CN213615162U - Mounting tool for cylindrical spare and accessory parts - Google Patents

Abstract

A mounting tool for cylindrical spare and accessory parts comprises a bearing piece, a pressurizing piece and a transfer piece, wherein the bearing piece is provided with a plurality of bearing positions along a first direction, the pressurizing piece is provided with a plurality of fixing positions along the first direction, and the transfer piece is provided with a plurality of blind hole positions along the first direction; bear position and blind hole position and all align with the fixed position one by one, transport a detachably and set up and bear between piece and the pressure piece, the pressure piece is close to or is kept away from one of them of bearing the piece and transporting along the second direction to obtain cylindricality work piece or with cylindricality work piece cartridge to waiting to adorn on the carrier from transporting. On the one hand, the alignment relation between bearing position, blind hole position and the fixed position is utilized, a plurality of cylindrical workpieces can be obtained from the transfer piece by the pressurizing piece at one time, then the transfer piece is disassembled and the pressurizing piece is operated to move, the plurality of cylindrical workpieces can be synchronously inserted onto the corresponding to-be-loaded carrier, the batch installation operation of the cylindrical workpieces is realized, and due to the fact that manual alignment is not needed one by one, the eyesight damage probability of operators can be reduced, and the operation efficiency is improved.

Description

Mounting tool for cylindrical spare and accessory parts

Technical Field

The utility model relates to a multiplexer utensil technical field, concretely relates to mounting tool of cylindricality accessories.

Background

It is known that, when mounting small-sized cylindrical components, the components are generally aligned one by one and mounted in holes having a diameter corresponding to the diameter by a manual operation, and for example, when mounting cathodes of a gel column for nucleic acid analysis, since the cathodes of the gel column are generally cylindrical metal structures having a length of 40mm and a diameter of 1mm, a long time of high concentration is required for an operator to align and mount the cathodes one by one in the holes preset in the gel column body, which not only has a high operation difficulty, an insurmountable mounting quality, a low mounting operation efficiency, but also is prone to visual fatigue and even visual impairment.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a mounting tool of cylindricality accessories to reach the purpose that improves cylindricality accessories installation effectiveness.

An embodiment provides a mounting tool for a cylindrical fitting, comprising:

the bearing part is provided with a plurality of bearing positions which are sequentially arranged along a first direction and used for bearing a carrier to be loaded;

the pressurizing piece is provided with a plurality of fixing positions which are sequentially arranged along a first direction, the fixing positions are used for accommodating and fixing the first ends of the cylindrical workpieces, the fixing positions are aligned with the bearing positions one by one, the pressurizing piece moves along a second direction to be close to or far away from the bearing part, and the second ends of the cylindrical workpieces are inserted on the corresponding carriers to be loaded when the pressurizing piece is close to the bearing part; and

transport the piece, transport the piece and be equipped with a plurality of blind hole positions of arranging in proper order along first direction, the blind hole position is used for holding the second end of cylindricality work piece, blind hole position and fixed position one-to-one are aimed at, transport a detachably and set up between carrier and the pressurization piece, with being close to shift the first end of cylindricality work piece to fixed position when the pressurization piece.

In one embodiment, the side of the pressure member far away from the bearing member or the transferring member is provided with positioning grooves distributed along a first direction, the fixing position comprises a fixing hole part and a fixing groove part, the fixing groove part is arranged on the groove surface of the positioning groove along a second direction, the fixing hole part is arranged on the side of the pressure member close to the bearing member or the transferring member along the second direction, and the fixing hole part and the fixing groove part are aligned and communicated along the second direction.

In one embodiment, the device further comprises a first guide member distributed along the second direction, the bearing member is fixedly connected with one end of the first guide member, the pressurizing member is slidably connected with the other end of the first guide member, and the transfer member is detachably connected with one side of the first guide member close to the pressurizing member; the pressing member is moved in the second direction by the first guide member to approach or separate from one of the carrier and the transfer member.

In one embodiment, the pressurizing member includes a driving portion and a moving portion, the moving portion is provided with a fixed position, the moving portion is slidably connected with the first guide, and a power output end of the driving portion is connected with the moving portion to drive the moving portion to move along the first guide so as to be close to or far from one of the bearing member and the transferring member.

In one embodiment, the moving part is a strip-shaped structural body made of a magnetic material so as to magnetically attract the first end of the cylindrical workpiece when the moving part is close to the transfer member.

In one embodiment, the transfer member is further provided with positioning notches distributed along the second direction for accommodating at least a portion of the first guide member, so that the blind hole positions are aligned with the fixing positions one by one.

In one embodiment, the method further comprises:

the storage part is provided with a plurality of storage positions which are sequentially arranged along a first direction and used for accommodating cylindrical workpieces; and

the pushing element moves along the second direction to be close to or far away from the storage element, the pushing element is provided with a plurality of pushing columns which are sequentially arranged along the first direction, and the pushing columns are used for being aligned with the storage positions one by one so as to be contacted with the first end of the cylindrical workpiece when the pushing element is close to the storage element, so that the cylindrical workpiece is pushed out of the storage element;

transport piece detachably sets up in the one end that the piece that bulldozes is kept away from to storage piece, blind hole site and storage bit one-to-one are aimed at to hold the follow the second end of the cylindricality work piece that bulldozes in the piece and push away.

In one embodiment, the storing of bits comprises:

the storage cavity part is arranged on the storage piece along a third direction and is used for accommodating and storing a plurality of cylindrical workpieces distributed along the third direction;

the guide hole part is arranged in the storage part along the second direction, is positioned at one end of the storage cavity part in the third direction and is communicated with the storage cavity part, and is aligned with the pushing and pressing columns one by one for accommodating a cylindrical workpiece which is moved out of the storage cavity part; and

the connecting groove part is arranged on one side, away from the pushing and pressing piece, of the storage piece along the second direction, the guide hole part is communicated with the blind hole through the connecting groove part in a one-to-one alignment mode, and therefore when the pushing and pressing column pushes the cylindrical workpiece out of the guide hole part, the second end of the cylindrical workpiece enters the blind hole part through the connecting groove part.

In one embodiment, one of the storage part and the transfer part is provided with a positioning mortise and a positioning mortise, and the other one of the storage part and the transfer part is provided with a positioning mortise and a positioning mortise, wherein the positioning mortise and the positioning mortise are opposite to each other, so that the blind hole positions are aligned with the storage positions one by one.

In one embodiment, the storage device further comprises a second guide member, the second guide member is distributed along the second direction, one end of the second guide member is fixedly connected with the storage member, and the other end of the second guide member is slidably connected with the pushing member, so that the pushing member is close to or far away from the storage member along the second direction through the second guide member.

The mounting tool for the cylindrical spare and accessory parts comprises a bearing part provided with a plurality of bearing positions along a first direction, a pressurizing part provided with a plurality of fixing positions along the first direction and a transferring part provided with a plurality of blind hole positions along the first direction; bear position and blind hole position and all align with the fixed position one by one, transport a detachably and set up and bear between piece and the pressure piece, the pressure piece is close to or is kept away from one of them of bearing the piece and transporting along the second direction to obtain cylindricality work piece or with cylindricality work piece cartridge to waiting to adorn on the carrier from transporting. On the one hand, utilize and bear the weight of the relation of alignment between position, blind hole position and the fixed position, can make at first that the pressurization piece once only obtains a plurality of cylindricality work pieces from transporting the piece, then transport the piece and operate the pressurization piece through dismantling and move, can with the synchronous cartridge of a plurality of cylindricality work pieces to corresponding waiting to adorn on the carrier, realize the mass installation operation to the cylindricality work piece, owing to need not manual alignment one by one, both can effectively reduce operating personnel's eyesight damage probability, can reduce the installation operation degree of difficulty of cylindricality work piece again, create the advantage for improving the operating efficiency.

Drawings

FIG. 1 is a schematic view of the structural assembly of an embodiment of the installation tool during assembly of a transfer member with a compression member;

FIG. 2 is a schematic view of a pressing member of the installation tool according to an embodiment;

FIG. 3 is a schematic view of a transfer member of the installation tool according to an embodiment;

FIG. 4 is a schematic view of the structural assembly of one embodiment of the installation tool during assembly of the transfer member with the storage member;

FIG. 5 is a schematic diagram of a storage member of an installation tool according to one embodiment;

FIG. 6 is a schematic cross-sectional view of a storage member of an installation tool in a second orientation according to an embodiment;

in the figure:

10. a carrier; 20. a pressing member; 21. positioning a groove; 22. a moving part; 30. a storage member; 31. positioning the mortises; 40. a biasing member; 41. pushing the column; 50. a transfer member; 51. a grip portion; 60. a first guide member; 70. a second guide member;

A. a cylindrical workpiece; a. a bearing position; b. fixing the position; b1, a fixed hole part; b2, fixing groove part; c. storing bits; c1, a storage chamber portion; c2, a guide hole part; c3, a joining groove part; d. blind hole sites; e. and positioning the notch.

Detailed Description

The present application will be described in further detail below with reference to the accompanying drawings by way of specific embodiments. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

The mounting tool of the cylindrical spare part provided by the application is mainly used for carrying out batch semi-automatic mounting on the cylindrical metal spare part (namely, the cylindrical workpiece), wherein the cylindrical metal spare part comprises but is not limited to an electrode of a gel column (such as a cathode of a nucleic acid analysis gel column, an electrode of a chromatography column and the like), a metal probe of a sensor and the like; the cylindrical workpieces stored in the storage part are synchronously transferred to the transfer part at one time through the pushing part, then the cylindrical workpieces are transferred to the pressurizing part at one time through the alignment relation between the transfer part and the pressurizing part, and finally the cylindrical workpieces are synchronously and once mounted on the carrier (namely, the to-be-mounted carrier which is matched with the cylindrical workpieces and comprises but not limited to a gel column, a sensor body and the like) through the alignment relation between the pressurizing part and the bearing part, so that the batch mounting operation of the cylindrical workpieces is completed.

In order to clearly and clearly describe the structural layout and the functional matching relationship among the components, the application defines a first direction, a second direction and a third direction for distinguishing the orientation relationship among the described objects; referring to fig. 1, regarding the carrier, the pressure member and the transfer member (also referred to as a first matching component), the first direction, the second direction and the third direction refer to three directions naturally formed in a space environment or a spatial rectangular coordinate system formed by the three directions when the three members are structurally combined or functionally matched, it can be understood that the first direction refers to a left-right direction or an X-axis direction, correspondingly, the second direction refers to an up-down direction or a Z-axis direction, and the third direction refers to a front-back direction or a Y-axis direction. In the same way, referring to fig. 4, regarding the storage element, the pushing element and the transferring element (also referred to as a second matching component), the first direction, the second direction and the third direction are also used to refer to three directions naturally formed in the space environment or a spatial rectangular coordinate system formed by the three directions when the storage element, the pushing element and the transferring element are structurally combined or functionally matched.

Referring to fig. 1 to 6, in one embodiment, an installation tool for cylindrical components is provided, which includes a carrier 10, a pressing member 20, a storage member 30, a pushing member 40, and a transferring member 50. Wherein:

referring to fig. 1, a carrier 10 is mainly used for providing a positioning or fixed placement space for a carrier to be loaded, a plurality of carrying positions a sequentially arranged along a first direction are arranged on the carrier 10, and the structural form of the carrying positions a is matched with the shape form of the carrier to be loaded, so that the carrier to be loaded is positioned and fixedly placed by using the carrying positions a, and the carrier to be loaded can be linearly arranged on the carrier 10 according to a preset distance; during specific operation, carriers to be loaded can be manually and sequentially placed on the bearing position a in advance. It should be noted that the to-be-loaded carrier is a carrier which can be assembled with the cylindrical workpiece a to form a finished product, for example, when the cylindrical workpiece a is a cylindrical electrode, the to-be-loaded carrier may be a gel column, a chromatography column, or the like, and when the cylindrical workpiece a is a metal probe, the to-be-loaded carrier may be a sensor body or the like; meanwhile, since the cylindrical workpiece a generally has two opposite ends, one of the ends of the cylindrical workpiece a is defined as a first end, and the other end of the cylindrical workpiece a is defined as a second end.

Referring to fig. 1 and 2, the pressing member 20 mainly fixes a first end of the cylindrical workpiece a, and drives the cylindrical workpiece a to move, so that a second end of the cylindrical workpiece a can be inserted into the to-be-installed carrier, thereby completing the installation operation of the cylindrical workpiece a; the pressurizing member 20 is provided with a plurality of fixing positions b arranged in sequence along a first direction, and the fixing positions b can accommodate and fix the first end of the cylindrical workpiece a in a magnetic attraction manner, and can also fix the first end of the cylindrical workpiece a in a clamping manner, a clamping manner and the like; and the fixed positions b and the bearing positions a are aligned one by one along a second direction (namely, the distance between the fixed positions b is the preset distance between the carriers to be loaded), so that the cylindrical workpiece A is finally aligned to the pre-installation position of the carriers to be loaded (such as an installation hole which is arranged on the carriers to be loaded and has the diameter equal to the outer diameter of the cylindrical workpiece A). The pressing member 20 is moved in a second direction relative to the carrier 10 to approach or move away from the carrier 10, so as to insert the plurality of cylindrical workpieces a onto the carrier to be loaded aligned therewith at a time and simultaneously while approaching the carrier 10. In one embodiment, the working table part and the hydraulic head part of the manual press in the prior art can be used as the bearing member 10 and the pressurizing member 20 respectively after being partially modified (for example, the bearing position a and the fixing position b are arranged), so that the assembling operation of the cylindrical workpiece a and the to-be-loaded carrier can be completed by manually operating the action of the hydraulic head part. In other embodiments, the pressing member 20 and the carrier 10 may be integrally engaged by a guiding member (e.g., a rail module, etc.) to ensure that the fixing position b can be aligned with the carrying position a when the pressing member 20 moves relative to the carrier 10; of course, the pressing member 20 and the carrier 10 may be of a split structure, and the alignment of the fixing position b and the bearing position a during the movement of the pressing member 20 is achieved by cooperation of a human or other structural members.

Referring to fig. 4, 5 and 6, the storage element 30 is mainly used for storing the cylindrical workpieces a or providing a structure space for the cylindrical workpieces a to be reserved in advance, a plurality of storage locations c are sequentially arranged along a first direction on the storage element 30 so as to be capable of accommodating and storing the plurality of cylindrical workpieces a at the same time, and the spacing between the storage locations c is a preset spacing between the carriers to be loaded, so that at least a part of the plurality of cylindrical workpieces a can be stored in the storage element 30 in a linear arrangement manner.

Referring to fig. 4, the pushing member 40 is mainly used for synchronously pushing out a plurality of cylindrical workpieces a from the storage member 30 at a time for subsequent installation of the cylindrical workpieces a, and the pushing member 40 moves relative to the storage member 30 along a second direction to approach or depart from the storage member 30; the pushing and pressing columns 41 are sequentially arranged in the first direction on the pushing and pressing piece 40, the pushing and pressing columns 41 are aligned with the storage positions c one by one, so that when the pushing and pressing piece 40 approaches the storage piece 30, the pushing and pressing columns 41 extend into the storage positions c and are in contact with the first ends of the cylindrical workpieces A in the corresponding storage positions c, and therefore the cylindrical workpieces A are pushed out of the storage piece 30 in the second direction in the process that the pushing and pressing piece 40 gradually approaches the storage piece 30; in one embodiment, pushing element 40 may be integrally engaged with storage element 30, such as by a guide member (e.g., a rail module, etc.), to ensure that pushing post 41 is aligned with storage location c when pushing element 40 is moved relative to storage element 30.

Referring to fig. 1, 3 and 4, the transfer member 50 is mainly used as a transfer or transfer function device for the cylindrical workpiece a, that is: receiving the cylindrical workpiece a pushed out of the storage member 30 by the pushing member 40 through cooperation with the pushing member 40 and the storage member 30; the cylindrical work a is transferred and fixed on the pressing member 20 by cooperation with the pressing member 20; specifically, the transfer member 50 is detachably disposed between the pressing member 20 and the carrier member 10 and at an end of the storage member 30 away from the pushing member 40, and the disassembling and assembling processes are manually completed; the transfer piece 50 is provided with a plurality of blind hole positions d which are sequentially arranged along a first direction, the blind hole positions d are used for accommodating the second end of the cylindrical workpiece A, when the transfer piece 50 and the storage piece 30 are assembled, the blind hole positions d are aligned with the storage positions c one by one, so that after the pushing piece 40 drives the pushing column 41 to extend into the storage positions c and abut against the first end of the cylindrical workpiece A, the cylindrical workpiece A is pushed towards the direction of the transfer piece 50, and finally the second end of the cylindrical workpiece A enters the blind hole positions d, so that the operation process of receiving the cylindrical workpiece A by the transfer piece 50 is completed; when the transfer member 50 is placed between the bearing member 10 and the pressing member 20, the blind holes d are aligned with the fixing positions b one by one (i.e., the cylindrical workpieces a are aligned with the fixing positions b one by one), and then the pressing member 20 and the transfer member 50 are made to approach each other along the second direction, so that the first end of the cylindrical workpiece a on the transfer member 50 enters the fixing position, and the operation procedure of obtaining and fixing the cylindrical workpiece a by the pressing member 20 is realized; and finally, the transfer member 50 is detached from the position between the bearing member 10 and the pressurizing member 20, and the columnar workpiece A can be finally transferred and inserted onto the to-be-installed carrier by utilizing the alignment relation between the fixing position b and the bearing position a and the characteristic that the pressurizing member 20 moves along the second direction, so that the installation operation process of the columnar workpiece A is completed.

On the one hand, the alignment relations between the blind hole position d and the storage position c, between the blind hole position d and the fixed position c and between the fixed position b and the bearing position a are utilized, the cylindrical workpieces A can be smoothly and massively installed only by operating all relevant functional devices, manual one-by-one alignment is not needed, the probability of visual impairment of operators can be effectively reduced, the difficulty in installation and operation of the cylindrical workpieces A can be reduced, and conditions are created for improving the installation operation efficiency. On the other hand, firstly, the transfer member 50 and the storage member 30 are assembled in a structural combination manner, a plurality of cylindrical workpieces A arranged at preset intervals can be synchronously transferred to the transfer member 50 at one time by utilizing the matching relationship among the transfer member 50, the storage member 30 and the pushing and pressing member 40, then, the transfer member 50 is disassembled, the transfer member 50 and the pressurizing member 20 are assembled in a structural combination manner, the cylindrical workpieces A are synchronously transferred to the pressurizing member 20 at one time by utilizing the matching relationship among the transfer member 50 and the pressurizing member 20, and finally, the cylindrical workpieces A are synchronously mounted on corresponding carriers to be mounted at one time by utilizing the matching relationship among the pressurizing member 20 and the bearing member 10, so that the batch mounting operation of the cylindrical workpieces A is realized, the manual operation and manual equipment are combined, the mounting operation efficiency can be improved, and the manufacturing and using costs of tools are relatively low, The operation and the maintenance are flexible and convenient.

In one embodiment, referring to fig. 1 and 2, the pressing member 20 is provided with positioning grooves 21 distributed along a first direction on a side away from the carrier 10 or the transferring member 50, and the fixing portion b includes a fixing hole portion b1 and a fixing groove portion b2, the fixing groove portion b2 is opened on a groove surface of the positioning groove 21 along a second direction, the fixing hole portion b1 is opened on a side of the pressing member 20 close to the carrier 10 or the transferring member 50 along the second direction, and the fixing hole portion b1 is aligned and communicated with the fixing groove portion b2 along the second direction. The cylindrical workpiece A is abutted by the carrier to be loaded in the installation process, so that an acting force opposite to the movement direction of the pressurizing piece 20 is formed, the cylindrical workpiece A is easy to shake in the installation process, and the installation effect and the installation quality are influenced; therefore, by providing the fixing hole portion b1 and the fixing groove portion b2 to receive and fix the columnar workpiece a at the maximum length distance from the first end side of the columnar workpiece a, it is possible to both prevent the columnar workpiece a from shaking and enhance the fixing effect of the columnar workpiece a; meanwhile, the use of the provided fixing groove portion b2 also facilitates the operator to be able to intuitively penetrate through whether the cylindrical workpiece a is transferred and fixed at a predetermined position of the pressing member 20. Of course, in some embodiments, the fixing groove portion b2 may be omitted, and the first end side of the columnar workpiece a may be accommodated and fixed by directly utilizing the dimensional relationship between the hole diameter of the fixing hole portion b1 and the outer diameter of the columnar workpiece a.

Referring to fig. 1, an embodiment provides an installation tool for a cylindrical workpiece a, further including a first guiding element 60, the first guiding element 60 being distributed along a second direction, the bearing element 10 being fixedly connected to one end of the first guiding element 60, and the pressing element 20 being inserted into the other end of the first guiding element 60, so as to form a sliding connection therebetween, and the transferring element 50 being detachably connected to one side of the first guiding element 60 close to the pressing element 20; thereby, it is possible to combine the carrier 10 and the pressure member 30 into a finished pressure structure part by means of the first guide member 60, and it is possible to ensure a smooth movement of the pressure member 30 and/or the transfer member 50 in the second direction by means of the first guide member 60 to ensure the effect that the cylindrical workpiece a is transferred or mounted; the pressing member 20 moves in the second direction under the guiding action of the first guiding member 60, so that the transfer member 50 and the pressing member 20 are close to or far from each other in the second direction in the presence of the transfer member 50, and the pressing member 20 can be controlled to be close to or far from the carrier 10 in the absence of the transfer member 50, so as to mount the cylindrical workpiece a on the corresponding carrier to be mounted. In this embodiment, the first guiding elements 60 are two and distributed side by side along the first direction between the carrier 10 and the pressing element 20. In another embodiment, the number of the first guiding elements 60 may be one or other, for example, when one first guiding element 60 is used, it may be disposed at a position where the supporting element 10 and the pressing element 20 are centered, and accordingly, the arrangement of the structural positions, such as the supporting position a, the fixing position b, and the blind hole position d, may need to be adjusted adaptively.

In one embodiment, referring to fig. 1 and 2, the pressing member 20 includes a driving portion (not shown) and a moving portion 22, the moving portion 22 is provided with a fixing portion b, the moving portion 22 is slidably connected to the first guide 60, and a power output end of the driving portion is connected to the moving portion 22 to drive the moving portion 22 to move along the first guide 60 to approach or separate from one of the carrier 10 and the transferring member 50. In this embodiment, the driving portion may use the hydraulic head portion of the manual press in the prior art for structural design, which is convenient for controlling the pressing member 20 to perform corresponding actions in a manual operation mode, and does not need to configure auxiliary systems such as wires and fluid paths for the whole tool, thereby reducing the manufacturing and using costs of the tool. In one embodiment, the moving part 22 may adopt a bar-shaped structure made of a magnetic metal material such as a magnet, so as to fix the first end of the cylindrical workpiece a in a magnetic force adsorption manner when the moving part 22 approaches the transfer member 50, and after the cylindrical workpiece a is inserted onto the object carrier, the cylindrical workpiece a is separated from the moving part 22 because the resistance force borne by the cylindrical workpiece a is greater than the magnetic force provided by the moving part 22. Of course, the moving part 22 may be designed by using a jig or the like in the prior art to take out the cylindrical workpiece a from the transfer member 50 in a clamping manner and fix the cylindrical workpiece a.

In one embodiment, referring to fig. 1, 3 and 4, the transferring member 50 is further provided with positioning notches e distributed along the second direction, the positioning notches e are arranged at positions and in numbers corresponding to those of the first guiding member 60, and the shape of the positioning notches e can be matched with that of the first guiding member 60 so as to accommodate at least a part of the first guiding member 60; thus, by using the alignment relationship between the positioning notch e and the first guide 60, the transfer member 50 can be quickly installed between the pressing member 20 and the carrier member 30, and the blind holes d and the fixing positions b are aligned one by one; meanwhile, after the operation process of transferring the cylindrical workpiece a to the pressing member 20 is completed, the transfer member 50 can be quickly detached, which creates an advantageous condition for improving the mounting efficiency of the cylindrical workpiece a.

In one embodiment, referring to fig. 4 and 5, the transferring member 50 is further provided with positioning tenon-and-mortise elements, and correspondingly, the storage member 30 is provided with positioning mortise-and-mortise elements 31, and the positioning mortise-and-tenon elements are aligned and embedded in the positioning mortise-and-mortise elements 31, so that the transferring member 50 can be quickly and accurately assembled on the storage member 30, and the blind hole positions d and the storage positions c are aligned one by one; while also facilitating the ability to quickly remove the transfer member 50. In this embodiment, the positioning mortise 31 is located on the end face or the side face of the end of the storage element 30 far from the pushing element 40, and meanwhile, the shape and the configuration of the positioning mortise 31 and the positioning mortise can be selectively set according to specific situations. Of course, in another embodiment, the transfer member 50 may be provided with positioning mortises and tenon joints on the storage member 30.

In one embodiment, referring to fig. 1 and 4, a holding portion 51 is disposed on the transferring member 50, and the holding portion 51 can facilitate an operator to hold the transferring member 50, so as to implement the installation, removal and position transfer of the transferring member 50.

In one embodiment, referring to fig. 5 and 6, storage bit c includes a storage cavity portion c1, a guide hole portion c2, and an engagement groove portion c 3. Wherein:

the storage chamber portion c1 is mainly used for accommodating and storing a plurality of cylindrical workpieces a, and is opened in the third direction on the storage member 30 so that the same storage location c can store and place a plurality of cylindrical workpieces a side by side in the third direction at the same time.

The guide hole portion c2 for accommodating a cylindrical work a and providing a structural space for the movement of the pushing cylinder 41 is opened in the storage member 30 in the second direction and aligned with the pushing cylinder 41 one by one, and at the same time, the guide hole portion c2 is located at one end of the storage chamber portion c1 in the third direction and communicates with the storage chamber portion c 1; after the pushing column 41 pushes the cylindrical workpiece a in the guide hole part c2 to the transfer member 50, the pushing member 40 drives the pushing column 41 to reset, and at this time, the cylindrical workpiece a in the storage cavity part c1 can be filled into the guide hole part c2 by external force or structural optimization, which is equivalent to completing the feeding step of the cylindrical workpiece a; specifically, the cavity wall of the storage cavity portion c1, against which the second end of the cylindrical workpiece a abuts, may be disposed obliquely in the third direction and extend into the guide hole portion c2, thereby creating a guiding effect within the storage cavity portion c1, and the cylindrical workpiece a adjacent to the guide hole portion c2 can be automatically filled into the guide hole portion c2 which is empty, by the effect of gravity pressing between the cylindrical workpieces a. Of course, the chamber wall of the storage chamber portion c1 for abutting against the second end of the cylindrical workpiece a may be horizontally arranged along the third direction, and after the feeding of one cylindrical workpiece a is completed, the next cylindrical workpiece a is manually pushed into the empty guide hole portion c2 by using an external tool.

The engaging groove portion c3 is used for accommodating a cylindrical workpiece a pushed out from the guiding hole portion c2, and is opened on the side of the storage member 30 far away from the pushing member 40 along the second direction, after the transfer member 50 is mounted on the storage member 30, the guiding hole portion c2 can be aligned and communicated with the blind hole position d one by one through the engaging groove portion c3, so that when the pushing member 40 drives the pushing column 41 to push the cylindrical workpiece a out of the guiding hole portion c2, the cylindrical workpiece a can move along the engaging groove portion c2, and the second end of the cylindrical workpiece a enters the blind hole position d through the engaging groove portion c3, and the operation process of transferring the cylindrical workpiece a to the transfer member 50 is realized.

Referring to fig. 4, an embodiment provides an installation tool for cylindrical components, further including second guiding members 70, the second guiding members 70 being distributed along a second direction, one end of the second guiding member 70 being fixedly connected to the storage member 30, and the other end of the second guiding member 70 being inserted into the pushing member 40 to form a sliding connection therebetween; the second guiding element 70 can be used to combine the storage element 30 and the pushing element 40 into a complete and independent structural component, and also can provide a guiding function for the movement of the pushing element 40, so that the pushing element 40 can approach or depart from the storage element 30 along the second direction through the second guiding element 70, and further the operation procedure of pushing the cylindrical workpiece a onto the transferring element 50 is completed. In this embodiment, the second guide members 70 are two and are arranged side by side at both ends of the storage member 30 in the first direction to ensure that the pushing member 40 can move smoothly. Of course, the second guide 70 may also be arranged with reference to the structure or form of the first guide 60.

In some embodiments, the storage element 30 and the pushing element 40 may be omitted, and the cylindrical workpieces a may be directly installed on the blind hole site d of the transfer element 50 one by hand, since the blind hole site d is a structure belonging to the transfer element 50, by optimizing the structure of the blind hole site d, if the blind hole site d is set to a more striking and intuitive structural form or a variable diameter structural form, the cylindrical workpieces a may be conveniently and quickly installed on the blind hole site d by an operator, which is favorable for reducing the number of functional devices of the entire tool.

It is right to have used specific individual example above the utility model discloses expound, only be used for helping to understand the utility model discloses, not be used for the restriction the utility model discloses. To the technical field of the utility model technical personnel, the foundation the utility model discloses an idea can also be made a plurality of simple deductions, warp or replacement.

Claims (10)

1. A mounting tool for cylindrical accessories, comprising:

the bearing part is provided with a plurality of bearing positions which are sequentially arranged along a first direction and used for bearing a carrier to be loaded;

the pressurizing piece is provided with a plurality of fixing positions which are sequentially arranged along a first direction, the fixing positions are used for accommodating and fixing the first ends of the cylindrical workpieces, the fixing positions are aligned with the bearing positions one by one, the pressurizing piece moves along a second direction to be close to or far away from the bearing part, and the second ends of the cylindrical workpieces are inserted on the corresponding carriers to be loaded when the pressurizing piece is close to the bearing part; and

transport the piece, transport the piece and be equipped with a plurality of blind hole positions of arranging in proper order along first direction, the blind hole position is used for holding the second end of cylindricality work piece, blind hole position and fixed position one-to-one are aimed at, transport a detachably and set up between carrier and the pressurization piece, with being close to shift the first end of cylindricality work piece to fixed position when the pressurization piece.

2. The installation tool according to claim 1, wherein the pressing member is provided with positioning grooves distributed in a first direction on a side thereof remote from the carrier or the transfer member, the fixing locations include a fixing hole portion and a fixing groove portion, the fixing groove portion is opened in a second direction on a groove surface of the positioning grooves, the fixing hole portion is opened in the second direction on a side thereof close to the carrier or the transfer member, and the fixing hole portion and the fixing groove portion are aligned and communicated in the second direction.

3. The installation tool of claim 1, further comprising first guide members extending in the second direction, the carrier member being fixedly connected to one end of the first guide member, the pressure member being slidably connected to the other end of the first guide member, and the transfer member being detachably connected to a side of the first guide member adjacent to the pressure member; the pressing member is moved in the second direction by the first guide member to approach or separate from one of the carrier and the transfer member.

4. The installation tool of claim 3, wherein the pressing member includes a driving portion and a moving portion, the moving portion is provided with a fixed position, the moving portion is slidably connected with the first guide member, and a power output end of the driving portion is connected with the moving portion to drive the moving portion to move along the first guide member so as to approach or separate from one of the carrier and the transferring member.

5. The installation tool of claim 4 wherein said movable portion is a bar-like structure made of a magnetic material for magnetically attracting the first end of the cylindrical workpiece when said movable portion is adjacent the transport member.

6. The installation tool of claim 3, wherein the transfer member is further provided with positioning notches distributed along the second direction for receiving at least a portion of the first guide member such that the blind hole sites are aligned one-to-one with the holding sites.

7. The installation tool of any one of claims 1-6, further comprising:

the storage part is provided with a plurality of storage positions which are sequentially arranged along a first direction and used for accommodating cylindrical workpieces; and

the pushing element moves along the second direction to be close to or far away from the storage element, the pushing element is provided with a plurality of pushing columns which are sequentially arranged along the first direction, and the pushing columns are used for being aligned with the storage positions one by one so as to be contacted with the first end of the cylindrical workpiece when the pushing element is close to the storage element, so that the cylindrical workpiece is pushed out of the storage element;

transport piece detachably sets up in the one end that the piece that bulldozes is kept away from to storage piece, blind hole site and storage bit one-to-one are aimed at to hold the follow the second end of the cylindricality work piece that bulldozes in the piece and push away.

8. The installation tool of claim 7, wherein said storage bit comprises:

the storage cavity part is arranged on the storage piece along a third direction and is used for accommodating and storing a plurality of cylindrical workpieces distributed along the third direction;

the guide hole part is arranged in the storage part along the second direction, is positioned at one end of the storage cavity part in the third direction and is communicated with the storage cavity part, and is aligned with the pushing and pressing columns one by one for accommodating a cylindrical workpiece which is moved out of the storage cavity part; and

the connecting groove part is arranged on one side, away from the pushing and pressing piece, of the storage piece along the second direction, the guide hole part is communicated with the blind hole through the connecting groove part in a one-to-one alignment mode, and therefore when the pushing and pressing column pushes the cylindrical workpiece out of the guide hole part, the second end of the cylindrical workpiece enters the blind hole part through the connecting groove part.

9. The mounting tool of claim 7 wherein one of said storage and transfer members is provided with a locating mortise and tenon, the locating mortise and tenon being aligned with the locating mortise and tenon such that said blind hole site is aligned with the storage site one to one.

10. The installation tool of claim 7, further comprising a second guide member, the second guide member being distributed along the second direction, one end of the second guide member being fixedly connected to the storage member, and the other end of the second guide member being slidably connected to the pushing member, so that the pushing member is moved toward or away from the storage member along the second direction by the second guide member.

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