CN211638941U - Auxiliary sleeve penetrating device and sleeve penetrating assembly of gasket - Google Patents

Abstract

The utility model discloses a supplementary cover device and wear set subassembly of wearing of packing ring, supplementary cover subassembly of wearing includes: the gasket comprises a body, wherein the body is provided with at least two placing holes for placing a first gasket, and the depth of each placing hole is matched with the thickness of the first gasket; the cover body is provided with at least two first through holes for one end of the connecting piece to penetrate through, and the first through holes can be in one-to-one correspondence with the placing holes. The auxiliary sleeving device and the sleeving assembly of the gasket can simply and quickly sleeve the gasket on the connecting piece, and the large-batch use requirements are met.

Description

Auxiliary sleeve penetrating device and sleeve penetrating assembly of gasket

Technical Field

The utility model relates to a packing ring wears set technical field, concretely relates to supplementary cover device and wear set subassembly of wearing of packing ring.

Background

When two components are connected by a connector such as a bolt or a rivet, a gasket is usually required to be sleeved on the connector, for example, a lock gasket or a waterproof gasket can be sleeved on the connector. When the connecting pieces are required to be used in large quantities, the connecting pieces are each required to be sleeved with a corresponding gasket. The traditional mode is that the gasket is sleeved on each connecting piece in a manual mode, so that the working efficiency is low, and the connecting piece is not suitable for large-batch use requirements.

SUMMERY OF THE UTILITY MODEL

Based on this, the auxiliary bushing device and the bushing assembly of the gasket are provided, the gasket can be simply and quickly sleeved on the connecting piece, and the large-batch use requirements are met.

The technical scheme is as follows:

in one aspect, an auxiliary piercing assembly for a gasket is provided, comprising: the gasket comprises a body, wherein the body is provided with at least two placing holes for placing a first gasket, and the depth of each placing hole is matched with the thickness of the first gasket; the cover body is provided with at least two first through holes for one end of the connecting piece to penetrate through, and the first through holes can be in one-to-one correspondence with the placing holes.

When the first gasket needs to be sleeved on the connecting piece in a penetrating manner, the auxiliary sleeving component of the gasket enables the first gasket to enter the placing hole of the body; inserting the other end of the connecting piece into the placing hole, enabling the other end of the connecting piece to penetrate through the inner hole of the first gasket, and enabling one end of the connecting piece to extend out of the placing hole; covering the body with a cover body from the upper part of the body, so that one end of the connecting piece penetrates through the first through hole in the cover body; turning over the whole body formed by the body and the cover body to enable the body to be positioned above the cover body; the body is taken down along the length direction of the connecting piece, and the first gasket is sleeved on the connecting piece under the action of gravity. The body of the auxiliary sleeving assembly for the gaskets is provided with at least two placing holes, the cover body is correspondingly provided with at least two first through holes, at least two scattered first gaskets are placed on the body, the first gaskets move on the surface of the body in a mode of whipping or shifting the first gaskets, and the first gaskets quickly and conveniently fall into the placing holes under the action of gravity; inserting the other end of a connecting piece into the inner hole of the first gasket; covering the body with a cover body, so that one end of each connecting piece penetrates through the first through hole; the whole body formed by the body and the cover body is turned over, so that the at least two first gaskets can be sleeved on the connecting piece in a one-to-one correspondence manner, the subsequent taking is facilitated, the working efficiency is high, and the large-batch use requirements are met.

The technical solution is further explained below:

in one embodiment, the auxiliary sleeving assembly of the gasket further comprises a guide body, the guide body is provided with at least two second through holes for placing second gaskets, the thickness of the guide body is matched with that of the second gaskets, and the second through holes can be arranged in one-to-one correspondence to the placing holes.

In one embodiment, the guide body is provided with a first guide portion for guiding the second washer into the second through hole.

In one embodiment, the guide body is provided with a first positioning part, and the body is provided with a second positioning part matched with the first positioning part in a positioning way.

In one embodiment, the first positioning portion is provided as a positioning pin, and the second positioning portion is provided as a positioning hole capable of being positioned and matched with the positioning pin.

In one embodiment, the bottom wall of the placing hole is provided with a first insertion hole for inserting the other end of the connecting piece.

In one embodiment, the bottom wall of the placing hole is provided with a second guide portion for guiding the other end of the connecting member to be inserted into the first insertion hole.

In one embodiment, the cover body is provided with a third guide portion for guiding one end of the connector to be inserted into the first through hole.

In one embodiment, the body is provided with a fourth guide portion for guiding the first gasket into the placing hole.

On the other hand, the auxiliary penetrating device for the gaskets comprises a connecting piece, a first gasket and the auxiliary penetrating assembly, wherein the first gasket can enter the placing hole, one end of the connecting piece can penetrate through the first through hole, and the other end of the connecting piece can penetrate through the inner hole of the first gasket.

The auxiliary sleeving device for the gaskets is characterized in that the body is provided with at least two placing holes, the cover body is correspondingly provided with at least two first through holes, at least two scattered first gaskets are placed on the body, the first gaskets move on the surface of the body in a mode of whipping or shifting the first gaskets, and the first gaskets quickly and conveniently fall into the placing holes under the action of gravity; inserting the other end of a connecting piece into the inner hole of the first gasket; covering the body with a cover body, so that one end of each connecting piece penetrates through the first through hole; the body and the cover body are turned over again, so that the at least two first gaskets can be sleeved on the connecting piece in a one-to-one correspondence mode in a disposable, simple and quick mode, subsequent taking is facilitated, the working efficiency is high, and the large-batch use requirements are met.

Drawings

FIG. 1 is a schematic view of an embodiment of an auxiliary piercing device for a gasket;

FIG. 2 is an exploded view of the auxiliary piercing device of the gasket of FIG. 1;

FIG. 3 is a schematic structural view of the auxiliary piercing device of the gasket of FIG. 1 with the cover separated from the body;

fig. 4 is a schematic structural view illustrating the body, the guide body and the cover body of the auxiliary sleeving device for the gasket of fig. 1 being turned over.

Description of reference numerals:

10. auxiliary penetrating device, 100, body, 110, placing hole, 111, first jack, 200, cover, 210, first through hole, 300, guide body, 310, second through hole, 410, first gasket, 420, second gasket, 500, connecting piece, 510, first connecting section, 520, second connecting section, 530, middle bulge.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and the following detailed description. It should be understood that the detailed description and specific examples, while indicating the scope of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that when an element is referred to as being "disposed on," "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "secured" to, or "fixedly coupled" to another element, it can be removably secured or non-removably secured to the other element. When an element is referred to as being "connected," "pivotally connected," to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," "up," "down," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

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 invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In the present invention, the terms "first", "second", "third", and the like do not denote any particular quantity or order, but rather are used to distinguish one name from another.

It will also be understood that when interpreting elements, although not explicitly described, the elements are to be interpreted as including a range of errors which are within the acceptable range of deviation of the particular values as determined by those skilled in the art. For example, "about," "approximately," or "substantially" may mean within one or more standard deviations, without limitation.

As shown in fig. 1 to 4, in one embodiment, there is provided a gasket assisted piercing assembly comprising: the body 100, the body 100 is equipped with at least two placing holes 110 used for placing the first gasket 410, the depth of the placing hole 110 matches with the thickness of the first gasket 410; and the cover body 200, the cover body 200 is provided with at least two first through holes 210 for one end of the connecting piece 500 to pass through, and the first through holes 210 can be arranged corresponding to the placing holes 110 one to one.

The auxiliary sleeving assembly for the gasket of the above embodiment needs to allow the first gasket 410 to enter the placing hole 110 of the body 100 when the first gasket 410 is sleeved on the connecting member 500; inserting the other end of the connection member 500 into the placement hole 110 such that the other end of the connection member 500 passes through the inner hole of the first gasket 410 and such that one end of the connection member 500 protrudes outward of the placement hole 110; covering the body 100 with the cover 200 from above the body 100 (as shown in the direction a of fig. 2), such that one end of the connecting member 500 passes through the first through hole 210 of the cover 200; turning over the whole body formed by the body 100 and the cover body 200 to enable the body 100 to be positioned above the cover body 200; the body 100 is removed along the length direction of the connection member 500, and the first washer 410 is sleeved on the connection member 500 under the action of gravity. In the auxiliary sleeving assembly for gaskets of the above embodiment, at least two placing holes 110 are formed on the body 100, at least two first through holes 210 are correspondingly formed on the cover body 200, at least two scattered first gaskets 410 are placed on the body 100, the first gaskets 410 move on the surface of the body 100 by means of flicking or shifting the first gaskets 410, and the first gaskets 410 fall into the placing holes 110 quickly and conveniently under the action of gravity; the other end of one of the connection members 500 is inserted into the inner hole of the first washer 410; covering the body 100 with the cover 200 such that one end of each connector 500 passes through the first through hole 210; the whole body formed by the body 100 and the cover body 200 is turned over, so that the at least two first gaskets 410 can be sleeved on the connecting piece 500 in a one-to-one correspondence manner, the subsequent taking is facilitated, the working efficiency is high, and the large-batch use requirements are met.

It should be noted that, at least two placing holes 110 (for example, eight rows in ten rows or thirty rows in twenty rows) may be arranged in an array on the body 100, and at least two first through holes 210 (for example, eight rows in ten rows or thirty rows in twenty rows) are correspondingly arranged in an array on the cover 200, so that when the cover 200 is covered on the body 100, the first through holes 210 and the placing holes 110 are correspondingly arranged, so that the connecting member 500 can smoothly pass through, and scattering during the turning process is avoided. The shape and the opening size of the placement hole 110 can be flexibly adjusted according to the size of the first gasket 410 to be placed, and only the requirement that the first gasket 410 can be placed in the placement hole 110 and the other end of the connecting piece 500 can conveniently penetrate through the inner hole of the first gasket 410 is met. The size of the first through hole 210 can be flexibly adjusted according to the diameter of one end of the connecting member 500, and it is only necessary to support the middle protruding part 530 of the connecting member 500 by the cover body 200 after the cover body is turned over. The body 100 and the cover 200 may be plate-shaped, so as to facilitate processing and use.

It should be emphasized that the depth of the placing hole 110 is matched with the thickness of the first gasket 410, which means that the depth of the placing hole 110 can be flexibly adjusted according to the thickness of the first gasket 410 to be placed. For example, when only one first gasket 410 needs to be placed in one placing hole 110, the depth of the placing hole 110 may be set to be equal to or approximately equal to the thickness of one first gasket 410, so that at least two first gaskets 410 are placed on the working surface of the body 100 in a scattered manner, and when the first gaskets 410 are stirred or flicked to move on the working surface, each first gasket 410 can fall into one first gasket 410 in each placing hole 110 under the action of gravity. When two or more first washers 410 are required to be placed in one placement hole 110, the depth of the placement hole 110 may be set to be equal to or approximately equal to the thickness of the two or more first washers 410, such that at least two first washers 410 are placed on the working surface of the body 100 in a scattered manner, and when the first washers 410 are moved on the working surface by stirring or flicking, each of the two or more first washers 410 can fall into the placement hole 110 under the action of gravity.

As shown in fig. 1 to 4, in one embodiment, the auxiliary sleeving assembly for washers further includes a guide body 300, the guide body 300 is provided with at least two second through holes 310 for placing the second washers 420, the thickness of the guide body 300 is matched with that of the second washers 420, and the second through holes 310 can be arranged in one-to-one correspondence to the placing holes 110. In this way, after the first washer 410 is put into the placing hole 110, when it is necessary to further thread the second washer 420 also on the connecting member 500, the guide body 300 is covered on the working surface of the body 100 from above (as shown in the direction a of fig. 2). At least two second washers 420 are scattered on the surface of the guide body 300, and when the second washers 420 are stirred or flicked to move on the surface of the guide body 300, one second washer 420 can fall into each second through hole 310 under the action of gravity, so that the second washers 420 are overlapped on the first washers 410, and the inner holes of the first washers 410 and the inner holes of the second washers 420 are communicated. And then the other end of one of the connection members 500 is inserted into the inner hole of the second gasket 420 and the inner hole of the first gasket 410 in sequence, respectively. Covering the cover body 200 on the guide body 300 such that one end of each of the connection members 500 passes through the first through hole 210; then, the whole body composed of the body 100, the guide body 300 and the cover body 200 is turned over, so that the body 100 and the guide body 300 are positioned above the cover body 200; the body 100 and the guide body 300 are removed along the length direction of the connection member 500, and the first washer 410 and the second washer 420 are both sleeved on the connection member 500 under the action of gravity. Therefore, the first gasket 410 and the second gasket 420 can be sleeved on the connecting piece 500 in a penetrating mode, the penetrating mode is simple and quick, subsequent taking is facilitated, the working efficiency is high, and the large-batch use requirements are met.

In one embodiment, the guide body 300 is provided with a first guide portion (not shown) for guiding the second washer 420 into the second through hole 310. Therefore, the second gasket 420 can enter the second through hole 310 more smoothly, accurately and quickly in the moving process by using the first guide part, and the working efficiency is ensured. The first guide portion may be a guide bevel or a guide fillet disposed at an opening edge of the second through hole 310, and it is only necessary to guide the second gasket 420 into the second through hole 310.

In one embodiment, the guide body 300 is provided with a first positioning portion (not shown), and the body 100 is provided with a second positioning portion (not shown) for positioning engagement with the first positioning portion. Thus, when the guide body 300 covers the working surface of the body 100 from above, the first positioning portion and the second positioning portion are positioned and matched, so that the second through hole 310 can be accurately arranged corresponding to the placing hole 110, the second gasket 420 can be overlapped on the first gasket 410 in the placing hole 110 after entering the second through hole 310, the inner hole of the second gasket 420 can be accurately communicated with the inner hole of the first gasket 410, and the other end of the connecting piece 500 can smoothly pass through the inner hole of the second gasket 420 and the inner hole of the first gasket 410.

The first positioning portion and the second positioning portion are matched, and can be realized in a pin and hole matching mode, and also can be realized in a positioning block and positioning groove matching mode, and only when the guide body 300 covers the working surface of the body 100 from the upper side, the second through hole 310 can be accurately arranged corresponding to the placing hole 110.

In one embodiment, the first positioning portion is provided as a positioning pin (not shown), and the second positioning portion is provided as a positioning hole (not shown) capable of being positioned and matched with the positioning pin. So, when the guide body 300 is covered on the working surface of the body 100 from the top, the positioning pin is inserted into the positioning hole, thereby the guide body 300 and the body 100 are precisely matched, the second through hole 310 can be accurately arranged corresponding to the placing hole 110, the second gasket 420 can be overlapped on the first gasket 410 in the placing hole 110 after entering the second through hole 310, the inner hole of the second gasket 420 can be accurately communicated with the inner hole of the first gasket 410, and the other end of the connecting piece 500 can smoothly pass through the inner hole of the second gasket 420 and the inner hole of the first gasket 410. Preferably, two positioning pins are respectively disposed at two opposite corners of the guide body 300, and positioning holes are formed at corresponding positions of the body 100, so that the positioning accuracy is higher.

It should be noted that the first gasket 410 and the second gasket 420 may be two different types of gaskets, for example, the first gasket 410 may be a waterproof sealing gasket and the second gasket 420 may be a galvanized flat gasket. The shape and the opening size of the second through hole 310 can be flexibly adjusted according to the size of the second gasket 420 to be placed as required, and the second gasket 420 can be placed in the second through hole 310 only by the requirement that the other end of the connecting piece 500 conveniently penetrates through the inner hole of the second gasket 420. The guide body 300 may have a plate shape, which facilitates processing and opening the second through hole 310, and also facilitates covering the body 100.

It should be emphasized that the thickness of the guide body 300 is matched with the thickness of the second washer 420, which means that the depth of the second through hole 310 can be flexibly adjusted according to the thickness of the second washer 420 to be placed. For example, when only one second washer 420 needs to be placed in one second through hole 310, the depth of the second through hole 310 may be set to be equal to or approximately equal to the thickness of one second washer 420, that is, the thickness of the guide body 300 is equal to or approximately equal to the thickness of one second washer 420, so that at least two second washers 420 are placed on the surface of the guide body 300 in a scattered manner, and when the second washers 420 are moved on the surface of the guide body 300 by stirring or flicking, one second washer 420 can be dropped into each second through hole 310 and one second washer 420 can be overlapped on the first washer 410 under the action of gravity. When two or more second washers 420 are required to be placed in one second through hole 310, the depth of the second through hole 310 may be set to be equal to or approximately equal to the thickness of the two or more second washers 420, that is, the thickness of the guide body 300 is equal to or approximately equal to the thickness of the stack of the two or more second washers 420, such that when at least two second washers 420 are placed on the surface of the guide body 300 in a scattered manner, and the second washers 420 are moved on the surface of the guide body 300 by stirring or flicking, the two or more second washers 420 can fall into each second through hole 310 under the action of gravity, and the two or more second washers 420 are stacked on the first washer 410.

As shown in fig. 4, on the basis of any of the above embodiments, the bottom wall of the placement hole 110 is provided with a first insertion hole 111 for inserting the other end of the connector 500. Thus, after the other end of the connecting member 500 is inserted into the inner hole of the gasket (the first gasket 410, the second gasket 420), the other end of the connecting member 500 is further inserted into the first insertion hole 111, so that the connecting member 500 can be kept in a vertical or approximately vertical state, when the cover body 200 is covered on the body 100 or the guide body 300 from above, one end of the connecting member 500 can smoothly pass through the first through hole 210, and the phenomenon that one end of the connecting member 500 collides with the cover body 200 due to the inclination of the connecting member 500 is avoided, thereby further improving the working efficiency. The shape and the opening size of the first insertion hole 111 can be flexibly adjusted according to the diameter of the other end of the connector 500, and only the requirement that the other end of the connector 500 can be inserted into the first insertion hole 111 and the connector 500 is kept in a vertical or approximately vertical state is met.

Further, the bottom wall of the placement hole 110 is provided with a second guide portion (not shown) for guiding the other end of the connector 500 to be inserted into the first insertion hole 111. So, utilize the second guide part can make the other end of connecting piece 500 more smoothly, accurate insert first jack 111 in, can keep vertical or nearly vertical state after guaranteeing that connecting piece 500 inserts in first jack 111. The second guiding portion may be a guiding bevel or a guiding fillet arranged at the edge of the opening of the first insertion hole 111, and it is only necessary to satisfy the requirement that the other end of the connection member 500 can be inserted into the first insertion hole 111 for guiding.

In any of the above embodiments, the cover 200 is provided with a third guide portion (not shown) for guiding one end of the connector 500 to be inserted into the first through hole 210. Thus, the third guiding portion can enable one end of the connecting member 500 to be more smoothly and accurately inserted into the first through hole 210, thereby preventing the one end of the connecting member 500 from colliding with the cover 200. The third guiding portion may be a guiding bevel or a guiding fillet arranged at the edge of the opening of the first through hole 210, and only one end of the connecting member 500 needs to be inserted into the first through hole 210 for guiding.

In addition to any of the above embodiments, the body 100 is provided with a fourth guide portion (not shown) for guiding the first gasket 410 into the placing hole 110. Thus, the first gasket 410 can enter the placing hole 110 more smoothly and accurately by the fourth guide portion, and the first gasket 410 can enter the placing hole 110 only by simple stirring or whipping. The fourth guiding portion may be a guiding bevel or a guiding fillet arranged at the edge of the opening of the placing hole 110, and it is only necessary to satisfy the requirement of guiding the first gasket 410 into the placing hole 110.

As shown in fig. 1 to 4, in one embodiment, there is further provided a washer auxiliary piercing device 10, which includes a connecting member 500, a first washer 410, and the auxiliary piercing assembly of any one of the above embodiments, wherein the first washer 410 can enter the placing hole 110, one end of the connecting member 500 can pass through the first through hole 210, and the other end of the connecting member 500 can pass through the inner hole of the first washer 410.

The auxiliary sleeving device 10 for washers according to the above embodiment needs to allow the first washer 410 to enter the placing hole 110 of the body 100 when the first washer 410 is sleeved on the connecting member 500; inserting the other end of the connection member 500 into the placement hole 110 such that the other end of the connection member 500 passes through the inner hole of the first gasket 410 and such that one end of the connection member 500 protrudes outward of the placement hole 110; covering the body 100 with the cover 200 from above the body 100 such that one end of the connecting member 500 passes through the first through hole 210 of the cover 200; turning over the whole body formed by the body 100 and the cover body 200 to enable the body 100 to be positioned above the cover body 200; the body 100 is removed along the length direction of the connection member 500, and the first washer 410 is sleeved on the connection member 500 under the action of gravity. In the auxiliary inserting device 10 for washers according to the above embodiment, at least two placing holes 110 are formed on the main body 100, at least two first through holes 210 are correspondingly formed on the cover body 200, at least two scattered first washers 410 are placed on the main body 100, the first washers 410 are moved on the surface of the main body 100 by means of flicking or shifting the first washers 410, and the first washers 410 are quickly and conveniently dropped into the placing holes 110 under the action of gravity; the other end of one of the connection members 500 is inserted into the inner hole of the first washer 410; covering the body 100 with the cover 200 such that one end of each connector 500 passes through the first through hole 210; the body 100 and the cover body 200 are turned over, so that the at least two first gaskets 410 can be sleeved on the connecting piece 500 in a one-to-one correspondence manner, the subsequent taking is facilitated, the working efficiency is high, and the large-batch use requirements are met.

The connector 500 may be a bolt, a stud or a rivet on the tail box of a motorcycle, and in particular may be a connector 500 provided with an intermediate projection 530 (flange or boss) between the two ends.

As shown in fig. 2, in one embodiment, the connector 500 includes a first connection section 510 for inserting the inner holes of the first and second washers 410 and 420, a second connection section 520 for inserting the first through hole 210, and an intermediate protrusion 530 disposed between the first and second connection sections 510 and 520, the intermediate protrusion 530 having an outer diameter greater than that of the first through hole 210. In this manner, the first connection section 510 is inserted into the inner hole of the first gasket 410 and the inner hole of the second gasket 420 in the placement hole 110 such that the second gasket 420 abuts against or is spaced apart from the intermediate projection 530 and such that the second connection section 520 protrudes outward of the placement hole 110; covering the cover body 200 on the guide body 300 from above the body 100 so that the second connection section 520 passes through the first through hole 210 on the cover body 200; the whole formed by the body 100, the guide body 300 and the cover body 200 is turned over, so that the body 100 and the guide body 300 are positioned above the cover body 200; the body 100 and the guide body 300 are removed along the length direction of the connection member 500, and under the action of gravity, the first washer 410 and the second washer 420 are both sleeved on the first connection section 510 and are in contact with the middle protrusion 530; meanwhile, the middle protrusion 530 collides with the cover body 200, so that the connecting member 500, which is sleeved with the first gasket 410 and the second gasket 420, is inserted into the first through hole 210 of the cover body 200 without falling off, and only needs to be taken out from the first through hole 210 when in use, which is simple and convenient.

In one embodiment, there is also provided a method of threading a gasket, comprising the steps of: s100, enabling the first gasket 410 to enter the placing hole 110 of the body 100; s200, inserting the other end of the connecting piece 500 into the placing hole 110, and enabling the other end of the connecting piece 500 to penetrate through the inner hole of the first gasket 410; s300, covering the body 100 with the cover body 200, so that one end of the connecting piece 500 passes through the first through hole 210 of the cover body 200; s400, turning over the cover body 200 and the body 100 to enable the body 100 to be arranged above the cover body 200; s500, the body 100 is taken down.

When the first gasket 410 needs to be sleeved on the connecting member 500, at least two scattered first gaskets 410 are placed on the body 100, the first gaskets 410 move on the surface of the body 100 by means of flicking or stirring the first gaskets 410, and the first gaskets 410 fall into the placing holes 110 quickly and conveniently under the action of gravity; inserting the other end of one of the connection members 500 into the inner hole of the first gasket 410, respectively; covering the body 100 with the cover 200 such that one end of each connector 500 passes through the first through hole 210; then, the whole body formed by the body 100 and the cover body 200 is turned over, so that the body 100 is arranged above the cover body 200; finally, the body 100 is taken down, so that at least two first gaskets 410 can be sleeved on the connecting piece 500 in a one-to-one correspondence manner, the subsequent taking is facilitated, the working efficiency is high, and the large-batch use requirements are met.

In one embodiment, after the step of entering the first washer 410 into the placing hole 110 of the body 100, the step of inserting the other end of the connection member 500 into the placing hole 110 and passing the other end of the connection member 500 through the inner hole of the first washer 410 further comprises: s200a, covering the guide body 300 on the body 100, so that the second through hole 310 of the guide body 300 is arranged corresponding to the placing hole 110; s300a, the second washer 420 enters the second through hole 310 of the guide body 300; s400a, the other end of the connecting member 500 sequentially passes through the inner hole of the second washer 420 and the inner hole of the first washer 410; s500a, covering the cover 200 on the guide 300, such that one end of the connector 500 passes through the first through hole 210 of the cover 200; s600a, the cover 200, the guide 300, and the main body 100 are turned over, such that the main body 100 and the guide 300 are disposed above the cover 200; s700a, the main body 100 and the guide body 300 are removed. In this way, after the first washer 410 is inserted into the placing hole 110, when it is necessary to further thread the second washer 420 also on the connecting member 500, the guide body 300 is covered on the working surface of the body 100 from above. At least two second washers 420 are scattered on the surface of the guide body 300, and when the second washers 420 are stirred or flicked to move on the surface of the guide body 300, one second washer 420 can fall into each second through hole 310 under the action of gravity, so that the second washers 420 are overlapped on the first washers 410, and the inner holes of the first washers 410 and the inner holes of the second washers 420 are communicated. And the other end of one of the connection members 500 is inserted into the inner hole of the second washer 420 and the inner hole of the first washer 410 in sequence. Covering the cover body 200 on the guide body 300 such that one end of each of the connection members 500 passes through the first through hole 210; then, the whole body composed of the body 100, the guide body 300 and the cover body 200 is turned over, so that the body 100 and the guide body 300 are positioned above the cover body 200; the body 100 and the guide body 300 are removed along the length direction of the connection member 500, and the first washer 410 and the second washer 420 are both sleeved on the connection member 500 under the action of gravity. Therefore, the first gasket 410 and the second gasket 420 can be sleeved on the connecting piece 500 in a penetrating mode, the penetrating mode is simple and quick, subsequent taking is facilitated, the working efficiency is high, and the large-batch use requirements are met.

The method for sleeving the gasket of the embodiment has at least the following advantages: 1. the at least two first gaskets 410 can be sleeved on the connecting piece 500 in a one-to-one correspondence manner simply and quickly at one time, so that subsequent taking is facilitated, the working efficiency is high, and the large-batch use requirements are met; 2. two different types of washers (first washer 410, second washer 420) can be threaded onto one connector 500 at a time, simply and quickly.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples represent only a few embodiments of the present invention, which are described in detail and detail, but are not to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. An auxiliary piercing assembly for a gasket, comprising:

the gasket comprises a body, wherein the body is provided with at least two placing holes for placing a first gasket, and the depth of each placing hole is matched with the thickness of the first gasket; and

the cover body is provided with at least two first through holes for one end of the connecting piece to penetrate through, and the first through holes can be in one-to-one correspondence with the placing holes.

2. The auxiliary sleeving assembly for the washers according to claim 1, further comprising a guide body, wherein the guide body is provided with at least two second through holes for placing a second washer, the thickness of the guide body is matched with that of the second washer, and the second through holes can be arranged in one-to-one correspondence with the placing holes.

3. The washer assisted pierce assembly according to claim 2, wherein the guide body is provided with a first guide portion for guiding the second washer into the second through-hole.

4. The washer sub-piercing assembly as recited in claim 2, wherein the guide body is provided with a first positioning portion, and the body is provided with a second positioning portion for positioning engagement with the first positioning portion.

5. The washer of claim 4, wherein the first positioning portion is a positioning pin, and the second positioning portion is a positioning hole capable of being positioned and matched with the positioning pin.

6. The grommet auxiliary piercing assembly as set forth in any one of claims 1 to 5, wherein the bottom wall of the placement hole is provided with a first insertion hole for inserting the other end of the connecting piece.

7. The washer auxiliary pierce assembly according to claim 6, wherein the bottom wall of the placement hole is provided with a second guide portion for guiding the other end of the connecting member to be inserted into the first insertion hole.

8. The gasket assisted pierce assembly according to any one of claims 1 to 5, wherein the cap body is provided with a third guide portion for guiding one end of the connector to be inserted into the first through hole.

9. The gasket assisted pierce assembly according to any one of claims 1 to 5, wherein the body is provided with a fourth guide portion for guiding the first gasket into the placing hole.

10. An auxiliary sleeving device for a gasket, which is characterized by comprising a connecting piece, a first gasket and the auxiliary sleeving assembly according to any one of claims 1 to 9, wherein the first gasket can enter the placing hole, one end of the connecting piece can penetrate through the first through hole, and the other end of the connecting piece can penetrate through the inner hole of the first gasket.

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