CN217457345U - Seal storage device - Google Patents

Abstract

The utility model provides a seal storage device, it includes: the seal device comprises a seal frame, a seal transmission device and a driving assembly; the seal rack is used for storing a plurality of seals; the driving assembly is connected with the seal transferring device and used for driving the seal transferring device to move to any position corresponding to the seal, so that the seal transferring device can take out or put back the corresponding seal; the seal frame is arranged around the driving assembly. Through combining the above-mentioned seal frame around drive assembly and the drive assembly that can remove to arbitrary seal department, the utility model provides a seal storage device can save a plurality of seals and put in a flexible way a plurality of seals to get.

Description

Seal storage device

Technical Field

The utility model relates to a seal machine technical field specifically, relates to a seal storage device.

Background

With the continuous enlargement of scales of organs, enterprises, institutions and the like, branch institutions are numerous, and higher requirements are put forward on the management of the seals. At present, in order to automatically manage a large number of seals required by a business, a seal storage device is proposed in the prior art to store and manage a plurality of seals. However, in the conventional seal storage device, the position between the seal taking device and the seal storing device is often fixed, and therefore, it is difficult to take and place a designated seal among a plurality of stored seals.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least, provide a seal storage device, it can save a plurality of seals and put in a flexible way a plurality of seals.

In order to realize the utility model discloses an object provides a seal storage device, and it includes: the seal device comprises a seal frame, a seal transmission device and a driving assembly; the seal rack is used for storing a plurality of seals; the driving assembly is connected with the seal transmission device and used for driving the seal transmission device to move to a position corresponding to any seal, so that the seal transmission device can take out or put back the corresponding seal; the seal frame is arranged around the driving assembly.

Optionally, the seal frame includes a plurality of storage locations, and the storage locations are arranged in multiple columns;

the storage bits are arranged around a designated axis, and each storage bit is parallel to the designated axis.

Optionally, the driving assembly includes a first driving rail, a first power source and a second power source; wherein,

the extending direction of the first driving track is parallel to the specified axis, and the first driving track is in sliding fit with the seal transferring device;

the first power source is used for driving the seal conveying device to move along the first driving track; the second power source is used for driving the first driving track to rotate around the designated axis.

Optionally, the drive assembly further comprises a second drive rail and a third power source;

the extending direction of the second driving track is vertical to the appointed axis, and one end of the first driving track is in sliding fit with the second driving track; the third power source is used for driving the first driving rail to move to the designated axis.

Optionally, the first power source includes a driving pulley, a driving belt sleeved on the driving pulley, and a first motor;

the transmission belt is connected with the seal transmission device, and the first motor is used for driving the transmission belt wheel to rotate so as to drive the transmission belt to drive the seal transmission device to move;

the second power source comprises a second motor, and the output end of the second motor is connected with the end part of the first driving track to drive the first driving track to rotate.

Optionally, the seal frame includes a plurality of sub-seal frames, and the sub-seal frames are used for storing at least one row of the seals;

the plurality of sub-seal frames are arranged in parallel.

Optionally, the plurality of sub-stamp frames are distributed along the side of the designated regular polygon.

Optionally, the seal storage device further comprises a limiting structure, and the limiting structure is used for limiting the seal located in the seal frame to a preset position;

the seal transferring device comprises a seal clamp, and the seal clamp can clamp the seal positioned on the preset position.

Optionally, the device further comprises a housing and a support structure located in the housing;

the support structure comprises a plurality of support bars; the plurality of supporting bars are arranged at positions corresponding to each side of the shell and used for supporting the shell;

and the support bars are connected with the corresponding seal frames to fix the seal frames.

Optionally, a transmission port is formed in the housing, and the transmission port is used for transmitting the seal.

The utility model discloses following beneficial effect has:

the utility model provides a seal storage device, which comprises a seal frame, a seal transmission device and a driving component, wherein the seal frame can store a plurality of seals; the seal transferring device can take or release the seal, and the driving assembly connected with the seal transferring device can drive the seal transferring device to move to a position corresponding to any one seal, so that the seal transferring device can take any one of the plurality of seals out of the seal frame or place the seal into any one position of the seal frame, and therefore the appointed seal in the stored plurality of seals is taken out or placed. Moreover, the seal frame is arranged around the driving assembly, so that the stroke of the driving assembly can be effectively shortened, the taking and placing speed of the seal transmission device can be increased, and a plurality of seals can be taken and placed quickly.

Drawings

Fig. 1 is a schematic view of an internal structure of a seal storage device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a driving assembly according to an embodiment of the present invention;

fig. 3 is a top view of an internal structure of a seal storage device according to an embodiment of the present invention;

fig. 4 is an appearance schematic diagram of the seal storage device provided by the embodiment of the present invention.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the following describes the seal storage device in detail with reference to the attached drawings.

This embodiment provides a seal storage device, it includes: seal frame 1, pass chapter device 2 and drive assembly 4. The stamp holder 1 is used for storing a plurality of stamps 3. The driving assembly 4 is connected with the seal transferring device 2 and used for driving the seal transferring device 2 to move to a position corresponding to any seal 3, so that the seal transferring device 2 can take out or put back any seal 3 corresponding to any position, and the plurality of seals 3 can be taken out or put back. The seal frame 1 is arranged around the driving component 4 to shorten the stroke of the driving component 4 and reduce the difference of the time length for the driving component 4 to reach the corresponding positions of different seals 3, thereby improving the picking and placing speed of the seal conveying device 2. It can be seen that the seal storage device in this embodiment can realize taking and placing the seals at any positions fast by combining the seal frame 1, the seal transmission device 2 and the driving assembly 4, that is, can realize taking and placing a plurality of seals flexibly.

In some embodiments, as shown in fig. 1, stamp holder 1 includes a plurality of storage locations arranged in a plurality of columns. The plurality of columns of storage bits are arranged about a designated axis, and each column of storage bits is parallel to the designated axis.

In some embodiments, as shown in fig. 2, drive assembly 4 includes a first drive track 41, a first power source 42, and a second power source 43. Wherein, the extending direction of the first driving track 41 is parallel to the designated axis, and the first driving track 41 is in sliding fit with the chapter transferring device 2; the first power source 42 is used for driving the chapter conveying device 2 to move along the first driving track 41; the second power source 43 is used to drive the first drive rail 41 to rotate about a given axis. Specifically, in some preferred embodiments, the extending direction of the first driving rail 41 overlaps with the designated axis, that is, multiple rows of storage bits are arranged around the extending direction of the first driving rail 41, so that the stroke lengths of the stamp taking devices when transferring the stamps 3 on different rows of storage bits are the same, thereby reducing the possibility of different wear of components and avoiding a failure caused by serious wear of one component in the driving assembly 4 after the stamp storage device has been operated for a certain period of time.

Specifically, as shown in fig. 1, if the stamp storage apparatus in this embodiment is placed in a cylindrical coordinate system with a designated axis as a z-axis, the extending direction of the first driving rail 41 can be regarded as parallel to the z-axis, so that the first power source 42 can drive the stamp transferring device 2 to move along the z-axis direction, and the second power source 43 can drive the stamp transferring device 2 to rotate around the z-axis direction, so that the moving path of the stamp transferring device 2 can cover a polar coordinate system perpendicular to the z-axis, so that the moving path of the stamp transferring device 2 can cover each position of a cylindrical space enclosed by the stamp holder 1, and further, the stamp transferring device 2 can be driven to a position corresponding to any stamp 3, thereby transferring any stamp 3.

In some embodiments, the second power source 43 comprises a stepper motor, and the power output end of the stepper motor is connected to the lower end of the first driving rail 41.

In some embodiments, as shown in fig. 2, the first power source 42 includes a pulley 421 with a transmission belt 422, a transmission belt 422 sleeved on the pulley 421, and a first motor 423. Wherein, the transmission belt 422 is connected with the chapter transmission device 2, and the first motor 423 is used for driving the transmission belt wheel 421 to rotate, so as to drive the transmission belt 422 to drive the chapter transmission device 2 to move. The second power source 43 includes a second motor, and an output end of the second motor is connected to an end portion of the first driving rail 41 to drive the first driving rail 41 to rotate about a designated axis.

In some embodiments, as shown in fig. 2, the first driving rail 41 includes four supporting columns, one limiting column, and a connecting plate and a base for fixing the supporting columns and the limiting column. The base is positioned at the bottom ends of the supporting column and the limiting column; the first motor 423 is fixed between the four support columns; the plurality of driving belt wheels 421 are fixed on one of the supporting columns, the driving belt 422 is sleeved on the plurality of driving belt wheels 421 and tensioned, and specifically, the supporting columns are also provided with tensioning devices, such as tensioning wheels; the seal transmission device 2 is sleeved on the limiting column to further limit the movement of the seal transmission device 2 to slide along the peripheral surface of the limiting column; the seal-transferring device 2 is fixedly connected to a certain point on the transmission belt 422, so that when the first motor 423 drives the transmission belt wheel 421 to rotate, the transmission belt 422 drives the seal-transferring device 2 to slide along the outer peripheral surface of the limiting column. The main part of above-mentioned second motor is connected fixedly with the base, and the power take off end of second motor is connected with the connecting plate that is used for fixed stay post and spacing post bottom to drive support column, spacing post and pass chapter device 2 synchronous revolution. In some preferred embodiments, the base and the connecting plate are connected by crossed roller bearings, so as to reduce friction for relative rotation between the base and the connecting plate as much as possible and provide a supporting force for the connecting plate in a direction parallel to the supporting column.

In some embodiments, drive assembly 4 further includes a second drive track and a third power source. Wherein, the extending direction of the second driving track is perpendicular to the designated axis, and one end of the first driving track 41 is in sliding fit with the second driving track; the third power source is used for driving the first driving rail 41 to move to the designated axis, so as to drive the first driving rail to move to a position close to the stamp to be transferred when the number of stored stamps is large and the space enclosed by the stamp frame 1 is large. Moreover, in some embodiments, if the space enclosed by the stamp holder 1 is large, the number of the designated axes is not limited to one.

In particular, in some embodiments, the second drive track may be disposed on a bottom plate surface of the stamp storage device. Alternatively, in other embodiments, the second drive track is disposed on a top plate surface of the stamp storage device.

In some embodiments, as shown in fig. 1, the stamp holder 1 includes a plurality of sub-stamp holders 11 arranged in parallel, each sub-stamp holder 11 being configured to store at least one column of stamps 3. Preferably, the sub-stamp frame 11 stores only one row of the stamps 3, so that when a plurality of the sub-stamps 3 are arranged around a designated axis, the overall structure is compact, thereby increasing the stamp transferring speed by shortening the stamp transferring stroke of the stamp transferring device 2.

Specifically, in some preferred embodiments, as shown in fig. 1, each sub-stamp holder 11 includes two support rods arranged in parallel; still be provided with a plurality of layer boards between two bracing pieces, a plurality of layer boards interval are arranged to support seal 3 of placing on the layer board. However, the number of the pallets of the stamp holder 11 in the present embodiment is not limited to 10 as shown in fig. 1.

In some embodiments, a plurality of sub-stamp holders 11 are distributed along the sides of a given regular polygon, with the center of the given regular polygon overlapping the given axis. Specifically, as shown in fig. 1, since the outer frame of the stamp storage apparatus is substantially cubic, the number of sides of the predetermined regular polygon is an even number, for example, a square or a regular hexagon, in order to facilitate mounting the sub-stamp holder 11 in the outer frame.

In some preferred embodiments, as shown in fig. 3, a plurality of sub-stamp holders 11 are arranged along the side of a regular octagon. Specifically, as shown in fig. 3, the top plate and the bottom plate of the stamp storage device are substantially square, and correspondingly, the stamp storage device is substantially square-cylindrical; one part of the sub-seal frames 11 are fixed on four side faces of the square column, the other part of the sub-seal frames 11 are fixed at four side edges of the square column, and therefore the arrangement of the sub-seal frames 11 along the side faces of the regular octagon can ensure that each sub-seal frame 11 can be firmly fixed in a seal storage device frame, and in the process of installing the seal storage device, two side edges of each sub-seal frame 11 are fixedly connected with the frame to complete installation, so that the installation process is greatly simplified.

In some embodiments, as shown in fig. 1 and 4, the stamp storage device further includes a housing 5 and a support structure located within the housing 5. The supporting structure comprises a plurality of supporting bars; a plurality of support bars are provided at positions corresponding to each side of the housing 5 to support the housing 5; moreover, a plurality of support bars are connected with the corresponding stamp holder 1 for fixing the stamp holder 1.

In some preferred embodiments, the support bar is made of hollow aluminum or aluminum alloy, so as to reduce the weight of the stamp storage device while ensuring that the support bar provides enough support force for the housing, thereby facilitating the transportation of the stamp storage device.

In some embodiments, the housing has a transmission port (not shown) for transmitting the stamp. Accordingly, the position of the stamp holder 1 corresponding to the transfer port is not used for storing the stamp 3. Taking the structure of the stamp holder 1 shown in the figure as an example, in order to reserve the position of the transmission port, the stamp holder 1 comprises seven sub-stamp holders 11; the seven sub-seal frames 11 are all arranged along seven side edges in the regular octagon to form a gap, so that the seal transmission device 2 drives the seal 3 to move the seal 3 out of the seal storage device through the transmission port, or move the seal 3 outside the seal storage device into the seal storage device.

Since the stamp holder 1 often has many storage locations, if a large number of stamps are transferred from the transfer port only by the stamp transfer device 2, the stamp transfer device 2 needs to repeat the transfer operation many times, which takes a long time. In order to improve the efficiency of storing a plurality of seals, in some embodiments, an access door is provided on the surface of the housing 5 of the seal storage device, and the access door can be located on the top surface or the side surface of the housing 5, so that when the access door is opened, an operator can manually place a plurality of seals in corresponding placement positions on the seal frame 1 one by one, and therefore a plurality of seals required by a service are all placed in the access door before the seal storage device is put into use, so that a certain seal can be taken in a subsequent service, or the seals are placed in the seal storage device.

In some embodiments, as shown in FIG. 4, the bottom of the stamp storage device is also provided with universal wheels to facilitate movement of the stamp storage device.

In some embodiments, the stamp storage device further comprises a limiting structure for limiting the stamp 3 located in the stamp holder 1 to a preset position. The seal transferring device 2 comprises a seal clamp which can clamp the seal 3 at a preset position. Specifically, the seal fixture is connected with the seal 3 in a pin connection mode, so that pin holes in the seal fixture 21 are aligned with pin holes in the seal 3, and the preset position satisfies that the pin holes in the seal fixture are aligned with the pin holes in the seal 3 when the seal transferring device 2 moves to a position corresponding to the seal 3.

In some preferred embodiments, the extension direction of the pin holes in the stamp 3 is perpendicular to the stamp axis.

The seal storage device provided by the embodiment comprises a seal frame, a seal transmission device and a driving assembly, wherein the seal frame can store a plurality of seals; the seal transferring device can take or release the seal, and the driving assembly connected with the seal transferring device can drive the seal transferring device to move to a position corresponding to any one seal, so that the seal transferring device can take any one of the plurality of seals out of the seal frame or place the seal into any one position of the seal frame, and therefore the appointed seal in the stored plurality of seals is taken out or placed. Moreover, the seal frame is arranged around the driving assembly, so that the stroke of the driving assembly can be effectively shortened, the taking and placing speed of the seal transmission device can be increased, and a plurality of seals can be taken and placed quickly.

It is to be understood that the above embodiments are merely exemplary embodiments that have been employed to illustrate the principles of the present invention, and that the present invention is not limited thereto. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit and scope of the invention, and such modifications and improvements are also considered to be within the scope of the invention.

Claims (10)

1. A seal storage device, comprising: the seal device comprises a seal frame, a seal transmission device and a driving assembly; wherein,

the seal frame is used for storing a plurality of seals;

the driving assembly is connected with the seal transmission device and used for driving the seal transmission device to move to a position corresponding to any seal, so that the seal transmission device can take out or put back the corresponding seal;

the seal frame is arranged around the driving assembly.

2. The stamp storage device according to claim 1, wherein the stamp holder includes a plurality of storage locations, the plurality of storage locations being arranged in a plurality of columns;

the storage bits are arranged around a designated axis, and each storage bit is parallel to the designated axis.

3. The stamp storage device of claim 2, wherein the drive assembly includes a first drive track, a first power source, and a second power source; wherein,

the extending direction of the first driving track is parallel to the designated axis, and the first driving track is in sliding fit with the seal conveying device;

the first power source is used for driving the seal conveying device to move along the first driving track; the second power source is used for driving the first driving track to rotate around the designated axis.

4. The stamp storage device of claim 3, wherein the drive assembly further comprises a second drive track and a third power source;

the extending direction of the second driving track is vertical to the appointed axis, and one end of the first driving track is in sliding fit with the second driving track; the third power source is used for driving the first driving rail to move to the designated axis.

5. The stamp storage device according to claim 3, wherein the first power source comprises a driving pulley, a driving belt sleeved on the driving pulley, and a first motor;

the transmission belt is connected with the seal transmission device, and the first motor is used for driving the transmission belt wheel to rotate so as to drive the transmission belt to drive the seal transmission device to move;

the second power source comprises a second motor, and the output end of the second motor is connected with the end part of the first driving track to drive the first driving track to rotate.

6. The stamp storage device according to claim 1, wherein the stamp holder comprises a plurality of sub-stamp holders for storing at least one column of the stamps;

the plurality of sub-seal frames are arranged in parallel.

7. The stamp storage device according to claim 6, wherein a plurality of said sub-stamp holders are distributed along the sides of a designated regular polygon.

8. The stamp storage device according to claim 1, further comprising a limiting structure for limiting the stamp located in the stamp holder to a preset position;

the seal transferring device comprises a seal clamp, and the seal clamp can clamp the seal positioned on the preset position.

9. The stamp storage device of claim 1, further comprising a housing and a support structure located within the housing;

the support structure comprises a plurality of support bars; the plurality of supporting bars are arranged at positions corresponding to each side of the shell and used for supporting the shell;

and the plurality of support bars are connected with the corresponding seal frame and used for fixing the seal frame.

10. The stamp storage device of claim 9, wherein the housing defines a transfer port for transferring the stamp.

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