CN219006595U

CN219006595U - Two-shaft mini slicer

Info

Publication number: CN219006595U
Application number: CN202223396085.9U
Authority: CN
Inventors: 夏云
Original assignee: Changzhou Shoujia Precision Manufacturing Co ltd
Current assignee: Changzhou Shoujia Precision Manufacturing Co ltd
Priority date: 2022-12-15
Filing date: 2022-12-15
Publication date: 2023-05-12
Anticipated expiration: 2032-12-15

Abstract

The utility model relates to the technical field of slicing machines, in particular to a two-shaft mini slicing machine which comprises an electric cabinet chamber, a cutting chamber and a winding chamber, wherein the winding chamber is positioned below the cutting chamber, two symmetrically distributed winding assemblies are arranged in the winding chamber, each winding assembly comprises a winding and unwinding mechanism, the winding and unwinding mechanism comprises a spool motor and a spool, a winding displacement mechanism is arranged above the spool, a reversing mechanism is positioned above the winding displacement mechanism, a tension mechanism is arranged above the spool motor, a mounting plate is fixed at the middle part of the winding chamber, and the winding displacement mechanism and the tension mechanism are both mounted on the mounting plate; according to the utility model, the winding chamber is arranged below the main roller mechanism, the winding distance of the steel wire is short, the fluctuation of the steel wire is reduced, the wire breakage rate is reduced, the whole structure of the slicing machine is more compact, in addition, the wire arranging mechanism and the tension mechanism are both arranged on the mounting plate, and the wire arranging mechanism and the tension mechanism are arranged by adopting the same standard, so that the mounting precision of the wire arranging mechanism and the tension mechanism is improved, and the winding of the steel wire is more stable.

Description

Two-shaft mini slicer

Technical Field

The utility model relates to the technical field of slicing machines, in particular to a two-shaft mini slicing machine.

Background

The slicing machine comprises a winding and unwinding system, a wire arranging system, a tension system and a main shaft system, wherein a steel wire is wound on the components to perform high-speed reciprocating motion so as to cut crystals.

Chinese patent CN201811401900.1 discloses a multi-wire saw for sapphire with ultra-high speed wiring, wherein the wire arranging system, the wire winding and unwinding system and the tension system are all located at the rear of the spindle system, the winding distance of the steel wire is longer, the fluctuation of the steel wire is larger during high-speed cutting, the wire breakage is easy to be caused, and the overall structure size is larger.

Disclosure of Invention

The utility model aims to solve the technical problems that: in order to solve the problems that a wire arranging system, a wire winding and unwinding system and a tension system of the slicing machine are all positioned at the rear of a main shaft system in the prior art, the winding distance of a steel wire is long, wire breakage is easy to occur due to large fluctuation of the steel wire during high-speed cutting, and the whole structure size is large, the two-shaft mini slicing machine is provided.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides a mini slicer of diaxon includes the box, the box is inside to be equipped with:

an electric cabinet;

the cutting machine comprises a cutting chamber, wherein a feeding mechanism is arranged in the cutting chamber, a main roller mechanism and two symmetrically distributed reversing mechanisms are arranged below the feeding mechanism, the main roller mechanism comprises two main rollers and two main roller motors, the two reversing mechanisms correspond to the two main rollers one by one and are distributed on the outer sides of the two main rollers, and the electric cabinet chamber is positioned on the side of the feeding mechanism and above the main roller motors;

the winding chamber is located the cutting chamber below, and the inside wire winding subassembly that is equipped with two symmetric distributions of wire winding chamber, two wire winding subassemblies and two home rolls are one-to-one respectively, and every wire winding subassembly is all including the receive and releases the line mechanism that is located the wire winding chamber bottom, receive and release the line mechanism including the spool motor and with the spool that the output shaft transmission of spool motor is connected, the spool top is equipped with winding displacement mechanism, and switching-over mechanism is located winding displacement mechanism top, spool motor top is equipped with tension mechanism, and the copper wire is winding around receive winding displacement mechanism, tension mechanism, switching-over mechanism and home roll in proper order, the middle part of wire winding chamber is fixed with the mounting panel, and winding displacement mechanism and tension mechanism are all installed on the mounting panel, and both adopt same benchmark to install, have improved both installation accuracy.

Above-mentioned technical scheme sets up wire winding room in main roll mechanism below, and the distance that the steel wire was wound is shorter, has reduced the fluctuation of steel wire, has reduced the broken string rate, and slicer overall structure is compacter, and winding displacement mechanism and tension mechanism are all installed on the mounting panel in addition, and both adopt same benchmark to install, have improved the installation accuracy of both, make the steel wire wind and establish more stably.

Further, the tension mechanism comprises a tension motor and a tension arm, the bottom of the tension arm is connected with an output shaft of the tension motor, a tension guide wheel is arranged at the top of the tension arm, the tension motor is located below the tension guide wheel, namely, the distance between the tension motor and a main roller motor is increased, the distance between the tension motor and the main roller motor is prolonged on the premise that the weight of the slicer is reduced, and interference between the tension motor and the main roller motor is reduced.

Further, the reversing guide wheel mechanism comprises square guide rods, two ends of each square guide rod are respectively fixed with a support, two supports are respectively arranged on two opposite side walls of the cutting chamber, a support assembly is slidably arranged on each square guide rod, a support seat is arranged on each support assembly, a fixing frame is rotatably arranged on each support seat, and reversing guide wheels are arranged on the fixing frames. The support seat is provided with an arc strip hole and a hinge hole, the pin shaft penetrates through the hinge hole and the fixing frame to form a hinge point, and the screw penetrates through the arc strip hole and the fixing frame to fix the arc strip hole and the fixing frame; when the inclination angle of the reversing guide wheel needs to be adjusted, the screw is unscrewed, then the fixing frame is rotated to drive the reversing guide wheel to rotate to a preset position, the screw is screwed, and the nut of the screw abuts against the hole opening of the arc-shaped strip hole, so that the supporting seat and the fixing frame are fixed.

Further, the support assembly comprises an upper support and a lower support which are in threaded connection, the upper support and the lower support are enclosed to form a guide hole for a square guide rod to pass through, the support seat is arranged on the lower support, a first kidney-shaped hole is formed in the support seat, a second kidney-shaped hole is formed in the lower support, and the extending direction of the first kidney-shaped hole is mutually perpendicular to the extending direction of the second kidney-shaped hole; the first kidney-shaped hole can be used for transversely adjusting the reversing guide wheel, the second kidney-shaped hole can be used for longitudinally adjusting the reversing guide wheel, and the position of the reversing guide wheel can be flexibly adjusted by matching the first kidney-shaped hole with the second kidney-shaped hole.

Furthermore, the fixing frame is formed by bending, and the reinforcing ribs are arranged on the inner side of the fixing frame, so that the strength of the fixing frame can be improved, and the working stability of the reversing guide wheel is ensured.

The utility model has the beneficial effects that: according to the utility model, the winding chamber is arranged below the main roller mechanism, the winding distance of the steel wire is short, the fluctuation of the steel wire is reduced, the wire breakage rate is reduced, the whole structure of the slicing machine is more compact, in addition, the wire arranging mechanism and the tension mechanism are both arranged on the mounting plate, and the wire arranging mechanism and the tension mechanism are arranged by adopting the same standard, so that the mounting precision of the wire arranging mechanism and the tension mechanism is improved, and the winding of the steel wire is more stable.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of a first view of the present utility model;

FIG. 2 is a schematic diagram of the structure of the second view angle of the present utility model;

FIG. 3 is a front view of the present utility model;

FIG. 4 is a schematic view of the reversing mechanism from a first perspective;

fig. 5 is a schematic structural view of the reversing mechanism at a second view angle.

In the figure:

1. an electric cabinet;

2. a cutting chamber; 21. a feeding mechanism; 22. a main roller mechanism; 2201. a main roller motor; 23. a reversing mechanism; 2301. square guide rod; 2302. a support; 2303. an upper bracket; 2304. a lower bracket; 2305. a support base; 2306. a fixing frame; 2307. a reversing guide wheel; 2308. reinforcing ribs; 2309. a first kidney-shaped aperture; 2310. a second kidney-shaped aperture;

3. a winding chamber; 31. a winding and unwinding mechanism; 3101. a bobbin motor; 3102. a spool; 32. a wire arrangement mechanism; 33. a tension mechanism; 3301. a tension motor; 3302. a tension arm; 3303. a tension guide wheel; 34. a mounting plate;

4. steel wire.

Detailed Description

The utility model will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the utility model and therefore show only the structures which are relevant to the utility model.

Embodiment one:

as shown in fig. 1-5, the present utility model is a two-axis mini-slicer, comprising a box, wherein the inside of the box is provided with:

an electric cabinet 1;

the cutting machine comprises a cutting chamber 2, wherein a feeding mechanism 21 is arranged in the cutting chamber 2, a main roller mechanism 22 and two symmetrically distributed reversing mechanisms 23 are arranged below the feeding mechanism 21, the main roller mechanism 22 comprises two main rollers and two main roller motors 2201, the two reversing mechanisms 23 are in one-to-one correspondence with the two main rollers, the two reversing mechanisms 23 are distributed on the outer sides of the two main rollers, and the electric cabinet 1 is positioned on the side of the feeding mechanism 21 and above the main roller motors 2201;

winding room 3, winding room 3 is located cutting room 2 below, and the inside wire winding subassembly that is equipped with two symmetric distributions of winding room 3, two wire winding subassemblies and two main rolls are the one-to-one respectively, and every wire winding subassembly is including the take-up and pay-off mechanism 31 that is located winding room 3 bottom, take-up and pay-off mechanism 31 includes spool motor 3101 and the spool 3102 that is connected with the output shaft transmission of spool motor 3101, spool 3102 top is equipped with winding displacement mechanism 32, and winding displacement mechanism 32 includes the winding displacement guide pulley, and reversing mechanism 23 is located winding displacement mechanism 32 top, spool motor 3101 top is equipped with tension mechanism 33, tension mechanism 33 includes tension motor 3301 and tension arm 3302, tension arm 3302 bottom and tension motor 3301's output shaft, tension guide pulley 3303 is installed at tension motor 3302 top, and tension motor 3301 is located tension guide pulley 3303's below, and tension motor 3301's distance increases with main roll motor 2201's distance, and this structure has lengthened tension motor 3301 and main roll motor 2201's distance under the prerequisite of guaranteeing the slicer lightweight has reduced the mutual interference of both. The middle part of the winding chamber 3 is fixed with a mounting plate 34, the wire arranging mechanism 32 and the tension mechanism 33 are mounted on the mounting plate 34, and the wire arranging mechanism and the tension mechanism are mounted by adopting the same standard, so that the mounting precision of the wire arranging mechanism and the mounting precision of the wire arranging mechanism are improved, and the winding of the steel wire 4 is more stable.

The steel wire 4 sequentially winds the warp shaft 3102, the winding displacement guide wheels, the tension guide wheels 3303, the reversing guide wheels 2307 and the main roller, the number of the guide wheels is small, the winding time is reduced, the winding distance of the steel wire 4 is short, the fluctuation of the steel wire 4 is reduced, and the wire breakage rate is reduced.

The reversing mechanism 23 comprises square guide rods 2301, two ends of each square guide rod 2301 are respectively fixed with a support 2302, two supports 2302 are respectively arranged on two opposite side walls of the cutting chamber 2, a support assembly is slidably arranged on each square guide rod 2301, each support assembly comprises an upper support 2303 and a lower support 2304 which are in threaded connection, each upper support 2303 and each lower support 2304 enclose to form a guide hole for the square guide rod 2301 to pass through, a support seat 2305 is arranged on each lower support 2304, a fixing frame 2306 is rotatably arranged on each support seat 2305, reversing guide wheels 2307 are arranged on each fixing frame 2306, each fixing frame 2306 is formed by bending, reinforcing ribs 2308 are arranged on the inner sides of the corresponding fixing frames 2306, the strength of the corresponding fixing frames 2306 can be improved, and the working stability of the reversing guide wheels 2307 is ensured. The support seat 2305 is provided with an arc strip hole and a hinge hole, a pin shaft passes through the hinge hole and the fixing frame 2306 to form a hinge point, and a screw passes through the arc strip hole and the fixing frame 2306 to fix the arc strip hole and the fixing frame; when the inclination angle of the reversing guide wheel 2307 needs to be adjusted, the screw is unscrewed, then the fixing frame 2306 is rotated to drive the reversing guide wheel 2307 to rotate to a preset position, the screw is screwed, and the nut of the screw abuts against the hole of the arc-shaped strip hole, so that the fixing of the supporting seat 2305 and the fixing frame 2306 is realized.

The support 2302 is provided with a first kidney-shaped hole 2309, the lower support 2304 is provided with a second kidney-shaped hole 2310, and the extending direction of the first kidney-shaped hole 2309 is perpendicular to the extending direction of the second kidney-shaped hole 2310; the first kidney-shaped hole can be used for transversely adjusting the reversing guide wheel 2307, the second kidney-shaped hole 2310 can be used for longitudinally adjusting the reversing guide wheel 2307, and the position of the reversing guide wheel 2307 can be flexibly adjusted by matching the first kidney-shaped hole with the second kidney-shaped hole.

With the above-described preferred embodiments according to the present utility model as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present utility model. The technical scope of the present utility model is not limited to the description, but must be determined according to the scope of claims.

Claims

1. A two-axis mini-slicer, characterized in that: the novel box comprises a box body, wherein the inside of the box body is provided with:

an electric cabinet (1);

the cutting machine comprises a cutting chamber (2), wherein a feeding mechanism (21) is arranged in the cutting chamber (2), a main roller mechanism (22) and two symmetrically distributed reversing mechanisms (23) are arranged below the feeding mechanism (21), the main roller mechanism (22) comprises two main rollers, and the electric cabinet chamber (1) is positioned at the side of the feeding mechanism (21);

winding room (3), winding room (3) are located cutting room (2) below, and the inside wire winding subassembly that is equipped with two symmetric distributions of winding room (3), two wire winding subassemblies and two main rolls are one-to-one respectively, and every wire winding subassembly is all including being located the wire winding mechanism (31) of winding room (3) bottom, wire winding mechanism (31) include spool motor (3101) and spool (3102) that are connected with the output shaft transmission of spool motor (3101), spool (3102) top is equipped with winding displacement mechanism (32), and switching-over mechanism (23) are located winding displacement mechanism (32) top, spool motor (3101) top is equipped with tension mechanism (33), and wire (4) are wound through winding displacement mechanism (31), winding displacement mechanism (32), tension mechanism (33), switching-over mechanism (23) and main roll in proper order, the middle part of winding room (3) is fixed with mounting panel (34), winding displacement mechanism (32) and tension mechanism (33) are all installed on mounting panel (34).

2. The two-axis mini-slicer of claim 1, wherein: the tension mechanism (33) comprises a tension motor (3301) and a tension arm (3302), the bottom of the tension arm (3302) is in transmission connection with an output shaft of the tension motor (3301), and a tension guide wheel (3303) is arranged at the top of the tension arm (3302).

3. The two-axis mini-slicer of claim 1, wherein: the reversing mechanism (23) comprises square guide rods (2301), two ends of each square guide rod (2301) are respectively fixed with a support (2302), two supports (2302) are respectively arranged on two opposite side walls of the cutting chamber (2), a support assembly is slidably arranged on each square guide rod (2301), a support seat (2305) is arranged on each support assembly, a fixing frame (2306) is rotatably arranged on each support seat (2305), and reversing guide wheels (2307) are arranged on each fixing frame (2306).

4. A two-axis mini-slicer as in claim 3, wherein: the support assembly comprises an upper support (2303) and a lower support (2304) which are in threaded connection, the upper support (2303) and the lower support (2304) are enclosed to form a guide hole through which a square guide rod (2301) passes, a support seat (2305) is arranged on the lower support (2304), a first kidney-shaped hole (2309) is formed in a support seat (2302), a second kidney-shaped hole (2310) is formed in the lower support (2304), and the extending direction of the first kidney-shaped hole (2309) is perpendicular to the extending direction of the second kidney-shaped hole (2310).

5. A two-axis mini-slicer as in claim 3, wherein: the fixing frame (2306) is formed by bending, and reinforcing ribs (2308) are arranged on the inner side of the fixing frame (2306).