CN219337939U - Manufacturing device - Google Patents

Abstract

The utility model provides a manufacturing device, which can be used in the financial field or other fields, and is used for cutting to-be-manufactured pieces on a strip material, wherein the strip material comprises a plurality of to-be-manufactured pieces which are sequentially arranged along the extending direction of the strip material, and the manufacturing device comprises: the cutting mechanism performs reciprocating linear motion along a first preset direction and comprises a cutting piece, the shape of the end part of the cutting piece is matched with the shape of the piece to be manufactured, so that the cutting piece is pressed on the piece to be manufactured and the piece to be manufactured is extruded by a strip-shaped material; the device comprises a driving mechanism, wherein at least part of the driving mechanism is movably arranged, so that at least part of the driving mechanism drives the strip-shaped material to move, a plurality of pieces to be manufactured sequentially move to the position opposite to the end part of the cutting piece, and the manufacturing device solves the problem that the manufacturing time is long when the marking machine is used for manufacturing and printing labels in the prior art.

Description

Manufacturing device

Technical Field

The utility model relates to the field of finance, in particular to a manufacturing device.

Background

At present, temporary network points of banks are generally smaller and are affected by a plurality of factors such as lines, networks and the like, and a screen of a number calling machine cannot be installed, so that the temporary network points cannot call numbers through the existing number calling machine during business, a cabinet operator usually manually writes serial numbers as number calling certificates to be sent to clients, the clients wait orderly through the manually manufactured number calling certificates, but the manually manufactured number calling certificates have the problem that the form is not standard, and therefore a special marking machine is required to be used for manufacturing the number calling certificates.

The traditional marking machine is mainly controlled by a computer to make high-frequency impact movement under the action of compressed air, so that the label is manufactured. However, the conventional marking machine has the following problems:

when a computer-controlled printer is used for manufacturing labels, the common A4 paper cannot meet the requirements of the hardness and the size of the labels, special marking special paper is required to be arranged, and in addition, the labels manufactured by the marking machine cannot be unified in aspects of system, specification and the like because the labels are influenced by aspects of format, paper hardness, size, operation and the like, and the labels cannot be printed in batches;

the number calling voucher is manufactured by using a traditional marking machine, so that the number calling voucher can be restricted by a plurality of aspects such as a computer, a printer, paper, a selenium drum, carbon powder and label content, a plurality of parameters such as a paper source, color, a printing mode and a port of the printer are required to be modified through the computer every time, a series of defects such as printing incoherence exist, and in addition, when a large number of number calling vouchers with special marks are printed, the number calling vouchers are required to be checked manually, so that the operation is complicated.

In summary, when a traditional marking machine is used for manufacturing and printing labels, the problems that equipment is expensive, consumable replacement is troublesome, batch printing cannot be realized, manufacturing time is long, and an electronic system is required to be relied on exist.

Disclosure of Invention

The utility model mainly aims to provide a manufacturing device which solves the problem that a marking machine in the prior art has long manufacturing time when manufacturing and printing labels.

In order to achieve the above object, the present utility model provides a manufacturing apparatus for cutting a piece to be manufactured on a strip material, the strip material including a plurality of pieces to be manufactured arranged in sequence along an extending direction thereof, the manufacturing apparatus comprising: the cutting mechanism performs reciprocating linear motion along a first preset direction and comprises a cutting piece, the shape of the end part of the cutting piece is matched with the shape of the piece to be manufactured, so that the cutting piece is pressed on the piece to be manufactured and the piece to be manufactured is extruded by a strip-shaped material; the transmission mechanism is at least partially movably arranged, so that at least part of the transmission mechanism drives the strip-shaped material to move, and a plurality of pieces to be manufactured sequentially move to a position opposite to the end parts of the cutting pieces.

Further, the transmission mechanism includes: the transmission rod is connected with the cutting mechanism, so that the cutting mechanism drives the transmission rod to do reciprocating linear motion along a first preset direction, and the transmission rod is inserted into a through hole formed in the strip-shaped material after the piece to be manufactured is separated from the strip-shaped material, or the transmission rod is separated from the strip-shaped material; the transmission rod is rotatably arranged along the first rotation direction so as to drive the strip-shaped material to move when the transmission rod is inserted into the through hole.

Further, the manufacturing device further includes: the transmission part is provided with a transmission surface, and the transmission surface is obliquely arranged relative to the first preset direction, so that when the transmission rod moves towards the transmission surface along the first preset direction, one end of the transmission rod is propped against the transmission surface and rotates along the first rotation direction.

Further, the transmission rod is rotatably arranged along a second rotation direction, and the second rotation direction is opposite to the first rotation direction; the manufacturing device further comprises: and the resisting part is connected with the cutting mechanism and is positioned between the cutting mechanism and the transmission rod so as to stop the transmission rod when the transmission rod rotates along the second rotation direction.

Further, the transmission rod is rotatably arranged along a second rotation direction, and the second rotation direction is opposite to the first rotation direction; the transmission mechanism further includes: the rotating shaft is rotationally connected with the cutting mechanism, is respectively and rotatably arranged along a first rotating direction and a second rotating direction, and is fixedly connected with the transmission rod; the elastic piece is arranged between the rotating shaft and the cutting mechanism, so that the elastic piece is compressed when the rotating shaft rotates along the first rotating direction, and the rotating shaft is rotated along the second rotating direction when the elastic piece is reset.

Further, the cutting mechanism further includes: and the pressing part is connected with the cutting piece so as to drive the cutting piece to move along the first preset direction by pressing the pressing part.

Further, the manufacturing device further includes: a fixing portion for mounting a winding member wound from a strip material, the winding member being rotatably provided with respect to the fixing portion; the transmission roller is rotatably arranged and is used for being connected with one end of the strip-shaped material so as to enable the strip-shaped material to be wound on the transmission roller.

Further, the manufacturing device further includes: the support piece comprises a support part, wherein the support part is used for supporting the strip-shaped material, and the support part forms a moving channel extending along a second preset direction so as to enable the strip-shaped material to move along the moving channel.

Further, the support part comprises a first support part and a second support part, the first support part is provided with a first groove, and the second support part is provided with a second groove; the notch of the first groove and the notch of the second groove are oppositely arranged, the first groove penetrates through the first supporting part along the second preset direction, and the second groove penetrates through the second supporting part along the second preset direction; a moving channel is formed between the first groove and the second groove.

Further, the supporting piece further comprises a bearing part, and the bearing part is positioned at one side of the supporting part far away from the cutting mechanism; the bearing part is obliquely arranged relative to the horizontal plane.

Further, the supporting piece further comprises a connecting part, and the supporting part is connected with the bearing part through the connecting part; an opening is formed among the connecting part, the supporting part and the bearing part, so that the piece to be manufactured slides out of the opening.

By applying the technical scheme of the utility model, the manufacturing device comprises a cutting mechanism and a transmission mechanism, wherein the cutting mechanism comprises a cutting piece, and the first preset direction is the vertical direction shown in the figure. When a piece to be manufactured on a strip-shaped material needs to be cut, the piece to be manufactured and the end part of the piece to be manufactured are oppositely arranged, the cutting mechanism drives the piece to be manufactured to move downwards along a first preset direction, the end part of the piece to be manufactured is guaranteed to be pressed on the corresponding piece to be manufactured, then the piece to be manufactured is extruded to extrude the piece to be manufactured to move downwards along the first preset direction, the piece to be manufactured is separated from the strip-shaped material, the piece to be manufactured is extruded from the strip-shaped material by the cutting mechanism, after cutting is finished, the cutting mechanism drives the piece to move upwards along the first preset direction, at least part of the transmission mechanism drives the strip-shaped material to move, and a plurality of pieces to be manufactured are sequentially moved to positions opposite to the end part of the piece to be manufactured next time.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. In the drawings:

fig. 1 shows a schematic view of an embodiment of a production device according to the utility model;

fig. 2 shows a schematic view of a strip of material and a piece to be manufactured suitable for use in the manufacturing apparatus of the present utility model.

Wherein the above figures include the following reference numerals:

10. a strip material; 11. a winding member; 12. a piece to be manufactured; 20. a cutting mechanism; 21. cutting the piece; 22. a pressing part; 30. a transmission mechanism; 31. a transmission rod; 32. a rotating shaft; 40. a transmission part; 41. a transmission surface; 50. a resisting part; 60. a transmission roller; 70. a support; 71. a support part; 72. a moving channel; 73. a receiving part; 74. a connection part; 75. an opening.

Detailed Description

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. The utility model will be described in detail below with reference to the drawings in connection with embodiments.

It should be noted that the following detailed description is illustrative and is intended to provide further explanation of the present application. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments in accordance with the present application. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

Referring to fig. 1, referring to a manufacturing apparatus for cutting a piece 12 to be manufactured on a strip material 10, the strip material 10 includes a plurality of pieces 12 to be manufactured sequentially arranged along an extending direction thereof, and the manufacturing apparatus includes: the cutting mechanism 20 performs reciprocating linear motion along a first preset direction, the cutting mechanism 20 comprises a cutting piece 21, the shape of the end part of the cutting piece 21 is matched with the shape of the piece 12 to be manufactured, so that the cutting piece 21 is pressed on the piece 12 to be manufactured and the piece 12 to be manufactured is pressed out of the strip-shaped material 10; the transmission mechanism 30 is at least partially movably arranged, so that at least part of the transmission mechanism 30 drives the strip-shaped material 10 to move, and the plurality of pieces to be manufactured 12 sequentially move to a position opposite to the end of the cutting piece 21.

The manufacturing device of the utility model comprises a cutting mechanism 20 and a transmission mechanism 30, wherein the cutting mechanism 20 comprises a cutting piece 21, and the first preset direction is the vertical direction shown in fig. 1. When the piece 12 to be manufactured on the strip-shaped material 10 needs to be cut, the piece 12 to be manufactured is arranged opposite to the end part of the piece 21 to be manufactured, the cutting mechanism 20 drives the piece 21 to move downwards along the first preset direction, the end part of the piece 21 to be manufactured is guaranteed to be pressed on the corresponding piece 12 to be manufactured, then the piece 21 is pressed to the piece 12 to be manufactured, the piece 12 to be manufactured moves downwards along the first preset direction, the piece 12 to be manufactured is separated from the strip-shaped material 10, the piece 21 to be manufactured is pressed out of the strip-shaped material 10, after the cutting is finished, the cutting mechanism 20 drives the piece 21 to move upwards along the first preset direction, and at least part of the transmission mechanism drives the strip-shaped material 10 to move, so that the pieces 12 to be manufactured sequentially move to the position opposite to the end part of the piece 21 to be manufactured, and the piece 21 waits for the next cutting.

Optionally, the piece 12 to be manufactured is a label, a piece of universal label paper and a bank number calling certificate, and the strip-shaped material 10 is a paper tape, wherein the universal label paper can be left white, so that a user can record corresponding data conveniently, and semi-automation is realized; by changing the strip material 10 in different modes, the diversification of the pieces 12 to be manufactured is realized; the strip material 10 needs to be pre-cut before cutting the piece 12 to be manufactured, ensuring that the piece 12 to be manufactured can be pressed out smoothly.

It should be noted that the manufacturing apparatus of the present disclosure may be used in the financial field, and may also be used in any field other than the financial field, and the application field of the manufacturing apparatus of the present disclosure is not limited.

Specifically, as shown in fig. 2, the structure of the strip material 10 is that the piece 12 to be manufactured on the strip material 10 is pre-cut as shown in fig. 2, and when the cutting piece 21 is pressed down, the piece 12 to be manufactured is ensured to be punched out neatly.

In the present embodiment, the transmission mechanism 30 includes: the transmission rod 31 is connected with the cutting mechanism 20, so that the cutting mechanism 20 drives the transmission rod 31 to do reciprocating linear motion along a first preset direction, and the transmission rod 31 is inserted into a through hole formed on the strip-shaped material 10 after the piece 12 to be manufactured is separated from the strip-shaped material 10, or the transmission rod 31 is separated from the strip-shaped material 10; the transmission rod 31 is rotatably provided in the first rotation direction to move the belt-like material 10 when the transmission rod 31 is inserted into the through hole.

Specifically, the first rotational direction is a counterclockwise direction. After the piece to be manufactured 12 is pressed out of the strip-shaped material 10 by the cutting piece 21, a through hole is formed in the strip-shaped material 10, when the cutting mechanism 20 cuts the piece to be manufactured 12 for the next time, the cutting mechanism 20 drives the transmission rod 31 to move downwards along the first preset direction, so that the transmission rod 31 can be inserted into the through hole in the strip-shaped material, the transmission rod 31 is connected with the strip-shaped material 10, and when the transmission rod 31 rotates along the first rotation direction, the strip-shaped material 10 is driven to move, so that a plurality of pieces to be manufactured 12 sequentially move to the position opposite to the end parts of the cutting piece 21, the end parts of the cutting piece 21 can be pressed onto the corresponding pieces to be manufactured 12, and the pieces to be manufactured 12 can be pressed out smoothly; when the cutting mechanism drives the transmission rod 31 to move upwards along the first preset direction, the transmission rod 31 is pulled out of the through hole of the strip-shaped material 10, so that the transmission rod 31 is separated from the strip-shaped material 10.

Alternatively, the transmission rod 31 is a metal rod.

In this embodiment, the manufacturing apparatus further includes: the transmission part 40 is provided with a transmission surface 41, and the transmission surface 41 is obliquely arranged relative to the first preset direction so that one end of the transmission rod 31 abuts against the transmission surface 41 and rotates along the first rotation direction when the transmission rod 31 moves towards the transmission surface 41 along the first preset direction.

Specifically, the first preset direction is a vertical direction in fig. 1, the second preset direction is a horizontal direction shown in fig. 1, and the first preset direction is perpendicular to the second preset direction. The transmission surface 41 is obliquely arranged relative to the horizontal plane and the vertical plane, the transmission surface 41 is provided with a first end and a second end which are oppositely arranged, and the first end of the transmission surface 41 is positioned at one side of the second end close to the cutting piece; when the transmission rod 31 moves downwards along the first preset direction, one end of the transmission rod 31 is propped against the transmission surface 41, so that the contact point between one end of the transmission rod 31 and the transmission surface 41 gradually moves rightwards along the second preset direction, and the transmission rod 31 rotates along the first rotation direction.

In the present embodiment, the transmission lever 31 is rotatably provided in a second rotation direction, which is opposite to the first rotation direction; the manufacturing device further comprises: the resisting part 50 is connected with the cutting mechanism 20 and is positioned between the cutting mechanism 20 and the transmission rod 31 to stop the transmission rod 31 when the transmission rod 31 rotates in the second rotation direction.

Specifically, the second rotation direction is a clockwise direction. The abutment 50 is used for stopping the transmission rod 31, so that the transmission rod 31 stops rotating along the second rotation direction, and the transmission rod 31 moves to a position opposite to the through hole on the strip-shaped material 10, thereby ensuring that the end part of the transmission rod 31 can be inserted into the through hole of the strip-shaped material 10 when the cutting mechanism 20 cuts the piece 12 to be manufactured next time. When the workpiece 12 to be manufactured is cut, the cutting mechanism 20 moves upwards along the first preset direction, drives the transmission rod 31 to move upwards along the first preset direction, the transmission rod 31 is not propped against the transmission surface 41, the transmission rod 31 is pulled out of the through hole on the strip-shaped material 10, the transmission rod 31 stops rotating along the first rotation direction at this time, and starts rotating along the second rotation direction until being blocked by the blocking part 50, and the transmission rod 31 stops rotating along the second rotation direction.

In the present embodiment, the transmission lever 31 is rotatably provided in a second rotation direction, which is opposite to the first rotation direction; the transmission mechanism 30 further includes: the rotating shaft 32 is rotationally connected with the cutting mechanism 20, the rotating shaft 32 is respectively and rotatably arranged along a first rotating direction and a second rotating direction, and the rotating shaft 32 is fixedly connected with the transmission rod 31; an elastic member disposed between the rotary shaft 32 and the cutting mechanism 20 to compress the elastic member when the rotary shaft 32 rotates in the first rotation direction and to rotate the rotary shaft 32 in the second rotation direction when the elastic member is reset.

Specifically, when the transmission rod 31 drives the rotation shaft 32 to rotate along the first rotation direction, the rotation shaft 32 extrudes the elastic member, the elastic member is full of elastic force, and when the transmission rod 31 stops rotating along the first rotation direction, the elastic member resets, and under the action of the elastic force, the rotation shaft 32 drives the transmission rod 31 to rotate along the second rotation direction.

In the present embodiment, the cutting mechanism 20 further includes: the pressing part 22 is connected with the cutting piece 21, so that the pressing part 22 is pressed to drive the cutting piece 21 to move along the first preset direction.

Specifically, as shown in fig. 1, the rotating shaft 32 is disposed on the pressing portion 22 and is rotatably connected to the pressing portion 22, and a user can press the pressing portion 22 to drive the cutting member 21 to move along the first preset direction, so as to facilitate the operation of the user.

In this embodiment, the manufacturing apparatus further includes: a fixing portion for mounting a winding member 11 wound from a band-like material 10, the winding member 11 being rotatably provided with respect to the fixing portion; a driving roller 60 rotatably provided, the driving roller 60 being adapted to be connected to one end of the strip material 10 such that the strip material 10 is wound around the driving roller 60.

In specific implementation, the driving rod 31 drives the strip material 10 to move, the winding piece 11 rotates, and the strip material 10 moves along the direction approaching to the driving roller 60 after unwinding from the winding piece 11 and is gradually wound on the driving roller 60; when the strip-shaped material 10 is installed, the front section of the strip-shaped material 10 is placed in the transmission roller 60, the transmission roller 60 enables the strip-shaped material 10 to be in a stretched state all the time, the cutting piece 21 is helped to smoothly press out the piece 12 to be manufactured, and a blank section can be arranged at the front section of the strip-shaped material 10, so that waste is avoided.

Alternatively, the driving roller 60 is powered on to start rotating, and can set an operating time of 3 seconds, the cutting mechanism 20 moves downwards along the first preset direction each time, the driving roller rotates for 3 seconds and then stops working, the belt-shaped material 10 is ensured to be in a tight state, the driving roller 60 only aims to ensure that the belt-shaped material in a suspended state is in a horizontal position, and the pulling force on the belt-shaped material 10 is mainly provided by the movement of the driving rod 31.

In this embodiment, the manufacturing apparatus further includes: the support 70 includes a support portion 71 for supporting the strip material 10, the support portion 71 forming a moving path 72 extending in a second preset direction to move the strip material 10 along the moving path 72. The arrangement is that the supporting piece 70 supports the strip-shaped material 10 through the supporting part 71, so that the strip-shaped material 10 is prevented from falling off due to extrusion, and the manufacture of the piece 12 to be manufactured is prevented from being influenced; the moving channel 72 is used for limiting the moving direction of the strip material 10, so that the strip material 10 moves along the second preset direction under the driving of the driving rod 31.

Specifically, the supporting portion 71 is provided between the fixed portion and the transmission roller 60.

In the present embodiment, the support portion 71 includes a first support portion on which a first groove is provided and a second support portion on which a second groove is provided; the notch of the first groove and the notch of the second groove are oppositely arranged, the first groove penetrates through the first supporting part along the second preset direction, and the second groove penetrates through the second supporting part along the second preset direction; the moving channel 72 is formed between the first groove and the second groove, and two ends of the strip-shaped material 10 are respectively clamped on the first groove and the second groove, so that the connection reliability of the strip-shaped material 10 and the supporting part 71 is further enhanced, the connection reliability of the strip-shaped material 10 and the supporting part 70 is further enhanced, and the strip-shaped material is prevented from falling.

In the present embodiment, the support member 70 further includes a receiving portion 73, and the receiving portion 73 is located at a side of the support portion 71 away from the cutting mechanism 20; the receiving portion 73 is disposed obliquely with respect to the horizontal plane, so that the to-be-manufactured piece 12 is separated from the strip-shaped material 10, falls onto the receiving portion 73, and slides out along the oblique direction of the receiving portion 73, thereby facilitating the collection of the to-be-manufactured piece 12.

In the present embodiment, the support 70 further includes a connection portion 74, and the support portion 71 and the receiving portion 73 are connected by the connection portion 74; an opening 75 is formed among the connecting portion 74, the supporting portion 71 and the receiving portion 73, so that the member to be manufactured 12 slides out of the opening 75.

Specifically, the connection portion 74 is configured to connect the support portion 71 and the receiving portion 73, so that an opening 75 is formed among the connection portion 74, the support portion 71 and the receiving portion 73, and the to-be-manufactured piece 12 falls onto the receiving portion 73 and slides out after sliding the opening 75 along the oblique direction of the receiving portion 73, which is helpful for collecting the to-be-manufactured piece 12. In addition, the arrangement improves the integrity of the manufacturing device and has compact structure.

In particular, the transmission portion 40 is connected to the connection portion 74, which is part of the support member 70, and this arrangement improves the integrity of the manufacturing apparatus and results in a compact structure.

In particular, when the user presses down through the pressing portion 22, the cutting mechanism 20 moves downward along the first preset direction, the cutting member 21 presses the member 12 to be manufactured out of the strip material 10, falls into the receiving portion 73, slides out after sliding the opening 75 along the oblique direction of the receiving portion 73; when the cutting mechanism 20 moves downwards along the first preset direction again, the transmission rod 31 simultaneously moves downwards along the first preset direction, the transmission surface 41 is obliquely arranged relative to the first preset direction, so that one end of the transmission rod 31 is propped against the transmission surface 41 and rotates along the first rotation direction to drive the strip-shaped material 10 to move, and the transmission roller 60 enables the strip-shaped material 10 to be in a tightening state all the time; when the cutting is completed, the cutting mechanism 20 moves upward in the first preset direction, the transmission rod 31 is pulled out from the through hole and starts to rotate in the second rotation direction until the transmission rod 31 hits the resisting part 50, and the resisting part 50 stops the transmission rod 31 from rotating in the second rotation direction, so that the transmission rod 31 moves to a position opposite to the through hole on the strip material 10 to ensure that the initial position of the transmission rod 31 is just above the square hole when the transmission rod is compressed next time.

From the above description, it can be seen that the above embodiments of the present utility model achieve the following technical effects:

the manufacturing device can manufacture uniform type labels or all professional general labels, can meet the function of a number calling printer of a temporary website of a bank, can finish various label manufacturing by replacing the strip material 10, such as manufacturing standard number calling certificates, and sequentially issuing the labels to customers, thereby effectively solving the problem that the temporary website cannot use a number calling machine to call numbers and queuing, unifying the bank label types, and improving the bank image; the device is simple, a complex electronic system is not needed, the manual direct operation is needed, and a user can directly operate at a cabinet opening or other needed places, so that the quick label making is realized; the device does not need to frequently replace consumable materials, and the use cost is saved as much as possible.

The manufacturing device of the utility model comprises a cutting mechanism 20 and a transmission mechanism 30, wherein the cutting mechanism 20 comprises a cutting piece 21, and the first preset direction is the vertical direction shown in fig. 1. When the piece 12 to be manufactured on the strip-shaped material 10 needs to be cut, the piece 12 to be manufactured is arranged opposite to the end part of the piece 21 to be manufactured, the cutting mechanism 20 drives the piece 21 to move downwards along the first preset direction, the end part of the piece 21 to be manufactured is guaranteed to be pressed on the corresponding piece 12 to be manufactured, then the piece 21 is pressed to the piece 12 to be manufactured, the piece 12 to be manufactured moves downwards along the first preset direction, the piece 12 to be manufactured is separated from the strip-shaped material 10, the piece 21 to be manufactured is pressed out of the strip-shaped material 10, after the cutting is finished, the cutting mechanism 20 drives the piece 21 to move upwards along the first preset direction, and at least part of the transmission mechanism drives the strip-shaped material 10 to move, so that the pieces 12 to be manufactured sequentially move to the position opposite to the end part of the piece 21 to be manufactured, and the piece 21 waits for the next cutting.

It should be noted that the terms "first," "second," and the like in the description and claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that embodiments of the present application described herein may be capable of being practiced otherwise than as specifically illustrated and described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Spatially relative terms, such as "above … …," "above … …," "upper surface at … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial location relative to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "above" or "over" other devices or structures would then be oriented "below" or "beneath" the other devices or structures. Thus, the exemplary term "above … …" may include both orientations of "above … …" and "below … …". The device may also be positioned in other different ways (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (11)

1. A manufacturing apparatus for cutting a member (12) to be manufactured on a strip-like material (10), the strip-like material (10) including a plurality of the members (12) to be manufactured which are sequentially arranged along an extending direction thereof, the manufacturing apparatus comprising:

the cutting mechanism (20) performs reciprocating linear motion along a first preset direction, the cutting mechanism (20) comprises a cutting piece (21), the shape of the end part of the cutting piece (21) is matched with the shape of the piece (12) to be manufactured, so that the cutting piece (21) is pressed on the piece (12) to be manufactured and the piece (12) to be manufactured is pressed out of the strip-shaped material (10);

and the transmission mechanism (30) is movably arranged at least partially, so that at least part of the transmission mechanism (30) drives the strip-shaped material (10) to move, and a plurality of pieces to be manufactured (12) are sequentially moved to a position opposite to the end part of the cutting piece (21).

2. The production device according to claim 1, wherein the transmission mechanism (30) comprises:

the transmission rod (31) is connected with the cutting mechanism (20) so that the cutting mechanism (20) drives the transmission rod (31) to do reciprocating linear motion along the first preset direction, and the transmission rod (31) is inserted into a through hole formed in the strip-shaped material (10) after the piece (12) to be manufactured is separated from the strip-shaped material (10), or the transmission rod (31) is separated from the strip-shaped material (10);

the transmission rod (31) is rotatably arranged along a first rotation direction so as to drive the strip-shaped material (10) to move when the transmission rod (31) is inserted into the through hole.

3. The production apparatus according to claim 2, characterized in that the production apparatus further comprises:

the transmission part (40) is provided with a transmission surface (41), and the transmission surface (41) is obliquely arranged relative to the first preset direction, so that when the transmission rod (31) moves towards the transmission surface (41) along the first preset direction, one end of the transmission rod (31) is abutted against the transmission surface (41) and rotates along the first rotation direction.

4. The production device according to claim 2, characterized in that the transmission rod (31) is rotatably arranged in a second rotational direction, which is opposite to the first rotational direction; the manufacturing device further includes:

and a resisting part (50) connected with the cutting mechanism (20) and positioned between the cutting mechanism (20) and the transmission rod (31) so as to stop the transmission rod (31) when the transmission rod (31) rotates along the second rotation direction.

5. The production device according to claim 2, characterized in that the transmission rod (31) is rotatably arranged in a second rotational direction, which is opposite to the first rotational direction; the transmission mechanism (30) further includes:

the rotating shaft (32) is rotationally connected with the cutting mechanism (20), the rotating shaft (32) is respectively and rotatably arranged along the first rotating direction and the second rotating direction, and the rotating shaft (32) is fixedly connected with the transmission rod (31);

and an elastic member disposed between the rotating shaft (32) and the cutting mechanism (20) to compress the elastic member when the rotating shaft (32) rotates in the first rotation direction and to rotate the rotating shaft (32) in the second rotation direction when the elastic member is reset.

6. The production apparatus according to any one of claims 1 to 5, wherein the cutting mechanism (20) further comprises:

and the pressing part (22) is connected with the cutting piece (21) so as to drive the cutting piece (21) to move along the first preset direction by pressing the pressing part (22).

7. The production apparatus according to any one of claims 1 to 5, further comprising:

a fixing portion for mounting a winding member (11) wound from the strip material (10), the winding member (11) being rotatably provided with respect to the fixing portion;

and the transmission roller (60) is rotatably arranged, and the transmission roller (60) is used for being connected with one end of the strip-shaped material (10) so as to enable the strip-shaped material (10) to be wound on the transmission roller (60).

8. The production apparatus according to any one of claims 1 to 5, further comprising:

-a support (70) comprising a support portion (71), the support portion (71) being adapted to support the strip material (10), the support portion (71) forming a movement channel (72) extending in a second preset direction for moving the strip material (10) along the movement channel (72).

9. The manufacturing device according to claim 8, characterized in that the support (71) comprises a first support and a second support, the first support being provided with a first recess and the second support being provided with a second recess; the notch of the first groove and the notch of the second groove are oppositely arranged, the first groove penetrates through the first supporting part along the second preset direction, and the second groove penetrates through the second supporting part along the second preset direction;

the first groove and the second groove form the moving channel (72) therebetween.

10. The manufacturing device according to claim 8, wherein the support (70) further comprises a receiving portion (73), the receiving portion (73) being located at a side of the support portion (71) remote from the cutting mechanism (20); the receiving part (73) is arranged obliquely relative to the horizontal plane.

11. The manufacturing apparatus according to claim 10, wherein the support member (70) further includes a connecting portion (74), the support portion (71) and the receiving portion (73) being connected by the connecting portion (74); an opening (75) is formed among the connecting part (74), the supporting part (71) and the bearing part (73) so that the piece (12) to be manufactured slides out of the opening (75).

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