CN210647837U - Flatness shaping jig - Google Patents

Abstract

The utility model discloses a plane degree plastic tool, include bed plate, push down the driver and push down the lath. The top of the base plate is convexly provided with a heightening bearing lath and a supporting upright post, the heightening bearing lath is arranged in tandem on the base plate, the heightening bearing lath also extends along the left and right direction of the base plate, and the supporting upright posts are arranged in a left and right direction on the base plate; the downward pressing drivers are arranged on the base plate in a left-right mode, the downward pressing drivers are installed at the tops of the supporting upright columns, and the output ends of the downward pressing drivers are arranged downwards; the lower pressing plate strip extends along the left and right directions of the base plate, the lower pressing plate strip is also positioned between the heightening bearing plate strips along the front and back directions of the base plate, and the left end and the right end of the lower pressing plate strip are respectively assembled and connected with the output end of the lower pressing driver in the same side. The utility model discloses a plane degree plastic tool can improve product plastic simple operation nature.

Description

Flatness shaping jig

Technical Field

The utility model relates to a tool that numerical control processing was used specifically relates to a plane degree plastic tool that is used for the plane degree of the product after numerical control processing to carry out the plastic.

Background

As is well known, numerically controlled machine tools are widely used in precision machining occasions to machine various workpieces with complicated shapes, and thus, the numerically controlled machine tools are more and more favored by enterprises.

Wherein, in the numerical control course of working to the product that the inner chamber structure is weak, because the inner chamber structure of product is weak, so after the numerical control processing of product, the both ends of product lead to the plane degree of product poor because of the perk warp, can't satisfy customer's needs.

Therefore, there is a need for a flatness shaping jig that can conveniently and rapidly shape the flatness of a product and ensure the yield of the product to overcome the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a to product plane degree plastic convenient operation swift and ensure the plane degree plastic tool of product yield.

In order to realize the purpose, the utility model provides a plane degree plastic tool for carry out the plastic to the plane degree of product, include the bed plate, push down the driver and push down the lath. The base plate is characterized in that a heightening bearing lath and a supporting upright post are convexly arranged at the top of the base plate, the heightening bearing lath is arranged on the base plate in tandem, the heightening bearing lath also extends along the left-right direction of the base plate, and the supporting upright post is arranged on the base plate in a left-right manner; the downward pressing drivers are arranged on the base plate in a left-right mode, the downward pressing drivers are installed at the tops of the supporting upright columns, and the output ends of the downward pressing drivers are arranged downwards; the lower pressing plate strip extends along the left and right directions of the base plate, the lower pressing plate strip is further located between the heightening bearing plate strips along the front and back directions of the base plate, and the left end and the right end of the lower pressing plate strip are respectively connected with the output end of the lower pressing driver in the same side in an assembling mode.

Preferably, the push-down drivers in the same side are also arranged side by side in tandem pairs on the base plate.

Preferably, the utility model discloses a plane degree plastic tool still includes be a left side right side on the bed plate and arrange and be located the connecting block directly over the holding down strip, the connecting block is followed the fore-and-aft direction of bed plate extends, in the homonymy the front end of connecting block is fixed with the output assembly of the driver that pushes down in the place ahead, in the homonymy the rear end of connecting block is fixed with the output assembly of the driver that pushes down at rear, in the homonymy the middle part of connecting block with the holding down strip assembly is fixed.

Preferably, each of the press-down drivers corresponds to two of the support columns, and two support columns on the same press-down driver are diagonally arranged.

Preferably, the pressing driver is a cylinder, a hydraulic cylinder or a linear motor.

Preferably, the utility model discloses a plane degree plastic tool is still including being located push down the flat board directly over the bed hedgehopping bearing lath, the push down lath is located push down under the middle part of flat board.

Preferably, the lower pressing lath and the heightening and supporting lath are parallel to each other.

Preferably, the front and rear corners of the top of the raised support slat are each provided with a rounded transition.

Compared with the prior art, the two ends of the product are heightened and positioned by virtue of the heightening bearing laths which are arranged on the base plate in tandem, so that the product is quickly assembled at the heightening bearing laths; with the help of the pressing driver and the pressing lath, the pressing driver drives the pressing lath to extrude the middle part of the product, so that the two ends of the product are tilted upwards, the problem that the two ends of the product are tilted downwards after numerical control processing is solved, and the purpose of shaping the flatness of the product is achieved; after the shaping, the lower pressing plate strip is driven by the lower pressing driver to move upwards away from the middle part of the product, and the operator can quickly take away the shaped product, so that the shaping operation of the product flatness is very convenient, and the product yield is ensured to meet the requirements of customers.

Description of the drawings:

fig. 1 is a schematic view of the three-dimensional structure of the flatness shaping jig of the present invention when extruding and shaping a product.

Fig. 2 is a side view of the flatness shaping jig shown in fig. 1.

Fig. 3 is a schematic perspective view of the flatness shaping jig shown in fig. 1 after hiding the pressing plate and the product.

Fig. 4 is a side view of the flatness shaping jig shown in fig. 3.

Fig. 5 is a schematic perspective view of a reshaped product.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and preferred embodiments, but the embodiments of the invention are not limited thereto.

Referring to fig. 1 to 4, the flatness shaping jig 200 of the present invention is used for shaping the flatness of the product 200 shown in fig. 5, for example, the product 200 is a square structure having three inner cavity structures 210 aligned in a line in the length direction, but is not limited thereto.

Wherein, the utility model discloses a flatness plastic tool 100 includes bed plate 10, pushes down driver 20 and pushes down the lath 30. The top of the base plate 10 is convexly provided with a heightening bearing batten 11 and a supporting upright post 12, the heightening bearing batten 11 is arranged in tandem on the base plate 10, and the heightening bearing batten 11 also extends along the left and right directions of the base plate 10; the supporting upright posts 12 are arranged on the base plate 10 in a left-right mode; for example, but not limited to, the base plate 10 is a square flat plate and the support posts 12 are circular in cross-section. The downward pressing drivers 20 are arranged on the base plate 10 in a left-right mode, the downward pressing drivers 20 are installed at the tops of the supporting columns 12, and the downward pressing drivers 20 are suspended right above the base plate 10 through the supporting columns 12; the output end 21 of the push-down actuator 20 is arranged downward so that the push-down actuator 20 more quickly drives the push-down slats 30 downward or upward; for example, the push actuator 20 is selected to be a cylinder, but of course, it is selected to be a hydraulic cylinder or a linear motor according to actual requirements, and thus, the present invention is not limited thereto. The lower pressing plate strip 30 extends along the left-right direction of the base plate 10, the lower pressing plate strip 30 is also located between the heightening bearing plate strips 11 along the front-back direction of the base plate 10, the left end and the right end of the lower pressing plate strip 30 are respectively assembled and connected with the output end 21 of the lower pressing driver 20 in the same side, namely, the left end of the lower pressing plate strip 30 is assembled and connected with the output end 21 of the lower pressing driver 20 in the left side, the right end of the lower pressing plate strip 30 is assembled and connected with the output end 21 of the lower pressing driver 20 in the right side, so that the lower pressing plate strip 30 extrudes the middle of a product supported on the heightening bearing plate strips 11 under the action of the lower pressing driver 20. Specifically, the push-down drivers 20 in the same side are also arranged side by side in tandem on the base plate 10, that is, there are two push-down drivers 20 in the left side arranged side by side in tandem on the base plate 10, and likewise, there are two push-down drivers 20 in the right side arranged side by side in tandem on the base plate 10, so as to improve the left and right end force application reliability of the push-down slat 30. More specifically, the following:

as shown in fig. 1 to 4, the utility model discloses a flatness plastic tool 100 still includes to be a left side right side on the bed plate 10 and arranges and lie in the connecting block 40 directly over the holding down strip 30, the connecting block 40 extends along the fore-and-aft direction of bed plate 10, the front end of the connecting block 40 in the homonymy is fixed with the output 21 assembly of the holding down driver 20 in the place ahead, the rear end of the connecting block 40 in the homonymy is fixed with the output 21 assembly of the holding down driver 20 at rear, the middle part of the connecting block 40 in the homonymy is fixed with the holding down strip 30 assembly to ensure the reliability of holding down driver 20 to the holding down strip 30 application of force. Specifically, the lower pressing slat 30 and the heightening bearing slat 11 are parallel to each other, so as to ensure the reliability of the lower pressing slat 30 in pressing the middle of the product 200 supported on the heightening bearing slat 11; preferably, the front and rear corners of the top of the raised support slat 11 are each provided with a rounded transition 111, which reduces the contact area between the raised support slat 11 and the product 200, thereby reducing the impact on the flatness of the product 200 during the shaping process.

As shown in fig. 1 to 4, each push-down driver 20 has two corresponding support columns 12, and the two support columns 12 on the same push-down driver 20 are arranged diagonally, so that the reliability of the assembly of the push-down driver 20 is increased, and an avoidance position can be provided. For further improving the shaping effect of product 200, the utility model discloses a flatness shaping tool 100 is still including being located the dull and stereotyped 50 that pushes down directly over bed hedgehopping bearing lath 11, and the lower clamp lath 30 is located and pushes down under the middle part of dull and stereotyped 50, but is not limited to this.

Compared with the prior art, the two ends of the product 200 are heightened and positioned by virtue of the heightening bearing laths 11 arranged in tandem on the base plate 10, so that the product 200 is quickly assembled at the heightening bearing laths 11; with the aid of the downward pressing driver 20 and the downward pressing strip 30, the downward pressing driver 20 drives the downward pressing strip 30 to extrude the middle part of the product 200, so that the two ends of the product 200 tilt upwards, the problem that the two ends of the product 200 tilt downwards after numerical control processing is solved, and the purpose of shaping the flatness of the product 200 is achieved; after the shaping, the pressing driver 20 drives the pressing bar 30 to move upward away from the middle of the product 200, so that the operator can quickly remove the shaped product 200, thereby facilitating the shaping operation of the flatness of the product 200 and ensuring the yield of the product 200 to meet the needs of the customer.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments shown and described. To the utility model belongs to the technical field of the ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, its framework form can be nimble changeable, can derive series of products. But merely as a matter of simple deductions or substitutions, should be considered as belonging to the scope of patent protection of the present invention as determined by the claims submitted.

Claims (8)

1. The utility model provides a flatness plastic tool for carry out the plastic to the flatness of product, its characterized in that includes:

the base plate is provided with a heightening bearing lath and a supporting upright post in a protruding mode, the heightening bearing laths are arranged on the base plate in a tandem mode, the heightening bearing laths further extend in the left-right direction of the base plate, and the supporting upright posts are arranged on the base plate in a left-right mode;

the pressing drivers are arranged on the base plate in a left-right mode, the pressing drivers are installed at the tops of the supporting upright columns, and the output ends of the pressing drivers are arranged downwards; and

the lower pressing plate strip extends along the left and right directions of the base plate, the lower pressing plate strip is further located between the heightening bearing plate strips along the front and back directions of the base plate, and the left end and the right end of the lower pressing plate strip are respectively connected with the output end of the lower pressing driver in the same side in an assembling mode.

2. The flatness shaping jig of claim 1, wherein the push down drivers in the same side are further arranged side by side in tandem pairs on the base plate.

3. The flatness shaping jig according to claim 2, further comprising a connecting block disposed right above the lower platen bar and disposed left to right on the base plate, the connecting block extending in a front-rear direction of the base plate, a front end of the connecting block on the same side being fixedly assembled with an output end of a lower driver in front, a rear end of the connecting block on the same side being fixedly assembled with an output end of a lower driver in rear, and a middle portion of the connecting block on the same side being fixedly assembled with the lower platen bar.

4. The flatness shaping jig according to claim 1, wherein each of the press drivers corresponds to two of the support columns, and the two support columns of one press driver are diagonally arranged.

5. The flatness shaping jig according to claim 1, wherein the press-down driver is a cylinder, a hydraulic cylinder, or a linear motor.

6. The flatness shaping jig according to claim 1, further comprising a pressing plate located directly above the raised supporting slat, the pressing plate being located directly below a middle portion of the pressing plate.

7. The flatness shaping jig of claim 1, wherein said lower hold-down bar and said raised support bar are parallel to each other.

8. The flatness shaping jig of claim 1, wherein the front corner and the rear corner of the top of the raised support batten are each provided with a rounded transition structure.

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