CN219235402U - Cutter mechanism of bagged spring gluing machine - Google Patents

Abstract

The utility model relates to a cutter mechanism of a bagged spring gluing machine, which is characterized in that: the device comprises two groups of upper fixed aluminum profiles and lower fixed aluminum profiles which are arranged up and down in parallel, two groups of cutter assemblies, a linkage shaft, a speed reducer and a three-phase asynchronous motor; an upper cutter sliding rail and an upper cutter synchronous belt are arranged at the bottom of the upper fixed aluminum profile; a lower cutter sliding rail and a lower cutter synchronous belt are arranged at the top of the lower fixed aluminum profile; the two groups of cutter components are respectively arranged on the upper cutter sliding rail and the lower cutter sliding rail through sliding blocks and are respectively connected with the upper cutter synchronous belt and the lower cutter synchronous belt; the two groups of cutter components are oppositely arranged; the speed reducer is installed at one end of the lower fixed aluminum profile. The utility model integrally adopts a double-blade structure, the non-woven fabrics on the upper surface and the lower surface of the bagged spring are cut off through two groups of blades, and the gap between the bagged spring units is propped open through the cutter guide rod, so that the situation that the blades collide the spring to cause cutter clamping or blade damage is prevented.

Description

Cutter mechanism of bagged spring gluing machine

Technical Field

The utility model relates to a cutter mechanism of a bagged spring gluing machine, and belongs to the technical field of bagged spring gluing machines.

Background

The spring gluing machine is a machine for gluing springs into spring mattresses, a plurality of springs are wrapped and connected into a spring unit through non-woven fabrics, and a plurality of spring units are glued through the spring gluing machine and glued into spring mattresses with different sizes. After the spring unit is glued into the spring mattress by the spring gluing machine, the spring unit is cut off by a cutter device, so that an independent finished mattress is obtained. Prior art "application number: 2010202788134 "discloses an automatic pocket spring viscose machine, through fixing the blade on the cylinder axle of lift cylinder, and the blade can be under the effect of cylinder along the upper and lower cutting motion of cylinder axis direction in the blade spout for cut off the non-woven fabrics on pocket spring upper and lower two sides. The above-mentioned technique has the following defect that when the clearance between the pocket spring units is less, the cutter is direct to move and cut off, the condition that the blade bumps into the spring appears easily, causes the card sword or blade to damage.

To this end, it is an object of the present utility model to provide a pocket spring gluing machine cutter mechanism that avoids the blade striking the spring.

Disclosure of Invention

In order to overcome the defects of the technology, the utility model provides the cutter mechanism of the bagged spring gluing machine, which is integrally of a double-blade structure, wherein the non-woven fabrics on the upper surface and the lower surface of a bagged spring are cut off through two groups of blades respectively, and gaps between bagged spring units are propped open through cutter guide rods, so that the situation that the blades collide against the springs to cause cutter clamping or blade damage is prevented.

In order to solve the problems in the prior art, the utility model adopts the following technical scheme:

a cutter mechanism of a bagged spring gluing machine is characterized in that: the device comprises two groups of upper fixed aluminum profiles and lower fixed aluminum profiles which are arranged up and down in parallel, two groups of cutter assemblies, a linkage shaft, a speed reducer and a three-phase asynchronous motor; an upper cutter sliding rail and an upper cutter synchronous belt are arranged at the bottom of the upper fixed aluminum profile; a lower cutter sliding rail and a lower cutter synchronous belt are arranged at the top of the lower fixed aluminum profile; the two groups of cutter components are respectively arranged on the upper cutter sliding rail and the lower cutter sliding rail through sliding blocks and are respectively connected with the upper cutter synchronous belt and the lower cutter synchronous belt through clamping pieces; the two groups of cutter components are oppositely arranged; the speed reducer is arranged at one end of the lower fixed aluminum profile; the three-phase asynchronous motor is connected and arranged at the input end of the speed reducer; the top end of the linkage shaft is arranged on the upper fixed aluminum profile through a bearing, and the bottom end of the linkage shaft is connected with the output end of the speed reducer; the linkage shaft is respectively in transmission connection with the upper cutter synchronous belt and the lower cutter synchronous belt through two groups of synchronous wheels; the cutter assembly comprises a cutter seat, blades arranged on two sides of the cutter seat and a cutter guide rod arranged on the top end of the cutter seat.

Further, one group of cutter components is mounted on the upper cutter sliding rail in an inverted mode through a sliding block.

Further, the blades on two sides of the tool apron are arranged in a splayed shape.

The beneficial effects of the utility model are as follows: the whole structure of two blades is adopted, the non-woven fabrics on the upper surface and the lower surface of the bagged spring are cut off through the two groups of blades respectively, and gaps between the bagged spring units are propped up through the cutter guide rod, so that the situation that the blades collide the springs to cause cutter clamping or blade damage is prevented.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is an enlarged view of a portion of the present utility model.

Figure 3 is a schematic view of the installation of the cutter assembly of the present utility model.

Figure 4 is a schematic view of the structure of the cutter assembly of the present utility model.

Wherein: the automatic cutting machine comprises an upper fixed aluminum profile 1, a lower fixed aluminum profile 2, a cutter assembly 3, a linkage shaft 4, a speed reducer 5, a three-phase asynchronous motor 6, an upper cutter sliding rail 101, an upper cutter synchronous belt 102, a lower cutter sliding rail 201, a lower cutter synchronous belt 202, a cutter holder 301, a cutter 302 and a cutter guide rod 303.

Detailed Description

In order to make the technical solution of the present utility model more comprehensible to those skilled in the art, the present utility model is further analyzed with reference to fig. 1 to 4.

As shown in fig. 1-4, a cutter mechanism of a pocket spring gluing machine is characterized in that: the device comprises two groups of upper fixed aluminum profiles 1 and lower fixed aluminum profiles 2 which are arranged up and down in parallel, two groups of cutter assemblies 3, a linkage shaft 4, a speed reducer 5 and a three-phase asynchronous motor 6; an upper cutter sliding rail 101 and an upper cutter synchronous belt 102 are arranged at the bottom of the upper fixed aluminum profile 1; a lower cutter sliding rail 201 and a lower cutter synchronous belt 202 are arranged at the top of the lower fixed aluminum profile 2; the two groups of cutter assemblies 3 are respectively arranged on the upper cutter sliding rail 101 and the lower cutter sliding rail 201 through sliding blocks and are respectively connected with the upper cutter synchronous belt 102 and the lower cutter synchronous belt 202 through clamping pieces; the two groups of cutter components 3 are oppositely arranged; the speed reducer 5 is arranged at one end of the lower fixed aluminum profile 2; the three-phase asynchronous motor 6 is connected and arranged at the input end of the speed reducer 5; the top end of the linkage shaft 4 is arranged on the upper fixed aluminum profile 1 through a bearing, and the bottom end of the linkage shaft is connected with the output end of the speed reducer 5; the linkage shaft 4 is respectively in transmission connection with the upper cutter synchronous belt 1 and the lower cutter synchronous belt 2 through two groups of synchronous wheels; the cutter assembly 3 comprises a cutter holder 301, blades 302 mounted on both sides of the cutter holder 301, and a cutter guide bar 303 mounted on the top end of the cutter holder 301.

In this embodiment, preferably, one of the cutter assemblies 3 is mounted on the upper cutter rail 101 in a hanging manner through a slider.

In this embodiment, preferably, the blades 302 on both sides of the tool holder 301 are arranged in a splayed manner.

The utility model is used when: the three-phase asynchronous motor 6 and the speed reducer 5 drive the linkage shaft 4 to rotate, and drive the upper cutter synchronous belt 102 and the lower cutter synchronous belt 202 to rotate, so that the cutter assemblies 3 slide along the direction of the sliding rail, gaps between the bagged spring units are jacked up firstly through the cutter guide rods 303, then the blades 302 cut off non-woven fabrics between the bagged spring units, and the two groups of cutter assemblies 3 cut off the non-woven fabrics on the upper surface and the lower surface of the bagged spring respectively.

The foregoing has described in detail the technical solutions provided herein, and examples have been used herein to illustrate the principles and embodiments of the present application, the above examples being provided only to assist in understanding the methods of the present application and their core ideas; meanwhile, as those skilled in the art will have modifications in the specific embodiments and application scope in accordance with the ideas of the present application, the present description should not be construed as limiting the present application in view of the above.

Claims (3)

1. A cutter mechanism of a bagged spring gluing machine is characterized in that: the device comprises two groups of upper fixed aluminum profiles and lower fixed aluminum profiles which are arranged up and down in parallel, two groups of cutter assemblies, a linkage shaft, a speed reducer and a three-phase asynchronous motor; an upper cutter sliding rail and an upper cutter synchronous belt are arranged at the bottom of the upper fixed aluminum profile; a lower cutter sliding rail and a lower cutter synchronous belt are arranged at the top of the lower fixed aluminum profile; the two groups of cutter components are respectively arranged on the upper cutter sliding rail and the lower cutter sliding rail through sliding blocks and are respectively connected with the upper cutter synchronous belt and the lower cutter synchronous belt through clamping pieces; the two groups of cutter components are oppositely arranged; the speed reducer is arranged at one end of the lower fixed aluminum profile; the three-phase asynchronous motor is connected and arranged at the input end of the speed reducer; the top end of the linkage shaft is arranged on the upper fixed aluminum profile through a bearing, and the bottom end of the linkage shaft is connected with the output end of the speed reducer; the linkage shaft is respectively in transmission connection with the upper cutter synchronous belt and the lower cutter synchronous belt through two groups of synchronous wheels; the cutter assembly comprises a cutter seat, blades arranged on two sides of the cutter seat and a cutter guide rod arranged on the top end of the cutter seat.

2. The cutter mechanism of a pocket spring gluing machine according to claim 1, wherein: one group of cutter components is mounted on the upper cutter sliding rail in an inverted mode through a sliding block.

3. The cutter mechanism of a pocket spring gluing machine according to claim 1, wherein: the blades on two sides of the tool apron are arranged in a splayed shape.

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