CN220392512U - Self-positioning push hook assembly - Google Patents

Abstract

The utility model discloses a self-positioning push hook component which comprises a push hook strip and a leaning block, wherein the push hook strip is arranged at the top of the leaning block, and a plurality of block positioning holes are formed in the leaning block. According to the utility model, the pushing hook strip is erected at the top of the leaning block by combining the pushing hook strip and the leaning block, and the plurality of block positioning holes are additionally formed on the leaning block, so that the installation position and the installation angle of the leaning block can be adjusted by using the fastening piece, and further, the fine adjustment of the installation position and the installation angle of the pushing hook strip is realized by using the propping action of the leaning block on the pushing hook strip, the pushing hook strip can be ensured to be opposite to the feeding hole to push the hooks one by one, and further, the smooth output of the hooks is ensured.

Description

Self-positioning push hook assembly

[ field of technology ]

The utility model relates to the technical field of hook pushing devices, in particular to the technical field of self-positioning type hook pushing components.

[ background Art ]

The curtain is hung on the window edge by adopting a hook, and the curtain is connected with the hook by adopting a hooking mode. In order to improve the connection stability between the curtain and the hooks, the hooks can be directly sewn on the curtain by using a sewing machine. In addition, in order to improve the sewing efficiency, hooks are required to be uniformly stored and then sent to the sewing machine one by one.

The vibration plate is a device which can spirally rise and send out a batch of products stored at the bottom of the plate one by one along a track by utilizing the vibration effect. Currently, some manufacturers in the industry choose to modify the vibrating tray to better accommodate the storage and output of hooks, such as a hook vibrating screen tray feeding device disclosed in the patent publication CN 212531237U. However, since it cannot be ensured that the work piece is kept oriented consistently when being output, it is only suitable for storage and output of S-shaped hooks having the same structure at both ends, but it is difficult to adapt to storage and output of strip-shaped hooks having different structures at both ends.

For this reason, some manufacturers in the industry choose to directly push a group of hooks which are orderly arranged to be output one by using a spring, for example, a hook feeding device disclosed in the patent with the publication number of CN 212599904U. The feeding part is directly driven by the feeding cylinder to move up and down, so that a hook close to one side of the bin pressing plate is pushed out when the feeding part moves upwards. However, such design results in inconvenient detachment and replacement of the feeding member, and difficulty in accurate adjustment of the mounting position and the mounting angle. That is, once the mounting position of the feeding member is deviated, the feeding member cannot be aligned and the hook close to one side of the bin pressing plate can be smoothly pushed out.

[ utility model ]

The utility model aims to solve the problems in the prior art, and provides a self-positioning push hook component which can adjust the installation position and the installation angle of a leaning block by using a fastener, further realize the fine adjustment of the installation position and the installation angle of a push hook strip by using the propping action of the leaning block on the push hook strip, ensure that the push hook strip can be opposite to a feed inlet to push hooks out one by one, and further ensure the smooth output of the hooks.

In order to achieve the above purpose, the utility model provides a self-positioning push hook assembly, which comprises a push hook strip and a leaning block, wherein the push hook strip is arranged at the top of the leaning block, and a plurality of block positioning holes are formed in the leaning block.

Preferably, each block positioning hole is a vertically arranged long through hole.

Preferably, a plurality of cutting grooves are formed in the end face of one end of the push hook strip, and each cutting groove jointly divides one end of the push hook strip into a plurality of branch strips.

Preferably, the distal ends of the branch strips are respectively provided with a guide portion which gradually narrows from inside to outside.

Preferably, the stop is disposed adjacent to the end of the push hook strip having each slot.

Preferably, the top surface of the leaning block is provided with a sliding groove, the pushing hook strip penetrates through the leaning block along the sliding groove, and the size of the pushing hook strip is matched with the size of the sliding groove.

Preferably, the top surface of the push hook strip is higher than the top surface of the backrest.

Preferably, a bending part is arranged at one end of the push hook strip without each cutting groove, and a plurality of strip positioning holes are arranged on the bending part.

Preferably, the end of the push hook strip without each slot is bent downwards to form a bending part.

Preferably, the connection part of the folding part and the main body of the push hook strip is provided with an arc transition.

The utility model has the beneficial effects that:

1) The pushing hook strip is erected at the top of the leaning block through the combination of the pushing hook strip and the leaning block, and a plurality of block positioning holes are additionally formed in the leaning block, so that the installation position and the installation angle of the leaning block can be adjusted by using a fastener, and further, the fine adjustment of the installation position and the installation angle of the pushing hook strip is realized by using the propping action of the leaning block on the pushing hook strip, the pushing hook strip can be ensured to be opposite to a feed inlet to push hooks out one by one, and further, the smooth output of the hooks is ensured;

2) By additionally arranging the sliding chute which can be penetrated by the pushing hook strip and is matched with the pushing hook strip in size on the top surface of the leaning block, the sliding chute can be utilized to guide the sliding of the pushing hook strip, and the sliding chute can be utilized to prevent the pushing hook strip from being separated from the leaning block;

3) Through the bending part that bends downwards is set up to the one end that does not have each cutting groove at pushing away the hook strip, sets up a plurality of strip body locating hole on the bending part, sets up the circular arc transition in the junction cooperation of the main part of bending part and pushing away the hook strip again, not only is convenient for push away the dismouting of hook strip, can also make to push away the hook strip and can be under the jacking effect of leaning on the shelves and slightly bending deformation just be unlikely to by the bending fracture.

The features and advantages of the present utility model will be described in detail by way of example with reference to the accompanying drawings.

[ description of the drawings ]

FIG. 1 is a schematic perspective view of a self-aligning push hook assembly of the present utility model;

FIG. 2 is an enlarged schematic view at A of FIG. 1;

FIG. 3 is an enlarged schematic view at B of FIG. 1;

FIG. 4 is a right side view of the push hook strip of the self-aligning push hook assembly of the present utility model;

FIG. 5 is a front view of the push hook strip of the self-aligning push hook assembly of the present utility model;

fig. 6 is a C-C cross-sectional view of fig. 5.

In the figure: 11-pushing hook strips, 111-cutting grooves, 112-guiding parts, 113-bending parts, 114-strip body positioning holes, 12-leaning blocks, 121-block positioning holes and 122-sliding grooves.

[ detailed description ] of the utility model

Referring to fig. 1 to 6, the self-positioning push hook assembly of the present utility model includes a push hook strip 11 and a rest 12, wherein the push hook strip 11 is erected on the top of the rest 12, and a plurality of block positioning holes 121 are provided on the rest 12.

Each block positioning hole 121 is a vertically arranged long through hole, and can be matched with a bolt, a nut and other fasteners, so that the leaning block 12 can move up and down as required.

The end face of one end of the push hook strip 11 is provided with a plurality of cutting grooves 111, and each cutting groove 111 jointly divides one end of the push hook strip 11 into a plurality of branch strips. Wherein the slots 111 may collectively form a receptacle into which the hook portion may extend. Specifically, the number, shape and size of the slits 111 may be set in conformity with the shape of the pushed hook.

The tail end of each branch strip is respectively provided with a guide part 112 which is gradually narrowed from inside to outside, so that the guide part can play a role in guiding, and the hook part can conveniently extend into the socket.

The abutment 12 is arranged near the end of the push hook strip 11 with the respective slot 111.

The top surface of the leaning block 12 is provided with a sliding groove 122, the pushing hook strip 11 penetrates through the leaning block 12 along the sliding groove 122, and the size of the pushing hook strip 11 is matched with the size of the sliding groove 122.

The top surface of the push hook strip 11 is higher than the top surface of the backrest 12.

The end of the push hook strip 11 without each cutting groove 111 is provided with a bending part 113, and a plurality of strip positioning holes 114 are arranged on the bending part 113.

The end of the push hook strip 11 without each cutting groove 111 is provided with a bending part 113, and a plurality of strip positioning holes 114 are arranged on the bending part 113.

The push hook strip 11 is bent downward at one end without each of the slits 111 and forms a bent portion 113.

The connection part of the bending part 113 and the main body of the pushing hook strip 11 is provided with an arc transition.

The working process of the utility model comprises the following steps:

before use, the backrest 12 is fixed at the feed inlet of the hook storage box with hooks by using a plurality of fasteners. Then, the push hook strip 11 is placed over the slide groove 122 with the end with each slot 111 facing the feed inlet. Then, the bending portion 113 is fixed to a conveying device such as an air cylinder or a ball screw by a fastener.

Taking the conveying device as a cylinder and taking the conveying direction as a transverse direction as an example, when the device is used, the cylinder can drive the hook pushing strip 11 to transversely enter and exit the feed inlet under the guiding action of the cutting groove 111, so that hooks in the hook storage box are pushed out one by one transversely (a jacking component is required to be arranged in the matched hook storage box to continuously jack up the hooks, and specifically, the components such as a welding frame 12, a bin guide rod 16, a bin compression spring 17 and the like in a hook feeding device disclosed in an utility model patent with a publication number of CN212599904U in the background art can be adopted).

In addition, if the pushing hook strip 11 cannot be right facing the feeding hole in the using process, the installation position and the installation angle of the leaning block 12 can be readjusted by using the fastening piece, and then the pushing hook strip 11 is propped up until the installation position and the installation angle of the pushing hook strip 11 meet the requirement by using the leaning block 12.

The above embodiments are illustrative of the present utility model, and not limiting, and any simple modifications of the present utility model fall within the scope of the present utility model.

Claims (10)

1. From position adjustment formula pushing away hook component, its characterized in that: the novel pushing hook comprises a pushing hook strip (11) and a leaning block (12), wherein the pushing hook strip (11) is erected at the top of the leaning block (12), and a plurality of block positioning holes (121) are formed in the leaning block (12).

2. A self-aligning push hook assembly as defined in claim 1 wherein: each block positioning hole (121) is a vertically arranged long through hole.

3. A self-aligning push hook assembly as defined in claim 2 wherein: a plurality of cutting grooves (111) are formed in the end face of one end of the push hook strip (11), and each cutting groove (111) jointly divides one end of the push hook strip (11) into a plurality of branch strips.

4. A self-aligning push hook assembly as defined in claim 3 wherein: the tail end of each branch strip is respectively provided with a guide part (112) which gradually narrows from inside to outside.

5. The self-aligning push hook assembly of claim 4, wherein: the leaning block (12) is arranged near one end of the pushing hook strip (11) with each cutting groove (111).

6. The self-aligning push hook assembly of claim 5 wherein: the top surface of leaning on shelves (12) is equipped with spout (122), push away hook strip (11) and run through leaning on shelves (12) along spout (122), the size of pushing away hook strip (11) and the size looks adaptation of spout (122).

7. The self-aligning push hook assembly of claim 6 wherein: the top surface of the push hook strip (11) is higher than the top surface of the leaning block (12).

8. A self-aligning push hook assembly as claimed in any one of claims 2 to 7 wherein: one end of the push hook strip (11) without each cutting groove (111) is provided with a bending part (113), and a plurality of strip body positioning holes (114) are formed in the bending part (113).

9. The self-aligning push hook assembly of claim 8 wherein: one end of the push hook strip (11) without each cutting groove (111) is bent downwards to form a bending part (113).

10. The self-aligning push hook assembly of claim 9 wherein: the joint of the bending part (113) and the main body of the pushing hook strip (11) is provided with an arc transition.