CN218111308U - Cutting piece bearing platform, feeding device and cutting equipment - Google Patents

Abstract

The embodiment of the application provides a cutting piece load-bearing platform, feeding device and cutting equipment, wherein, cutting piece load-bearing platform includes: a load floor; the material carrying platform is used for carrying a cutting piece and is arranged on the carrying bottom plate; the material carrying platform can move along a first direction relative to the bearing bottom plate; the first limiting assemblies are positioned at two ends of the material loading platform along a second direction and used for limiting the material loading platform to move along the second direction, and the second direction is vertical to the first direction; and the displacement adjusting assembly is arranged at the end part of the bearing bottom plate along the first direction and used for adjusting the displacement of the material loading platform along the first direction. The cutting piece bearing platform, the feeding device and the cutting equipment provided by the embodiment of the application can flexibly adjust the position of the material carrying platform, and drive the cutting piece to move together so as to adjust the cutting position.

Description

Cutting piece bearing platform, feeding device and cutting equipment

Technical Field

The application relates to a hard and brittle material cutting technology, in particular to a cutting piece bearing platform, a feeding device and cutting equipment.

Background

Cutting devices on the market for cutting hard and brittle material bars generally comprise: cutting device, feeding device and winding device. The winding device is used for releasing or accommodating a cutting line, the cutting line is wound on the cutting device to cut the hard and brittle material rod, and the feeding device is used for bearing the hard and brittle material rod and driving the hard and brittle material rod to move relative to the cutting device to cut.

During the cutting process, the cutting line is broken halfway due to various factors. The material rod at the position of the cutting line has to be discarded, while the rest of the material rod can continue to be cut, but the material rod has to be moved to move the uncut part below the cutting line. Current cutting devices do not allow for the flexible movement of the material rod.

Disclosure of Invention

In order to solve one of the technical defects, the embodiment of the present application provides a cutting element carrying platform, a feeding device and a cutting apparatus.

According to a first aspect of embodiments herein, there is provided a cutter carrying platform comprising:

a load floor;

the material carrying platform is used for carrying a cutting piece and is arranged on the carrying bottom plate; the material carrying platform can move along a first direction relative to the bearing bottom plate;

the first limiting assemblies are positioned at two ends of the material loading platform along a second direction and used for limiting the material loading platform to move along the second direction, and the second direction is vertical to the first direction;

and the displacement adjusting assembly is arranged at the end part of the bearing bottom plate along the first direction and used for adjusting the displacement of the material loading platform along the first direction.

According to a second aspect of embodiments of the present application, there is provided a feeding apparatus including: the cutting piece bearing platform and the feeding mechanism are used for driving the cutting piece bearing platform to move along the feeding direction.

According to a third aspect of embodiments of the present application, there is provided a cutting apparatus comprising: a feeding device as described above.

According to the technical scheme provided by the embodiment of the application, a material carrying platform for carrying a cutting piece, a first limiting assembly and a displacement adjusting assembly are arranged on a bearing bottom plate, wherein the displacement adjusting assembly is arranged at the end part of the bearing bottom plate along a first direction and is used for driving the material carrying platform and the cutting piece to move relative to the bearing bottom plate along the first direction; first spacing subassembly is located the both ends of carrying the material platform along the second direction for the restriction is carried the material platform and is removed along the second direction, makes it can only remove along first direction, has realized adjusting the position of cutting member, removes to cutting initial position with the part that does not cut when cutting equipment appears the broken string, restarts cutting equipment and cuts the cutting member. Above-mentioned scheme can improve the utilization ratio of cutting member, reduces raw and other materials extravagant, reduction in production cost.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a schematic structural view of a cutting element bearing platform provided by an embodiment of the present application in cooperation with a feeding mechanism and a cutting main roller;

FIG. 2 is a schematic structural view of a cutting element supporting platform disposed on the top of a feeding mechanism according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a cutting element carrying platform according to an embodiment of the present disclosure;

FIG. 4 is another perspective view of a cutting element support platform according to an embodiment of the present disclosure;

FIG. 5 is a cross-sectional view of a position of a material loading platform in the cutting element loading platform according to an embodiment of the present disclosure;

FIG. 6 is a top cross-sectional view of a station in the cutting element support platform according to an embodiment of the present disclosure;

FIG. 7 is an enlarged view of a locking mechanism in a cutting element support platform provided in accordance with an embodiment of the present application;

FIG. 8 is a schematic structural view of a cutting element support platform provided in an embodiment of the present application with a material support platform removed;

FIG. 9 is another perspective view of the cutting element support platform of the present application positioned on top of the feeder mechanism;

fig. 10 is a schematic structural diagram of a feeding mechanism provided in the embodiment of the present application, with a slide box removed.

Reference numerals:

221-cutting the main roller; 231-a cutting line;

4-a feeding device; 41-a feeding base; 42-a slide box; 421-a guide slide block; 422-a guide slide rail; 423-feed motor; 424-speed reducer; 425-lead screw; 426-lifting support plate;

43-a load-bearing platform; 431-a load floor; 432-a loading table; 4321-inclined plane; 433-a limit strip; 4331-guiding inclined plane; 434-fixing strip; 441-a locking block; 442-locking bolts; 443-locking screw; 444-locking spring; 445-locking nut; 451-briquetting; 452-a limit plate; 461-adjusting plate; 462-a first adjusting screw; 462-an adjustment block; 464-a second adjusting screw; 47-a stop block;

91-cutting member.

Detailed Description

In order to make the technical solutions and advantages of the embodiments of the present application more apparent, the following further detailed description of the exemplary embodiments of the present application with reference to the accompanying drawings makes it clear that the described embodiments are only a part of the embodiments of the present application, and are not exhaustive of all embodiments. It should be noted that, in the present application, the embodiments and features of the embodiments may be combined with each other without conflict.

The embodiment provides a cutting piece bearing platform which can be applied to cutting equipment and used for bearing a cutting piece. The cutting part bearing platform can be connected with the feeding mechanism, and the cutting part bearing platform is driven to lift or move horizontally by the feeding mechanism. The slicer is a cutting device for slicing a hard and brittle material rod, and the present embodiment takes the slicer as an example to describe the carrier platform of the cutting element in detail. Of course, the technical solution provided by this embodiment can also be applied to other cutting apparatuses.

Fig. 1 is a schematic structural view of a cutting element bearing platform provided in the embodiment of the present application, the feeding mechanism and a cutting main roller, and fig. 2 is a schematic structural view of the cutting element bearing platform provided in the embodiment of the present application, the cutting element bearing platform being disposed on the top of the feeding mechanism. As shown in fig. 1 and fig. 2, the present embodiment provides a feeding device 4, which includes a feeding mechanism and a cutting element carrying platform (hereinafter, referred to as "carrying platform") 43 disposed on the top of the feeding mechanism. The feeding mechanism is used for driving the carrying platform 43 to ascend or descend.

A bar of hard and brittle material, as a cutting element, is placed on the carrying platform 43. At least two cutting main rollers 221 are arranged in parallel on the top of the slicer, and the cutting line 231 is wound on the cutting main rollers to form a cutting line net. The feed mechanism drives the cutter 91 to rise to pass between the two cutting main rollers 221, and the cutting line cuts the cutter 91 into a sheet.

Fig. 3 is a schematic structural view of a cutting element supporting platform according to an embodiment of the present application, and fig. 4 is another schematic angular view of the cutting element supporting platform according to the embodiment of the present application. As shown in fig. 3 and 4, the load-bearing platform provided in this embodiment includes: the device comprises a bearing bottom plate 431, a material loading platform 432, a first limiting assembly and a displacement adjusting assembly.

The load floor 431 has a plate-like structure and extends in the horizontal direction. The material loading platform 432 is disposed on the load floor 431, and specifically, may be disposed on a top surface of the load floor 431 and is movable along a first direction relative to the load floor 431. One embodiment is as follows: the load-bearing bottom plate 431 is a rectangular plate, and the length direction thereof is a first direction, and the width direction thereof is a second direction.

The cutter 91 is disposed on the material loading table 432 and is movable together with the material loading table 432. When the slicing machine has a broken cutting line, the loading table 432 is moved in the first direction to move the uncut part of the cutting member 91 under the cutting wire web, and the cut part is moved out of the coverage area of the cutting wire web. The microtome is restarted and the cutting element 91 is cut through the wire web.

The first limiting component is disposed on the material loading platform 432 and located at two ends of the material loading platform 432 along the second direction, and is used for limiting the material loading platform 432 to move along the second direction, so that the material loading platform 432 can only move along the first direction.

The displacement adjusting assembly is disposed at an end of the bearing bottom plate 431 along the first direction, and is used for adjusting the displacement of the material loading platform 432 along the first direction, that is: the displacement adjusting assembly is used for driving the material loading platform 432 to move along the first direction.

According to the technical scheme provided by the embodiment, a material carrying platform for carrying a cutting piece, a first limiting assembly and a displacement adjusting assembly are arranged on a carrying bottom plate, wherein the displacement adjusting assembly is arranged at the end part of the carrying bottom plate along a first direction and is used for driving the material carrying platform and the cutting piece to move relative to the carrying bottom plate along the first direction; first spacing subassembly is located the both ends of carrying the material platform along the second direction for the restriction is carried the material platform and is removed along the second direction, makes it can only remove along first direction, has realized adjusting the position of cutting member, removes to cutting initial position with the part that does not cut when cutting equipment appears the broken string, restarts cutting equipment and cuts the cutting member. Above-mentioned scheme can improve the utilization ratio of cutting member, reduces raw and other materials extravagant, reduction in production cost.

One implementation is: the number of the material loading platforms 432 is one, and a cutting piece 91 is placed on the material loading platforms to realize single-station cutting. Or, the number of the material loading platforms 432 is two, and the two material loading platforms are arranged on the top surface of the bearing bottom plate 431 side by side, so that double-station cutting can be realized. Alternatively, the number of the material loading platforms 432 may be three or more, so as to realize multi-station cutting. Each material loading platform 432 is provided with a displacement adjusting assembly along the end part of the first direction, and a first limiting assembly along the end part of the second direction.

In this embodiment, two material loading platforms 432 are taken as an example for description, and the two material loading platforms 432 and the first limiting component are symmetrically arranged.

On the basis of the above technical solution, this embodiment provides an implementation manner of the first limiting component:

fig. 5 is a cross-sectional view of a position of a material loading platform in the cutting element loading platform according to an embodiment of the present application. As shown in fig. 3 to 5, the first stopper assembly includes: a spacing bar 433 and a fixing bar 434. Wherein, spacing 433 extends along first direction, sets up in one side of carrying material platform 432. The fixing bar 434 extends along the first direction and is disposed on the other side of the loading platform 432. A space for accommodating the material loading platform 432 is defined between the fixing strip 434 and the limiting strip 433, and the material loading platform 432 is limited to move along the second direction, so that the material loading platform 432 can only move along the first direction in the space.

Further, the material loading platform 432 is provided with a material loading platform main body with a rectangular cross section, the bottom of the material loading platform main body extends outwards along the second direction to form an extension part, and the material loading platform main body and the extension part form a step-shaped structure. The end surfaces of the extending parts facing the fixing strip 434 and the limiting strip 433 are inclined surfaces 4321.

The fixing strip 434 has a fixing support portion extending in a direction perpendicular to the bearing bottom plate 431, a top of the fixing support portion extends towards the material loading platform 432 along the second direction to form a limiting portion, and the limiting portion is used for abutting against an extending portion of the material loading platform 432 and applying a stopping force along the second direction to the material loading platform 432.

The limiting strip 433 is provided with a limiting supporting portion extending in the direction perpendicular to the bearing bottom plate 431, the top of the limiting supporting portion extends towards the material loading platform 432 in the second direction to form a guiding portion, the guiding portion and the limiting supporting portion are transited through a guiding inclined surface 4331, and the guiding inclined surface 4331 is used for abutting against an inclined surface 4321 of the extending portion of the material loading platform. The guide inclined surface 4331 contacts with the inclined surface 4321 of the extending portion to guide the movement of the material loading table 432 in the first direction.

Further, first spacing subassembly still includes: and the locking mechanism is arranged on the fixing strip 434 and used for applying force along the second direction to the material loading platform 432 so as to press the material loading platform 432 on the limiting strip 433.

Fig. 6 is a top cross-sectional view of a station in the cutting element support platform provided in an embodiment of the present application, and fig. 7 is an enlarged view of a locking mechanism in the cutting element support platform provided in an embodiment of the present application. As shown in fig. 6 and 7, one embodiment is: the locking mechanism includes: a locking block 441, a locking bolt 442, a locking screw 443, and a locking spring 444.

The locking block 441 is located between the fixing bar 434 and the loading platform 432. The locking bolt 442 is screwed into the threaded hole of the fixing bar 434 along the second direction, and the tail end of the locking bolt 442 abuts against the locking block 441. The locking bolt 442 is sleeved with a locking nut 445, and the locking nut 445 is located between the head of the locking bolt 442 and the fixing bar 434.

Before the cutting device starts to work, when the locking bolt 442 is rotated in the clockwise direction, the locking bolt 442 moves toward the locking block 441, and pushes the locking block 441 to press the locking block 441 against the loading platform 432, so as to restrict the loading platform 432 from moving in the first direction or the second direction.

When the position of the cutting member needs to be adjusted, the locking bolt 442 is rotated in the counterclockwise direction, so that the locking bolt 442 is far away from the locking block 441, no pressing force is applied to the locking block 441, no pressure in the second direction is applied to the material loading platform 432, and the material loading platform 432 can move in the first direction.

Further, a locking screw 443 is inserted into the stepped hole of the fixing bar 434 along the second direction, and the tail end of the locking screw 443 is screwed into the threaded hole of the locking block 441. The locking screw 443 is sleeved with the locking spring 444, and the locking spring 443 is retained in the stepped hole by the head of the locking screw 444.

When the locking block 441 moves toward the loading platform 432, the locking screw 444 moves together with the locking block 441, and the locking spring 443 is compressed to store elastic potential energy. When the locking bolt 442 no longer applies a pressing force to the locking block 441, the locking spring 443 drives the locking block 441 and the locking screw 443 to move together in a direction away from the material loading platform 432 under the action of a rebounding force, and the locking block 441 and the locking screw 443 move away from the material loading platform 432. The loading table 432 can then smoothly move in the first direction.

After the material loading platform 432 is moved to the right position along the first direction, the locking bolt 442 is rotated clockwise again, the locking block 441 is pushed to move to press the material loading platform 432 to be fixed, and the material loading platform 432 is prevented from moving along the first direction or the second direction in the cutting process to influence the cutting precision.

The present embodiment further provides an implementation manner of a displacement adjustment assembly, as shown in fig. 4, the displacement adjustment assembly includes: an adjustment plate 461 and a first adjustment screw 462. The adjusting plate 461 is disposed on an end surface of the bottom bearing plate 431 along the first direction, and may be fixed to the end surface of the bottom bearing plate 431 by a screw, for example. The top end of the adjusting plate 461 is higher than the bearing bottom plate 431 and stops at the end of the material loading platform 432, so as to limit the material loading platform 431 to move towards the direction of the adjusting plate 461.

The first adjustment screw 462 is screwed into the threaded hole of the adjustment plate 461 along a first direction, and the extension of the first adjustment screw 462 relative to the adjustment plate 461 can be changed by rotating the first adjustment screw 462. The tail of the first adjusting screw 462 is used to abut against the material loading platform 432. When the first adjustment screw 462 is rotated clockwise, the first adjustment screw 462 pushes the material loading platform 432 to move away from the first adjustment screw 462.

Fig. 8 is a schematic structural view of the cutting element carrying platform provided in the embodiment of the present application with one material carrying platform removed. As shown in fig. 3, 4, 6 and 8, further, the displacement adjusting assembly further includes: an adjustment block 463 and a second adjustment screw 464. The adjusting block 463 is disposed on the top surface of the supporting base plate 431 and located at an end of the supporting base plate 431 away from the adjusting plate 461, and can be fixed to the supporting base plate 431 by a vertically extending screw, for example.

The second adjusting screw 464 is screwed into the threaded hole of the adjusting block 463 in a first direction, and the length of the second adjusting screw 464 protruding relative to the adjusting block 463 can be changed by rotating the second adjusting screw 464. The tail of the second adjusting screw 464 is used for abutting against the material loading platform 432. When the second adjusting screw 464 is rotated clockwise, the second adjusting screw 464 pushes the material loading platform 432 to move away from the second adjusting screw 464, which is opposite to the direction of the material loading platform 432 moved by rotating the first adjusting screw 462 clockwise.

The material loading platform 432 can be adjusted to move along the first direction by rotating the first adjusting screw 462 and the second adjusting screw 464, so that the bidirectional movement is realized, and the flexibility is higher. And the adjustment through the screw has higher adjustment accuracy, so that the material loading table 432 is moved to a target position to adapt to the positions of different cutting edges of the cutting piece.

One embodiment is as follows: the bottom surface of the material loading platform 432 is recessed upwards to form a lower groove for accommodating the adjusting block 463, and the tail part of the second adjusting screw 464 acts on the side wall of the lower groove to apply thrust along the first direction to the material loading platform 432.

On the basis of the above technical scheme, a second limiting component is further adopted and respectively arranged at two ends of the material carrying table 432 along the first direction, so as to limit the cutting piece 91 to move relative to the material carrying table 432 along the first direction.

One implementation is as follows: as shown in fig. 3 and 4, the second stopper assembly includes: a pressing block 451 and a stopper plate 452. The pressing block 451 is arranged on the end surface of the material carrying platform 432 far away from the displacement adjusting assembly along the first direction, and the top of the pressing block 451 is higher than the material carrying platform 432 and is used for abutting against the end surface of the cutting element 91. For example: the pressing block 451 extends vertically, the bottom end of the pressing block is fixed on the end surface of the material loading platform 432 through a screw, and the top end of the pressing block is higher than the material loading platform 432 and abuts against the end surface of the cutting piece 91 to limit the cutting piece 91 to move towards the pressing block 451.

The limiting plate 452 is disposed on the loading platform 432 and is close to the end surface of the displacement adjusting assembly along the first direction, and the top of the limiting plate 452 is higher than the loading platform 432 and is used for abutting against the end surface of the cutting element 91. For example: the limiting plate 452 is perpendicular to the first direction, the bottom end of the limiting plate 452 is fixed to the material loading platform 432 through a screw, and the top end of the limiting plate is higher than the material loading platform 432 and abuts against the end surface of the cutting element 91, so as to limit the cutting element 91 to move towards the limiting plate 452.

Above-mentioned briquetting 451 and limiting plate 452 restrict the cutting piece 91 at the both ends of cutting piece 91 respectively and remove along first direction, avoid cutting piece 91 to take place to remove and then influence cutting accuracy in cutting process, guarantee yield.

Further, a third limiting component is further adopted and respectively arranged on two sides of the material loading platform 432 along the second direction. The top of the third limiting assembly is higher than the material loading platform 432 and is used for limiting the cutting piece 91 to move along the second direction. A specific implementation way is as follows: as shown in fig. 3, the third position limiting assembly includes: the two limit blocks 47 are symmetrically arranged on two sides of the material loading platform 432 along the second direction. The limiting block 47 has a bottom support extending along the second direction, the end of the bottom support is fixed to the side of the material loading platform 432, the end of the bottom support far away from the material loading platform 432 extends upwards to form a limiting stop, and the top end of the limiting stop is higher than the material loading platform 432 and is used for abutting against the side of the cutting element 92. The bottom support and the limit stop are in L-shaped structures.

The width of the cutting member 91 may be smaller than or equal to the width of the material loading platform 432, or may be larger than the width of the material loading platform 432. When the width of the cutting member 91 is greater than the width of the material loading platform 432, two sides of the cutting member 91 are overlapped on the limiting block 47, and the limiting block 47 is used for supporting the cutting member 91 and can also limit the cutting member 91 to move along the second direction.

On the basis of the above technical solution, the present embodiment provides an implementation manner of a feeding device: the cutting element carrying platform comprises the cutting element carrying platform provided by any one of the above contents and a feeding mechanism for driving the cutting element carrying platform to move along a feeding direction.

Fig. 9 is another schematic view of an angle that the cutting element supporting platform provided in the embodiment of the present application is disposed at the top of the feeding mechanism, and fig. 10 is a schematic view of a structure that the sliding plate box of the feeding mechanism provided in the embodiment of the present application is removed. As shown in fig. 1, 2, 9 and 10, the feeding device 4 provided in the present embodiment includes: a feed base 41, a feed moving assembly, a load-bearing platform 43 and a feed drive mechanism.

Wherein the feeding base 41 is fixed to the ground or to the base of the cutting device as a basic structure. The feeding moving component is slidably disposed on the outer side of the feeding base 41, and can move vertically relative to the feeding base 41, which is equivalent to the feeding moving component, for example, can move up or down, or move horizontally, or move obliquely up and down. The feeding driving mechanism is used for providing a moving driving force for the feeding moving component. The carrying platform 43 is disposed at an end of the feeding moving assembly facing the cutting member for carrying the cutting member 91.

In this embodiment, the supporting platform 43 is disposed on the top of the feeding moving assembly for illustration, and the feeding moving assembly moves along the vertical direction to drive the supporting platform 43 and the cutting member 91 to move upward along the vertical direction for cutting.

A bar of hard and brittle material, as a cutting element, is placed on the carrying platform 43. The top of the slicer is provided with at least two cutting main rollers 221 arranged in parallel, and the cutting line 231 is wound on the cutting main rollers to form a cutting line net. The feeding device drives the cutter member 91 to ascend to pass between the two cutting main rollers 221, and the cutting line cuts the cutter member 91 into a sheet shape.

According to the technical scheme, the feeding moving assembly is arranged on the outer side of the feeding base, the feeding moving assembly is driven by the feeding driving mechanism to slide relative to the feeding base, the bearing platform is driven to move, the cutting piece is conveyed between the adjacent cutting main rollers, the cutting piece is cut by the cutting line wound on the cutting main rollers, and as the feeding moving assembly is arranged on the outer side of the feeding base, the projection area of the feeding moving assembly on the supporting platform is large, the moving assembly is supported more stably, the problem that the cutting piece is inclined or the supporting platform shakes due to uneven stress of the supporting platform is avoided, the cutting piece is guaranteed to be stably kept at a target position, the cutting precision is improved, and the yield is further improved.

The number of the cutting pieces to be cut at the same time is different according to the number and layout of the cutting main rollers. As shown in fig. 1, four cutting main rollers 231 are arranged in a triangular shape, one cutting main roller 231 is located above, and three main plates 231 are arranged side by side in a horizontal direction below. The cutting line between two adjacent cutting main rollers 231 can cut a cutting member, and this scheme can cut two cutting members simultaneously, realizes the cutting of duplex position.

Or two cutting main rollers can be arranged at the bottom to realize single-station cutting; or four cutting main rollers are arranged at the bottom to realize three-station cutting.

On the basis of the technical scheme, the specific implementation mode of the feeding device is provided:

as shown in fig. 2, the feeding movement assembly includes: and two sets of slide boxes 42 symmetrically arranged outside the feeding base 41. The carriage 42 is slidably connected to the feed base 41 via a guide mechanism, and is movable up and down with respect to the feed base 41. The load-bearing platform 432 is disposed at the top end of the two sets of slide boxes 42.

One embodiment is: the guide mechanism includes: a guide slide 421 and a guide rail 422, which are movable relative to each other. One implementation is as follows: the guide block 421 is fixed to the outer side surface of the feed base 41, and the guide block 421 has a guide groove extending in the vertical direction. The guide rail 422 is fixed to an inner side surface of the slide case 42 facing the feeding base 41. The guide slide rail 422 extends vertically and is embedded in the guide groove in a sliding manner. The slide plate box 42 and the feeding base 41 slide relatively in the vertical direction through the sliding fit of the guide slide block 421 and the guide slide rail 422.

The feeding base 41 has a frame structure, and has an accommodating space therein, and the feeding driving mechanism is disposed in the accommodating space. The feed drive mechanism includes: a feed motor 423, a speed reducer 424, a lead screw 425, and a lifting pallet 426. Wherein, the feeding motor 423 is fixed on the feeding base 1 and located in the accommodating space. A speed reducer 424 is also located in the receiving space and is connected to the output of the feed motor 423. The lead screw 425 extends vertically, and the bottom end of the lead screw is connected with the output end of the speed reducer 424. The lifting support plate 426 is in threaded fit with the lead screw 524, and the lifting support plate 426 is respectively connected with the two sets of slide boxes 42.

The feed motor 423 and the speed reducer 424 drive the screw 425 to rotate, and drive the lifting supporting plate 426 and the sliding plate box 42 to move up and down.

In the above scheme, the sliding plate boxes 42 are symmetrically distributed on two sides of the feeding base 41, and the lead screw 425 and the lifting supporting plate 426 are located in the middle of the feeding base 41, so that the two sliding plate boxes 42 can be synchronously lifted, the stress is uniform, the height of two sides of the upper bearing platform 43 is ensured to be consistent, the two-station cutting consistency of the cutting equipment is further improved, and the cutting quality is favorably improved. In addition, the feeding mode of the lead screw 425 has higher precision, and is also favorable for realizing the uniform-speed ascending of the bearing platform 43, so that the cutting surface of the cutting piece 91 meets the requirement.

The embodiment also provides a cutting device, which comprises the feeding device provided by any content. The cutting device may in particular be a slicer for slicing a bar of hard and brittle material. The hard and brittle material rod can be a silicon rod or a magnetic material rod.

The feeding device and the cutting equipment provided by the embodiment have the same technical effects as the bearing platform.

In the description of the present application, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered limiting of the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; may be mechanically, electrically or otherwise in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all alterations and modifications as fall within the scope of the application.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (14)

1. A cutting element carrying platform, comprising:

a load floor;

the material carrying platform is used for carrying a cutting piece and is arranged on the carrying bottom plate; the material carrying platform can move along a first direction relative to the carrying bottom plate;

the first limiting assemblies are positioned at two ends of the material loading platform along a second direction and used for limiting the material loading platform to move along the second direction, and the second direction is vertical to the first direction;

and the displacement adjusting assembly is arranged at the end part of the bearing bottom plate along the first direction and used for adjusting the displacement of the material loading platform along the first direction.

2. The cutter load platform of claim 1, further comprising:

and the second limiting assemblies are respectively arranged at two ends of the material loading platform along the first direction and used for limiting the cutting piece to move along the first direction relative to the material loading platform.

3. The cutter load platform of claim 2, further comprising:

the third limiting assemblies are respectively arranged on two sides of the material loading platform along the second direction; the top of the third limiting assembly is higher than the material loading platform and used for limiting the cutting piece to move along the second direction.

4. The cutter load platform of claim 1, wherein the first stop assembly comprises:

the limiting strip extends along the first direction and is arranged on one side of the material carrying platform;

the fixing strip extends along the first direction and is arranged on the other side of the material carrying platform; and a space for accommodating the material carrying platform is defined between the fixing strip and the limiting strip.

5. The cutting element bearing platform according to claim 4, wherein the material carrying platform is provided with a material carrying platform main body with a rectangular cross section, the bottom of the material carrying platform main body extends outwards along the second direction to form an extension part, and the end face of the extension part facing the fixing strip and the limiting strip is an inclined plane;

the fixing strip is provided with a fixing and supporting part extending along the direction vertical to the bearing bottom plate, the top of the fixing and supporting part extends towards the material loading platform along the second direction to form a limiting part, and the limiting part is used for abutting against the extending part of the material loading platform;

the limiting strip is provided with a limiting supporting part extending in the direction perpendicular to the bearing bottom plate, the top of the limiting supporting part extends towards the material loading platform along the second direction to form a guide part, the guide part and the limiting supporting part are in transition through a guide inclined plane, and the guide inclined plane is used for abutting against the inclined plane of the extension part of the material loading platform.

6. The cutter carrying platform of claim 4 or 5, wherein the first stop assembly further comprises:

the locking mechanism is arranged on the fixing strip; and the locking mechanism applies force along a second direction to the material loading platform so as to press the material loading platform on the limiting strip.

7. The cutter load platform of claim 6, wherein the locking mechanism comprises:

the locking block is positioned between the fixing strip and the material carrying platform;

the locking bolt is screwed into the threaded hole of the fixing strip along the second direction; the tail end of the locking bolt is abutted against the locking block; the locking bolt is sleeved with a nut, and the nut is positioned between the head of the locking bolt and the fixing strip;

the locking screw penetrates through the stepped hole of the fixing strip along the second direction; the tail end of the locking screw is screwed into the threaded hole of the locking block;

the locking spring is sleeved on the locking screw; the locking spring is limited in the stepped hole by the head of the locking screw.

8. The cutter load platform of claim 2, wherein the second stop assembly comprises:

the pressing block is arranged on the material carrying platform and far away from the end face of the displacement adjusting assembly along the first direction; the top of the pressing block is higher than the material loading platform and is used for abutting against the end face of the cutting piece;

the limiting plate is arranged on the material loading platform and is close to the end face of the displacement adjusting assembly along the first direction; the top of the limiting plate is higher than the material loading platform and is used for abutting against the end face of the cutting piece.

9. The cutter carrier platform of claim 3, wherein the third stop assembly comprises:

the two limiting blocks are symmetrically arranged on two sides of the material loading platform along the second direction; the limiting block is provided with a bottom support extending along the second direction, and the end part of the bottom support is fixed to the side surface of the material loading platform; the tip of keeping away from the material platform in the collet upwards extends and forms spacing backstop, and the top of spacing backstop is higher than the material platform of carrying and is used for supporting the side in the cutting member.

10. The cutter load platform of claim 1, wherein the displacement adjustment assembly comprises:

the adjusting plate is arranged on the end face of the bearing bottom plate along the first direction; the top end of the adjusting plate is higher than the bearing bottom plate and is stopped at the end part of the material carrying platform;

the first adjusting screw is screwed into the threaded hole of the adjusting plate along a first direction; the tail part of the first adjusting screw is used for abutting against the material carrying platform.

11. The cutter load platform of claim 10, wherein the displacement adjustment assembly further comprises:

the adjusting block is arranged on the top surface of the bearing bottom plate and is positioned at one end of the bearing bottom plate, which is far away from the adjusting plate;

the second adjusting screw is screwed into the threaded hole of the adjusting block along the first direction; the tail part of the second adjusting screw is used for abutting against the material carrying platform.

12. The cutting element carrying platform according to claim 1, wherein the number of the material carrying platforms is two, and the two material carrying platforms are arranged on the top surface of the carrying bottom plate side by side; each material loading platform is provided with a displacement adjusting assembly along the end part of the first direction, and a first limiting assembly along the end part of the second direction.

13. A feeder device, comprising: a cutting element carrying platform according to any one of claims 1 to 12 and a feed mechanism for driving the cutting element carrying platform in a feed direction.

14. A cutting apparatus, comprising: the feeding device of claim 13.

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