CN216264287U - Machining jig for precise parts for automation equipment - Google Patents

Abstract

The utility model provides a machining jig for precise parts for automation equipment, which comprises a transverse bottom plate and a longitudinal back plate, wherein a first positioning groove is formed in the top of the transverse bottom plate, a first rib plate positioning assembly and a second rib plate positioning assembly are arranged on the lower side of the longitudinal back plate, the first rib plate positioning assembly and the second rib plate positioning assembly respectively comprise a rib plate positioning block and a first push rod, a rib plate positioning groove is formed in one side of the rib plate positioning block, an upright post positioning assembly is arranged in the middle of the longitudinal back plate, the upright post positioning assembly comprises an upright post positioning block and a second push rod, an upright post clamping groove is formed in one side of the upright post positioning block, a top plate positioning assembly is arranged at the top of the longitudinal back plate, the top plate positioning assembly comprises a lifting template and two third push rods, and a second positioning groove is formed in the bottom of the lifting template. The first positioning groove, the stand column clamping groove, the rib plate positioning groove and the second positioning groove can be used for positioning the bottom plate, the stand column, the rib plate and the top plate respectively, so that the assembly and the processing of the support are facilitated, and the processing quality is improved.

Description

Machining jig for precise parts for automation equipment

Technical Field

The present invention relates to a hardware processing tool, and more particularly, to a processing tool for precision parts of an automation device.

Background

With the increasing popularity of mechanical automation, the functions and functions of automation equipment are becoming more and more powerful, and various kinds of hardware are required to be used on the automation equipment.

The existing bracket 12 comprises a bottom plate 120, a vertical column 121, a top plate 122 and two rib plates 123, wherein the bottom plate 120 and the top plate 122 are respectively arranged at two ends of the vertical column 121, and the two rib plates 123 are respectively arranged at two sides between the bottom plate 120 and the vertical column 121. At present, the manufacturing process of the bracket 12 basically connects the metal plates by welding, and operators judge the positions of the metal plates by experience and intuition when welding different metal plates, and need to hold the metal plates with one hand and hold a welding tool with the other hand for welding, so that the problems of difficult operation, large deviation of assembly positions and non-uniformity exist, and the processing quality of products cannot be ensured.

Disclosure of Invention

The utility model aims to solve the problem of providing a machining jig for precise parts for automation equipment, which is convenient for positioning hardware in a welding process, improves the operability, ensures the accuracy of an installation position and improves the product quality.

The utility model aims to solve the technical problems and provides a processing jig for precision parts for automation equipment, which comprises a transverse bottom plate and a longitudinal back plate fixedly connected to one side of the transverse bottom plate, wherein the top of the transverse bottom plate is provided with a first positioning groove, the lower side of the longitudinal back plate is provided with a first rib plate positioning component and a second rib plate positioning component, the first rib plate positioning component and the second rib plate positioning component respectively comprise rib plate positioning blocks, first push rods penetrating through the longitudinal back plate along the Y-axis direction, one end of each first push rod is fixedly connected to the rib plate positioning block, one side surface of each rib plate positioning block is provided with a rib plate positioning groove in a triangular shape, the middle of the longitudinal back plate is provided with an upright positioning component, each upright positioning component comprises an upright positioning block and a second push rod penetrating through the longitudinal back plate along the Y-axis direction, one end of each second push rod is fixedly connected to the upright positioning block, the vertical positioning block is provided with a vertical clamping groove in a penetrating mode, the top of the vertical back plate is provided with a top plate positioning assembly, the top plate positioning assembly comprises a lifting template and two third push rods arranged at one end of the lifting template side by side, the top of the vertical back plate is provided with a vertical sliding groove matched with the third push rods, the third push rods are arranged on the vertical sliding grooves, and the bottom of the lifting template is provided with a second positioning groove.

Preferably, first push rod and second push rod one end fixedly connected with first stopper and second stopper respectively, vertical backplate side is provided with first holding tank and second holding tank that matches with first stopper and second stopper respectively, and first stopper and second stopper are the activity respectively and are set up on first holding tank and second holding tank.

Preferably, a third accommodating groove and a fourth accommodating groove which are respectively matched with the rib plate positioning block and the column positioning block are formed in one side face of the longitudinal back plate, and the rib plate positioning block and the column positioning block are respectively movably arranged on the third accommodating groove and the fourth accommodating groove.

Preferably, the first limiting block, the second limiting block and the lifting template are provided with handles.

Preferably, the edges of the first positioning groove and the second positioning groove are provided with rounded corners.

Preferably, silica gel gaskets are adhered to two side faces of the clamping groove of the upright post.

The utility model has the beneficial effects that: the utility model provides a processing jig for precise parts for automation equipment, which is provided with a unique assembly structure, when a support is assembled, a bottom plate is placed on a first positioning groove for positioning, an upright post positioning block is pushed out to a proper position through a second push rod, an upright post is placed at the top of the bottom plate and clamped on an upright post clamping groove, the joint of the upright post and the bottom plate can be welded, an upright post positioning assembly is reset after the upright post is welded, a rib plate positioning block is pushed out to a proper position through the first push rod, two rib plates are respectively placed on rib plate positioning grooves at two sides, the joint of the rib plate, the upright post and the bottom plate can be welded, the first rib plate positioning assembly and the second rib plate positioning assembly are reset after the rib plate is welded, a top plate is placed at the top end of the upright post and pushes a lifting template to move towards the top plate side so as to cover the second positioning groove on the top plate, can weld the junction of roof and stand this moment, reset roof locating component after the roof welding is accomplished, can take out the support of accomplishing the equipment from first positioning groove this moment. The support positioning device is simple in structure, can position the assembling process of the support, facilitates the assembling and machining of the support, and improves machining quality.

Drawings

Fig. 1 illustrates a schematic structural view of the external form of the present invention.

Fig. 2 illustrates a rear view of the present invention.

Fig. 3 illustrates a schematic structural view of the top plate positioning assembly of the present invention.

Fig. 4 is a schematic view illustrating the external structure of the stent processed by the present invention.

The reference numbers illustrate: the horizontal bottom plate 1, the vertical back plate 2, the vertical sliding groove 200, the first accommodating groove 201, the second accommodating groove 202, the third accommodating groove 203, the fourth accommodating groove 204, the first positioning groove 3, the first rib plate positioning component 4, the rib plate positioning block 40, the rib plate positioning groove 400, the first push rod 41, the first limiting block 42, the second rib plate positioning component 5, the upright post positioning component 6, the upright post positioning block 60, the second push rod 61, the upright post clamping groove 600, the second limiting block 62, the top plate positioning component 7, the lifting template 70, the second positioning groove 700, the third push rod 71, the handle 8, the fillet 9, the silica gel gasket 11, the bracket 12, the bottom plate 120, the upright post 121, the top plate 122, and the rib plate 123.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be described clearly and completely with reference to the drawings of the embodiments of the present disclosure. It is to be understood that the described embodiments are only a few embodiments of the present disclosure, and not all embodiments.

All other embodiments of the person skilled in the art, which are obtained without inventive work on the basis of the described embodiments of the present disclosure, are within the scope of protection of the present disclosure.

Refer to fig. 1-4.

The utility model provides a processing jig for precise parts for automation equipment, which comprises a transverse bottom plate 1 and a longitudinal back plate 2 fixedly connected to one side of the transverse bottom plate 1, wherein the top of the transverse bottom plate 1 is provided with a first positioning groove 3, the lower side of the longitudinal back plate 2 is provided with a first rib plate positioning component 4 and a second rib plate positioning component 5, the first rib plate positioning component 4 and the second rib plate positioning component 5 both comprise rib plate positioning blocks 40 and first push rods 41 which penetrate through the longitudinal back plate 2 along the Y-axis direction, one end of each first push rod 41 is fixedly connected to the rib plate positioning block 40, one side surface of each rib plate positioning block 40 is provided with a rib plate positioning groove 400 which is arranged in a triangular shape, the middle part of the longitudinal back plate 2 is provided with an upright post positioning component 6, each upright post positioning component 6 comprises an upright post positioning block 60 and a second push rod 61 which penetrates through the longitudinal back plate 2 along the Y-axis direction, one end of each second push rod 61 is fixedly connected to the upright post positioning block 60, the upright column positioning block 60 is provided with an upright column clamping groove 600 in a penetrating manner on one side, the top of the longitudinal backboard 2 is provided with a top board positioning assembly 7, the top board positioning assembly 7 comprises a lifting template 70 and two third push rods 71 which are arranged at one end of the lifting template 70 in parallel, the top of the longitudinal backboard 2 is provided with a longitudinal sliding groove 200 matched with the third push rods 71, the third push rods 71 are arranged on the longitudinal sliding groove 200, and the bottom of the lifting template 70 is provided with a second positioning groove 700.

The specific use principle is that the shapes of the first positioning groove 3, the upright post clamping groove 600, the rib plate positioning groove 400 and the second positioning groove 700 are respectively matched with the shapes of the bottom plate 120, the upright post 121, the rib plate 123 and the top plate 122. When the bracket 12 is assembled, the bottom plate 120 is placed on the first positioning groove 3 for positioning, the column positioning block 60 is pushed out to a proper position through the second push rod 61, the column 121 is placed at the top of the bottom plate 120 and clamped into the column clamping groove 600, the joint of the column 121 and the bottom plate 120 can be welded at the moment, the column positioning component 6 is reset after the column 121 is welded, the rib plate positioning block 40 is pushed out to a proper position through the first push rod 41, the two rib plates 123 are respectively placed on the rib plate positioning grooves 400 at the two sides, the joint of the rib plates 123, the column 121 and the bottom plate 120 can be welded at the moment, the first rib plate positioning component 4 and the second rib plate positioning component 5 are reset after the rib plates 123 are welded, the top plate 122 is placed at the top end of the column 121 and pushes the lifting template 70 to move towards the top plate 122 side so as to cover the second positioning groove 700 on the top plate 122, and the joint of the top plate 122 and the column 121 can be welded at the moment, after the top plate 122 is welded, the top plate positioning assembly 7 is reset, and at this time, the assembled bracket 12 can be taken out from the first positioning groove 3. The support positioning device is simple in structure, can position the assembling process of the support, facilitates the assembling and machining of the support, and improves machining quality.

Based on the above embodiment, one end of the first push rod 41 and one end of the second push rod 61 are respectively and fixedly connected with the first limiting block 42 and the second limiting block 62, the side surface of the longitudinal backboard 2 is provided with the first accommodating groove 201 and the second accommodating groove 202 respectively matched with the first limiting block 42 and the second limiting block 62, and the first limiting block 42 and the second limiting block 62 are respectively and movably arranged on the first accommodating groove 201 and the second accommodating groove 202. When thrust is exerted on the first limiting block 42 and the second limiting block 62 respectively to push the rib plate positioning block 40 and the column positioning block 60 out, when the first limiting block 42 and the second limiting block 62 are pushed into the first accommodating groove 201 and the second accommodating groove 202 respectively, the rib plate positioning block 40 and the column positioning block 60 are pushed out to proper positions, the moving ranges of the rib plate positioning block 40 and the column positioning block 60 can be limited, and the accuracy of the assembling positions of the column 121 and the rib plate 123 is improved.

Based on the above embodiment, one side of the longitudinal backboard 2 is provided with the third receiving groove 203 and the fourth receiving groove 204 respectively matching with the rib positioning block 40 and the column positioning block 60, and the rib positioning block 40 and the column positioning block 60 are respectively movably arranged on the third receiving groove 203 and the fourth receiving groove 204. The rib plate positioning block 40 and the column positioning block 60 can be pushed into the third accommodating groove 203 and the fourth accommodating groove 204 respectively, so that obstruction or sight shielding caused during welding is avoided, and the use is flexible.

Based on the above embodiment, the first stopper 42, the second stopper 62 and the lifting template 70 are all provided with the handle 8, so that the first stopper 42, the second stopper 62 and the lifting template 70 can be conveniently pushed and pulled by holding the handle 8.

Based on the above embodiment, the edge of the first positioning groove 3 and the edge of the second positioning groove 700 are both provided with the rounding off corners 9, so as to play a guiding role, and the bottom plate 120 and the top plate 122 are conveniently and respectively installed in the first positioning groove 3 and the second positioning groove 700.

Based on above-mentioned embodiment, the silica gel gasket 11 has all been pasted to stand draw-in groove 600 both sides face, and silica gel gasket 11 elasticity is good, prevents that stand draw-in groove 600 from wearing and tearing stand 121.

The above embodiments are merely illustrative of the preferred embodiments of the present invention, and not restrictive, and various changes and modifications to the technical solutions of the present invention may be made by those skilled in the art without departing from the spirit of the present invention, and the technical solutions of the present invention are intended to fall within the scope of the present invention defined by the appended claims.

Claims (6)

1. The machining jig for the precise parts for the automatic equipment is characterized by comprising a transverse bottom plate (1) and a longitudinal back plate (2) fixedly connected to one side of the transverse bottom plate (1), wherein a first positioning groove (3) is formed in the top of the transverse bottom plate (1), a first rib plate positioning component (4) and a second rib plate positioning component (5) are arranged on the lower side of the longitudinal back plate (2), the first rib plate positioning component (4) and the second rib plate positioning component (5) both comprise rib plate positioning blocks (40) and first push rods (41) arranged on the longitudinal back plate (2) in a penetrating mode along the Y-axis direction, one ends of the first push rods (41) are fixedly connected to the rib plate positioning blocks (40), rib plate positioning grooves (400) which are arranged in a triangular shape are formed in one side face of the positioning blocks (40), and an upright column positioning component (6) is arranged in the middle of the longitudinal back plate (2), the upright post positioning component (6) comprises an upright post positioning block (60) and a second push rod (61) which penetrates through the longitudinal back plate (2) along the Y-axis direction, one end of the second push rod (61) is fixedly connected to the upright post positioning block (60), an upright column clamping groove (600) is arranged at one side of the upright column positioning block (60) in a penetrating way, a top plate positioning component (7) is arranged at the top of the longitudinal back plate (2), the top plate positioning component (7) comprises a lifting template (70) and two third push rods (71) which are arranged at one end of the lifting template (70) in parallel, the top of the longitudinal back plate (2) is provided with a longitudinal sliding groove (200) matched with the third push rod (71), the third push rod (71) is arranged on the longitudinal sliding groove (200), and a second positioning groove (700) is arranged at the bottom of the lifting template (70).

2. The machining jig for the precise parts for the automation equipment is characterized in that one end of the first push rod (41) and one end of the second push rod (61) are fixedly connected with a first limiting block (42) and a second limiting block (62) respectively, a first accommodating groove (201) and a second accommodating groove (202) which are matched with the first limiting block (42) and the second limiting block (62) respectively are formed in the side surface of the longitudinal back plate (2), and the first limiting block (42) and the second limiting block (62) are movably arranged on the first accommodating groove (201) and the second accommodating groove (202) respectively.

3. The machining jig for the precise parts for the automation equipment according to claim 2, wherein a third accommodating groove (203) and a fourth accommodating groove (204) which are respectively matched with the rib plate positioning block (40) and the column positioning block (60) are formed in one side surface of the longitudinal back plate (2), and the rib plate positioning block (40) and the column positioning block (60) are respectively movably arranged on the third accommodating groove (203) and the fourth accommodating groove (204).

4. The machining jig for the precise parts for the automation equipment is characterized in that the first limiting block (42), the second limiting block (62) and the lifting template (70) are respectively provided with a handle (8).

5. The machining jig for the precise parts for the automation equipment is characterized in that the edges of the first positioning groove (3) and the second positioning groove (700) are provided with a rounded corner (9).

6. The machining jig for the precise parts for the automation equipment is characterized in that silica gel gaskets (11) are adhered to two side surfaces of the upright post clamping groove (600).

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