CN219337928U - Punching equipment for processing foaming middle beam - Google Patents

Abstract

The utility model relates to punching equipment for processing a foaming middle beam, which comprises a punching table, wherein a drill bit is vertically arranged above the punching table, and a positioning mechanism is arranged between the punching table and the drill bit; positioning mechanism includes the sliding plate, the top of sliding plate is provided with supporting component, supporting component is used for supporting the product, the right side of sliding plate is provided with side direction locating component, this drilling equipment is used in foaming center sill processing, through the location to the product front and back, left and right directions, and the punching position of two pilot holes of same end on the product is located the sliding plate front and back extreme position respectively, be convenient for confirm the product open position, work efficiency has been improved, in addition, through removing the sliding plate and directly switching the punching position, work efficiency has further been improved, and, distance between the curb plate and the sliding plate left and right directions around through adjusting two spacing rings on the same third guide arm, can be applicable to the product of different pilot hole positions, application scope has been enlarged.

Description

Punching equipment for processing foaming middle beam

Technical Field

The utility model relates to punching equipment for processing a foaming middle beam, and belongs to the technical field of middle beam processing.

Background

The refrigerator middle beam is a connecting center of the inner containers of all the chambers of the refrigerator body, and in order to improve the heat insulation performance and strength of the middle beam, the middle beam is internally filled with a foaming agent, and the foaming agent is a heat insulation material which can be rapidly expanded and fills the cavity in the middle beam after being filled. In the middle beam machining process, the middle beam is convenient to assemble in the later period, after inclined planes are machined at the two ends of the middle beam, step faces are machined at the inclined planes, two assembly holes are machined in the step faces, and machining of the assembly holes is completed through punching equipment.

The utility model discloses punching equipment with the application number of CN201620024028.3, which comprises a main machine box, a transverse moving frame, a punching part, a motor and a carrying part, wherein the transverse moving frame, the punching part, the motor and the carrying part are arranged at the upper part of the main machine box; the punching part comprises an output shaft, a transmission seat, a handle, a cutter head, an auxiliary rod, a cutter seat and a drill; the transmission seat is in a shape of a round table; a first transmission cavity is arranged in the transmission seat in a penetrating way along the axial direction of the transmission seat; a first adjusting and mounting hole is penetrated in the transmission seat along the radial direction of the transmission seat; a first inserting groove is concavely formed in the edge of the upper part of the cutterhead; a first screwing groove is concavely formed in the lower part of the cutterhead; a first tool mounting hole is formed in the tool apron along the axial direction of the tool apron in a penetrating manner; the punching equipment is convenient to operate, convenient to adjust, high in punching efficiency and good in punching quality. However, in the prior art, when punching a product, the punching position needs to be manually adjusted, and when the next punching position is switched, the next punching position needs to be manually adjusted again, so that the operation is complex, and the punching efficiency is low.

Therefore, there is a need for a punching device for processing a foam center sill, which improves punching efficiency.

Disclosure of Invention

The utility model aims to solve the technical problems that: in order to overcome the defects of the prior art, the punching equipment for processing the foaming middle beam is provided, and the punching efficiency is improved.

The utility model solves the problems by adopting the following technical scheme: the punching equipment for processing the foaming middle beam comprises a punching table, wherein a drill bit is vertically arranged above the punching table, and a positioning mechanism is arranged between the punching table and the drill bit;

the positioning mechanism comprises a sliding plate, a supporting component is arranged at the top of the sliding plate and used for supporting a product, a lateral positioning component is arranged on the right side of the sliding plate and used for positioning in the left-right direction of the product, two sliding components and two front-back positioning components are arranged between the sliding plate and a punching table and are distributed left and right, the two front-back positioning components are connected with the two sliding components in a one-to-one correspondence manner, the sliding components are used for moving back and forth of the sliding plate, and the front-back positioning components are used for limiting the front-back moving distance of the sliding plate.

Preferably, the supporting assembly comprises two groups of supporting blocks which are arranged symmetrically in the front-back direction, each group of supporting blocks is provided with two supporting blocks, and the two supporting blocks in the same group are distributed left and right.

Preferably, the cross section of the supporting block perpendicular to the left-right direction is a right trapezoid, and the surface of the waist of the right trapezoid cross section of the front and rear adjacent two supporting blocks is arranged close to the surface of the waist.

Preferably, the sliding assembly comprises a third sliding block and a third guide rod, the third guide rod is parallel to the front-back direction, two ends of the third guide rod are fixedly connected with the punching table, the third sliding block is fixedly arranged at the bottom of the sliding plate, and the third sliding block is sleeved on the third guide rod.

Preferably, the third slider and the sliding plate are integrally formed.

Preferably, the front-back positioning assembly comprises two front-back positioning units, the two front-back positioning units are arranged at intervals along the length direction of the third guide rod, the two front-back positioning units are respectively positioned at the front side and the rear side of the third sliding block, and the two front-back positioning units are respectively used for limiting the forward and mutual moving distance of the third sliding block.

Preferably, the front and rear positioning units comprise positioning rings, the positioning rings and the third guide rod are coaxially arranged, and the positioning rings are detachably and fixedly sleeved on the third guide rod.

Preferably, the positioning ring is locked with the third guide rod through a third locking screw.

Preferably, the lateral positioning assembly comprises a side plate, two moving rods which are arranged front and back are fixedly arranged on the left side of the side plate, the moving rods are parallel to the left-right direction, the moving rods are movably inserted into the sliding plate, and the moving rods are locked with the sliding plate through two fourth screws.

Preferably, the side plate is further provided with an air blowing pipe, and the air blowing pipe is parallel to the left-right direction.

Compared with the prior art, the utility model has the advantages that:

according to the punching equipment for processing the foaming middle beam, the front and rear directions and the left and right directions of a product are positioned, the punching positions of two assembly holes at the same end of the product are respectively positioned at the front and rear limit positions of the sliding plate, so that the opening position of the product can be conveniently determined, the working efficiency is improved, in addition, the working efficiency is further improved by directly switching the punching positions by moving the sliding plate, and the application range is enlarged by adjusting the distance between the front and rear of two limiting rings on the same third guide rod and the distance between the side plate and the left and right directions of the sliding plate.

Drawings

FIG. 1 is a schematic structural view of a punching device for processing a foam center sill;

FIG. 2 is a schematic diagram of a positioning mechanism;

fig. 3 is an enlarged view of a portion B of fig. 2;

FIG. 4 is a schematic structural view of a lateral positioning assembly;

FIG. 5 is a perspective view of a product;

FIG. 6 is a front view of FIG. 5;

FIG. 7 is a perspective view of the product after machining the mounting hole;

fig. 8 is a top view of fig. 7.

Wherein:

a perforating table 301, a drill 302, a power component 303 and a positioning mechanism 304;

slide plate 304.1, support assembly 304.2, lateral positioning assembly 304.3, slide assembly 304.4, front-to-back positioning assembly 304.5;

a support block 304.21;

a side plate 304.31, a moving rod 304.32, a fourth screw 304.33, and an air blowing pipe 304.34;

a third slider 304.41, a third guide 304.42;

a front-rear positioning unit 304.51;

a retaining ring 304.511, third locking screw 304.512;

product 400, bevel 401, step surface 402, and mounting hole 403.

Detailed Description

As shown in fig. 1-7, the punching device for processing a foam center sill in this embodiment includes a punching table 301, a drill bit 302 is vertically disposed above the punching table 301, the drill bit 302 is driven by a power component 303, a positioning mechanism 304 is disposed between the punching table 301 and the drill bit 302, the positioning mechanism 304 is used for determining a punching position of a product 400, during punching, the product 400 is placed above the punching table 301, then the drill bit 302 rotates and moves downward, so that the drill bit 302 punches the product 400, because two assembly holes 403 distributed in front and back are required to be punched at one end of the product 400, then the product 400 is moved by a set distance along the front and back direction by the positioning mechanism 304, at this time, the drill bit 302 descends again, so as to implement processing of two assembly holes 403 at the same end of the product 400, then, two ends of the product 400 are interchanged, and processing of two assembly holes 403 at the second end of the product 400 is performed, and the punching position is not required to be manually positioned again, so that the punching efficiency is improved.

The positioning mechanism 304 comprises a sliding plate 304.1, a supporting component 304.2 is arranged at the top of the sliding plate 304.1, the supporting component 304.2 is used for supporting a product 400, a lateral positioning component 304.3 is arranged on the right side of the sliding plate 304.1, the lateral positioning component 304.3 is used for positioning the product 400 in the left-right direction, two sliding components 304.4 and two front-back positioning components 304.5 are arranged between the sliding plate 304.1 and the punching table 301, the two sliding components 304.4 are distributed left and right, two front-back positioning groups are connected with the two sliding components 304.4 in a one-to-one correspondence manner, the sliding components 304.4 are used for moving the sliding plate 304.1 forwards and backwards, and the front-back positioning component 304.5 is used for limiting the front-back moving distance of the sliding plate 304.1.

The supporting component 304.2 comprises two groups of supporting blocks 304.21 which are arranged front and back symmetrically, each group of supporting blocks 304.21 is provided with two supporting blocks 304.21 which are distributed left and right, the cross section of each supporting block 304.21 perpendicular to the left and right direction is a right trapezoid, the surfaces of the waists of the right trapezoid cross sections of the front and back adjacent two supporting blocks 304.21 are close to each other, and when the product 400 is placed, the product 400 is attached to the surface of the waists of the right trapezoid cross sections of the supporting blocks 304.21, so that the product 400 and the sliding plate 304.1 are prevented from being offset in the front and back directions.

The sliding assembly 304.4 includes a third sliding block 304.41 and a third guide rod 304.42, the third guide rod 304.42 is parallel to the front-rear direction, two ends of the third guide rod 304.42 are fixedly connected with the punching table 301, the third sliding block 304.41 is fixedly disposed at the bottom of the sliding plate 304.1, the third sliding block 304.41 is sleeved on the third guide rod 304.42, and in the moving process of the sliding plate 304.1, the third sliding block 304.41 is driven to move synchronously on the third guide rod 304.42.

The front-rear positioning assembly 304.5 includes two front-rear positioning units 304.51, two front-rear positioning units 304.51 are arranged at intervals along the length direction of the third guide rod 304.42, two front-rear positioning units 304.51 are respectively located at the front side and the rear side of the third slider 304.41, and the distance that the third slider 304.41 moves on the third guide rod 304.42 is limited by the two front-rear positioning units 304.51.

The front-rear positioning unit 304.51 includes a positioning ring 304.511, the positioning ring 304.511 is coaxially disposed with the third guide rod 304.42, the positioning ring 304.511 is detachably and fixedly sleeved on the third guide rod 304.42, the positioning ring 304.511 is locked with the third guide rod 304.42 by a third locking screw 310.512, the distance between the two positioning rings 304.511 is adjusted according to the distance between two assembly holes 403 at the same end of the product 400 and the length of the third slider 304.41 in the front-rear direction, when the third slider 304.41 moves on the third guide rod 304.42 to abut against one of the positioning rings 304.511, the position of the assembly hole 403 of the product 400 is just below the drill bit 302, and when the third slider 304.41 moves reversely and abuts against the other positioning ring 304.511, the position of the other assembly hole 403 at the same end of the product 400 is just below the drill bit 302, so that automatic positioning of the punching position of the product 400 is achieved, and working efficiency is improved.

The lateral positioning assembly 304.3 includes a side plate 304.31, two moving rods 304.32 disposed front and back are fixedly disposed on the left side of the side plate 304.31, the moving rods 304.32 are parallel to the left-right direction, the moving rods 304.32 are movably inserted into the sliding plate 304.1, the moving rods 304.32 are fixed with the sliding plate 304.1 through two fourth screws 304.33, when the product 400 is perforated, one end of the product 400 abuts against the left side of the side plate 304.31, and thus, the left-right direction positioning of the product 400 is realized, when the perforation position of the product 400 is changed in the left-right direction, the fourth nuts are loosened, the side plate 304.31 drives the moving rods 304.32 to move left and right for a certain distance, and then the fourth nuts are screwed, so that the moving rods 304.32 and the sliding plate 304.1 are kept fixed, namely, the locking of the side plate 304.31 is realized.

The side plate 304.31 is further provided with an air blowing pipe 301.34, the air blowing pipe 301.34 is parallel to the left-right direction, the air blowing pipe 301.34 is connected with an external air supply device, after the product 400 is opened and removed, the air blowing pipe 301.34 discharges air, and scraps generated during opening are blown away, so that the placement accuracy of the product 400 is prevented from being caused by the scraps.

In summary, through the positioning of the product 400 in the front-back direction and the left-right direction, and the punching positions of the two assembly holes 403 at the same end on the product 400 are respectively located at the front-back limit positions of the sliding plate 304.1, so that the open position of the product 400 is conveniently determined, and the working efficiency is improved.

In addition to the above embodiments, the present utility model also includes other embodiments, and all technical solutions that are formed by equivalent transformation or equivalent substitution should fall within the protection scope of the claims of the present utility model.

Claims (10)

1. Punching equipment is used in processing of foaming center sill, its characterized in that: the drilling machine comprises a drilling platform (301), wherein a drill bit (302) is vertically arranged above the drilling platform (301), and a positioning mechanism (304) is arranged between the drilling platform (301) and the drill bit (302);

the positioning mechanism (304) comprises a sliding plate (304.1), a supporting component (304.2) is arranged at the top of the sliding plate (304.1), the supporting component (304.2) is used for supporting a product (400), a lateral positioning component (304.3) is arranged on the right side of the sliding plate (304.1), the lateral positioning component (304.3) is used for positioning the product (400) in the left-right direction, two sliding components (304.4) and two front-back positioning components (304.5) are arranged between the sliding plate (304.1) and the punching table (301), the two sliding components (304.4) are distributed left and right, the two front-back positioning components (304.5) are connected with the two sliding components (304.4) in a one-to-one correspondence mode, the sliding components (304.4) are used for moving forwards and backwards of the sliding plate (304.1), and the front-back positioning components (304.5) are used for limiting the front-back moving distance of the sliding plate (304.1).

2. The perforating apparatus for machining a foam center sill according to claim 1, wherein: the support assembly (304.2) comprises two groups of support blocks (304.21) which are arranged symmetrically in the front-back direction, each group of support blocks (304.21) is provided with two support blocks, and the two support blocks (304.21) in the same group are distributed left and right.

3. The perforating apparatus for machining a foam center sill as claimed in claim 2, wherein: the cross section of the supporting block (304.21) perpendicular to the left-right direction is in a right trapezoid shape, and the surfaces of the waists of the right trapezoid cross sections of the front and rear adjacent two supporting blocks (304.21) are arranged close to each other.

4. The perforating apparatus for machining a foam center sill according to claim 1, wherein: the sliding assembly (304.4) comprises a third sliding block (304.41) and a third guide rod (304.42), the third guide rod (304.42) is parallel to the front-back direction, two ends of the third guide rod (304.42) are fixedly connected with the punching table (301), the third sliding block (304.41) is fixedly arranged at the bottom of the sliding plate (304.1), and the third sliding block (304.41) is sleeved on the third guide rod (304.42).

5. The perforating apparatus for machining a foam center sill as claimed in claim 4, wherein: the third sliding block (304.41) and the sliding plate (304.1) are of an integrated structure.

6. The perforating apparatus for machining a foam center sill as claimed in claim 4, wherein: the front-back positioning assembly (304.5) comprises two front-back positioning units (304.51), the two front-back positioning units (304.51) are arranged at intervals along the length direction of the third guide rod (304.42), the two front-back positioning units (304.51) are respectively located at the front side and the rear side of the third sliding block (304.41), and the two front-back positioning units (304.51) are respectively used for limiting the forward and mutual moving distance of the third sliding block (304.41).

7. The perforating apparatus for machining a foam center sill as claimed in claim 6, wherein: the front and rear positioning unit (304.51) comprises a positioning ring (304.511), the positioning ring (304.511) and the third guide rod (304.42) are coaxially arranged, and the positioning ring (304.511) is detachably and fixedly sleeved on the third guide rod (304.42).

8. The perforating apparatus for machining a foam center sill as claimed in claim 7, wherein: the positioning ring (304.511) is locked with the third guide rod (304.42) through a third locking screw (310.512).

9. The perforating apparatus for machining a foam center sill according to claim 1, wherein: the lateral positioning assembly (304.3) comprises a side plate (304.31), two moving rods (304.32) which are arranged front and back are fixedly arranged on the left side of the side plate (304.31), the moving rods (304.32) are parallel to the left-right direction, the moving rods (304.32) are movably inserted into the sliding plate (304.1), and the moving rods (304.32) are locked with the sliding plate (304.1) through two fourth screws (304.33).

10. The perforating apparatus for machining a foam center sill as claimed in claim 9, wherein: and the side plate (304.31) is also provided with an air blowing pipe (301.34), and the air blowing pipe (301.34) is parallel to the left-right direction.

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