CN211416469U - Corrugated paper printing machine blow box drive mechanism - Google Patents

Abstract

The utility model discloses a corrugated paper printing machine box drive mechanism that blows, include: the corrugated paper printing machine blow box comprises a corrugated paper printing machine blow box body, wherein a main transmission shaft is installed on one side of the corrugated paper printing machine blow box body, the corrugated paper printing machine blow box body is divided into a first transmission area and a second transmission area by the main transmission shaft, and two sides of the first transmission area and the second transmission area are connected through a plurality of transmission shafts; the first transmission area is transmitted by a first synchronous belt transmission mechanism and a second synchronous belt transmission mechanism which are connected, the second transmission area is transmitted by a third synchronous belt transmission mechanism, and a first synchronous belt wheel on the main transmission shaft driving first synchronous belt transmission mechanism rotates and then indirectly drives a second synchronous belt wheel on the second synchronous belt transmission mechanism to rotate. The utility model discloses a divide the area and set up with the hold-in range drive who divides the side compares with prior art, and both sides drive synchronous pulley is big with the gap bridge wheel interval on structural arrangement, and the cornerite is little, and to a great extent has reduced the grinding of hold-in range and each wheel and has been looked into to the life of the hold-in range of extension.

Description

Corrugated paper printing machine blow box drive mechanism

Technical Field

The utility model relates to a corrugated box field of making, concretely relates to corrugated printer box drive mechanism that blows.

Background

As shown in fig. 1, a driving wheel 110 is driven by a stamping roller 111, synchronous pulleys 120, 160, 170 and the like, gap pulleys 130, 150 and the like, a tension pulley 140, end plates and the like form an air suction box printing transmission structure 100. The main drive feature of this arrangement 100 is the drive belt disposed on the same end face 201 of the suction box 200.

The synchronous belt moves in one direction under the drive of the driving wheel. Because the conveying shaft interval is small, the synchronous pulley and the gap bridge wheel are small in arrangement time interval, after the synchronous belt is assembled, a plurality of rings need to be wound due to the fact that the synchronous belt is wound between the synchronous pulley and the gap bridge wheel, wrap angles of the synchronous belt, the synchronous pulley and the gap bridge wheel are large, the synchronous belt generates large pressure on the surface of each wheel body, therefore, a large friction resistance exists between the synchronous belt and the synchronous pulley and the gap bridge wheel, and the synchronous belt needs to bear large pulling force when the machine is started, and sometimes the synchronous belt is broken.

How to enable the structure not to generate large change and solve the problem that the synchronous belt is too much wound is an urgent need to be solved at present.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above-mentioned defect of the prior art, the utility model aims to provide a corrugated paper printing machine box drive mechanism that blows.

In order to realize the utility model discloses an aim, the technical scheme who adopts is:

the utility model provides a corrugated paper printing machine blow case drive mechanism which characterized in that includes:

the corrugated paper printing machine blow box comprises a corrugated paper printing machine blow box body, wherein a main transmission shaft is installed on one side of the corrugated paper printing machine blow box body, the corrugated paper printing machine blow box body is divided into a first transmission area and a second transmission area by the main transmission shaft, and two sides of the first transmission area and the second transmission area are connected through a plurality of transmission shafts; the first transmission area is transmitted by a first synchronous belt transmission mechanism and a second synchronous belt transmission mechanism which are connected, the second transmission area is transmitted by a third synchronous belt transmission mechanism, and a first synchronous belt wheel on the main transmission shaft driving first synchronous belt transmission mechanism rotates and then indirectly drives a second synchronous belt wheel on the second synchronous belt transmission mechanism to rotate.

In a specific embodiment of the present invention, the main transmission shaft is connected to a first synchronous pulley through a first synchronous belt transmission mechanism, and drives the rotation of the first synchronous pulley through a first synchronous belt by a first driving wheel on the main transmission shaft, the first synchronous pulley is connected to a second synchronous pulley of a second synchronous belt transmission mechanism on the other side through a first conveying shaft and drives the second synchronous pulley, and the second synchronous belt transmission mechanism is further connected to a plurality of synchronous pulleys and a bridging wheel arranged at intervals through a second synchronous belt;

the second synchronous belt wheel is a driving wheel of the second synchronous belt transmission mechanism and drives the synchronous belt wheels and the gap bridge wheels which are arranged at intervals to rotate, so that the driving of two sides of the first transmission area and the transmission shaft thereof is realized;

set up a third synchronous belt drive mechanism at second synchronous belt drive mechanism's homonymy, install a third synchronous pulley on the third synchronous belt drive mechanism, the third synchronous pulley sets up through third synchronous belt drive other synchronous pulley on the third synchronous belt drive mechanism rotate to synchronous pulley through carrying axle drive opposite side rotates.

The beneficial effects of the utility model reside in that:

the utility model discloses a divide the area and set up with the hold-in range drive who divides the side compares with prior art, and both sides drive synchronous pulley is big with the gap bridge wheel interval on structural arrangement, and the cornerite is little, and to a great extent has reduced the grinding of hold-in range and each wheel and has been looked into to the life of the hold-in range of extension.

Drawings

Fig. 1 is a schematic structural diagram of the prior art.

Fig. 2 is a schematic structural diagram (top view) of the present invention.

Fig. 3 is a schematic structural diagram (left side view) of the present invention.

Fig. 4 is a schematic structural view (right side view) of the present invention.

Detailed Description

The structure and operation of the present invention will be further described with reference to the accompanying drawings and the following detailed description.

As shown in fig. 1, a driving wheel 110 is driven by a stamping roller 111, synchronous pulleys 120, 160, 170 and the like, gap pulleys 130, 150 and the like, a tension pulley 140, end plates and the like form an air suction box printing transmission structure 100. The main transmission feature of the suction box printing transmission structure 100 is that the transmission belt is arranged on the same end surface 201 of the suction box 200. In the process of actual use, the wrap angles of the synchronous belt, the synchronous belt wheel and the gap bridge wheel are large, the synchronous belt generates large pressure on the surfaces of the wheel bodies, so that large friction resistance exists between the synchronous belt and the wheel bodies, and the synchronous belt needs to bear large pulling force and can be broken at times when the machine is started.

To overcome such problems, the applicant has devised a drive mechanism 300 for a corrugated printing press blow box as shown in fig. 2-4, comprising a corrugated printing press blow box 200, a main drive shaft 310 being mounted on the corrugated printing press blow box 200, the corrugated printing press blow box 200 being divided by the main drive shaft 310 into two distinct drive zones 300a and 300b, the left and right sides 301a and 302a, 301b and 302b of the drive zones 300a and 300b being connected by a plurality of drive shafts 320;

with particular reference to fig. 3 and 4, on the right side 302a of the transmission area 300a, the main transmission shaft 310 is connected to the timing pulley 331 through the timing belt transmission mechanism 330, and the timing pulley 331 is driven to rotate through the timing belt 332 by the driving pulley 311 on the main transmission shaft 310.

The synchronous belt wheel 331 is connected with a synchronous belt wheel 341 of a synchronous belt transmission mechanism 340 on the left side 301a through a conveying shaft 321, and the synchronous belt transmission mechanism 340 is also connected with a plurality of synchronous belt wheels 343 and gap bridge wheels 344 which are arranged at intervals through a synchronous belt 342;

the synchronous belt wheel 331 drives the synchronous belt wheel 341 to rotate through the conveying shaft 321, meanwhile, the synchronous belt wheel 341 is a driving wheel of the synchronous belt transmission mechanism 340, and the synchronous belt 342 drives the synchronous belt wheels 343 and the gap bridge wheels 344 which are arranged at intervals to rotate, so that the two sides of the transmission area 300a and the conveying shaft 320 thereof are driven;

in addition, a synchronous belt drive mechanism 350 is arranged on the same side of the synchronous belt drive mechanism 340, a synchronous belt wheel 351 is arranged on the synchronous belt drive mechanism 350, the synchronous belt wheel 351 drives other synchronous belt wheels 353 arranged on the synchronous belt drive mechanism 350 to rotate through a synchronous belt 352, and drives the synchronous belt wheel 354 on the other side to rotate through the conveying shaft 320.

Because of possessing the above structure, the utility model has the advantages that:

the utility model discloses a divide the area and set up with the hold-in range drive who divides the side compares with prior art, and both sides drive synchronous pulley is big with the gap bridge wheel interval on structural arrangement, and the cornerite is little, and to a great extent has reduced the grinding of hold-in range and each wheel and has been looked into to the life of the hold-in range of extension.

Claims (2)

1. The utility model provides a corrugated paper printing machine blow case drive mechanism which characterized in that includes:

the corrugated paper printing machine blow box comprises a corrugated paper printing machine blow box body, wherein a main transmission shaft is installed on one side of the corrugated paper printing machine blow box body, the corrugated paper printing machine blow box body is divided into a first transmission area and a second transmission area by the main transmission shaft, and two sides of the first transmission area and the second transmission area are connected through a plurality of transmission shafts; the first transmission area is transmitted by a first synchronous belt transmission mechanism and a second synchronous belt transmission mechanism which are connected, the second transmission area is transmitted by a third synchronous belt transmission mechanism, and a first synchronous belt wheel on the main transmission shaft driving first synchronous belt transmission mechanism rotates and then indirectly drives a second synchronous belt wheel on the second synchronous belt transmission mechanism to rotate.

2. The corrugated printing machine blow box transmission mechanism as recited in claim 1, wherein the main transmission shaft is connected to a first synchronous pulley through a first synchronous belt transmission mechanism, and the rotation of the first synchronous pulley is driven by a first synchronous belt through a first driving wheel on the main transmission shaft, the first synchronous pulley is connected to a second synchronous pulley of a second synchronous belt transmission mechanism on the other side through a first conveying shaft and drives the second synchronous pulley, and the second synchronous belt transmission mechanism is further connected with a plurality of synchronous pulleys and a bridging wheel which are arranged at intervals through a second synchronous belt;

the second synchronous belt wheel is a driving wheel of the second synchronous belt transmission mechanism and drives the synchronous belt wheels and the gap bridge wheels which are arranged at intervals to rotate, so that the driving of two sides of the first transmission area and the transmission shaft thereof is realized;

set up a third synchronous belt drive mechanism at second synchronous belt drive mechanism's homonymy, install a third synchronous pulley on the third synchronous belt drive mechanism, the third synchronous pulley sets up through third synchronous belt drive other synchronous pulley on the third synchronous belt drive mechanism rotate to synchronous pulley through carrying axle drive opposite side rotates.

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