CN219317980U - Foot margin assembly - Google Patents

Abstract

The utility model relates to the field of assembly, and particularly provides a foot assembly, which is used for arranging target equipment on a bearing component, and comprises the following components: a first portion movably disposed on the carrier; and a second portion movably arranged to the first portion; wherein the second part is provided with a connecting part, and the connecting part can be connected with the target equipment. By means of this construction, a possible design of the anchor assembly is provided. In particular, by means of a combination of two movable connections, an adjustment of the relative position between the target device and the carrier member engaged by means of the foot assembly is achieved.

Description

Foot margin assembly

Technical Field

The utility model relates to the technical field of assembly, and particularly provides a foundation assembly.

Background

Taking an automatic production and manufacturing process of an automobile as an example, a large number of conveying equipment lines are generally introduced to convey related materials. Manufacturers generally adopt a means of planning part of the material conveying equipment line to a steel platform in order to solve the problem of occupied area caused by production. Corresponding to the means, steps such as installation, positioning, debugging and the like are required to be carried out on the conveying equipment line above the steel platform so as to ensure the reliability of the production and manufacturing process.

Taking the falling position of the conveying equipment as an example, different structures for realizing the falling position and corresponding falling positions generally have different influences on the construction period of the conveying equipment. Such a problem may exist with the current structure for achieving the landing: the structure is complex, the falling position is not accurate enough, the proportion of manual intervention required in the falling position process is large, and the like. The existing installation mode of the falling position is as follows: hoisting conveying equipment onto a wire body, then carrying out rough adjustment and fastening on a foundation assembly corresponding to the conveying equipment, and then adjusting the sizes, flatness and the like of the conveying equipment and the whole wire body along the XYZ directions by means of a measuring instrument and the like.

Therefore, there is a need in the art for a new solution to the above technical problems.

Disclosure of Invention

The present utility model has been made in order to solve at least part of the above problems, at least to some extent.

In view of the above, the present utility model provides a foot assembly for providing a target device to a load bearing member, the foot assembly comprising: a first portion movably disposed on the carrier; and a second portion movably arranged to the first portion; wherein the second part is provided with a connecting part, and the connecting part can be connected with the target equipment.

By means of this construction, a possible design of the anchor assembly is provided. In particular, by means of a combination of two movable connections, an adjustment of the relative position between the target device and the carrier member engaged by means of the foot assembly is achieved.

It will be appreciated that the specific form of the movable connection between the first and second parts and/or the first and base parts, the specific dimensions/ranges of the movement, etc. may be determined by a person skilled in the art according to the actual requirements, e.g. the adjustment of the relative position between the corresponding pair of structures may be achieved by means of movements, rotations, etc. A multi-degree-of-freedom adjustable spherical structure is provided between the first and second parts, whereby adjustment of the relative position between the first and second parts in multiple dimensions is achieved by means of the spherical structure.

Further, it is understood that the structural form of the first/second portions, etc., may be determined according to actual needs, as may be a columnar structure, a spherical structure, a block structure, etc., as will be appreciated by those skilled in the art.

For the above-mentioned foot assembly, in one possible implementation manner, the first portion is provided with at least one first waist hole, and a first movable member capable of moving along the first waist hole is configured in the first waist hole, and the first movable member can be fixedly connected with the bearing component.

By such a configuration, the relative position between the first portion and the carrier can be adjusted by the movement of the first movable member along the first waist hole. The first movable member may be an adjustment screw, an adjustment bolt, or the like, for example.

For the above-mentioned foot assembly, in one possible embodiment, the first part is provided with a positioning member, which can be connected with the carrier part.

With this configuration, the first movable member can be moved in the first waist hole in a reliable manner, and the desired relative position between the first portion and the carrier can be ensured to be changed more reliably. If the positioning member is movably connected with the first portion/carrier, the positioning member may include one or more of a baffle, a stop, any other structure capable of positioning, etc.

For the above-mentioned foot assembly, in one possible embodiment, the positioning member is a positioning pin, and the positioning pin is fixedly disposed on the first portion.

By this construction, a specific structural form of the positioning member is given.

For the above-mentioned foundation assembly, in one possible implementation manner, the second portion is provided with at least one second waist hole, and a second movable member capable of moving along the second waist hole is configured in the second waist hole, and the second movable member is capable of being fixedly connected with the first portion, where an included angle is formed between at least one portion of the first waist hole and the second waist hole.

By such a constitution, the relative position of the second portion and the first portion in the multiple dimensions can be adjusted by the movement of the second movable member along the second waist hole. On the basis, the relative position between the target equipment and the bearing component can be adjusted through the cooperation between the two groups of waist holes with included angles. The second waist hole as here and the aforementioned first waist hole may be an arc-shaped hole or a hole of a fold line structure. Illustratively, the first/second waist holes are each circular-arc waist holes.

For the above-mentioned foot assembly, in a possible embodiment, the first waist hole and/or the second waist hole comprise at least one pair disposed opposite to each other; and/or at least a portion of the first waist hole and the second waist hole are perpendicular to each other.

With this construction, a possible form of the first waist hole and the second waist hole constituting the leg assembly is given. Taking a pair of examples in which the first waist hole and the second waist hole each include opposite arrangement, the included angle here can be understood as: an angle is formed between a line connecting a certain point (such as a midpoint) of the pair of first waist holes and a line connecting a certain point (such as a midpoint) of the pair of second waist holes, or an angle is formed between a tangent/normal line of any first waist hole at a middle point and a tangent/normal line of any second waist hole at a middle point.

For the above-mentioned foot assembly, in a possible embodiment, the connection part can be connected to the target device in a movable manner.

With this configuration, the relative position between the target device and the carrier member can be further adjusted by the connecting portion.

It will be appreciated that the specific dimensions of the movable connection between the connection part and the target device, and the specific structure by means of which it is realized, such as telescoping, rotating, etc., can be determined by a person skilled in the art according to the actual requirements.

With respect to the above-mentioned anchor assembly, in one possible embodiment, the connection portion includes a screw on which a first nut and a second nut are disposed, and the target device can be disposed between the first nut and the second nut.

With this configuration, the target device can be pushed up by the engagement between the two nuts, and fine adjustment in the height direction between the target device and the carrier can be achieved by the screwing up/down of the two nuts.

With the above-described foot assembly, in one possible embodiment, the target device is provided with a leg, the floor of which can be sandwiched between the first nut and the second nut.

For the above-mentioned foot assembly, in a possible embodiment, the first portion and/or the second portion is a plate-like structure.

By such a construction, possible structural forms of the first part and the second part are given.

Drawings

The following describes a preferred embodiment of the present utility model by taking a target device as a conveying device and a bearing component as a bearing steel beam, and referring to the accompanying drawings, in which:

FIG. 1 is a schematic view showing a construction of a foot assembly according to an embodiment of the present utility model;

FIG. 2 illustrates an assembled schematic view of a foot assembly according to one embodiment of the present utility model.

List of reference numerals:

100. a foot margin assembly;

1. a first portion;

11. a first waist hole; 12. a first adjusting bolt; 13. a positioning pin;

2. a second portion;

21. a second waist hole; 22. a second adjusting bolt; 23. a screw; 241. a first adjustment nut; 242. a second adjustment nut; 243. a drop-proof nut;

200. carrying a steel girder;

300. a transport device;

3. a support leg; 31. a bottom plate.

Detailed Description

Preferred embodiments of the present utility model are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present utility model, and are not intended to limit the scope of the present utility model. For example, although the present embodiment is described in connection with two pairs of waist holes perpendicular to each other, this is not intended to limit the scope of the present utility model, and one skilled in the art may adjust the number, shape, orientation, etc. of waist holes without departing from the principles of the present utility model.

It should be noted that, in the description of the present utility model, terms such as "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like indicate directions or positional relationships based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the apparatus or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "configured," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be directly connected, can be indirectly connected through an intermediate medium, and can also be communicated with the inside of two elements. The specific meaning of the above terms in the present utility model can be understood by those skilled in the art according to the specific circumstances.

Furthermore, in the following detailed description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, it will be appreciated by those skilled in the art that the present utility model may be practiced without some of these specific details. In some instances, details of automated manufacturing processes for automobiles, etc., that are well known to those skilled in the art, have not been described in detail in order to facilitate a salient point of the present utility model.

For convenience of description, in the present embodiment, the vertical direction is referred to as the Z direction, the longitudinal direction of the load-bearing steel beam is referred to as the X direction, and the width direction of the load-bearing steel beam is referred to as the Y direction.

Referring primarily to fig. 1 and 2, in one possible embodiment, a foot assembly 100 generally includes a first portion 1 and a second portion 2 connected to each other, the first portion being disposed on a load-bearing steel beam 200, the second portion being connected to a conveying apparatus 300, which is illustratively configured with legs 3, the second portion being connected to a floor 31 of the legs. In this example, the first portion and the second portion are both plate-like structures, the area of the first portion is large, the second portion is disposed in a stacked manner with the first portion and the second portion can be entirely above a partial area of the first portion.

In one possible embodiment, the first portion is provided with a pair of first waist holes 11 (e.g. referred to as Y-direction waist holes), and first adjusting bolts 12 (e.g. outer hexagon bolts) are arranged in the first waist holes, and flexible adjustment of the first portion relative to the bearing steel beam in the XOY plane can be achieved through movement of the first adjusting bolts along the corresponding first waist holes. Meanwhile, the first part is provided with a locating pin 13, by means of which the first part is arranged to the load-bearing steel girder. Illustratively, a dowel pin is welded to the first portion, the dowel pin being movably disposed on the load-bearing steel beam. It is understood that the number, shape, direction, length, etc. of the first waist holes can be determined by those skilled in the art according to actual needs.

In one possible embodiment, the second portion 2 is provided with a pair of second waist holes 21, which are at an angle to the first waist holes. As in the present example, the second waist hole is substantially perpendicular to the first waist hole and may be referred to as an X-direction waist hole. Second adjusting bolts 22 are arranged in the second waist holes, and flexible adjustment of the second part relative to the first part in the XOY plane can be realized through movement of the second adjusting bolts along the corresponding second waist holes. At the same time, the side of the second part, which is close to the conveyor, is provided with screws 23, by means of which the second part is fastened to the legs of the conveyor to ensure that the conveyor is in use after being mounted in place. In this example, the screw is provided to the second portion by means of welding.

It is understood that, similar to the aforementioned first waist holes, the number, shape, direction, length, etc. of the second waist holes can be determined by those skilled in the art according to actual needs. In addition, the included angle between the two can be flexibly adjusted according to actual demands, for example, a proper angle can be selected between 0 and 90 degrees so as to realize the adjustment of the relative positions of the conveying equipment and the bearing steel beam in the XOY plane through the cooperation of the first waist hole and the second waist hole. Illustratively, the directions of the first waist hole and the second waist hole may be interchanged.

Based on the structure, after the two-layer steel platform is installed in place, according to the process line layout, the foundation assembly required by each conveying device to be configured on the two-layer steel platform is uniformly adjusted in place according to the requirements of the size, the position and the like of the supporting leg of the corresponding conveying device, and specifically, the position of the foundation assembly in the XOY plane is adjusted in place through the matching of the two groups of waist holes and the corresponding adjusting bolts. In this way, the conveying equipment which is assembled and measured later can be directly put on the ground leg assembly which is adjusted to be in place. On the basis, the Z-direction dimension is uniformly adjusted (fine-tuned) according to the height of the finding process line body. Namely: the two-layer steel platform is installed in place, the foundation assembly is adjusted in place, the whole conveying equipment is located in place, and the Z-direction dimension (and the fine adjustment of the straightness of the wire body) is achieved.

In one possible implementation, the structure for achieving fine adjustment of the Z dimension is: two adjusting nuts (such as outer hexagon nuts) are arranged on the screw rod, in the assembled state, the first adjusting nut 241 located above is located on the upper surface of the bottom plate 31 of the supporting leg, the second adjusting nut 242 located below is located on the lower surface of the bottom plate of the supporting leg, the supporting leg can be tightly jacked through the cooperation of the two adjusting nuts, and the jacking height of the supporting leg can be finely adjusted through adjusting the positions of the two adjusting nuts. In this example, a drop-proof nut 243 is also provided below the second adjusting nut below to ensure the reliability of the fixing of the leg in the Z direction.

In a specific example, two first waist holes (Y-direction waist holes), one locating pin and two threaded holes (two second adjusting bolts matched with the second waist holes) are arranged on the first portion of the foundation assembly, and two second waist holes (X-direction waist holes) and one screw (three nuts are arranged on the second portion of the foundation assembly). During field installation, the locating pin welded to the first part is firstly installed in the threaded hole of the bearing steel beam, and the two first adjusting bolts matched with the first waist holes are pre-screwed on the bearing steel beam (the bearing steel beam is provided with the threaded hole matched with the first adjusting bolts). And then, pre-installing two second adjusting bolts matched with the second waist holes in the second part into the two threaded holes of the first part. Meanwhile, the position of the ground leg assembly needs to be adjusted by means of a measuring instrument, and specifically, the measuring result needs to ensure that each set of ground leg assembly meets the size and position requirements of the supporting leg of the conveying equipment.

It can be seen that in the foundation assembly of the utility model, on the basis of two bearing parts (a first part and a second part), the flexible and adjustable position of the conveying equipment along the X/Y/Z direction is realized through the assembly of two groups of waist holes and adjustable screws, the structure is simple, the labor cost is saved, and the conveying equipment can be ensured to fall accurately and rapidly. Therefore, the construction period of the automatic production and manufacturing process project can be reduced, the construction efficiency of the project is improved, and the construction quality of the project is ensured.

Tests show that the drop efficiency of the conveying equipment is improved by at least 50% based on the ground foot assembly, so that the use requirement of the conveying equipment on quick drop is met. In addition, the falling position precision can be controlled within +/-5 mm, so that the precise falling position of the conveying equipment is realized. On this basis, compared with the construction period of the existing automatic production and manufacturing process project, the construction period of the foundation assembly based on the utility model is shortened by at least 30%.

Thus far, the technical solution of the present utility model has been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of protection of the present utility model is not limited to these specific embodiments. Equivalent modifications and substitutions for related technical features may be made by those skilled in the art without departing from the principles of the present utility model, and such modifications and substitutions will fall within the scope of the present utility model.

Claims (10)

1. A foot assembly for use in locating a target device on a load bearing member, the foot assembly comprising:

a first portion movably disposed on the carrier; and

a second portion movably disposed to the first portion;

wherein the second part is provided with a connecting part, and the connecting part can be connected with the target equipment.

2. The foot assembly according to claim 1, wherein the first portion is provided with at least one first waist hole in which a first movable member is arranged to be movable therealong, the first movable member being fixedly connectable to the carrier.

3. The foot assembly according to claim 2, wherein the first portion is provided with a locating member connectable with the load bearing member.

4. A foot assembly according to claim 3, wherein the locating member is a locating pin fixedly disposed on the first portion.

5. The foot assembly according to any one of claims 2 to 4 wherein the second portion is provided with at least one second waist opening, the second waist opening having disposed therein a second movable member movable therealong, the second movable member being fixedly connectable to the first portion,

wherein an included angle is formed between at least a portion of the first waist hole and the second waist hole.

6. The foot assembly according to claim 5, wherein the first and/or second waist holes comprise at least one pair disposed opposite each other; and/or

At least a portion of the first waist hole and the second waist hole are perpendicular to each other.

7. The foot assembly according to claim 1, wherein the attachment portion is movably attachable to the target device.

8. The foot assembly according to claim 7, wherein the connection portion comprises a screw having a first nut and a second nut disposed thereon, the target device being positionable between the first nut and the second nut.

9. The foot assembly according to claim 8, wherein the target device is provided with a leg, the floor of which is capable of being sandwiched between the first nut and the second nut.

10. The foot assembly according to claim 1, wherein the first portion and/or the second portion is a plate-like structure.

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