CN216189590U - Non-stop waste discharge device - Google Patents

Abstract

The utility model relates to a non-stop waste discharge device which comprises a rack, wherein a swing arm rotating motor, a main material receiving motor and an auxiliary material receiving motor are installed on one side of the rack, a swing arm, a main material receiving shaft and an auxiliary material receiving shaft are installed on the other side of the rack, an output shaft of the swing arm rotating motor is in transmission connection with the center of the swing arm through a first transmission assembly, an output shaft of the main material receiving motor is in transmission connection with the main material receiving shaft through a second transmission assembly, an output shaft of the auxiliary material receiving motor is in transmission connection with the auxiliary material receiving shaft through a third transmission assembly, the main material receiving shaft and the swing arm are coaxially arranged, and the auxiliary material receiving shaft is installed at one end of the swing arm. The non-stop waste discharge device can realize non-stop waste discharge of the adhesive waste materials by utilizing the mutual matching of the main material receiving shaft and the auxiliary material receiving shaft, and can save the operation time and improve the working efficiency compared with the non-stop waste discharge operation.

Description

Non-stop waste discharge device

Technical Field

The utility model relates to the field of printing equipment, in particular to a non-stop waste discharge device.

Background

With the development of the self-adhesive industry in China becoming mature, how to improve the production efficiency becomes a common concern of the majority of label printing enterprises. In the daily production process of the self-adhesive label, waste discharge is one of factors causing low production efficiency. The waste materials in the adhesive label industry are generally strip-shaped leftover materials which need to be torn off from paper materials after die cutting, a traditional waste discharge device is generally wound and wound through a material receiving shaft, after the material receiving shaft is wound to a certain degree, a waste material roll needs to be disassembled and processed, at the moment, printing equipment needs to be stopped, and the printing equipment can continue to work after the material receiving shaft is processed. According to statistics, the loss difference between non-stop waste discharge and stop waste discharge is between 5 and 10 minutes. The existing non-stop waste discharge method comprises hob waste discharge, shovel blade waste discharge, full duplex position rotation waste discharge and the like, and the three methods respectively have the advantages and disadvantages: the hob waste discharge does not occupy manpower, but the equipment cost is higher, and the hob waste discharge is not applied at home at present; the scraper knife has a simple waste discharge structure, is suitable for special-shaped waste discharge, but has a short service life; the full duplex position is rotatory to be discharged waste stability is good, but the structure is complicated, and the cost is high, and trades the useless frequency height.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, the utility model provides the non-stop waste discharge device which is simple in structure, small in size and convenient to install.

In order to achieve the purpose, the utility model adopts the technical scheme that:

the non-stop waste discharge device comprises a frame, wherein a swing arm rotating motor, a main material receiving motor and an auxiliary material receiving motor are installed on one side of the frame, a swing arm, a main material receiving shaft and an auxiliary material receiving shaft are installed on the other side of the frame, an output shaft of the swing arm rotating motor is connected with the center of the swing arm through a first transmission assembly in a transmission mode, the output shaft of the main material receiving motor is connected with the main material receiving shaft through a second transmission assembly in a transmission mode, the output shaft of the auxiliary material receiving motor is connected with the auxiliary material receiving shaft through a third transmission assembly in a transmission mode, the main material receiving shaft and the swing arm are coaxially arranged, and the auxiliary material receiving shaft is installed at one end of the swing arm.

The rack is formed by connecting a front side rack and a rear side rack which are in the same shape through a connecting rod.

A first transmission shaft is movably mounted between the front side frame and the rear side frame, and one end of the first transmission shaft penetrates through the front side frame and is connected with the main material receiving shaft.

The first transmission assembly comprises a first transmission wheel arranged on an output shaft of the swing arm rotating motor and a first transmission belt meshed with the first transmission wheel, a second transmission wheel is meshed at the other end of the first transmission belt and fixedly arranged on a second transmission shaft, the second transmission shaft is rotatably arranged on the outer side of the first transmission shaft, and one end of the second transmission shaft penetrates out of the front side rack and is connected with the swing arm.

The second transmission assembly comprises a third transmission wheel arranged on the output shaft of the main material receiving motor and a second transmission belt meshed with the third transmission wheel, a fourth transmission wheel is meshed at the other end of the second transmission belt, and the fourth transmission wheel is fixedly arranged on the first transmission shaft.

The third transmission assembly comprises a fifth transmission wheel connected with the output shaft of the auxiliary material receiving motor and a third transmission belt meshed with the fifth transmission wheel, a sixth transmission wheel is meshed at the other end of the third transmission belt and rotatably mounted on the outer side of the second transmission shaft, a fourth transmission belt is meshed on the sixth transmission wheel, the other end of the fourth transmission belt is meshed with a seventh transmission wheel, and one end of the seventh transmission wheel is mounted on one side of the swing arm and connected with the auxiliary material receiving shaft.

Compared with the prior art, the non-stop waste discharge device provided by the utility model has the following beneficial effects:

1. the non-stop waste discharge device can realize non-stop waste discharge of the adhesive waste materials by utilizing the mutual matching of the main material receiving shaft and the auxiliary material receiving shaft, and can save the operation time and improve the working efficiency compared with the non-stop waste discharge operation.

2. This practicality adopts swing arm rotating electrical machines, main material motor, supplementary material motor to drive swing arm, main material axle, supplementary material axle pivoted form of receiving respectively, and area is little, installs simple structure simultaneously, and the cost is low, is favorable to practicing thrift manufacturing cost.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a side view of the present invention;

FIG. 4 is a partial cross-sectional view of FIG. 2;

FIG. 5 is an enlarged view of a portion of FIG. 4;

FIG. 6 is a top view of the present invention;

the figures are labeled as follows:

1. the automatic material receiving machine comprises a machine frame, 2 a swing arm rotating motor, 3 a main material receiving motor, 4 an auxiliary material receiving motor, 5 a swing arm, 6 a main material receiving shaft, 7 an auxiliary material receiving shaft, 8 a first transmission assembly, 9 a second transmission assembly, 10 a third transmission assembly, 11 a front side machine frame, 12 a rear side machine frame, 13 a first transmission shaft, 14 a first transmission wheel, 15 a first transmission belt, 16 a second transmission wheel, 17 a second transmission shaft, 18 a third transmission wheel, 19 a second transmission belt, 20 a fourth transmission wheel, 21 a fifth transmission wheel, 22 a third transmission belt, 23 a sixth transmission wheel, 24 a fourth transmission belt and 25 a seventh transmission wheel.

Detailed Description

In order that the utility model may be further understood, the utility model will now be described in detail with reference to specific examples.

As shown in fig. 1-6, the non-stop waste discharge device provided by the utility model comprises a frame 1, wherein a swing arm rotating motor 2, a main material receiving motor 3 and an auxiliary material receiving motor 4 are installed on one side of the frame 1, a swing arm 5, a main material receiving shaft 6 and an auxiliary material receiving shaft 7 are installed on the other side of the frame 1, an output shaft of the swing arm rotating motor 2 is in transmission connection with the center of the swing arm 5 through a first transmission assembly 8, an output shaft of the main material receiving motor 3 is in transmission connection with the main material receiving shaft 6 through a second transmission assembly 9, an output shaft of the auxiliary material receiving motor 4 is in transmission connection with the auxiliary material receiving shaft 7 through a third transmission assembly 10, the main material receiving shaft 6 and the swing arm 5 are coaxially arranged, and the auxiliary material receiving shaft 7 is installed at one end of the swing arm 5. The main material receiving shaft 6 and the swing arm 5 are coaxially arranged, the auxiliary material receiving shaft 7 is arranged at one end of the swing arm 5, the waste discharge of the adhesive sticker is carried out in a mode of waste discharge of the main material receiving shaft 6 and the auxiliary material receiving shaft 7, the main material receiving shaft 6 is controlled to rotate by the main material receiving motor 3 in a normal state, the waste discharge of the adhesive sticker is carried out, when the collection diameter reaches the limit, the swing arm rotating motor 2 controls the swing arm 5 to rotate, the auxiliary material receiving motor 4 controls the auxiliary material receiving shaft 7 to rotate, the auxiliary material receiving shaft 7 is arranged on one side of the swing arm 5, when the auxiliary material receiving shaft 7 runs to a seven-o' clock position along with the swing arm 5, the adhesive sticker waste can be adhered to the auxiliary material receiving shaft 7, at the moment, the connection between the adhesive sticker waste and the main material receiving shaft 6 is manually cut off, the waste on the main material receiving shaft 6 is taken off at the same time, a new paper core is replaced, the swing arm 5 continuously rotates, and when the auxiliary material receiving shaft 7 runs to a bit position along with the swing arm 5, the adhesive waste is adhered to the main material receiving shaft 6, meanwhile, the auxiliary material receiving shaft 7 stops rotating, at the moment, the adhesive waste on the auxiliary material receiving shaft 7 can be received onto the main material receiving shaft 6 by the main material receiving shaft 6, the swing arm 5 continues rotating, the auxiliary material receiving shaft 7 runs to a five-o-clock position along with the swing arm 5 to stand by, and one running period is completed. In order to facilitate the control of the working process of the non-stop waste discharge device, the utility model can adopt proper components such as a PLC (programmable logic controller) and the like to carry out working control according to actual requirements, and the PLC is the prior art and is not described herein again.

The frame 1 is formed by connecting a front side frame 11 and a rear side frame 12 which have the same shape through a connecting rod. The frame 1 comprises the same front side frame 11 and the same back side frame 12 of shape, connects through the connecting rod between front side frame 11 and the back side frame 12, adopts the welded mode to be connected respectively between connecting rod and front side frame 11 and the back side frame 12 to improve the stability of frame 1, form accommodation space between front side frame 11 and the back side frame 12, be used for installing other spare parts.

A first transmission shaft 13 is movably mounted between the front side frame 11 and the rear side frame 12, and one end of the first transmission shaft 13 penetrates out of the front side frame 11 and is connected with the main material receiving shaft 6. Two ends of a first transmission shaft 13 are respectively installed on the front side frame 11 and the rear side frame 12 through bearings, the first transmission shaft 13 is connected with the main material receiving shaft 6, and the main material receiving shaft 6 can be driven to rotate through the rotation of the first transmission shaft 13, so that the self-adhesive waste material winding is realized.

The first transmission assembly 8 comprises a first transmission wheel 14 arranged on an output shaft of the swing arm rotating motor 2 and a first transmission belt 15 meshed with the first transmission wheel 14, a second transmission wheel 16 is meshed at the other end of the first transmission belt 15, the second transmission wheel 16 is fixedly arranged on a second transmission shaft 17, the second transmission shaft 17 is rotatably arranged on the outer side of the first transmission shaft 13, and one end of the second transmission shaft 17 penetrates through the front side rack 11 and is connected with the swing arm 5. The second transmission shaft 17 is mounted on the outer side of the first transmission shaft 13 by using a bearing, the first transmission assembly 8 is used for transmission between the swing arm rotating motor 2 and the swing arm 5, specifically, the swing arm rotating motor 2 works to drive the first transmission wheel 14 on the output shaft thereof to rotate, the first transmission wheel 14 drives the second transmission wheel 16 to rotate through the first transmission belt 15, and further drives the second transmission shaft 17 fixedly connected with the second transmission wheel 16 to rotate, so that the second transmission shaft 17 drives the swing arm 5 connected therewith to rotate, because the second transmission shaft 17 is rotatably mounted on the outer side of the first transmission shaft 13, and the second transmission shaft 17 and the first transmission shaft 13 are coaxially arranged, the rotation of the second transmission shaft 17 does not affect the first transmission shaft 13, the second transmission shaft 17 drives the swing arm 5 to rotate and the first transmission shaft 13 drives the main material receiving shaft 6 to rotate into two non-interference actions, the two actions can be carried out simultaneously or independently, and can be adjusted according to the requirement of rolling the adhesive sticker waste.

The second transmission assembly 9 comprises a third transmission wheel 18 arranged on the output shaft of the main material receiving motor 3 and a second transmission belt 19 meshed with the third transmission wheel 18, a fourth transmission wheel 20 is meshed at the other end of the second transmission belt 19, and the fourth transmission wheel 20 is fixedly arranged on the first transmission shaft 13. The second transmission assembly 9 is used for transmission between the main material receiving motor 3 and the main material receiving shaft 6, specifically, the main material receiving motor 3 works to drive the third transmission wheel 18 on the output shaft to rotate, the third transmission wheel 18 drives the fourth transmission wheel 20 to rotate through the second transmission belt 19, and then drives the first transmission shaft 13 fixedly connected with the fourth transmission wheel 20 to rotate, the main material receiving shaft 6 is installed at one end of the first transmission shaft 13, therefore, the main material receiving shaft 6 can be driven to rotate by rotation of the first transmission shaft 13, and therefore, the self-adhesive waste material can be wound.

The third transmission assembly 10 comprises a fifth transmission wheel 21 connected with the output shaft of the auxiliary material receiving motor 4 and a third transmission belt 22 meshed with the fifth transmission wheel 21, a sixth transmission wheel 23 is meshed with the other end of the third transmission belt 22, the sixth transmission wheel 23 is rotatably installed on the outer side of the second transmission shaft 17, a fourth transmission belt 24 is meshed with the sixth transmission wheel 23, the other end of the fourth transmission belt 24 is meshed with a seventh transmission wheel 25, and one end of the seventh transmission wheel 25 is installed on one side of the swing arm 5 and connected with the auxiliary material receiving shaft 7. The fifth driving wheel 21 is connected with an output shaft of the auxiliary material receiving motor 4 through a coupler, the sixth driving wheel 23 is installed on the outer side of the second transmission shaft 17 through a bearing, the third transmission assembly 10 is used for assisting transmission between the material receiving motor 4 and the auxiliary material receiving shaft 7, specifically, the auxiliary material receiving motor 4 works to drive the coupler on the output shaft and the fifth driving wheel 21 to transmit, the fifth driving wheel 21 drives the sixth driving wheel 23 to rotate through a third transmission belt 22, the sixth driving wheel 23 rotates to drive a fourth transmission belt 24 to rotate, the fourth transmission belt 24 further drives a seventh driving wheel 25 to rotate, and accordingly the auxiliary material receiving shaft 7 connected with the seventh driving wheel 25 is driven to rotate. Because the sixth transmission wheel 23 is rotatably installed on the outer side of the second transmission shaft 17, the rotation of the sixth transmission wheel 23 does not affect the second transmission shaft 17, the sixth transmission shaft 23 drives the fourth transmission belt 24 to rotate, and the second transmission shaft 17 drives the swing arm 5 to rotate, so that the two actions are two actions which are not interfered with each other, can be performed simultaneously or separately, and can be adjusted according to the requirement of rolling the non-setting adhesive waste.

It will be understood by those skilled in the art that the utility model includes any combination of the elements of the foregoing description and the detailed description as well as those illustrated in the drawings, which are meant to be space-limited and not intended to constitute a part of the specification in any way whatsoever, the combination being such that the description is not intended to be exhaustive. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. Do not shut down waste discharge apparatus, including the frame, its characterized in that: the swing arm rotating motor, the main material receiving motor and the auxiliary material receiving motor are installed on one side of the rack, the swing arm, the main material receiving shaft and the auxiliary material receiving shaft are installed on the other side of the rack, an output shaft of the swing arm rotating motor is connected with the center of the swing arm through a first transmission assembly in a transmission mode, an output shaft of the main material receiving motor is connected with the main material receiving shaft through a second transmission assembly in a transmission mode, an output shaft of the auxiliary material receiving motor is connected with the auxiliary material receiving shaft through a third transmission assembly in a transmission mode, the main material receiving shaft and the swing arm are coaxially arranged, and the auxiliary material receiving shaft is installed at one end of the swing arm.

2. The non-stop waste discharge device according to claim 1, wherein: the rack is formed by connecting a front side rack and a rear side rack which are in the same shape through a connecting rod.

3. The non-stop waste discharge device according to claim 2, wherein: a first transmission shaft is movably mounted between the front side frame and the rear side frame, and one end of the first transmission shaft penetrates through the front side frame and is connected with the main material receiving shaft.

4. The non-stop waste discharge device according to claim 3, wherein: the first transmission assembly comprises a first transmission wheel arranged on an output shaft of the swing arm rotating motor and a first transmission belt meshed with the first transmission wheel, a second transmission wheel is meshed at the other end of the first transmission belt and fixedly arranged on a second transmission shaft, the second transmission shaft is rotatably arranged on the outer side of the first transmission shaft, and one end of the second transmission shaft penetrates out of the front side rack and is connected with the swing arm.

5. The non-stop waste discharge device according to claim 3, wherein: the second transmission assembly comprises a third transmission wheel arranged on the output shaft of the main material receiving motor and a second transmission belt meshed with the third transmission wheel, a fourth transmission wheel is meshed at the other end of the second transmission belt, and the fourth transmission wheel is fixedly arranged on the first transmission shaft.

6. The non-stop waste discharge device according to claim 4, wherein: the third transmission assembly comprises a fifth transmission wheel connected with the output shaft of the auxiliary material receiving motor and a third transmission belt meshed with the fifth transmission wheel, a sixth transmission wheel is meshed at the other end of the third transmission belt and rotatably mounted on the outer side of the second transmission shaft, a fourth transmission belt is meshed on the sixth transmission wheel, the other end of the fourth transmission belt is meshed with a seventh transmission wheel, and one end of the seventh transmission wheel is mounted on one side of the swing arm and connected with the auxiliary material receiving shaft.

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