CN220881418U - Actuating mechanism aluminium system box processing frock - Google Patents

Abstract

The utility model relates to the technical field of fixed tools, in particular to an aluminum box body machining tool for an actuating mechanism. The technical scheme includes that the aluminum box comprises a bottom plate, wherein the bottom plate is provided with a V-shaped support assembly, the V-shaped support assembly is symmetrically arranged on the upper surface of the bottom plate, the V-shaped support assembly is used for supporting an aluminum box body and enabling the aluminum box body to be in a horizontal state through adjustment, the positioning structure comprises a backrest positioning nut, a limiting nut and a backrest plate fixed on the upper surface of the bottom plate, the backrest positioning nut longitudinally penetrates through the backrest plate and is in interference with the aluminum box body, and the limiting nut is in threaded fit with the backrest positioning nut to enable the backrest positioning nut to be in an interference state; the box clamping mechanisms are provided with two groups, and the two groups of box clamping mechanisms are respectively positioned at the outer sides of the V-shaped bracket components. The utility model can finely adjust the height of the tool according to the quality of each batch of blanks in the processing process, improves the clamping efficiency of parts, shortens the production period of the parts and reduces the cost of the parts.

Description

Actuating mechanism aluminium system box processing frock

Technical Field

The utility model relates to the technical field of fixed tools, in particular to an aluminum box body machining tool for an actuating mechanism.

Background

In the electric actuator, the box body is a main supporting member, and the accuracy level of the integral processing of the box body directly influences the service performance of the electric actuator. The machining tool has the advantages that the machining tool is inaccurate in part positioning, the part machining yield is low, the size of the part machining tool can be adjusted, the machining tool can deal with the inconsistent blank to a greater extent, and the scrapping of tool parts is reduced. In the past, the structural design of the tooling mainly has the following defects: 1. the tooling is not strong in self-adjustability and cannot cope with the problem of the change of the outline dimension of the blank; 2. the clamping efficiency of the parts is low, and the production cost of the parts is directly influenced.

Disclosure of utility model

Aiming at the problems in the background art, the utility model provides the aluminum box processing tool for the actuating mechanism, which can finely adjust the height of the tool according to the mass of each batch of blanks in the processing process, improves the clamping efficiency of parts, shortens the production period of the parts and reduces the cost of the parts.

The technical scheme of the utility model is as follows: the utility model provides an actuating mechanism aluminium system box processing frock, includes the bottom plate of being connected with FMS unit equipment bottom plate, still includes:

The V-shaped bracket assemblies are provided with two groups, and the two groups of V-shaped bracket assemblies are symmetrically arranged on the upper surface of the bottom plate and used for supporting the aluminum box body and enabling the aluminum box body to be in a horizontal state through adjustment;

The positioning structure comprises a backrest positioning nut, a limiting nut and a backrest plate fixed on the upper surface of the bottom plate, wherein the backrest positioning nut longitudinally penetrates through the backrest plate and is in interference with the aluminum box body, and the limiting nut is in threaded fit with the backrest positioning nut and used for enabling the backrest positioning nut to keep an interference state;

The box clamping mechanisms are provided with two groups, the two groups of box clamping mechanisms are respectively located on the outer sides of the V-shaped bracket assemblies, and the box clamping mechanisms are fixed by pressing the box clamping mechanisms downwards according to the height of the aluminum box body.

Preferably, the V-shaped bracket assembly comprises a longitudinal rail seat fixed on the upper surface of the bottom plate, and wedge blocks which are slidably mounted on the upper sides of the longitudinal rail seat in a symmetrical manner, wherein the upper sides of the two wedge blocks are respectively slidably mounted with a first V-shaped seat and a second V-shaped seat;

The device further comprises two adjusting nuts, wherein the two adjusting nuts are respectively in threaded fit with the two ends of the longitudinal rail seat;

When the adjusting nut rotates, the adjusting nut enables the corresponding wedge blocks to move along the length direction of the longitudinal rail seat through the connecting component.

Preferably, the V-shaped bracket assembly further comprises a vertical rail, and the first V-shaped seat and the second V-shaped seat are slidably connected with the vertical rail;

when the wedge blocks are close to each other, the first V-shaped seat and the second V-shaped seat move upwards along the height direction of the vertical rail.

Preferably, the box body clamping mechanism comprises a pressing plate supporting rod and a pressing rod which are connected to the bottom plate in a threaded manner, the top end of the pressing plate supporting rod is slidably provided with a pressing plate, the surface of the pressing plate is provided with a long groove for the pressing rod to penetrate out, and the pressing plate can linearly move in a state that the pressing rod penetrates through the long groove and is used for adjusting the length of the pressing plate extending into the aluminum box body;

The pressing plate fixing device further comprises a locking nut, wherein the locking nut is in threaded fit with the end part of the pressing rod and used for limiting and fixing the pressing plate.

Preferably, the upper surface of the bottom plate is provided with a threaded hole for pre-connecting the pressure plate support rod and the pressure rod.

Preferably, a drainage groove is formed in the lower side of the bottom plate.

Preferably, the end of the back rest positioning nut, which is contacted with the aluminum box body, is hemispherical.

Preferably, the wedge surface has a sliding rail structure parallel to the inclined plane thereof, and the bottoms of the first V-shaped seat and the second V-shaped seat are respectively and slidably mounted on the corresponding sliding rail structure.

Preferably, the bottom plate is internally provided with a countersunk hole connected with the bottom plate of the FMS unit equipment.

Preferably, the bottom plate is provided with a supporting rod in a threaded manner, and the top end of the supporting rod is abutted against the surface of the aluminum box body.

Compared with the prior art, the utility model has the following beneficial technical effects:

According to the utility model, the two ports of the aluminum box body are arranged above the V-shaped notch formed by the first V-shaped seat and the second V-shaped seat, then the adjusting nut is rotated to drive the wedge block to move through the connecting member, and the first V-shaped seat and the second V-shaped seat are enabled to move upwards along the vertical rail under the combined action of the sliding rail structure of the inclined surface of the wedge block and the vertical rail, so that the height of the aluminum box body is adjusted, fine adjustment of the aluminum box body is realized, and the clamping efficiency is improved.

Drawings

FIG. 1 shows a schematic perspective view of the present utility model;

FIG. 2 shows a front view of the present utility model;

FIG. 3 is a rear view of the present utility model;

FIG. 4 is a side view of the present utility model;

FIG. 5 is a top view of the present utility model;

FIG. 6 is a schematic view of a V-bracket assembly according to the present utility model;

reference numerals: 1 is a bottom plate; 2 is a platen strut; 3 is a press plate; 4 is a compression bar; 5 is a support rod; 7 is a first V-shaped seat; 8 is a wedge; 9 is an adjusting nut; 10 is a second V-shaped seat; 12 is a longitudinal rail seat; 13 is a back rest; 14 is a back rest positioning nut; 15 is a stop nut.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", "front", "rear", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Examples

As shown in fig. 1, the processing tool for the aluminum box body of the actuating mechanism provided by the utility model comprises a bottom plate 1 connected with a bottom plate of an FMS unit device, wherein a countersunk hole connected with the bottom plate of the FMS unit device is formed in the bottom plate 1, threaded holes for fixing parts at the upper part are also formed, the distribution of the holes is determined by the supporting positions required by the size of the box body, and the processing tool is obtained through various calculations and further comprises:

The V-shaped bracket components are provided with two groups, and the two groups of V-shaped bracket components are symmetrically arranged on the upper surface of the bottom plate 1 and are used for supporting the aluminum box body and enabling the aluminum box body to be in a horizontal state through adjustment;

Specifically, as shown in fig. 2 and 6, the V-shaped bracket assembly includes a longitudinal rail seat 12 fixed on the upper surface of the base plate 1, and wedges 8 slidably mounted on the upper sides of the longitudinal rail seat 12 in a symmetrical manner, and a first V-shaped seat 7 and a second V-shaped seat 10 are slidably mounted on the upper sides of the two wedges 8, respectively;

The device also comprises two adjusting nuts 9, wherein the two adjusting nuts 9 are respectively in threaded fit with two ends of the longitudinal rail seat 12;

When the adjustment nut 9 is rotated, the adjustment nut 9 moves the corresponding wedge 8 in the length direction of the longitudinal rail seat 12 via the connecting member.

The V-shaped bracket component further comprises a vertical rail, and the first V-shaped seat 7 and the second V-shaped seat 10 are in sliding connection with the vertical rail;

When the wedges 8 approach each other, the first V-shaped seat 7 and the second V-shaped seat 10 move upward in the height direction of the vertical rail.

The wedge block 8 has a sliding rail structure parallel to the inclined plane, and the bottoms of the first V-shaped seat 7 and the second V-shaped seat 10 are respectively and slidably arranged on the corresponding sliding rail structure.

In the process of adjusting the height of the aluminum box body, the two ports of the aluminum box body are arranged above the V-shaped notch formed by the first V-shaped seat 7 and the second V-shaped seat 10, then the adjusting nut 9 is driven to move by the connecting member through the rotating adjusting nut 9, and the first V-shaped seat 7 and the second V-shaped seat 10 are enabled to move upwards along the vertical rail under the combined action of the sliding rail structure of the inclined surface of the wedge 8 and the vertical rail, so that the height adjustment of the aluminum box body is realized, and the aluminum box body can be adjusted to be in a horizontal state.

Referring to fig. 3, 4 and 5, the positioning structure includes a back positioning nut 14, a limit nut 15 and a back plate 13 fixed on the upper surface of the bottom plate 1, wherein the back positioning nut 14 longitudinally penetrates through the back plate 13 and abuts against the aluminum box body, and the limit nut 15 is in threaded fit with the back positioning nut 14 to keep the back positioning nut 14 in an abutting state; the end of the back positioning nut 14 contacting the aluminum case is hemispherical. In the scheme, the back positioning nut 14 is in threaded fit with the back plate 13, and the semi-spherical structure is utilized, so that the appearance of the box body is not damaged when the semi-spherical structure is in contact with the curved surface of the aluminum box body.

The box clamping mechanisms are provided with two groups, the two groups of box clamping mechanisms are respectively located on the outer sides of the V-shaped bracket assemblies, and the box clamping mechanisms are fixed by pressing the box clamping mechanisms downwards according to the height of the aluminum box body.

The box clamping mechanism comprises a pressing plate support rod 2 and a pressing rod 4 which are connected to the bottom plate 1 through threads, the top end of the pressing plate support rod 2 is slidably provided with a pressing plate 3, the surface of the pressing plate 3 is provided with a long groove for the pressing rod 4 to penetrate out, and the pressing plate 3 can linearly move in a state that the pressing rod 4 penetrates through the long groove and is used for adjusting the length of the pressing plate 3 extending into the aluminum box;

the pressing plate 3 is fixed by the locking nut in a limiting way.

The upper surface of the bottom plate 1 is provided with a threaded hole for pre-connecting the pressure plate support rod 2 and the pressure rod 4.

The lower side of the bottom plate 1 is provided with a drainage groove. The device can avoid the influence on the installation accuracy due to the fact that air pressure exists inside the plate installation process.

The supporting rod 5 is mounted on the bottom plate 1 in a threaded manner, and the top end of the supporting rod 5 is abutted against the surface of the aluminum box body. The supporting rod 5 is used for supporting the aluminum box body, so that the stability of the aluminum box body is further improved.

After the height of the aluminum box body is adjusted, namely in the position correcting state of the aluminum box body, the inner rings at the two ends of the aluminum box body are pressed and fixed through the matching of the locking nut and the compression bar 4, so that the box body blank is fixed. And finally, detecting whether gaps exist between the positioning surfaces by using a copper feeler gauge.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "configured" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be mechanically coupled, directly coupled, or indirectly coupled via an intermediate medium. The specific meaning of the above terms in the present utility model is understood by those of ordinary skill in the art according to the specific circumstances.

The above-described embodiments are merely one or several preferred embodiments of the present utility model, and many alternative modifications and combinations of the above-described embodiments will be apparent to those skilled in the art based on the technical solutions of the present utility model and the related teachings of the above-described embodiments.

Claims (10)

1. The utility model provides an actuating mechanism aluminium system box processing frock, includes the bottom plate of being connected with FMS unit equipment bottom plate, its characterized in that still includes:

The V-shaped bracket assemblies are provided with two groups, and the two groups of V-shaped bracket assemblies are symmetrically arranged on the upper surface of the bottom plate and used for supporting the aluminum box body and enabling the aluminum box body to be in a horizontal state through adjustment;

The positioning structure comprises a backrest positioning nut, a limiting nut and a backrest plate fixed on the upper surface of the bottom plate, wherein the backrest positioning nut longitudinally penetrates through the backrest plate and is in interference with the aluminum box body, and the limiting nut is in threaded fit with the backrest positioning nut and used for enabling the backrest positioning nut to keep an interference state;

The box clamping mechanisms are provided with two groups, the two groups of box clamping mechanisms are respectively located on the outer sides of the V-shaped bracket assemblies, and the box clamping mechanisms are fixed by pressing the box clamping mechanisms downwards according to the height of the aluminum box body.

2. The tooling for machining the aluminum box body of the actuating mechanism according to claim 1, wherein the V-shaped bracket assembly comprises a longitudinal rail seat fixed on the upper surface of a bottom plate and wedge blocks which are slidably arranged on the upper sides of the longitudinal rail seat in a symmetrical mode, and a first V-shaped seat and a second V-shaped seat are slidably arranged on the upper sides of the two wedge blocks respectively;

The device further comprises two adjusting nuts, wherein the two adjusting nuts are respectively in threaded fit with the two ends of the longitudinal rail seat;

When the adjusting nut rotates, the adjusting nut enables the corresponding wedge blocks to move along the length direction of the longitudinal rail seat through the connecting component.

3. The tooling for machining an aluminum box body of an actuating mechanism according to claim 2, wherein the V-shaped bracket assembly further comprises a vertical rail, and the first V-shaped seat and the second V-shaped seat are slidably connected with the vertical rail;

when the wedge blocks are close to each other, the first V-shaped seat and the second V-shaped seat move upwards along the height direction of the vertical rail.

4. The aluminum box machining tool for the actuating mechanism according to claim 1, wherein the box clamping mechanism comprises a pressing plate supporting rod and a pressing rod which are connected to the bottom plate in a threaded mode, a pressing plate is slidably arranged at the top end of the pressing plate supporting rod, a long groove for the pressing rod to penetrate out is formed in the surface of the pressing plate, and the pressing plate can move linearly in a state that the pressing rod penetrates through the long groove and is used for adjusting the length of the pressing plate extending into the aluminum box;

The pressing plate fixing device further comprises a locking nut, wherein the locking nut is in threaded fit with the end part of the pressing rod and used for limiting and fixing the pressing plate.

5. The tooling for machining the aluminum box body of the actuating mechanism according to claim 1, wherein the upper surface of the bottom plate is provided with a threaded hole for pre-connecting the pressing plate supporting rod and the pressing rod.

6. The tooling for machining the aluminum box body of the actuating mechanism of claim 1, wherein the lower side of the bottom plate is provided with a drainage groove.

7. The tooling for machining the aluminum box body of the actuating mechanism of claim 1, wherein the end portion of the back rest positioning nut, which is in contact with the aluminum box body, is hemispherical.

8. The tooling for machining the aluminum box body of the actuating mechanism according to claim 3, wherein the surface of the wedge block is provided with a sliding rail structure parallel to the inclined surface of the wedge block, and the bottoms of the first V-shaped seat and the second V-shaped seat are respectively and slidably arranged on the corresponding sliding rail structure.

9. The tooling for machining the aluminum box body of the actuating mechanism according to claim 1, wherein a countersink connected with the bottom plate of the FMS unit equipment is formed in the bottom plate.

10. The aluminum box machining tool for the actuating mechanism according to claim 1, wherein a supporting rod is mounted on the bottom plate in a threaded mode, and the top end of the supporting rod is abutted against the surface of the aluminum box.