CN108747512B

CN108747512B - Numerical control clamp for industrial control board radiator base

Info

Publication number: CN108747512B
Application number: CN201810594563.6A
Authority: CN
Inventors: 李硕; 李扬德; 李卫荣; 杨洁丹; 汤铁装
Original assignee: Dongguan Meian Magnesium Technology Co ltd; Dongguan Eontec Co Ltd
Current assignee: Dongguan Magnesium Medical Equipment Co ltd; Dongguan Eontec Co Ltd
Priority date: 2016-07-28
Filing date: 2016-07-28
Publication date: 2020-07-24
Anticipated expiration: 2036-07-28
Also published as: CN108747512A; CN106078291A; CN106078291B

Abstract

The invention provides a numerical control clamp for an industrial control panel radiator base, which comprises a first bearing table, a second bearing table, a left air cylinder, a left clamping rod, a left connecting rod, a right air cylinder, a right clamping rod and a right connecting rod. The first bearing table is provided with a bearing part which is abutted with the lug block of the base; the second bearing table is fixedly arranged below the first bearing table; the first end of the left clamping rod is pivoted with a left piston rod of the left air cylinder, and the second end of the left clamping rod extends to a position right above an ear block on the left side of the base; the lower end of the left connecting rod is pivoted with a left cylinder body of the left air cylinder, and the upper end of the left connecting rod is pivoted with the left clamping rod; the first end of the right clamping rod is pivoted with a right piston rod of the right air cylinder, and the second end of the right clamping rod extends to a position right above an ear block at the right side of the base; the lower end of the right connecting rod is pivoted with the right cylinder body of the right cylinder, and the upper end of the right connecting rod is pivoted with the right clamping rod; when clamping the base, left cylinder drives left clamping bar and goes to press from both sides the ear piece of base left side department with supporting portion together, and right cylinder drives right clamping bar and goes to press from both sides the ear piece of base right side department with supporting portion together to realize a clamping and improve the plane degree.

Description

Numerical control clamp for industrial control board radiator base

The present application is a divisional application of an invention patent application having an application number of 201610613114.2, an application date of 2016, and an application name of "numerical control jig for industrial control board radiator base" of 28.

Technical Field

The invention relates to a clamp, in particular to a numerical control clamp for an industrial control panel radiator base.

Background

With the continuous development of economy and the continuous progress of science and technology, powerful technical and material support is provided for the vigorous development of the production and manufacturing industry, so that the development pace of the production and manufacturing industry is accelerated.

It is known to use a jig in the manufacture of bases for industrial board radiators. The base of the industrial control panel radiator is fixed by the aid of the clamp, so that CNC machining is conducted on the plane to be machined of the base of the industrial control panel radiator, and the flatness of the base of the industrial control panel radiator is guaranteed.

However, in the existing numerical control machining process of the to-be-machined plane of the base of the industrial control panel radiator, the numerical control machine needs to clamp the base by means of 2 sets of clamps, and the flatness of the to-be-machined plane of the base is affected due to tolerance accumulation caused by each clamping, so that the flatness of the base is difficult to ensure even if three processes are adopted to carry out numerical control machining on the to-be-machined plane of the base. In order to ensure the flatness of the base, subsequent procedures are required for shaping, but the shaping difficulty is high; meanwhile, when the used clamp is used for jacking, the pedestal top of the industrial control board radiator is easy to deform, so that the pedestal is scrapped.

Therefore, there is a need for a numerical control clamp for an industrial control panel radiator base, which can ensure flatness and has a small number of clamping times to overcome the above-mentioned defects.

Disclosure of Invention

The invention aims to provide a numerical control clamp for an industrial control panel radiator base, which ensures flatness and has few clamping times.

In order to achieve the purpose, the invention provides a numerical control clamp for an industrial control panel radiator base, which is suitable for clamping the base of the industrial control panel radiator, wherein the left side and the right side of the base respectively extend outwards to form lug blocks for clamping, the upper surface of the base is also provided with a plane to be processed, and the plane to be processed is higher than the lug blocks. The numerical control clamp for the industrial control board radiator base comprises a first bearing table, a second bearing table, a left air cylinder, a left clamping rod, a left connecting rod, a right air cylinder, a right clamping rod and a right connecting rod, wherein the second bearing table is positioned right below the first bearing table. The lower part of the base is borne on the first bearing table, and the first bearing table is provided with a bearing part which is positioned right below the lug block and is abutted against the lug block; the second bearing table is fixed with the first bearing table; the left cylinder comprises a left cylinder body which is arranged on the second bearing table and is positioned outside the left side of the base and a left piston rod which is in telescopic sliding in the left cylinder body; the left clamping rod is arranged along the left and right direction of the base, the first end of the left clamping rod is pivoted with the left piston rod, and the second end of the left clamping rod extends to a position right above the lug at the left side of the base; the left connecting rod is arranged along the up-down direction of the base, the lower end of the left connecting rod is pivoted with the left cylinder body, and the upper end of the left connecting rod is pivoted with the left clamping rod; the right cylinder comprises a right cylinder body which is arranged on the second bearing table and is positioned outside the right side of the base and a right piston rod which is in telescopic sliding in the right cylinder body; the right clamping rod is arranged along the left-right direction of the base, the first end of the right clamping rod is pivoted with the right piston rod, and the second end of the right clamping rod extends to a position right above the lug block on the right side of the base; the right connecting rod is arranged along the up-down direction of the base, the lower end of the right connecting rod is pivoted with the right cylinder body, and the upper end of the right connecting rod is pivoted with the right clamping rod; when clamping the base, the left cylinder drives the left clamping rod to clamp the lug at the left side of the base together with the supporting part matched with the left clamping rod, and simultaneously, the right cylinder drives the right clamping rod to clamp the lug at the right side of the base together with the supporting part matched with the right clamping rod. The left connecting rod is parallel to the left piston rod when the left clamping rod and a bearing part matched with the left clamping rod clamp the lug block at the left side of the base together; the right connecting rod is parallel to the right piston rod when the right clamping rod and the supporting part matched with the right clamping rod clamp the ear block at the right side of the base together.

Preferably, the left clamping rod is arranged in an up-and-down inclined manner when the supporting part matched with the left clamping rod clamps the ear block at the left side of the base together, and the first end of the left clamping rod is higher than the second end of the left clamping rod.

Preferably, the right clamping rod is arranged in an up-and-down inclined manner when the right clamping rod and the supporting part matched with the right clamping rod clamp the ear block at the right side of the base together, and the first end of the right clamping rod is higher than the second end of the right clamping rod.

Preferably, the plane to be processed exceeds the lug blocks at the left side and the right side of the base along the left-right direction of the base.

Preferably, the first bearing table further has positioning pillars distributed on four sides of the base, the positioning pillars are arranged along the up-down direction of the base, and the plane to be processed is higher than the positioning pillars.

Preferably, the two ear blocks on the left side of the base are arranged in tandem, and each ear block on the left side of the base corresponds to one of the left air cylinder, the left clamping rod and the left connecting rod.

Preferably, the two ear blocks on the right side of the base are arranged in tandem, and each ear block on the right side of the base corresponds to one of the right cylinder, the right clamping rod and the right connecting rod.

Preferably, the base is of a square structure, the base is provided with a cavity penetrating through the upper surface of the base, and the cavity divides the upper surface of the base into the square planes to be processed which are connected end to end.

Compared with the prior art, by means of the matching of the first bearing table, the second bearing table, the left air cylinder, the left clamping rod, the left connecting rod, the right air cylinder, the right clamping rod and the right connecting rod, when the base is clamped, at the moment, the left air cylinder drives the left clamping rod to clamp the lug block at the left side of the base together with the bearing part matched with the left clamping rod, meanwhile, the right cylinder drives the right clamping rod to clamp the lug block at the right side of the base together with the bearing part matched with the right clamping rod so as to clamp the base, and the left clamping rod and the right clamping rod are lower than the to-be-machined plane of the base in the process of clamping the base, so that the cutter of the numerical control machine tool is prevented from blocking the to-be-machined plane, and the numerical control machining of the to-be-machined plane of the base by adopting two procedures can be met by one-time clamping, so that the flatness of the base is ensured, the machining time is saved, and the production cost is correspondingly reduced. Meanwhile, the left air cylinder, the left clamping rod and the left connecting rod form a structure for clamping the lug at the left side of the base, the right air cylinder, the right clamping rod and the right connecting rod form a structure for clamping the lug at the right side of the base, and the lugs at the left side and the right side of the base are clamped simply, quickly and reliably, so that the structure of the numerical control clamp for the base of the industrial control panel radiator is simplified, and the numerical control clamp for the base of the industrial control panel radiator is clamped quickly and reliably.

Drawings

Fig. 1 is a schematic perspective view of a numerical control jig for an industrial control panel radiator base according to the present invention.

Fig. 2 is a schematic plan view of a base of an industrial control panel heat sink.

Detailed Description

In order to explain technical contents and structural features of the present invention in detail, the following description is made with reference to the embodiments and the accompanying drawings.

Referring to fig. 1 and fig. 2, the numerical control clamp 100 for an industrial control panel radiator base is suitable for clamping a base 200 of an industrial control panel radiator, so as to perform numerical control machining on a to-be-machined plane 220 of the base 200 under one-time clamping of the base 200, so as to ensure the flatness of the base 200.

As shown in fig. 2, the left and right sides of the base 200 are respectively extended outward with ear blocks 210 for clamping; specifically, in the present embodiment, the two ear blocks 210 at the left side of the base 200 are arranged in tandem, and likewise, the two ear blocks 210 at the right side of the base 200 are arranged in tandem, so as to increase the reliability of clamping the base 200, but not limited thereto. For example, in the present embodiment, the upper surface of the base 200 further has a to-be-machined plane 220, and the to-be-machined plane 220 is higher than the ear block 11, as shown in fig. 1. Meanwhile, the base 200 is a square structure, the base 200 has a cavity 230 penetrating through the upper surface of the base 200, the cavity 230 divides the upper surface of the base 200 into end-to-end square planes 220 to be processed, and the planes 220 to be processed create good conditions for improving the flatness of the base 200. Preferably, as shown in fig. 2, in the present embodiment, the plane to be processed 220 exceeds the ear blocks 210 at the left and right sides of the base 200 in the left and right directions of the base 200, but not limited thereto.

As shown in fig. 1, the numerical control fixture 100 for an industrial control panel radiator base of the present invention includes a first supporting platform 10, a second supporting platform 20 located right below the first supporting platform 10, a left cylinder 30, a left clamping bar 40, a left connecting rod 50, a right cylinder 60, a right clamping bar 70, and a right connecting rod 80. The lower portion of the base 200 is supported on the first supporting platform 10, and the base 200 is supported by the first supporting platform 10, as shown in fig. 1; the first bearing table 10 has a receiving part 11 located right below the ear block 210 and abutting against the ear block 210, and is used for clamping the ear block 210; it can be understood that, since the ear blocks 210 are distributed at the left and right sides of the base 200, each ear block 210 corresponds to one of the supporting parts 11.

The second carrier stage 20 is fixed to the first carrier stage 10. The left cylinder 30 includes a left cylinder 31 installed on the second platform 20 and located outside the left side of the base 200, and a left piston rod 32 telescopically sliding in the left cylinder 31. The left clamping bar 40 is arranged along the left-right direction of the base 200, a first end of the left clamping bar 40 is pivoted with the left piston rod 32, and a second end of the left clamping bar 40 extends to a position right above the ear block 210 at the left side of the base 200. The left connecting rod 50 is disposed along the vertical direction of the base 200, the lower end of the left connecting rod 50 is pivoted to the left cylinder 31, and the upper end of the left connecting rod 50 is pivoted to the left clamping rod 40. The right cylinder 60 includes a right cylinder 61 mounted on the second platform 20 and located outside the right side of the base 200, and a right piston rod 62 telescopically sliding in the right cylinder 61. The right clamping rod 70 is arranged along the left-right direction of the base 200, a first end of the right clamping rod 70 is pivoted with the right piston rod 62, and a second end of the right clamping rod 70 extends to a position right above the ear block 210 at the right side of the base 200. The right link 80 is disposed along the vertical direction of the base 200, the lower end of the right link 80 is pivotally connected to the right cylinder 61, and the upper end of the right link 80 is pivotally connected to the right clamping bar 70. Therefore, when clamping the base 200, the left cylinder 30 drives the left clamping rod 40 to clamp the ear block 210 at the left side of the base 200 together with the abutting portion 11 engaged with the left clamping rod 40, and at the same time, the right cylinder 60 drives the right clamping rod 70 to clamp the ear block 210 at the right side of the base 200 together with the abutting portion 11 engaged with the right clamping rod 70, as shown in fig. 1. Specifically, in the present embodiment, the left clamping rod 40 is an ear block 210 at the left side of the base 200 clamped by the matched abutting portion 11 when the left piston rod 32 of the left air cylinder 30 slides upwards in an extending manner, and the right clamping rod 70 is an ear block 210 at the right side of the base 200 clamped by the matched abutting portion 11 when the right piston rod 62 of the right air cylinder 60 slides upwards in an extending manner, but not limited thereto. More specifically, in the present embodiment, the left link 50 is parallel to the left piston rod 32 when the left clamping bar 40 clamps the ear block 210 at the left side of the base 200 together with the abutment 11 engaged with the left clamping bar 40; the right connecting rod 80 is parallel to the right piston rod 62 when the right clamping rod 70 clamps the ear block 210 at the right side of the base 200 together with the bearing part 11 matched with the right clamping rod 70, so as to increase the clamping stability of the left connecting rod 50 to the ear block 210 at the left side of the base 200 and the clamping stability of the right connecting rod 80 to the ear block 210 at the right side of the base 200, thereby ensuring the clamping reliability of the base 200 and creating a good condition for improving the flatness of the base 200. Meanwhile, the left clamping bar 40 is arranged obliquely up and down when clamping the lug block 210 at the left side of the base 200 together with the bearing part 11 matched with the left clamping bar 40, and the first end of the left clamping bar 40 is higher than the second end of the left clamping bar 40, so that the second end of the left clamping bar 40 for clamping the lug block 210 at the left side of the base 200 is lower than the plane 220 to be processed, and an avoiding space is provided for a tool of a numerical control machine tool when processing the plane 220 to be processed; the right clamping rod 70 is arranged obliquely up and down when clamping the lug block 210 at the right side of the base 200 together with the bearing part 11 matched with the right clamping rod 70, and the first end of the right clamping rod 70 is higher than the second end of the right clamping rod 70, so that the second end of the right clamping rod 70, which is used for clamping the lug block 210 at the right side of the base 200, is lower than the plane 220 to be processed, an avoiding space is provided for a tool of a numerical control machine tool when processing the plane 220 to be processed, and therefore the processing without obstacles of the plane 220 to be processed can be completed by one-time clamping, and the flatness of the base 200 is ensured.

As shown in fig. 1, in order to increase the positioning speed of the base 200 supported by the first carrier 10, the first carrier 10 further has positioning pillars 12 distributed on four sides (i.e., front, rear, left, and right sides) of the base 200, the positioning pillars 12 are disposed along the top-bottom direction of the base 200, the plane to be processed 210 is higher than the positioning pillars 12, and the positioning pillars 12 are prevented from blocking the tool during the processing of the plane to be processed 210, but not limited thereto. For example, since it is described that the ear blocks at the left and right sides of the base 200 are respectively two and arranged in tandem, correspondingly, each ear block 210 at the left side of the base 200 corresponds to one left cylinder 30, one left clamping bar 40 and one left connecting rod 50, and each ear block 210 at the right side of the base 200 corresponds to one right cylinder 60, one right clamping bar 70 and one right connecting rod 80.

Compared with the prior art, by means of the cooperation of the first bearing table 10, the second bearing table 20, the left cylinder 30, the left clamping rod 40, the left connecting rod 50, the right cylinder 60, the right clamping rod 70 and the right connecting rod 80 of the invention, when the base 200 is clamped, the left cylinder 30 drives the left clamping rod 40 to clamp the lug 210 at the left side of the base 200 together with the bearing part 11 matched with the left clamping rod 40, meanwhile, the right cylinder 60 drives the right clamping rod 70 to clamp the lug 210 at the right side of the base 200 together with the bearing part 11 matched with the right clamping rod 70, so as to clamp the base 200, and the left clamping rod 40 and the right clamping rod 70 are lower than the plane 220 to be machined of the base 200 in the process of clamping the base 200, so as to avoid the blocking of the plane 220 to be machined by the cutter of the numerical control machine, and realize one-time clamping, namely, the numerical control machining of the plane 220 to be machined of the base 200 by the numerical control machine by adopting two procedures can be met, on the one hand, the flatness of the base 200 is ensured, and on the other hand, the processing time is saved, and the production cost is correspondingly reduced. Meanwhile, the left air cylinder 30, the left clamping rod 40 and the left connecting rod 50 form a structure for clamping the lug block 210 at the left side of the base 200, the right air cylinder 60, the right clamping rod 70 and the right connecting rod 80 form a structure for clamping the lug block 210 at the right side of the base 200, and the lug blocks 210 at the left side and the right side of the base 200 are clamped simply, quickly and reliably, so that the structure of the numerical control clamp 100 for the base of the industrial control panel radiator is simplified, and the numerical control clamp 100 for the base of the industrial control panel radiator is clamped quickly and reliably.

The above disclosure is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, so that the appended claims are intended to cover all such modifications and changes as fall within the true spirit of the invention.

Claims

1. The utility model provides a numerical control anchor clamps for industrial control panel radiator base, is suitable for carrying out the clamping to the base of industrial control panel radiator, the left and right sides of base outwards extends the ear piece that supplies the clamping to use respectively, the upper surface of base still has a plane of waiting to process, it is higher than to wait to process the plane the ear piece, a serial communication port, numerical control anchor clamps for industrial control panel radiator base includes:

the lower part of the base is borne on the first bearing table, and the first bearing table is provided with a bearing part which is positioned right below the lug block and is abutted against the lug block;

a second bearing table positioned right below the first bearing table, wherein the second bearing table is fixed with the first bearing table;

the left air cylinder comprises a left cylinder body which is arranged on the second bearing table and is positioned outside the left side of the base and a left piston rod which slides in the left cylinder body in a telescopic manner;

the left clamping rod is arranged along the left and right direction of the base, the first end of the left clamping rod is pivoted with the left piston rod, and the second end of the left clamping rod extends to a position right above the lug block on the left side of the base;

the left connecting rod is arranged along the vertical direction of the base, the lower end of the left connecting rod is pivoted with the left cylinder body, and the upper end of the left connecting rod is pivoted with the left clamping rod;

the right cylinder comprises a right cylinder body which is arranged on the second bearing table and is positioned outside the right side of the base and a right piston rod which is in telescopic sliding in the right cylinder body;

the right clamping rod is arranged along the left and right direction of the base, the first end of the right clamping rod is pivoted with the right piston rod, and the second end of the right clamping rod extends to a position right above the lug block on the right side of the base; and

the right connecting rod is arranged along the vertical direction of the base, the lower end of the right connecting rod is pivoted with the right cylinder body, and the upper end of the right connecting rod is pivoted with the right clamping rod;

when the base is clamped, the left air cylinder drives the left clamping rod to clamp the lug block at the left side of the base together with the bearing part matched with the left clamping rod, and meanwhile, the right air cylinder drives the right clamping rod to clamp the lug block at the right side of the base together with the bearing part matched with the right clamping rod; the left connecting rod is parallel to the left piston rod when the left clamping rod and the bearing part matched with the left clamping rod clamp the lug block at the left side of the base together, the left clamping rod is in up-and-down inclined arrangement when the bearing part matched with the left clamping rod clamps the lug block at the left side of the base together, and the first end of the left clamping rod is higher than the second end of the left clamping rod; the right connecting rod is parallel to the right piston rod when the right clamping rod and the supporting part matched with the right clamping rod clamp the ear block at the right side of the base together.

2. The numerical control clamp for the industrial control panel radiator base as claimed in claim 1, wherein the right clamping bar is arranged in an up-down inclined manner when the right clamping bar and the supporting portion matched with the right clamping bar clamp the ear block at the right side of the base together, and a first end of the right clamping bar is higher than a second end of the right clamping bar.

3. The numerical control clamp for the industrial control panel radiator base according to claim 1, wherein the plane to be machined exceeds the lug blocks at the left and right sides of the base in the left and right directions of the base.

4. The numerical control clamp for the industrial control panel radiator base as claimed in claim 1, wherein the first bearing table further has positioning pillars distributed on four sides of the base, the positioning pillars are arranged along the up-down direction of the base, and the plane to be processed is higher than the positioning pillars.

5. The numerical control clamp for the industrial control panel radiator base as claimed in claim 1, wherein the two lug blocks at the left side of the base are arranged in tandem, and each lug block at the left side of the base corresponds to one left air cylinder, one left clamping rod and one left connecting rod.

6. The numerical control clamp for the industrial control panel radiator base as claimed in claim 1, wherein the two lug blocks at the right side of the base are arranged in tandem, and each lug block at the right side of the base corresponds to one right cylinder, one right clamping rod and one right connecting rod.

7. The numerical control clamp for the industrial control board radiator base as claimed in claim 1, wherein the base is of a square structure, the base is provided with a cavity penetrating through the upper surface of the base, and the cavity divides the upper surface of the base into the square planes to be processed which are connected end to end.