CN220636625U - Gasket cutting machine - Google Patents

Abstract

The utility model discloses a gasket cutting machine, which relates to the technical field of cutting machines and comprises a bracket, wherein two groups of supporting arms are arranged on the outer acting wall of the bracket, the top ends of the two groups of supporting arms are fixedly provided with cross beams, and a carrying platform assembly is arranged below the cross beams on the inner side of the bracket; the object bearing table assembly comprises two groups of driving sliding rails arranged on the inner sides of the supports, the top ends of the driving sliding rails are provided with stress tables, the bottom ends of the stress tables are provided with driving sliding blocks sleeved on the outer walls of the top ends of the driving sliding rails, a base plate is welded at the center position of the stress tables, the top ends of the base plate are rotationally connected with driven gears, and object bearing discs are fixed on the top ends of the driven gears. The utility model adopts the high-strength welding piece to manufacture, ensures the motion stability of the mechanism, controls the cutting procedure through the PLC, ensures accurate regulation and control, is convenient to operate and high in safety coefficient, and can realize the cutting of the circular arc shape of the gasket by adopting the synchronous belt traction system and matching with the rotary carrying disc.

Description

Gasket cutting machine

Technical Field

The utility model relates to the technical field of cutting machines, in particular to a gasket cutting machine.

Background

The sheet rubber product with the rubber gasket having the sealing function between the two stationary surfaces of the metal flange or other connecting parts is commonly called a rubber gasket, can be manufactured by a mould pressing method, can be punched by a vulcanized rubber sheet, can be widely used for various mechanical equipment, has the functions of gasket, sealing, buffering and the like, has the performances of oil resistance, acid and alkali resistance, cold and heat resistance, aging resistance and the like, can be directly cut into sealing gaskets with various shapes, and is widely applied to industries of medicines, electronics, chemical industry, antistatic, flame retardance, food and the like. In the production process of the gasket, the raw materials are cut by a cutting machine to manufacture the gasket with the required specification.

The Chinese patent grant publication number is CN212948077U, the disclosed gasket cutting machine has the advantages that although the gasket cutting efficiency is effectively improved, the labor intensity of workers is reduced, so that the gasket is quickly positioned during cutting, the defects that the structure of the existing cutting machine equipment in the market is an xy-axis cutting mechanism, a product is fixed on a processing table, the three-coordinate movement and positioning are performed by a control program for controlling the cutting mechanism, and therefore high-precision and high-quality products are obtained are overcome, the existing cutting machine equipment often needs to compile a relatively complex control program for cutting an arc shape, the quality requirements on program personnel are relatively high, the programming difficulty is high, and the equipment use and debugging cost is high are overcome.

Disclosure of Invention

Based on this, it is an object of the present utility model to provide a shim cutter to solve the technical problems set forth in the background above.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the gasket cutting machine comprises a bracket, wherein two groups of supporting arms are arranged on the action outer wall of the bracket, the top ends of the two groups of supporting arms are fixedly provided with cross beams, and a carrying platform assembly is assembled below the cross beams on the inner side of the bracket;

the object bearing table assembly comprises two groups of driving sliding rails arranged on the inner side of the support, the top ends of the driving sliding rails are provided with a stress table, the bottom end of the stress table is provided with a driving sliding block sleeved on the outer wall of the top end of the driving sliding rail, a base plate is welded at the center position of the stress table, the top end of the base plate is rotationally connected with a driven gear, an object bearing disc is fixed at the top end of the driven gear, a driving motor is assembled on one side of the bottom end of the base plate, the output end of the driving motor extends to the top end of the base plate and is provided with a driving gear, and the driving gear and the base plate are in a meshed state.

Preferably, the bottom of each group of the driving slide rail is provided with a plurality of groups of supporting blocks, and the supporting blocks are fixed with the inner wall of the bracket by bolts.

Preferably, the front surface of the beam is provided with a laser cutting head extending to the top end of the beam, the top end of the beam is provided with a transverse electromagnetic sliding rail, and the top end of the beam is provided with a transverse electromagnetic sliding block connected with the laser cutting head.

Preferably, longitudinal electromagnetic slide rails are arranged on the left and right outer walls of the support, and the longitudinal electromagnetic slide rails are in butt joint with the support arms through longitudinal electromagnetic slide blocks.

Preferably, the outer wall of the object bearing table component is sleeved with an outer ring, and the outer ring is fixed with the object bearing disc through a lock catch.

Preferably, the transverse electromagnetic slide rail and the longitudinal electromagnetic slide rail both adopt synchronous belt traction systems, and the driving motor adopts PLC to control cutting.

Preferably, six groups of rough pads are arranged at the bottom end of the support, and the bottom end of the support is fixed with the ground or other support platforms through bolts.

In summary, the utility model has the following advantages:

the utility model adopts the high-strength welding piece to manufacture, ensures the motion stability of the mechanism, controls the cutting procedure through the PLC, ensures accurate regulation and control, is convenient to operate and high in safety coefficient, and can realize the cutting of the circular arc shape of the gasket by adopting the synchronous belt traction system and matching with the rotary carrying disc.

Drawings

FIG. 1 is a front perspective view of the present utility model;

FIG. 2 is a rear perspective view of the present utility model;

FIG. 3 is a bottom view of a portion of the table assembly of the present utility model.

In the figure: 100. a bracket;

110. a support arm; 101. a longitudinal electromagnetic slide rail; 102. a longitudinal electromagnetic slide block; 120. a cross beam; 121. a laser cutting head; 122. a transverse electromagnetic slide rail; 123. a transverse electromagnetic slide; 130. a carrying table assembly; 131. a force bearing table; 132. driving a sliding block; 133. driving the slide rail; 134. a support block; 135. a carrying tray; 1351. an outer ring; 136. a driving motor; 137. a drive gear; 138. a driven gear; 139. a substrate.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

Hereinafter, an embodiment of the present utility model will be described in accordance with its entire structure.

Example 1

1-3, the gasket cutting machine comprises a bracket 100, wherein two groups of supporting arms 110 are arranged on the action outer wall of the bracket 100, a cross beam 120 is fixed at the top ends of the two groups of supporting arms 110, a carrying table assembly 130 is arranged below the cross beam 120 on the inner side of the bracket 100, a laser cutting head 121 extending to the top end of the cross beam 120 is arranged on the front surface of the cross beam 120, a transverse electromagnetic sliding rail 122 is arranged at the top end of the cross beam 120, and a transverse electromagnetic sliding block 123 connected with the laser cutting head 121 is arranged at the top end of the cross beam 120;

the bearing table assembly 130 comprises two groups of driving sliding rails 133 arranged on the inner side of the bracket 100, a stress table 131 is arranged at the top ends of the two groups of driving sliding rails 133, a driving sliding block 132 sleeved on the outer wall of the top end of the driving sliding rail 133 is arranged at the bottom end of the stress table 131, a base plate 139 is welded at the central position of the stress table 131, the top end of the base plate 139 is rotationally connected with a driven gear 138, a bearing disc 135 is fixed at the top end of the driven gear 138, a driving motor 136 is arranged at one side of the bottom end of the base plate 139, a driving gear 137 is arranged at the output end of the driving motor 136 extending to the top end of the base plate 139, and the driving gear 137 and the base plate 139 are in a meshed state;

the left and right outer walls of the bracket 100 are provided with longitudinal electromagnetic slide rails 101, the longitudinal electromagnetic slide rails are in butt joint with the supporting arms 110 through longitudinal electromagnetic slide blocks 102, the transverse electromagnetic slide rails 122 and the longitudinal electromagnetic slide rails 101 are all synchronous belt traction systems, and the driving motor 136 is used for controlling cutting through a PLC.

The blank is placed on the top end of the carrying disc 135, an external traction system is controlled to synchronously drive the transverse and longitudinal electromagnetic sliding rails, the laser cutting head 121 is driven to move to be located above a tangent point of the carrying disc 135, the external PLC controls the laser cutting head 121 to start cutting the blank, and the driving motor 136 rotates along with the blank, corresponds to the cutting speed of the laser cutting head 121, and can finish cutting the gasket until the carrying disc 135 rotates for one circle.

Referring to fig. 1 and 2, a plurality of sets of supporting blocks 134 are disposed at the bottom end of each set of driving sliding rails 133, and the supporting blocks 134 are fixed to the inner wall of the bracket 100 by bolts.

Providing a stable support point for the drive rail 133 for horizontal movement of the stage 130 assembly.

Referring to fig. 1, 2 and 3, an outer ring 1351 is sleeved on the outer wall of the table assembly 130, and the outer ring 1351 and the tray 135 are fastened by a lock catch.

The corresponding outer ring 1351 can be additionally arranged according to the diameter of the gasket to be cut, so that various gasket cuts can be realized.

Referring to fig. 1 and 2, six sets of rough pads are disposed at the bottom end of the support 100, and the bottom end of the support 100 is fixed to the ground or other support table by bolts.

The friction coefficient between the support platform and the ground or other support platforms is increased, so that the support platform is more stable in working.

Example 2

When the device is used, a blank is placed at the top end of the carrying disc 135, an external traction system is controlled to synchronously drive the transverse and longitudinal electromagnetic slide rails, the laser cutting head 121 is driven to move to be positioned above a tangent point of one position of the carrying disc 135, the external PLC controls the laser cutting head 121 to start cutting the blank, and the driving motor 136 rotates along with the rotation and corresponds to the cutting speed of the laser cutting head 121 until the carrying disc 135 rotates for one circle to complete the cutting of the gasket.

Although embodiments of the utility model have been shown and described, the detailed description is to be construed as exemplary only and is not limiting of the utility model as the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples, and modifications, substitutions, variations, etc. may be made in the embodiments as desired by those skilled in the art without departing from the principles and spirit of the utility model, provided that such modifications are within the scope of the appended claims.

Claims (7)

1. Gasket cutting machine, including support (100), its characterized in that: two groups of support arms (110) are installed on the action outer wall of the support (100), the top ends of the two groups of support arms (110) are fixed with a cross beam (120), a carrying table assembly (130) is arranged below the cross beam (120) on the inner side of the support (100), the carrying table assembly (130) comprises two groups of driving sliding rails (133) arranged on the inner side of the support (100), and a stress table (131) is arranged on the top ends of the two groups of driving sliding rails (133).

2. The shim cutter of claim 1, wherein: the bottom of atress platform (131) is equipped with cup joints drive slider (132) with drive slide rail (133) top outer wall, the central point department welding of atress platform (131) has base plate (139), the top of base plate (139) rotates and is connected with driven gear (138), the top of driven gear (138) is fixed with holds thing dish (135), bottom one side of base plate (139) is equipped with driving motor (136), the output of driving motor (136) extends to base plate (139) top and is equipped with driving gear (137), driving gear (137) are in the interlock state with base plate (139), and every group driving slide rail (133)'s bottom is equipped with a plurality of groups supporting shoe (134), supporting shoe (134) adopt the bolt to fix with support (100) inner wall.

3. The shim cutter of claim 1, wherein: the laser cutting device is characterized in that a laser cutting head (121) extending to the top end of the cross beam (120) is arranged on the front surface of the cross beam (120), a transverse electromagnetic sliding rail (122) is arranged at the top end of the cross beam (120), and a transverse electromagnetic sliding block (123) connected with the laser cutting head (121) is arranged at the top end of the cross beam (120).

4. The shim cutter of claim 1, wherein: longitudinal electromagnetic sliding rails (101) are arranged on the left outer wall and the right outer wall of the support (100), and the longitudinal electromagnetic sliding rails are in butt joint with the supporting arms (110) through longitudinal electromagnetic sliding blocks (102).

5. The shim cutter of claim 2, wherein: an outer ring (1351) is sleeved on the outer wall of the object carrying disc (135), and the outer ring (1351) is fixed with the object carrying disc (135) through a lock catch.

6. A mat cutter as set forth in claim 3, wherein: the transverse electromagnetic slide rail (122) and the longitudinal electromagnetic slide rail (101) are both synchronous belt traction systems, and the driving motor (136) is used for controlling cutting by adopting a PLC.

7. The shim cutter of claim 1, wherein: six groups of rough pads are arranged at the bottom end of the support (100), and the bottom end of the support (100) is fixed with the ground or other supporting tables through bolts.