CN215618408U - Novel paper holder rotary cutter - Google Patents

Abstract

The utility model discloses a novel paper holder rotary cutter, which comprises: the device comprises a case, two sliding guide rail assemblies are mounted on the case, a carrier is mounted on each sliding guide rail assembly, the carrier is provided with a supporting plate, and a discharging device and a jig are mounted on the supporting plate; the discharging device is provided with a bottom plate, a discharging driving device is installed on the bottom plate, the discharging driving device is fixedly connected with a discharging plate, discharging holes are formed in the discharging plate, and the discharging driving device drives the discharging plate to move; the pressing device is used for pressing and pressing the materials placed on the jig downwards and is installed on the case; the movable rotary cutting device is used for rotary cutting the materials placed on the jig through X-axis movement and Z-axis movement and is arranged on the case; the production efficiency is improved, and meanwhile, the labor cost is reduced.

Description

Novel paper holder rotary cutter

Technical Field

The utility model relates to the technical field of rotary cutter equipment, in particular to a novel paper holder rotary cutter.

Background

In 3C, food, cosmetics and other industries, paper-plastic packaging is generally used for packaging products.

The existing paper holder production mode is as follows: traditional cutting, sculpture, mould, three-dimensional cutting ring-cutting mechanism etc. wherein traditional cutting, sculpture, mould preparation cycle length, with high costs, the flexibility is poor, and the cutting efficiency of three-dimensional cutting ring-cutting mechanism of relative advance promotes to some extent, and cost and flexibility ratio also can be controlled, but generally is the one-way process of duplex position formula, needs two workers to operate, and generally manual drawing of patterns, workman's intensity of labour is higher, its machining efficiency still is relatively lower, and the cost of labor is also relatively higher.

Accordingly, there is a need for a new paper holder peeler that solves one or more of the above problems.

SUMMERY OF THE UTILITY MODEL

In order to solve one or more problems in the prior art, the utility model provides a novel paper holder rotary cutting machine. The technical scheme adopted by the utility model for solving the problems is as follows: a novel paper holder peeler, comprising: the device comprises a case, at least two sliding guide rail assemblies are mounted on the case, a carrier is mounted on each sliding guide rail assembly, the carrier is provided with a supporting plate, and a discharging device and a jig are mounted on the supporting plate;

the discharging device is provided with a bottom plate, a discharging driving device is installed on the bottom plate, a discharging plate is fixedly connected with the discharging driving device, discharging holes are formed in the discharging plate, the discharging driving device drives the discharging plate to move, and the jig is arranged on the upper side of the bottom plate and matched with the discharging plate;

the pressing device is used for pressing and pressing the materials placed on the jig downwards and is installed on the case;

the movable rotary cutting device is used for rotary cutting the materials placed on the jig through X-axis movement and Z-axis movement and is arranged on the case;

when moving on the sliding guide rail assembly, the carrier passes through the pressing device and then moves to the lower side of the movable rotary cutting device. This is the basis.

Further, the pressing device is provided with a support, a pressing driving device is installed on the support, a lower pressing plate is fixedly connected with the pressing driving device and matched with the jig, the pressing driving device drives the lower pressing plate to vertically move, and the pressing device is installed on the case and matched with the sliding guide rail assembly and the carrier.

Furthermore, the movable rotary cutting device is provided with an X-axis driving device, an X-axis assembly is slidably mounted on the movable rotary cutting device, the X-axis driving device drives the X-axis assembly to move, a Z-axis assembly is slidably mounted on the X-axis assembly, a Z-axis driving device is fixedly mounted on the X-axis assembly, a rotary cutting mechanism is mounted on the Z-axis assembly, the Z-axis driving device drives the Z-axis assembly to move, the movable rotary cutting device is mounted on a gantry support, the gantry support is mounted on the case, and the movable rotary cutting device is matched with the sliding guide rail assembly and the carrier.

Furthermore, a sliding rod is fixedly connected to the lower pressing plate, and the sliding rod is slidably mounted on the support.

Furthermore, the two sliding rods are arranged and are oppositely arranged by taking the pressing driving device as a center.

Further, the discharging driving device is a cylinder or a motor; the downward pressing driving device is a cylinder or a motor; the X-axis driving device is an air cylinder or a motor, and the Z-axis driving device is an air cylinder or a motor; the X-axis driving device is a motor and is provided with a screw rod, and the screw rod is connected with the X-axis assembly.

Further, the two discharging driving devices are arranged on two sides of the bottom plate.

The utility model has the following beneficial values: according to the single-person double-station circular production process, the case, the sliding guide rail assembly, the carrier, the discharging device, the pressing device, the movable rotary cutting device, other components and devices are connected together through a smart structure, the sliding guide rail assembly corresponds to two stations respectively, the movable rotary cutting device moves on the two stations and performs rotary cutting respectively, an operator only needs to perform feeding and discharging on one station at each time, and does not need to perform feeding and discharging on the two stations simultaneously (during the feeding and discharging of one station, the rotary cutting is performed on the other station under the movable rotary cutting device), so that the production efficiency is guaranteed, the labor cost is reduced, and the time for the operator to wait for rotary cutting is greatly reduced, so that the production efficiency is improved; meanwhile, the material placed on the jig can be conveniently compressed to facilitate rotary cutting, and the rotary-cut material can be taken out through the discharging device, the taking-out process is quick and accurate, the manual operation time is saved, and the finished product is prevented from being damaged during manual stripping; the sliding guide rail assembly is matched with the movable rotary cutting device to shorten material transportation time, conveniently adjust the position and conveniently align the jig for rotary cutting. The practical value of the utility model is greatly improved.

Drawings

Fig. 1 is a perspective view of a novel paper holder rotary cutting machine according to the present invention;

fig. 2 is an exploded view of a novel paper holder rotary shaver of the present invention;

fig. 3 is a schematic view of a pressing device of a novel paper holder rotary cutting machine according to the present invention;

fig. 4 is a schematic view of a movable rotary cutting device of a novel paper holder rotary cutting machine according to the present invention;

fig. 5 is a partial view of a novel paper holder peeler according to the present invention;

fig. 6 is an exploded view of a carrier of a novel paper-holder rotary shaver according to the present invention.

[ reference numerals ]

101. case

201. carrier

202. pallet

210 sliding guide rail assembly

220. discharge device

221. bottom plate

222. discharge drive

223 · stripper plate

224. discharge hole

230. tool

301. pressing device

302. bracket

310. push-down driving device

320. lower pressing plate

321. slide bar

401. movable rotary cutting device

402. X-axis driving device

403. lead screw

410 gantry support

420. X shaft Assembly

421. Z shaft component

422. Z-axis driving device

430. rotary cutting mechanism.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

As shown in fig. 1 to 6, the present invention discloses a novel paper holder rotary cutting machine, which comprises: the device comprises a case 101, wherein at least two sliding guide rail assemblies 210 are installed on the case 101, a carrier 201 is installed on each sliding guide rail assembly 210, the carrier 201 is provided with a supporting plate 202, and a discharging device 220 and a jig 230 are installed on each supporting plate 202;

the discharging device 220 is provided with a bottom plate 221, a discharging driving device 222 is mounted on the bottom plate 221, the discharging driving device 222 is fixedly connected with a discharging plate 223, a discharging hole 224 is formed in the discharging plate 223, the discharging hole 224 is used for being matched with the jig 230 to discharge, material supplement is conveniently performed on the jig 230, the discharging driving device 222 drives the discharging plate 223 to move, and the jig 230 is arranged on the upper side of the bottom plate 221 and matched with the discharging plate 223;

the pressing device 301 is used for pressing down and pressing the material placed on the jig 230, and the pressing device 301 is installed on the case 101;

the movable rotary cutting device 401 performs rotary cutting on the material placed on the jig 230 through X-axis movement and Z-axis movement, and the movable rotary cutting device 401 is installed on the chassis 101;

when moving on the sliding rail assembly 210, the carrier 201 first passes through the pressing device 301, and then moves to the lower side of the movable rotary cutting device 401.

It should be noted that the sliding guide rail assembly 210 is a conventional device, which includes a power unit, and will not be described in detail herein. The jig 230 is also a common device in the field, and will not be described herein. The enclosure 101 is also used to mount and deploy other components, devices, such as: compressors, control devices, etc. The sliding guide rail assembly 210 is provided in two, each corresponding to a station.

Specifically, as shown in fig. 2 and 3, the pressing device 301 is provided with a support 302, a pressing driving device 310 is installed on the support 302, the pressing driving device 310 is fixedly connected with a pressing plate 320, the pressing plate 320 is matched with the jig 230, the pressing driving device 310 drives the pressing plate 320 to vertically move, and the pressing device 301 is installed on the chassis 101 and is matched with the sliding guide rail assembly 210 and the carrier 201. Generally, a sliding rod 321 is fixedly connected to the lower pressing plate 320, and the sliding rod 321 is slidably mounted on the bracket 302; the two sliding rods 321 are arranged and oppositely arranged by taking the pressing driving device 310 as a center, and the sliding rods 321 have the function of enabling the movement of the lower pressing plate 320 to be more stable and smooth and avoiding deviation; the downward pressing driving device 310 is an air cylinder or a linear motor, a screw rod and the like, and the air cylinder is used in fig. 3 due to low precision requirement, so that the cost is relatively low. When the jig is used, the sliding guide rail assembly 210 transports the carrier 201 to the lower side of the pressing device 301, the pressing driving device 310 drives the pressing plate 320 to press downwards, so as to press the material on the jig 230, and thus, the subsequent rotary cutting is facilitated.

Specifically, as shown in fig. 2 and 4, the movable rotary cutting device 401 is provided with an X-axis driving device 402, an X-axis assembly 420 is slidably mounted on the movable rotary cutting device 401, the X-axis driving device 402 drives the X-axis assembly 420 to move, a Z-axis assembly 421 is slidably mounted on the X-axis assembly 420, a Z-axis driving device 422 is fixedly mounted on the X-axis assembly 420, a rotary cutting mechanism 430 is mounted on the Z-axis assembly 421, the Z-axis driving device 422 drives the Z-axis assembly 421 to move, the movable rotary cutting device 401 is mounted on the gantry support 410, the gantry support 410 is mounted on the chassis 101, and the movable rotary cutting device 401 is matched with the sliding guide rail assembly 210 and the carrier 201. Generally, the X-axis driving device 402 is a motor and is provided with a lead screw 403, the lead screw 403 is connected with the X-axis assembly 420, and the X-axis driving device 402 can also be an air cylinder; in fig. 4, the X-axis driving device 402 and the Z-axis driving device 422 are screw driving devices to improve the precision and stability of the transmission. When in use, the slide rail assembly 210 transports the carrier 201 to the lower side of the compressing device 301 to complete compressing, and then transports the carrier 201 to the lower side of the movable rotary cutting device 401, adjusts the position to align with the rotary cutting mechanism 430, and drives the rotary cutting mechanism 430 to move on two stations (the slide rail assembly 210) by the X-axis driving device 402 and move down by the driving of the Z-axis driving device 422; after the carrier 201 is aligned, the rotary cutting mechanism 430 moves down to a proper position on the jig 230, performs rotary cutting on the material on the jig 230, and performs the process on two stations in a reciprocating manner. When the rotary cutting of the materials is convenient, a rotary cutting mechanism is omitted, the rotary cutting efficiency is not reduced, and the single-person operation efficiency is improved.

It should be noted that the discharging driving device 222 is generally an air cylinder or a motor, and because the precision requirement is low, the discharging driving device 222 in fig. 6 is an air cylinder, which facilitates discharging and reduces the cost.

When in use, the carrier 201 is reset at the front end of the sliding guide rail assembly 210 (station), and a worker takes out the material which is cut by rotary cutting on the jig 230 and installs the material which is not cut by rotary cutting on the jig 230; before the worker takes out the rotary-cut material, the discharging driving device 222 drives the discharging plate 223 to move upwards, so as to eject the material on the jig 230, and then reset; then starting the sliding guide rail 210 assembly, transporting the carrier 201 to the lower side of the pressing device 301, and pressing the material on the jig 230 by the pressing device 301; then the slide rail assembly 210 transports the carrier 201 to the lower side of the movable rotary cutting device 401, the slide rail assembly 210 adjusts the position of the carrier 201, and the rotary cutting mechanism 430 on the movable rotary cutting device 401 performs proper position adjustment to perform rotary cutting; the rotary cutting mechanism 430 is driven by the Z-axis driving device 422 to move downward and cut the material on the jig 230; after the rotary cutting is completed, the movable rotary cutting device 401 drives the rotary cutting mechanism 430 to move to another station (another sliding guide rail assembly 210) to perform a rotary cutting process; then, the sliding guide rail assembly 210 and the carrier 201 on the current station are reset, and the material which is subjected to rotary cutting is brought back to the front end to wait for being taken out by a worker.

In summary, the single-person double-station circular production process is realized by connecting the case 101, the sliding guide rail assembly 210, the carrier 201, the discharging device 220, the pressing device 301, the movable rotary cutting device 401, other components and devices together through a smart double-station structure, the sliding guide rail assembly respectively corresponds to two stations, the movable rotary cutting device moves on the two stations and respectively performs rotary cutting, an operator only needs to perform feeding and discharging on one station at each time, and does not need to perform feeding and discharging on the two stations at the same time (during the feeding and discharging of one station, the rotary cutting is performed on the other station under the movable rotary cutting device), so that the production efficiency is guaranteed, the labor cost is reduced, and the time for the worker to wait for rotary cutting is greatly reduced, so that the production efficiency is improved; meanwhile, the material placed on the jig can be conveniently compressed to facilitate rotary cutting, and the rotary-cut material can be taken out through the discharging device, the taking-out process is quick and accurate, the manual operation time is saved, and the finished product is prevented from being damaged during manual stripping; the sliding guide rail assembly is matched with the movable rotary cutting device to shorten material transportation time, conveniently adjust the position and conveniently align the jig for rotary cutting. The practical value of the utility model is greatly improved.

The above-described examples merely represent one or more embodiments of the present invention, which are described in greater detail and detail, but are not to be construed as limiting the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the spirit of the utility model, which falls within the scope of the utility model. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A novel paper holds in palm rotary-cut machine which characterized in that includes: the device comprises a case, at least two sliding guide rail assemblies are mounted on the case, a carrier is mounted on each sliding guide rail assembly, the carrier is provided with a supporting plate, and a discharging device and a jig are mounted on the supporting plate;

the discharging device is provided with a bottom plate, a discharging driving device is installed on the bottom plate, a discharging plate is fixedly connected with the discharging driving device, discharging holes are formed in the discharging plate, the discharging driving device drives the discharging plate to move, and the jig is arranged on the upper side of the bottom plate and matched with the discharging plate;

the pressing device is used for pressing and pressing the materials placed on the jig downwards and is installed on the case;

the movable rotary cutting device is used for rotary cutting the materials placed on the jig through X-axis movement and Z-axis movement and is arranged on the case;

when moving on the sliding guide rail assembly, the carrier passes through the pressing device and then moves to the lower side of the movable rotary cutting device.

2. The novel paper holder rotary cutting machine according to claim 1, wherein said pressing device is provided with a support, said support is provided with a pressing driving device, said pressing driving device is fixedly connected with a lower pressing plate, said lower pressing plate is engaged with said jig, said pressing driving device drives said lower pressing plate to move vertically, and said pressing device is installed on said machine case and engaged with said sliding guide assembly and said carrier.

3. The novel paper holder rotary cutting machine according to claim 1, wherein the movable rotary cutting device is provided with an X-axis driving device, an X-axis assembly is slidably mounted on the movable rotary cutting device, the X-axis driving device drives the X-axis assembly to move, a Z-axis assembly is slidably mounted on the X-axis assembly, a Z-axis driving device is fixedly mounted on the X-axis assembly, a rotary cutting mechanism is mounted on the Z-axis assembly, the Z-axis driving device drives the Z-axis assembly to move, the movable rotary cutting device is mounted on a gantry support, the gantry support is mounted on the machine case, and the movable rotary cutting device is matched with the sliding guide rail assembly and the carrier.

4. The novel paper holder rotary cutting machine according to claim 2, wherein a sliding rod is fixedly connected to the lower pressing plate, and the sliding rod is slidably mounted on the bracket.

5. The rotary cutting machine according to claim 4, wherein said slide bars are provided in two and are opposed to each other centering on said push-down driving means.

6. The rotary cutting machine according to claim 1, wherein said discharge driving means is a cylinder or a motor.

7. A novel rotary cutting machine for paper stock according to claim 2 wherein said downward driving means is a cylinder or a motor.

8. A novel paper holder rotary cutting machine according to claim 3, wherein said X-axis driving device is a cylinder or a motor, and said Z-axis driving device is a cylinder or a motor.

9. A novel paper holder rotary cutting machine according to claim 3, wherein said X-axis driving means is a motor and is provided with a lead screw, said lead screw being connected to said X-axis assembly.

10. A novel rotary cutting machine for paper trays as claimed in claim 1 wherein said discharge drive means is provided in two and is mounted on either side of said base plate.

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