, it is tensioned wheel of falling；

40, pedestal；

50, Power Component；51, driving part；53, sliding rail；54, sliding block；521, lead screw；522, link block；

60, line pressing component；61, supporting vertical plate；62, transverse slat is supported；63, tension disc；631, pressing groove；

70, waste suction material component；71, support plate；72, suction pipe.

Specific embodiment

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The utility model will be described in detail below with reference to the accompanying drawings and embodiments.

Fig. 1 to Figure 10 is please referred to, the utility model provides a kind of peeling procedure, including upper cutter component 10, lower cutter Component 20, transmission component 30 and Power Component 50, incision knife assembly 20 and upper cutter component 10 cooperate to power supply line The crust of core carries out cutting operation；Transmission component 30 is all connected with upper cutter component 10 and incision knife assembly 20, transmission component 30 driving upper cutter components 10 and 20 relative motion of incision knife assembly, so that upper cutter component 10 and incision knife assembly 20 are to power supply The crust of the core of line is cut；Power Component 50 and transmission component 30 are drivingly connected, to drive transmission component 30 along predetermined Peeling direction is mobile, to make transmission component 30 after upper cutter component 10 and incision knife assembly 20 cut the crust of core Upper cutter component 10 and incision knife assembly 20 is driven to move along predetermined peeling direction, so as to be located at the crust of core from the core of core It is removed on body.

As shown in Figure 1, according to peeling procedure provided by the utility model, including upper cutter component 10, incision knife assembly 20, Transmission component 30 and Power Component 50, incision knife assembly 20 and upper cutter component 10 cooperate with the outer of the core to power supply line Skin carries out cutting operation；Transmission component 30 is all connected with upper cutter component 10 and incision knife assembly 20, in the driving of transmission component 30 Cutter assembly 10 and 20 relative motion of incision knife assembly, so that upper cutter component 10 is with incision knife assembly 20 to the core of power supply line Crust cut；Power Component 50 and transmission component 30 are drivingly connected, to drive transmission component 30 along predetermined peeling direction It is mobile, it is cut with driving transmission component 30 after upper cutter component 10 and incision knife assembly 20 cut the crust of core Knife assembly 10 and incision knife assembly 20 are moved along predetermined peeling direction, so that the crust for being located at core is shelled from the core of core From.The automation control for increasing the operation removed from the core of core to the crust of core improves the stripping of power supply wire core The working efficiency of crust.

In the present embodiment, as shown in Figure 1, peeling procedure further include: line pressing component 60, the setting of line pressing component 60 are cut upper The side of knife assembly 10 and incision knife assembly 20, to compress the core between upper cutter component 10 and incision knife assembly 20, So as to be cut by upper cutter component 10 and incision knife assembly 20 to the crust of core after line pressing component 60 compresses core It cuts, then line pressing component 60 compresses power supply line when transmission component 30 is moved along predetermined peeling direction, enables power supply line Rapidly removed from core.

Specifically, as shown in figure 9, line pressing component 60 includes supporting vertical plate 61, support transverse slat 62 and tension disc 63；Support is horizontal Plate 62 is mounted on the end of supporting vertical plate 61 and vertical with supporting vertical plate 61；Tension disc 63 is mounted on support transverse slat 62, is used for Compress power supply line；Slider cylinder is provided on support transverse slat 62；Tension disc 63 is mounted in slider cylinder, so that tension disc 63 leans on Close or remote from core.

As shown in Figure 2 and Figure 9, tension disc 63 has pressing groove 631；Tension disc 63 passes through the cell wall and line of pressing groove 631 Core contact, pressing groove 631 is fastened on core, with will be electric in upper cutter component 10 and the progress debarking action of incision knife assembly 20 Source line compresses.In addition, elastomeric pad can be pasted on tension disc 63, to pressing section when preventing tension disc 63 from compressing power supply line Core crust generate destruction.

In the present embodiment, as shown in Figures 3 to 6, upper cutter component 10 includes upper cutter 13, is provided on upper cutter 13 Upper cutting groove 132, upper cutting groove 132 are multiple；Wherein, holding tank 131, multiple upper cutting grooves are additionally provided on upper cutter 13 At least one of 132 are located in holding tank 131.

Incision knife assembly 20 includes: lower cutter 23, is provided on lower cutter 23 and carries out for the core crust to power supply line Cutting lower cutting groove 232, lower cutting groove 232 be it is multiple, multiple lower cutting grooves 232 are arranged in a one-to-one correspondence with upper cutting groove 132； Wherein, it is additionally provided with the lug boss 231 being correspondingly arranged with holding tank 131 on lower cutter 23, in multiple lower cutting grooves 232 at least One is located on lug boss 231, and lug boss 231 is at least partially housed in holding tank 131, to divide being in for the power supply line Multiple core crusts from state are cut；Wherein, it is provided in multiple upper cutting grooves 132 and multiple lower cutting grooves 232 Cutting edge is cut with the crust to core.

In the present embodiment, power supply line is three core power supply lines, and the upper cutting groove 132 on upper cutter 13 is three, is used respectively In cutting three cores in three core power supply lines, cutting groove 132 is located in holding tank 131 on one of them, and the two of holding tank 131 Side is respectively arranged with cutting groove 132, and holding tank 131 and lug boss 231 cooperate, the lower cutting groove 232 on lower cutter 23 It is arranged in a one-to-one correspondence with upper cutting groove 132, the crust of three cores in discrete state is cut.

As shown in Figure 10, peeling procedure further includes waste suction material component 70, and the material sucking port of waste suction material component 70 is towards upper cutter Component 10 and incision knife assembly 20 are arranged, useless with the crust for drawing the core removed through upper cutter component 10 and incision knife assembly 20 Material.

Specifically, waste suction material component 70 includes support plate 71 and suction pipe 72, and suction pipe 72 is mounted in support plate 71 and passes through Press strip is fixed, and one end nozzle of suction pipe 72 is arranged towards upper cutter component 10 and incision knife assembly 20, another end pipe of suction pipe 72 Mouth is connected to getter device, and after the completion of debarking action, the core crust that waste suction material component 70 gets off peeling sucks suction pipe 72 In, the peeling work of a power supply line under the influence of avoiding.

As shown in fig. 7, transmission component 30 includes driving device 31 and gear set 32, it is dynamic for being provided for transmission component 30 Power；Gear set 32 is all connected with upper cutter component 10 and incision knife assembly 20, the rotation of 31 drive gear set 32 of driving device, so that Gear set 32 drives upper cutter component 10 and 20 relative motion of incision knife assembly.

Specifically, transmission component 30 further include: synchronous pulley group 33, baffle 34 and bottom plate 35, synchronous pulley group 33 and drive Dynamic device 31 and gear set 32 are all connected with, and driving device 31 drives synchronous pulley group 33 to be rotated, so that synchronous pulley group 33 Gear set 32 is driven to rotate；Synchronous pulley group 33 is mounted on the first mounting surface 341 of baffle 34, and gear set 32 is mounted on baffle On 34 the second mounting surface 342；Driving device 31 is mounted on bottom plate 35, is provided with escape groove 351 on bottom plate 35, baffle 34 to Small part is mounted in escape groove 351.

Further, as shown in Figure 2 and Figure 7, gear set 32 include driving wheel 321 and driven wheel 322, driving wheel 321 with Driven wheel 322 engages, and the two sides of driven wheel 322 are connected separately with crankshaft 36 and lower crankshaft 37, upper crankshaft 36 and upper cutter group Part 10 connects, and lower crankshaft 37 is connect with incision knife assembly 20.

Further, as shown in fig. 7, synchronous pulley group 33 includes the first synchronous pulley 331 and the second synchronous pulley 332, First synchronous pulley 331 is connect with driving device 31；Second synchronous pulley 332 passes through synchronous belt 333 and the first synchronous pulley 331 Connection, the second synchronous pulley 332 are connect with driving wheel 321, to drive driving wheel 321 to rotate.

In the present embodiment, transmission component 30 further includes that adjustment block 38, tensioning plate 39 and tensioning are fallen wheel 391, adjustment block 38 It is mounted on the first mounting surface 341, adjusting hole 381 is offered in adjustment block 38；Tensioning plate 39 is mounted on the first mounting surface 341 On, tensioning plate 39 has the vertical plate face perpendicular with the first mounting surface 341；Wheel 391 of falling is tensioned to be mounted on tensioning plate 39, with By the way that adjustment part is passed through adjusting hole 381 and is abutted in vertical plate face, making tensioning wheel 391 of falling be connected to the outer of synchronous belt 333 To compress synchronous belt 333 on surface；Wherein, synchronous belt 333 is preferably toothed belt, and being tensioned wheel 391 of falling prevents synchronous belt 333 from passing Loosening is generated during dynamic, influences the cutting to core crust.

In another embodiment provided by the utility model, as shown in figure 3, upper cutter component 10 include upper junction plate 11, Upper cutter 13 and upper sliding rail mounting plate 14, upper junction plate 11 is connect by upper connecting rod 12 with upper crankshaft 36, so that upper junction plate 11 It is mobile relative to incision knife assembly 20；Upper cutter 13 is connect with upper junction plate 11, is provided on upper cutter 13 for core The upper cutting groove 132 that crust is cut；Upper junction plate 11 is at least partly movably mounted on sliding rail mounting plate 14.

In another embodiment provided by the utility model, as shown in figure 5, incision knife assembly 20 include lower connecting plate 21, Lower cutter 23 and glidepath mounting plate 24, lower connecting plate 21 is connect by lower link 22 with lower crankshaft 37, so that lower connecting plate 21 It is mobile relative to upper cutter component 10；Lower cutter 23 is connect with lower connecting plate 21, is provided on lower cutter 23 and upper cutting groove 132 Lower cutting groove 232 correspondingly, upper cutting groove 132 is matched with lower cutting groove 232 to be carried out with the core crust to power supply line Cutting；Lower connecting plate 21 is movably mounted on glidepath mounting plate 24.

Preferably, upper cutter component 10 further includes upper cutter seat 15, and upper cutter seat 15 is connect with upper junction plate 11, upper cutter 13 are mounted on upper cutter seat 15；Incision knife assembly 20 further includes incision tool apron 25, and incision tool apron 25 is connect with lower connecting plate 21, Lower cutter 23 is mounted on incision tool apron 25.

As shown in figure 8, Power Component 50 includes driving part 51, lead screw 521 and link block 522, driving part 51 and biography Dynamic component 30 is drivingly connected, to drive transmission component 30 to move along predetermined peeling direction；Lead screw 521 is connect with driving part 51； Link block 522 is set on lead screw 521 and is threadedly engaged with lead screw 521, and transmission component 30 is connect with link block 522, to drive Transmission component 30 is moved along predetermined peeling direction.

Specifically, Power Component 50 further includes sliding rail 53 and sliding block 54, and sliding block 54 is mounted on sliding rail 53, transmission component 30 It is connect with sliding block 54 so that transmission component 30 is moved along the direction perpendicular to predetermined peeling direction；Wherein, Power Component 50 and biography Dynamic component 30 is installed on pedestal 40.

It can be seen from the above description that the above embodiments of the utility model achieve the following technical effects:

Peeling procedure in the present embodiment includes upper cutter component 10, incision knife assembly 20, transmission component 30 and power packages Part 50, incision knife assembly 20 and upper cutter component 10, which cooperate, carries out cutting operation with the crust of the core to power supply line；It passes Dynamic component 30 is all connected with upper cutter component 10 and incision knife assembly 20, and transmission component 30 drives upper cutter component 10 and lower cutter 20 relative motion of component, so that upper cutter component 10 is cut with crust of the incision knife assembly 20 to the core of power supply line；It is dynamic Power component 50 and transmission component 30 are drivingly connected, to drive transmission component 30 to move along predetermined peeling direction, in upper cutter group Part 10 and incision knife assembly 20 make transmission component 30 drive upper cutter component 10 and lower cutter after cutting to the crust of core Component 20 is moved along predetermined peeling direction, so that the crust for being located at core is removed from the core of core.It increases to core The automation control for the operation that crust is removed from the core of core improves the working efficiency that power supply wire core is decorticated.

The above is only the preferred embodiments of the utility model, are not intended to limit the utility model, for this field Technical staff for, various modifications and changes may be made to the present invention.Within the spirit and principle of the utility model, Any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (18)

1. a kind of peeling procedure characterized by comprising

Upper cutter component (10)；

Incision knife assembly (20), the incision knife assembly (20) and upper cutter component (10) cooperate with the core to power supply line Crust carry out cutting operation；

Transmission component (30), the transmission component (30) connect with the upper cutter component (10) and the incision knife assembly (20) It connects, the transmission component (30) drives the upper cutter component (10) and incision knife assembly (20) relative motion, so that institute Upper cutter component (10) is stated to cut the crust of the core of the power supply line with the incision knife assembly (20)；

Power Component (50), the Power Component (50) and the transmission component (30) are drivingly connected, to drive the transmission group Part (30) is moved along predetermined peeling direction, in the upper cutter component (10) and the incision knife assembly (20) to the core Crust cut after so that the transmission component (30) is driven the upper cutter component (10) and the incision knife assembly (20) It is moved along the predetermined peeling direction, so that the crust for being located at the core is removed from the core of the core.

2. peeling procedure according to claim 1, which is characterized in that the peeling procedure further include:

Line pressing component (60), the line pressing component (60) are arranged in the upper cutter component (10) and the incision knife assembly (20) Side, to compress core between the upper cutter component (10) and the incision knife assembly (20), so that the pressure After line component (60) compresses the core, by the upper cutter component (10) and the incision knife assembly (20) to the line The crust of core is cut.

3. peeling procedure according to claim 2, which is characterized in that the line pressing component (60) includes:

Supporting vertical plate (61)；

It supports transverse slat (62), is mounted on the end of the supporting vertical plate (61) and vertical with the supporting vertical plate (61)；

Tension disc (63), the tension disc (63) is mounted on the support transverse slat (62), for compressing the power supply line.

4. peeling procedure according to claim 3, which is characterized in that be provided with slide unit gas on the support transverse slat (62) Cylinder；The tension disc (63) is mounted in the slider cylinder, so that the tension disc (63) is close to or far from the core.

5. peeling procedure according to claim 3, which is characterized in that the tension disc (63) has pressing groove (631)；Institute It states tension disc (63) to contact by the cell wall of the pressing groove (631) with the core, the pressing groove (631) is fastened on described On core, with when the upper cutter component (10) and the incision knife assembly (20) carry out debarking action by the power supply line pressure Tightly.

6. peeling procedure according to claim 1, which is characterized in that the upper cutter component (10) includes:

Upper cutter (13) is provided with the upper cutting groove cut for the core to power supply line on the upper cutter (13) (132), the upper cutting groove (132) is multiple；

Wherein, it is additionally provided with holding tank (131) on the upper cutter (13), at least one in multiple upper cutting grooves (132) It is a to be located in the holding tank (131).

7. peeling procedure according to claim 6, which is characterized in that the incision knife assembly (20) includes:

Lower cutter (23) is provided with the lower cutting groove cut for the core to power supply line on the lower cutter (23) (232), the lower cutting groove (232) is multiple, and multiple lower cutting grooves (232) and the upper cutting groove (132) one are a pair of It should be arranged；

Wherein, the lug boss (231) being correspondingly arranged with the holding tank (131) is additionally provided on the lower cutter (23), it is multiple At least one of described lower cutting groove (232) is located on the lug boss (231), and the lug boss (231) is at least partly held It is contained in the holding tank (131), is cut with multiple cores in discrete state to the power supply line.

8. peeling procedure according to claim 3, which is characterized in that the peeling procedure further include:

Waste suction material component (70), the material sucking port of the waste suction material component (70) is towards the upper cutter component (10) and the incision Knife assembly (20) setting, to draw the core removed through the upper cutter component (10) and the incision knife assembly (20) Crust waste material.

9. peeling procedure according to claim 8, which is characterized in that the waste suction material component (70) includes:

Support plate (71)；

Suction pipe (72), the suction pipe (72) are mounted on the support plate (71) and are fixed by press strip, the suction pipe (72) One end nozzle is arranged towards the upper cutter component (10) and the incision knife assembly (20), another end pipe of the suction pipe (72) Mouth is connected to getter device.

10. peeling procedure according to claim 1, which is characterized in that the transmission component (30) includes:

Driving device (31), for providing power for the transmission component (30)；

Gear set (32), the gear set (32) are all connected with the upper cutter component (10) and the incision knife assembly (20), The driving device (31) drives gear set (32) rotation, so that the gear set (32) drives the upper cutter component (10) and the incision knife assembly (20) relative motion.

11. peeling procedure according to claim 10, which is characterized in that the transmission component (30) further include:

Synchronous pulley group (33), the synchronous pulley group (33) connect with the driving device (31) and the gear set (32) It connects, the driving device (31) drives the synchronous pulley group (33) to be rotated, so that the synchronous pulley group (33) drives Gear set (32) rotation；

Baffle (34), the synchronous pulley group (33) are mounted on the first mounting surface (341) of the baffle (34), the gear Group (32) is mounted on the second mounting surface (342) of the baffle (34)；

Bottom plate (35), the driving device (31) are mounted on the bottom plate (35), are provided with escape groove on the bottom plate (35) (351), the baffle (34) is at least partially seated in the escape groove (351).

12. peeling procedure according to claim 11, which is characterized in that the gear set (32) includes:

Driving wheel (321)；

Driven wheel (322), the driving wheel (321) are engaged with the driven wheel (322), the two sides point of the driven wheel (322) It is not connected with crankshaft (36) and lower crankshaft (37), the upper crankshaft (36) connect with the upper cutter component (10), under described Crankshaft (37) is connect with the incision knife assembly (20).

13. peeling procedure according to claim 12, which is characterized in that the synchronous pulley group (33) includes:

First synchronous pulley (331), first synchronous pulley (331) connect with the driving device (31)；

Second synchronous pulley (332), second synchronous pulley (332) pass through synchronous belt (333) and first synchronous pulley (331) it connects, second synchronous pulley (332) connect with the driving wheel (321), to drive the driving wheel (321) to turn It is dynamic.

14. 3 peeling procedure according to claim 1, which is characterized in that the transmission component (30) further include:

Adjustment block (38), the adjustment block (38) are mounted on first mounting surface (341), open up on the adjustment block (38) There are adjusting hole (381)；

Tensioning plate (39), the tensioning plate (39) are mounted on first mounting surface (341), the tensioning plate (39) have with The perpendicular vertical plate face of first mounting surface (341)；

Tensioning is fallen wheel (391), and the wheel (391) of falling that is tensioned is mounted on the tensioning plate (39), by passing through adjustment part The adjusting hole (381) simultaneously abuts to the vertical plate face, and the wheel (391) of falling that is tensioned is made to be connected to the synchronous belt (333) to compress the synchronous belt (333) on outer surface.

15. peeling procedure according to claim 12, which is characterized in that the upper cutter component (10) includes:

Upper junction plate (11), the upper junction plate (11) is connect by upper connecting rod (12) with the upper crankshaft (36), so that described Upper junction plate (11) is mobile relative to the incision knife assembly (20)；

Upper cutter (13), the upper cutter (13) connect with the upper junction plate (11), are arranged on the upper cutter (13) useful In the upper cutting groove (132) that the crust to the core is cut；

Upper sliding rail mounting plate (14), the upper junction plate (11) are at least partly movably mounted at the upper sliding rail mounting plate (14) on.

16. peeling procedure according to claim 15, which is characterized in that the incision knife assembly (20) includes:

Lower connecting plate (21), the lower connecting plate (21) is connect by lower link (22) with the lower crankshaft (37), so that described Lower connecting plate (21) is mobile relative to the upper cutter component (10)；

Lower cutter (23), the lower cutter (23) connect with the lower connecting plate (21), be provided on the lower cutter (23) with The upper cutting groove (132) is descended cutting groove (232) correspondingly, the upper cutting groove (132) and the lower cutting groove (232) It matches and is cut with the crust to the core；

Glidepath mounting plate (24), the lower connecting plate (21) are movably mounted on the glidepath mounting plate (24).

17. peeling procedure according to claim 1, which is characterized in that the Power Component (50) includes:

Driving part (51) is drivingly connected with the transmission component (30), to drive the transmission component (30) along described predetermined Peeling direction is mobile；

Lead screw (521) is connect with the driving part (51)；

Link block (522) is set on the lead screw (521) and is threadedly engaged with the lead screw (521), the transmission component (30) it is connect with the link block (522), to drive the transmission component (30) to move along the predetermined peeling direction.

18. peeling procedure according to claim 17, which is characterized in that the Power Component (50) further include:

Sliding rail (53)；

Sliding block (54), the sliding block (54) are mounted on the sliding rail (53), the transmission component (30) and the sliding block (54) It connects so that the transmission component (30) is moved along the direction perpendicular to the predetermined peeling direction；

Wherein, the Power Component (50) and the transmission component (30) are installed on pedestal (40).