CN214526096U - Flywheel knife plate separating mechanism - Google Patents

Abstract

The utility model discloses a wheel cutter board separating mechanism, it is including the third support, be equipped with the box on the third support, be equipped with two at least wheel cutter subassemblies that set up side by side in the box, a plurality of last conveying roller that are parallel to each other and a plurality of lower conveying roller that are parallel to each other, it is used for carrying panel between the two to go up conveying roller and lower conveying roller alignment one by one, both sides around wheel cutter subassembly are located to a plurality of last conveying roller branches, both sides around wheel cutter subassembly are located to a plurality of lower conveying roller branches, wheel cutter subassembly is including last wheel cutter, lower wheel cutter, go up actuating mechanism and lower actuating mechanism, go up the wheel cutter and set up with lower wheel cutter longitudinal symmetry and the cutting edge of the two aligns each other, it is used for ordering about the wheel cutter operation to go up actuating mechanism, lower actuating mechanism is used for ordering about the wheel cutter operation down, borrow the cooperation of last wheel cutter and lower wheel cutter, carry to panel between the two to cut. The utility model discloses cutting high quality, can effectively cut the panel of multiple thickness size, and then satisfy processing needs and technological requirement.

Description

Flywheel knife plate separating mechanism

Technical Field

The utility model relates to a panel processing equipment especially relates to a wheel sword board separating mechanism of board separator.

Background

In the existing plate processing equipment, a plate dividing and cutting function is usually involved. In practical application, the mechanism that cuts panel generally sets up a rotary cutter on cutting platform, when panel transfers to cutting platform, utilizes this rotary cutter to cut panel, and under this kind of traditional cutting mode, deckle edge appears very easily in the panel edge after the cutting, and is higher to the thickness requirement of panel moreover, and the panel of some thicker can't realize effective cutting, leads to cutting capacity not enough, can not satisfy the cutting process requirement.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, to prior art's not enough, provide a cutting quality high, can effectively cut the panel of multiple thickness size, and then satisfy the flywheel knife board separating mechanism of processing needs and technological requirement.

In order to solve the technical problem, the utility model adopts the following technical scheme.

A wheel knife plate separating mechanism comprises a third support, a box body is arranged on the third support, at least two wheel knife assemblies arranged side by side, a plurality of upper conveying rollers parallel to each other and a plurality of lower conveying rollers parallel to each other are arranged in the box body, the upper conveying rollers and the lower conveying rollers are aligned one by one, plates are conveyed between the upper conveying rollers and the lower conveying rollers, the upper conveying rollers are respectively arranged on the front side and the rear side of the wheel knife assemblies, the lower conveying rollers are respectively arranged on the front side and the rear side of the wheel knife assemblies, the wheel knife assemblies comprise upper wheel knives, lower wheel knives, upper driving mechanisms and lower driving mechanisms, the upper wheel knives and the lower wheel knives are arranged in a vertically symmetrical mode, cutting edges of the upper wheel knives and the lower wheel knives are aligned with each other, the upper driving mechanisms are used for driving the upper wheel knives to operate, the lower driving mechanisms are used for driving the lower wheel knives to operate, and the upper wheel knives and the lower wheel knives are matched with each other, and cutting the plate conveyed between the two.

The utility model discloses an among the wheel sword plate separating mechanism, the side has set up upper and lower conveying roller respectively around the wheel sword subassembly, and under the cooperation based on last conveying roller and lower conveying roller, can make panel can stable transmission in the cutting process, will simultaneously the wheel sword subassembly sets up to the structure that has wheel sword and lower wheel sword concurrently, and the upper wheel sword and the lower wheel sword that align about utilizing can follow the upper and lower surface and cut panel simultaneously, compare prior art, the utility model discloses deckle edge appears in panel after can effectively avoiding cutting, can also effectively cut multiple thickness dimension's panel simultaneously, has satisfied processing needs and technological requirement betterly.

Drawings

Fig. 1 is a perspective view of the plate separator of the present invention;

fig. 2 is a top view of the plate separator of the present invention;

FIG. 3 is a perspective view of the transfer unit;

FIG. 4 is a partially exploded view of the transfer unit;

FIG. 5 is a perspective view of the deviation correcting transfer mechanism;

FIG. 6 is a first internal structure diagram of the deviation rectifying and transferring mechanism;

FIG. 7 is a second internal structure diagram of the deviation correcting transfer mechanism;

FIG. 8 is a perspective view of the wheel knife plate separating mechanism;

FIG. 9 is a first internal structure view of the wheel knife plate separating mechanism;

FIG. 10 is a second internal structure view of the wheel knife plate separating mechanism;

FIG. 11 is a third internal structure view of the board separating mechanism of the flywheel knife;

FIG. 12 is a side partial view of the wheel knife plate separating mechanism;

FIG. 13 is a front partial structural view of the wheel knife plate separating mechanism;

FIG. 14 is a first perspective view of the rotary reversing mechanism;

FIG. 15 is a second perspective view of the rotary reversing mechanism;

FIG. 16 is a first internal view of the rotary reversing mechanism;

FIG. 17 is a second internal view of the rotary reversing mechanism;

FIG. 18 is a side view of the transfer unit;

FIG. 19 is a structural view of the in-position detecting mechanism;

FIG. 20 is a perspective view of the two-stage adjustment mechanism for the position of the suction cup;

FIG. 21 is a first exploded view of the two stage adjustment mechanism for the position of the suction cup;

fig. 22 is a second exploded view of the two-stage adjustment mechanism for the position of the suction cup.

Detailed Description

The present invention will be described in more detail with reference to the accompanying drawings and examples.

Example one

The embodiment provides a wheel cutter plate separating mechanism, which is shown in fig. 8 to 13, and includes a third support 400, a box 401 is disposed on the third support 400, at least two wheel cutter assemblies 41 disposed side by side, a plurality of upper conveying rollers 45 parallel to each other, and a plurality of lower conveying rollers 46 parallel to each other are disposed in the box 401, the upper conveying rollers 45 are aligned with the lower conveying rollers 46 one by one, and are used for conveying a plate 100 therebetween, the plurality of upper conveying rollers 45 are disposed on front and rear sides of the wheel cutter assemblies 41, the plurality of lower conveying rollers 46 are disposed on front and rear sides of the wheel cutter assemblies 41, the wheel cutter assemblies 41 include upper wheel cutters 410, lower wheel cutters 411, upper driving mechanisms 412, and lower driving mechanisms 413, the upper wheel cutters 410 and the lower wheel cutters 411 are disposed vertically symmetrically, and cutting edges of the upper wheel cutters 410 and the lower wheel cutters 411 are aligned with each other, the upper driving mechanisms 412 are used for driving the upper wheel cutters 410 to operate, the lower driving mechanism 413 is configured to drive the lower wheel cutter 411 to operate, and the upper wheel cutter 410 and the lower wheel cutter 411 are matched to cut the plate material 100 conveyed therebetween.

Among the above-mentioned mechanism, the conveying roller about having set up respectively in wheel cutter subassembly 41 front and back side, under the cooperation based on last conveying roller 45 and lower conveying roller 46, can make panel 100 in the cutting process can stably transmit, will simultaneously wheel cutter subassembly 41 sets up to the structure that has last wheel sword 410 and lower wheel sword 411 concurrently, and the last wheel sword 410 and the lower wheel sword 411 of utilizing alignment from top to bottom can be followed upper and lower surface and cut panel 100 simultaneously, compare prior art, the utility model discloses deckle edge appears in panel after can effectively avoiding cutting, can also effectively cut the panel of multiple thickness size simultaneously, has satisfied processing needs and technological requirement betterly.

Preferably, the upper driving mechanism 412 and the lower driving mechanism 413 are both motors.

Preferably, an upper support plate 43 and a lower support plate 44 are fixed in the box 401, wherein:

an upper traverse plate 430 is arranged on the upper support plate 43 and is in sliding fit with the upper traverse plate 430, the upper driving mechanism 412 is arranged on the upper traverse plate 430, and an upper traverse driving mechanism 431 for driving the upper traverse plate 430 to transversely translate is arranged on the upper support plate 43;

the lower support plate 44 is provided with a lower traverse plate 440 in sliding fit, the lower driving mechanism 413 is mounted on the lower traverse plate 440, and the lower traverse plate 440 and the upper traverse plate 430 are fixedly connected through an intermediate beam arm 450, so that the lower traverse plate 440 and the upper traverse plate 430 can synchronously translate.

In the above structure, under the combined action of the upper traverse plate 430 and the lower traverse plate 440, the transverse position of the wheel cutter assembly 41 can be adjusted, so that the cutting position of the plate 100 is adjusted, and the setting and adjusting process before the cutting process is more flexible.

In order to further improve the cutting effect, in this embodiment, the cutting edges of the upper wheel cutter 410 and the lower wheel cutter 411 are both conical cutting edges. Specifically, the upper and lower blades 410 and 411 may be staggered with respect to each other while aligning the cutting edges of the upper and lower blades.

In this embodiment, a gear mechanism is preferably adopted to drive the conveying rollers to operate, specifically, an upper gear 451 is disposed at an end of the upper conveying roller 45, a lower gear 461 is disposed at an end of the lower conveying roller 46, the upper gear 451 and the lower gear 461 are engaged with each other, and a conveying roller driving motor 47 for driving the upper conveying roller 45 or the lower conveying roller 46 to operate is fixed in the box 401.

Preferably, an in-out slide rail 402 is arranged on the third support 400, an in-out carrier 403 is arranged on the in-out slide rail 402 and is in sliding fit with the in-out slide rail, and the box body 401 is fixed on the in-out carrier 403.

Specifically, two parallel in-out slide rails 402 are arranged on the third support 400, and the in-out carrier 403 spans the two in-out slide rails 402.

In this embodiment, a pulling stage 404 is fixed in the box 401, two rollers 405 are disposed outside the pulling stage 404, and the pulling stage 404 and the in-out stage 403 are translated relative to the third support 400 by pushing and pulling the box 401.

In the above mechanism, based on the matching between the in-out carrier 403 and the two in-out slide rails 402, the wheel cutter board separating mechanism can be pushed into the cutting station as a whole, or pulled out from the cutting station, and this moving mechanism is helpful to perform operations such as cleaning, maintenance, tool changing and the like on the inside of the box 401, so that the installation, maintenance and daily maintenance work is easier and more convenient.

Preferably, two or three wheel cutter assemblies 41 are arranged in the box body 401. Based on the difference that the cutting required, can be in be equipped with two flywheel knife subassemblies in the box, can regard as first flywheel knife board separating mechanism to use this moment, also can be equipped with three flywheel knife subassemblies in the box, can regard as second flywheel knife board separating mechanism to use this moment, and the restriction is not done to the concrete quantity of subassembly to the wheel of this embodiment, no matter adopt the flywheel knife subassembly of any kind of quantity promptly, all belong to the utility model discloses a protection scope.

In order to open the box body conveniently, in this embodiment, an opening 48 is provided at a side portion of the box body 401, a door 480 is provided at the opening 48, and a top portion of the door 480 is hinged to the box body 401, so that the door 480 can be opened or closed relative to the box body 401.

Example two

The present embodiment provides a plate separator, which is shown in fig. 1 to 17 and includes a conveying mechanism 1, and a shooting mechanism 2, a deviation-correcting transfer mechanism 3, a first wheel-knife plate separating mechanism 4, a rotary reversing mechanism 5, and a second wheel-knife plate separating mechanism 6, which are sequentially arranged along a conveying direction of the conveying mechanism 1, wherein:

the conveying mechanism 1 is used for conveying a plate 100 to be cut;

the shooting mechanism 2 is used for shooting the surface image of the plate 100 on the conveying mechanism 1;

the deviation rectifying and transferring mechanism 3 is used for picking up the plate 100 at the output side of the shooting mechanism 2, placing the plate 100 on the conveying mechanism 1 at the input side of the first wheel cutter plate separating mechanism 4, and finely adjusting the angle of the picked plate 100 according to the surface image of the plate 100 so as to keep the plate 100 aligned with the first wheel cutter plate separating mechanism 4;

the first wheel knife plate separating mechanism 4 is used for cutting the plate 100 for the first time;

the rotary reversing mechanism 5 is used for picking up the plate 100 which is cut for the first time and rotating for 90 degrees;

the second wheel knife plate separating mechanism 6 is used for cutting the rotated plate 100 for the second time, and then the plate separating cutting of the plate 100 is completed.

In the above mechanism, based on the sequential matching of the shooting mechanism 2, the deviation rectifying and transferring mechanism 3, the first wheel knife plate separating mechanism 4, the rotating and reversing mechanism 5 and the second wheel knife plate separating mechanism 6, in the process of conveying the plate 100 by the conveying mechanism 1, the surface image of the plate 100 is shot firstly, then the deviation rectifying is performed according to the surface image of the plate 100, so that the aligned plate is subjected to plate separating and cutting by the first wheel knife plate separating mechanism 4, then the rotating and reversing mechanism 5 is used for rotating the plate 100 subjected to the first cutting by 90 degrees, and finally the second wheel knife plate separating mechanism 6 is used for performing secondary cutting on the plate 100 subjected to the rotating and the rotating, so that a plurality of small plates subjected to transverse and longitudinal cutting are obtained. Compared with the prior art, the utility model discloses not only realized automatic board processing, it is higher to divide the board precision moreover, can effectively save the processing cost and improve and divide board efficiency.

Preferably, the conveying mechanism 1 includes a plurality of conveying units 19, the conveying unit 19 includes a first frame 10, and the first frame 10 is provided with a plurality of conveying rollers 11 and a conveying belt 12 wound around the outer sides of the plurality of conveying rollers 11.

In this embodiment, the conveyor belt 12 is a conveyor belt densely provided with through holes 13.

Further, a lining plate 14 is fixed on the first machine frame 10, a negative pressure fan 15 is fixed on the lining plate 14, an air suction end of the negative pressure fan 15 faces the conveyor belt 12, and the plate 100 is adsorbed on the conveyor belt 12 by means of negative pressure generated by the negative pressure fan 15.

Based on the above principle, the present embodiment utilizes the suction effect of the negative pressure fan 15 to generate negative pressure on the surface of the conveyor belt 12, so as to adsorb the sheet material 100 on the conveyor belt 12 by means of the negative pressure, thereby preventing the sheet material 100 from shifting during the conveying process, and further improving the conveying stability and reliability.

As a preferable installation structure, in this embodiment, the lining plate 14 and the negative pressure fan 15 are both provided inside the conveyor belt 12.

Further, the shooting mechanism 2 includes an industrial camera.

EXAMPLE III

In this embodiment, referring to fig. 5 to 7, the deviation correcting and transferring mechanism 3 includes a second frame 300, a transfer slide rail 301 is arranged on the second frame 300, a translation carrier 302 is arranged on the transfer slide rail 301 and is in sliding fit with the same, the second frame 300 is provided with a transfer driving mechanism 303 for driving the translation stage 302 to translate along the transfer slide 301, the bottom of the translation stage 302 is provided with a transfer support 304, and the transfer support 304 and the translation stage 302 are rotatably matched, the translation stage 302 is provided with a deviation-correcting driving mechanism 305 for driving the transfer support 304 to rotate within a preset angle, a vertically arranged transfer lifting cylinder 308 is fixed on the transfer bracket 304, a plurality of outwardly extending transfer support arms 306 are fixed at the driving end of the transfer lifting cylinder 308, the transfer arm 306 is provided with a transfer suction cup 307 for sucking the sheet material 100.

In the above mechanism, when the sheet material 100 is transported to the deviation-correcting station of the deviation-correcting transfer mechanism 3, the transfer driving mechanism 303 drives the translation stage 302 to translate along the transfer rail 301 to above the sheet material 100, then the transfer lifting cylinder 308 drives the plurality of transfer arms 306 to descend until the plurality of transfer suckers 307 adsorb the sheet material 100, then the transfer lifting cylinder 308 drives the plurality of transfer arms 306 to ascend, the transfer driving mechanism 303 drives the translation stage 302 to translate and transfer the sheet material 100 to the entrance of the cutting station, during the transfer process, if the sheet material 100 has a position deviation, the deviation-correcting driving mechanism 305 can be controlled to operate, and the transfer support 304 is driven to rotate by the deviation-correcting driving mechanism 305 by a certain angle, so that the sheet material 100 is kept aligned with the cutting station, which is not only beneficial to improving the cutting quality, but also can effectively reduce waste materials and better meet the production requirements.

In practical application, the rotation of the deviation-rectifying driving mechanism 305 can be controlled by collecting a plate image through an industrial camera preset at the front end of the plate deviation-rectifying transfer mechanism, judging the offset of the plate according to the plate image, and then automatically controlling the rotation angle of the deviation-rectifying driving mechanism 305 according to the offset by the system, thereby realizing the automatic deviation-rectifying function.

In order to ensure that the translation stage 302 slides smoothly, in this embodiment, two transfer slide rails 301 are fixed on the second frame 300, and the two transfer slide rails 301 are parallel to each other.

Regarding the specific composition of the transferring driving mechanism 303, in this embodiment, the transferring driving mechanism 303 includes a transferring driving motor 310 and a transferring conveying belt 311, the transferring driving motor 310 is fixed on the second frame 300, two belt pulleys 312 are further disposed on the second frame 300, the two belt pulleys 312 are symmetrically disposed on two sides of the second frame 300, the transferring conveying belt 311 is sleeved on the two belt pulleys 312, the transferring driving motor 310 is in transmission fit with one of the two belt pulleys 312, the translation stage 302 is fixedly connected with the transferring conveying belt 311, and the translation stage 302 is driven to reciprocate relative to the second frame 300 by the cooperation of the transferring driving motor 310, the two belt pulleys 312 and the transferring conveying belt 311.

Preferably, the deviation correcting driving mechanism 305 is a servo motor.

The embodiment specifically includes four transfer arms 306, and the four transfer arms 306 extend in an "X" shape.

Further, each transfer arm 306 is provided with at least two transfer chucks 307.

Example four

In this embodiment, a rotary reversing mechanism of a plate separator is provided, and as shown in fig. 14 to 17, the rotary reversing mechanism 5 includes a reversing frame 500, a reversing carrying table 502 is fixed on the reversing frame 500, a reversing support 504 is arranged at the bottom of the reversing carrying table 502 and is in running fit with the reversing carrying table 502, a reversing driving mechanism 505 for driving the reversing support 504 to rotate within an angle of 90 ° is arranged on the reversing carrying table 502, a vertically arranged reversing lifting cylinder 508 is fixed on the reversing support 504, a plurality of outwardly extending reversing support arms 506 are fixed at the driving end of the reversing lifting cylinder 508, and reversing suction cups 507 for sucking the plate 100 are arranged on the reversing support arms 506.

In the above mechanism, when the plate 100 after the first cutting is conveyed to the position below the reversing support arm 506, the reversing lifting cylinder 508 drives the plurality of reversing support arms 506 to descend until the plurality of reversing suction cups 507 are adsorbed on the surface of the plate 100, then the reversing lifting cylinder 508 drives the reversing support arm 506 and the plate 100 to ascend, and based on the cooperation of the reversing carrying platform 502, the reversing support 504 and the reversing driving mechanism 505, the reversing support arm 506 and the plate 100 are driven to rotate by 90 °, so as to adjust the cutting direction of the plate, thereby facilitating the second cutting. Compared with the prior art, the utility model discloses an automatic reversing action of panel, whole in-process need not artificial intervention, can not only improve operating efficiency, and the switching-over degree of accuracy is higher moreover, helps improving the machining precision and the accuracy of follow-up cutting process to can effectively reduce the waste material, better satisfied the production requirement.

Preferably, the reversing drive mechanism 505 is a servo motor.

Further, the present embodiment includes four reversing arms 506, and the four reversing arms 506 extend outwardly in an "X" shape.

In this embodiment, each reversing arm 506 has at least two reversing suction cups 507.

In order to facilitate installation and bearing of the reversing support arm 506, in this embodiment, a reversing lifting plate 509 is fixed to a driving end of the reversing lifting cylinder 508, and the reversing support arm 506 is fixed to the reversing lifting plate 509.

In order to ensure that the direction-changing lifting plate 509 reliably and stably performs lifting movement, in this embodiment, a plurality of lifting guide rods 510 are fixed on the direction-changing lifting plate 509, and the upper ends of the lifting guide rods 510 penetrate through the direction-changing support 504 and are in sliding fit with the direction-changing support.

Preferably, a top cover 511 is fixed on the reversing frame 500, and the top cover 511 covers the reversing carrier 502, the reversing support 504 and the reversing support arm 506. The top cover 511 can protect the rotary reversing mechanism.

Referring to fig. 18 and 19, a transmission unit 19 is arranged below the reversing frame 500, the transmission unit 19 includes an in-place detection mechanism 190, the in-place detection mechanism 190 includes an in-place detection translation device 191, a sensor support 192 is arranged at a driving end of the in-place detection translation device 191, the sensor support 192 is driven by the in-place detection translation device 191 to translate, a first optical fiber sensor 193 and a second optical fiber sensor 194 are mounted on the sensor support 192, the first optical fiber sensor 193 and the second optical fiber sensor 194 are sequentially arranged along a transmission direction of the transmission unit 19, and a preset distance is arranged between the first optical fiber sensor 193 and the second optical fiber sensor 194.

In the above structure, the in-place detection translation device 191 determines the plate shape according to image data previously acquired by an industrial camera, and then drives the sensor support 192 to translate, so as to adjust the sensing position of the optical fiber sensor, when the plate subjected to the first cutting is conveyed to the lower side of the reversing rack 500, if the first optical fiber sensor 193 senses the plate 100, the conveying unit 19 starts to decelerate, and when the second optical fiber sensor 194 senses the plate 100, the conveying unit 19 stops conveying, so that the plate 100 is positioned, and based on the above principle, the rotary reversing mechanism 5 can accurately pick up and reverse the plate 100.

EXAMPLE five

The embodiment provides a two-stage adjustment mechanism 8 for a suction cup position, which is shown in fig. 20 to 22 and includes a support arm 80, a suction cup 81 and a suction cup support plate 82, wherein the suction cup 81 is fixed on the suction cup support plate 82, a sliding groove 83 is formed on the support arm 80, a bar-shaped slider 84 is arranged at the bottom of the suction cup support plate 82, the bar-shaped slider 84 is arranged in the sliding groove 83 and is in sliding fit with the sliding groove 83, a bar-shaped slot 85 is formed on the suction cup support plate 82 and the bar-shaped slider 84, the bar-shaped slot 85 penetrates through the upper end and the lower end of the suction cup support plate 82 and the bar-shaped slider 84, the bar-shaped slot 85 and the sliding groove 83 extend along the same direction, a fastening bolt 86 penetrates through the bar-shaped slot 85, a nut 860 at the top end of the fastening bolt 86 is clamped at the top of the suction cup support plate 82, a plurality of screw holes 830 are formed at the bottom of the sliding groove 83, the plurality of screw holes 830 are sequentially distributed along the length direction of the slide groove 83, and the lower end of the fastening bolt 86 is threadedly engaged with one of the plurality of screw holes 830.

In the above structure, the suction cup support plate 82 and the strip-shaped slider 84 are fastened to the support arm 80 by the fastening bolt 86, in the process of adjusting the position, the fastening bolt 86 is screwed into the screw hole 830 at a designated position, so that the suction cup support plate 82 and the suction cup 81 are installed at approximate positions on the support arm 80, thereby realizing the primary adjustment of the position of the suction cup, then the suction cup support plate 82 and the strip-shaped slider 84 are slid in a state that the fastening bolt 86 is unscrewed, and after the suction cup 81 is adjusted to a target position, the fastening bolt 86 is screwed, so that the position of the suction cup 81 is fixed, and the secondary adjustment of the position of the suction cup is completed. Based on the two-stage adjustment mode, the sucking disc 81 is easy to install and fix on the support arm 80, rough adjustment and fine adjustment of the position of the sucking disc 81 can be achieved, and production requirements are well met.

In order to facilitate the sliding of the bar-shaped slider 84 and reduce the scratch, in this embodiment, rounded end portions 840 are respectively formed at the front end and the rear end of the bar-shaped slider 84.

Further, a mounting groove 820 is formed at the bottom of the suction cup carrier plate 82, the strip-shaped slider 84 is clamped in the mounting groove 820, and the strip-shaped slider 84 is fixedly connected with the suction cup carrier plate 82 through a screw.

In practical applications, for the board separator device, the transfer chuck 307 and the reversing chuck 507 in fig. 7 and 16 are the chuck 81 in this embodiment, and the transfer arm 306 and the reversing arm 506 in fig. 7 and 16 are the arm 80 in this embodiment. The two-stage sucking disc position adjusting mechanism 8 based on the structure can flexibly adjust the position of the sucking disc of the plate separator, and further meets the sucking requirements of plates with various sizes. However, this is only the utility model discloses a preferred use occasion, according to the application demand, can also be applied to other equipment that relate to panel and move and get with this embodiment, and no matter what kind of occasion is applied to, all belong to the utility model discloses a protection scope.

The above is only the embodiment of the present invention, and is not intended to limit the present invention, and all modifications, equivalent replacements or improvements made within the technical scope of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The utility model provides a wheel cutter board separating mechanism, its characterized in that, including third support (400), be equipped with box (401) on third support (400), be equipped with at least two wheel cutter subassemblies (41) that set up side by side in box (401), a plurality of upper feed roller (45) that are parallel to each other and a plurality of lower feed roller (46) that are parallel to each other, upper feed roller (45) with lower feed roller (46) align one by one and be used for carrying panel (100) between the two, a plurality of upper feed roller (45) divide and locate the front and back both sides of wheel cutter subassembly (41), a plurality of lower feed roller (46) divide and locate the front and back both sides of wheel cutter subassembly (41), wheel cutter subassembly (41) including last wheel cutter (410), lower wheel cutter (411), go up actuating mechanism (412) and actuating mechanism (413) down, go up wheel cutter (410) with wheel cutter (411) symmetry sets up and the cutting edge of the two aligns each other from top to bottom, the upper driving mechanism (412) is used for driving the upper wheel cutter (410) to operate, the lower driving mechanism (413) is used for driving the lower wheel cutter (411) to operate, and the plate (100) conveyed between the upper wheel cutter (410) and the lower wheel cutter (411) is cut through the matching of the upper wheel cutter (410) and the lower wheel cutter (411).

2. The wheel knife blade separating mechanism according to claim 1, wherein the upper driving mechanism (412) and the lower driving mechanism (413) are both electric motors.

3. The wheel cutter plate separating mechanism according to claim 1, wherein an upper support plate (43) and a lower support plate (44) are fixed in the case (401), wherein:

an upper transverse moving plate (430) is arranged on the upper supporting plate (43) and is in sliding fit with the upper transverse moving plate, the upper driving mechanism (412) is arranged on the upper transverse moving plate (430), and an upper transverse moving driving mechanism (431) for driving the upper transverse moving plate (430) to transversely translate is arranged on the upper supporting plate (43);

the lower support plate (44) is provided with a lower traverse plate (440) which is in sliding fit with the lower traverse plate, the lower driving mechanism (413) is installed on the lower traverse plate (440), and the lower traverse plate (440) is fixedly connected with the upper traverse plate (430) through an intermediate beam arm (450) so that the lower traverse plate (440) and the upper traverse plate (430) can synchronously translate.

4. The wheel knife plate separating mechanism according to claim 1, wherein the cutting edges of the upper wheel knife (410) and the lower wheel knife (411) are conical cutting edges.

5. The wheel knife plate separating mechanism according to claim 1, wherein an upper gear (451) is provided at an end of the upper conveying roller (45), a lower gear (461) is provided at an end of the lower conveying roller (46), the upper gear (451) and the lower gear (461) are engaged with each other, and a conveying roller driving motor (47) for driving the upper conveying roller (45) or the lower conveying roller (46) to operate is fixed in the case (401).

6. The wheel knife plate separating mechanism according to claim 1, wherein an in-out slide rail (402) is provided on the third support (400), an in-out carrying platform (403) is provided on the in-out slide rail (402) and is in sliding fit with the in-out carrying platform, and the box body (401) is fixed on the in-out carrying platform (403).

7. The wheel knife board separating mechanism according to claim 6, wherein the third support (400) is provided with two parallel in-out slide rails (402), and the in-out carrying platform (403) is spanned on the two in-out slide rails (402).

8. The wheel knife plate separating mechanism according to claim 7, characterized in that a pulling stage (404) is fixed in the box body (401), two rollers (405) are arranged on the outer side of the pulling stage (404), and the pulling stage (404) and the in-out stage (403) are enabled to translate relative to the third support (400) by pushing and pulling the box body (401).

9. The flywheel knife plate separating mechanism according to claim 1, characterized in that two or three flywheel knife assemblies (41) are arranged in the box body (401).

10. The wheel knife board separating mechanism according to claim 1, wherein the side of the box body (401) is provided with an opening (48), an opening door (480) is arranged at the opening (48), and the top of the opening door (480) is hinged with the box body (401) so that the opening door (480) can be opened or closed relative to the box body (401).

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