CN218657710U - Automatic rubber tube assembling elastic hoop device - Google Patents

Abstract

The utility model discloses a device for automatically assembling an elastic hoop by a rubber tube, which is matched and connected with a vibration hopper, and the rubber tube is conveyed into the device for automatically assembling the elastic hoop by the vibration hopper; the device for automatically assembling the elastic hoop on the rubber pipe comprises a material cutting component, a material pushing component, an elastic hoop assembling component and a rubber pipe assembling component; the cutting component is connected with the pushing component in a matched manner to push the elastic hoop to the pushing component; the material pushing component is connected with the elastic hoop assembling component in a matching way, and the elastic hoop is arranged in the elastic hoop assembling component through the material pushing component; the elastic hoop assembling component is matched and connected with the rubber pipe assembling component, and the elastic hoop on the elastic hoop assembling component is pushed and sleeved on the rubber pipe arranged on the rubber pipe assembling component. This scheme replaces manual assembly through setting up automatic assembly device, carries out automatic assembly through machinery and can improve the assembly efficiency of rubber tube and elasticity hoop.

Description

Automatic rubber tube assembling elastic hoop device

Technical Field

The utility model relates to a machine-building technical field, concretely relates to automatic device of equipment elasticity hoop of rubber tube.

Background

The existing assembly technology of the rubber tube or the water tube and the elastic hoop is mostly manual assembly, the labor intensity of operators is increased by the manual assembly, the beat length of the assembly is long, the assembly quality cannot be guaranteed, and the assembly efficiency between the rubber tube or the water tube and the elastic hoop is greatly reduced.

Therefore, how to improve the assembly efficiency between the rubber pipe or the water pipe and the elastic hoop is a problem to be solved in the field.

SUMMERY OF THE UTILITY MODEL

Aiming at the technical problem that the assembly efficiency is reduced due to the fact that the existing rubber tube and the elastic hoop need to be assembled manually, the purpose of the scheme is to provide the rubber tube automatic elastic hoop device which can replace manual assembly, the assembly efficiency of the rubber tube and the elastic hoop is improved, and the problems existing in the prior art are well overcome.

In order to achieve the purpose, the utility model provides a device for automatically assembling an elastic hoop by a rubber tube, which is matched and connected with a vibration hopper, and the rubber tube is conveyed into the device for automatically assembling the elastic hoop by the vibration hopper; the device for automatically assembling the elastic hoop on the rubber pipe comprises a material cutting component, a material pushing component, an elastic hoop assembling component and a rubber pipe assembling component; the cutting component is connected with the pushing component in a matched manner to push the elastic hoop to the pushing component; the material pushing assembly is connected with the elastic hoop assembling assembly in a matching way, and the elastic hoop is arranged in the elastic hoop assembling assembly through the material pushing assembly; the elastic hoop assembling component is matched and connected with the rubber pipe assembling component, and the elastic hoop on the elastic hoop assembling component is pushed and sleeved on the rubber pipe arranged on the rubber pipe assembling component.

Further, the blanking assembly comprises a first air cylinder and a first push rod; the first push rod is connected with the elastic hoop in a matched mode, the first air cylinder is connected with the first push rod in a driving mode, and the first push rod pushes the elastic hoop to a material pushing position relative to the platform in the axial direction under the driving of the first air cylinder.

Furthermore, the material pushing assembly comprises a second cylinder and a second push rod, the second cylinder is connected with the second push rod in a driving mode, the second push rod is connected with the elastic hoop assembly in a matching mode, and the second push rod pushes the elastic hoop to the elastic hoop assembly under the driving of the second cylinder.

Further, the elastic hoop assembling component comprises a clamping jaw air cylinder and a sliding table air cylinder; the clamping jaw air cylinder is provided with a clamping jaw and drives an elastic hoop sleeved on the clamping jaw to be folded and unfolded; the slip table cylinder is connected with the driving of clamping jaw cylinder, can drive the elastic hoop on the clamping jaw cylinder drive and carry out axial displacement for rubber tube equipment subassembly.

Further, the rubber tube assembling assembly comprises a rubber tube placing seat and a pressing cylinder; the rubber tube placing seat is provided with a placing groove, and the rubber tube can be embedded in the placing groove for fixing; the limiting cylinder is connected with the placing groove in a matched mode; the limiting cylinder is provided with a limiting plate, and the end surface of the rubber tube arranged in the placing groove is attached to the limiting plate; the compressing cylinder is matched and connected with the rubber tube placing seat, the rubber tube is embedded in the rubber tube placing seat, and then the compressing cylinder and the rubber tube in the rubber tube placing seat are compressed for limiting.

Furthermore, a detection assembly used for detecting the position of the rubber tube is arranged in the rubber tube placing seat and connected with the pressing cylinder, and when the detection assembly detects that the rubber tube is placed in place, the pressing cylinder acts to press the rubber tube.

The automatic elastic hoop device of loading of rubber tube that this scheme provided, it leads to and sets up automatic assembly device and replaces manual assembly, carries out automatic assembly through machinery and can improve the assembly efficiency of rubber tube and elasticity hoop.

Drawings

The invention is further described with reference to the following drawings and detailed description.

FIG. 1 is a schematic structural diagram of a hoop material supply distribution mechanism in the present rubber pipe automatic assembly elastic hoop device;

FIG. 2 is a schematic diagram of the overall structure of the device for automatically assembling the elastic hoop on the rubber pipe;

FIG. 3 is a schematic structural diagram of a blanking assembly in the device for automatically assembling the elastic hoop on the rubber hose;

FIG. 4 is a schematic structural view of a material pushing assembly in the automatic rubber tube assembling elastic hoop device;

FIG. 5 is a schematic structural diagram of an elastic hoop assembling component in the device for automatically assembling an elastic hoop on a rubber hose;

FIG. 6 is a schematic view of the assembly structure of the elastic hoop assembly and the hose assembly;

FIG. 7 is a schematic structural diagram of a hose assembly component of the present automatic hose assembly elastic hoop device;

FIG. 8 is an assembly diagram of a limiting cylinder in the device for automatically assembling the elastic hoop on the rubber pipe;

FIG. 9 is an assembly diagram of the detecting component of the present automatic rubber pipe assembling elastic hoop device.

The following are labeled descriptions of the components in the drawings:

100. the rubber hose cutting machine comprises a cutting assembly 200, a pushing assembly 300, an elastic hoop assembly 400, a rubber hose assembly 110, a first air cylinder 120, a first push rod 210, a second air cylinder 220, a second push rod 310, a clamping jaw air cylinder 320, a clamping jaw 330, a sliding table air cylinder 410, a pressing air cylinder 420, a limiting air cylinder 421, a limiting plate 430, a rubber hose placing seat 440, a rubber hose 500, a detection assembly 600, an elastic hoop feeding distribution mechanism 610, a vibration hopper storage bin 620, a vibration hopper 630 and a vibration machine.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand and understand, the present invention is further explained by combining with the specific drawings.

Aiming at the technical problem that the assembly efficiency is reduced due to the fact that the existing rubber tube and the elastic hoop need to be assembled manually, based on the technical problem, the scheme provides the automatic rubber tube elastic hoop loading device which is provided with an automatic assembly device to replace manual assembly, and the assembly efficiency of the rubber tube and the elastic hoop can be improved by carrying out automatic assembly through machinery.

According to the scheme, the incoming materials of the elastic hoop are distributed and transferred through a plurality of system actions of the air cylinders, and the hoop is propped open through the elastic hoop propping mechanism, so that the labor intensity of operators is reduced, and the assembly efficiency is improved.

When the rubber pipe automatic elastic hoop loading device is applied, the rubber pipe automatic elastic hoop loading device is matched with the elastic hoop feeding distribution mechanism 600 for use; referring to figure 1, the resilient hoop feed distribution mechanism 600 comprises a vibratory hopper storage bin 610, a vibratory hopper 620 and a vibratory machine 630.

The vibratory hopper storage bin 610 is used for storing materials for the vibratory hopper 620, and the number of times of feeding of personnel is reduced. The vibrating hopper 620 is matched with the vibrating machine 630 to supply power to the elastic hoop in the mechanism, so that the elastic hoop is screened and divided, the correct feeding posture is ensured, the abrasion to the elastic hoop is reduced, and the product quality is ensured. After the elastic hoop enters the material distribution mechanism body, material distribution is started, and after the material distribution is finished, the elastic hoop is transferred to the rubber tube automatic elastic hoop loading device and is assembled.

The material distributing mechanism can replace manual material distribution, so that accurate material distribution is guaranteed, completeness and no loss are realized, and beats and manpower are saved.

The structural composition and operation of the resilient hoop feeding distribution mechanism 600 in this embodiment are well known to those skilled in the art and will not be described in detail herein.

The device for automatically installing the elastic hoop on the rubber hose provided by the scheme is shown in fig. 2 and comprises a material cutting assembly 100, a material pushing assembly 200, an elastic hoop assembling assembly 300 and a rubber hose assembling assembly 400.

Further, referring to fig. 3, the cutting assembly 100 is used for feeding the elastic hoop to the material pushing position, and the cutting assembly 100 includes a first cylinder 110 and a first push rod 120.

The first push rod 120 is connected with the elastic hoop in a matched mode, the first air cylinder 110 is connected with the first push rod 120 in a driving mode, and the first push rod 120 pushes the elastic hoop to a material pushing position in an axial direction relative to the platform under the driving of the first air cylinder 110.

The pushing assembly 200 is vertically disposed with respect to the cutting assembly 100, and is used for pushing the elastic hoop pushed in place by the cutting assembly 100 into the elastic hoop assembling assembly 300, referring to fig. 4, the pushing assembly 200 includes a second cylinder 210 and a second push rod 220.

The second cylinder 210 is connected with a second push rod 220 in a driving manner, the second push rod 220 is connected with the elastic hoop component in a matching manner, the second push rod 220 pushes the elastic hoop to vertically push the elastic hoop to the elastic hoop assembling component 300 relative to the platform under the driving of the second cylinder 210, and the elastic hoop is assembled on the rubber pipe through the elastic hoop assembling component 300.

Referring to fig. 5, the elastic hoop assembly 300 includes a jaw cylinder 310 and a slide cylinder 330.

The clamping jaw cylinder 310 is arranged corresponding to the direction of the elastic hoop pushed by the pushing assembly 200, the clamping jaw cylinder 310 is provided with a clamping jaw 320, and the clamping jaw 320 can be retracted and released under the driving force of the clamping jaw cylinder 310.

After the second push rod 220 pushes the elastic hoop to the clamping jaw cylinder 310, the elastic hoop is correspondingly pushed to the inside of the clamping jaw 320 of the clamping jaw cylinder 310, one end of the clamping jaw 320 extends into the inside of the elastic hoop, and the clamping jaw 320 is driven by the clamping jaw cylinder 310 to expand and force the elastic hoop to expand an inner hole so as to be conveniently sleeved on the rubber pipe at a later stage.

The sliding table cylinder 330 is drivingly connected to the clamping jaw cylinder 310, and referring to fig. 6, the clamping jaw cylinder 310 can be driven to drive the elastic hoop on the clamping jaw 320 to axially move relative to the hose assembly 400.

Referring to fig. 7, the hose assembly 400 includes a hose seating base 430, a pressing cylinder 410, and a stopper cylinder 420.

The rubber tube placing seat 430 is provided with a placing groove, and the rubber tube 440 can be embedded in the placing groove for fixing.

The rubber tube placing seat 430 is provided with a limiting cylinder 420 in a matching manner, and the placing position of the rubber tube can be ensured through the limiting cylinder 420.

Referring to fig. 8, the limiting cylinder 420 is provided with a limiting plate, the limiting plate is matched with the end face of the rubber pipe 440, and after the rubber pipe 440 is placed in the placing groove 430, the end face of the rubber pipe 440 is attached to the limiting plate of the limiting cylinder, so that the position where the rubber pipe 440 is placed is free of deviation, and the position is accurate when the rubber pipe 440 is assembled with the elastic hoop in the later period.

The compressing cylinder 410 is connected with the rubber tube placing seat 430 in a matching mode, and after the rubber tube 440 is embedded into the rubber tube placing seat 430, the compressing cylinder 410 and the rubber tube 440 in the rubber tube placing seat 430 are used for compressing and limiting.

Meanwhile, referring to fig. 9, a detection assembly 500 is arranged in the rubber tube placing seat 430 and connected with the pressing cylinder 410 for detecting the position of the rubber tube 440, when the detection assembly 500 detects that the rubber tube 440 is placed in place, the pressing cylinder 410 acts to press the rubber tube 440, the limiting cylinder 420 resets, the sliding table cylinder 330 drives the opening clamping jaw cylinder 310 and the opened elastic hoop to move forward, the elastic hoop is sleeved into the rubber tube 440, after the assembly is completed, the clamping jaw cylinder 310 and the sliding table cylinder 330 reset, the pressing cylinder 410 resets, and the product is manually taken out.

The following is an example of the working process of the present solution in a specific application, and it should be noted that the following is only a specific application example of the present solution and is not limited to the present solution.

(1) The elastic hoop is fed to the material cutting assembly 100 through the vibrating hopper 620, the first push rod 120 of the material cutting assembly 100 pushes the elastic hoop to the second push rod 220 of the material pushing assembly, and the elastic hoop is pushed into a clamping jaw of the clamping jaw cylinder 310 through the second push rod 220;

(2) The clamping jaw air cylinder 310 acts to open the elastic hoop, and the first push rod 120 and the second push rod 220 are reset;

(3) Manually placing the rubber tube 440 into the placing seat 430, detecting the rubber tube 440 in place by the detecting assembly 500, and pressing the rubber tube 440 by the rubber tube pressing cylinder 410;

(4) The sliding table cylinder 330 drives the opening clamping jaw cylinder 310 and the opened elastic hoop to move forwards, the elastic hoop is arranged in the rubber tube 440, the opening clamping jaw cylinder 310 resets, and the sliding table cylinder 330 drives the clamping jaw cylinder 310 to reset.

(5) The rubber tube pressing cylinder 410 resets, the rubber tube 440 with the elastic hoop assembled is manually taken out and placed into the charging basket, and all assembling actions are completed.

The rubber tube automatic elastic hoop installing device formed by the scheme is used for distributing materials after the vibration hopper automatically supplies materials. Through the cooperative operation of the cylinders on the two sides, the elastic hoop fed out each time is divided to a designated position, and then the distributed materials are pushed into the elastic hoop expanding mechanism through the action of the bottom layer cylinder. Through this mechanism, can strut the elasticity hoop, the feed end carries out the storage action simultaneously, reduces the time beat of production process.

Simultaneously, this scheme can be great degree the reduction cost of labor, improves production efficiency to guarantee the accuracy of elasticity hoop assembly position.

The foregoing shows and describes the basic principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A device for automatically assembling an elastic hoop on a rubber pipe is in matched connection with a vibration hopper, and the rubber pipe is conveyed into the device for automatically assembling the elastic hoop on the rubber pipe through the vibration hopper; the device for automatically assembling the elastic hoop on the rubber pipe is characterized by comprising a material cutting component, a material pushing component, an elastic hoop assembling component and a rubber pipe assembling component; the cutting component is connected with the pushing component in a matched manner to push the elastic hoop to the pushing component; the material pushing assembly is connected with the elastic hoop assembling assembly in a matching way, and the elastic hoop is arranged in the elastic hoop assembling assembly through the material pushing assembly; the elastic hoop assembling component is matched and connected with the rubber pipe assembling component, and the elastic hoop on the elastic hoop assembling component is pushed and sleeved on the rubber pipe arranged on the rubber pipe assembling component.

2. The apparatus for automatically assembling an elastic hoop for rubber hose according to claim 1, wherein the cutting assembly comprises a first cylinder and a first push rod; the first push rod is connected with the elastic hoop in a matched mode, the first air cylinder is connected with the first push rod in a driving mode, and the first push rod pushes the elastic hoop to a material pushing position relative to the platform in the axial direction under the driving of the first air cylinder.

3. The apparatus as claimed in claim 1, wherein the pushing assembly comprises a second cylinder and a second push rod, the second cylinder is connected to the second push rod, the second push rod is connected to the elastic hoop assembly, and the second push rod pushes the elastic hoop to the elastic hoop assembly under the driving of the second cylinder.

4. The apparatus for automatically assembling an elastic hoop for rubber hose according to claim 1, wherein the elastic hoop assembling assembly comprises a clamping jaw cylinder and a sliding table cylinder; the clamping jaw air cylinder is provided with a clamping jaw and drives an elastic hoop sleeved on the clamping jaw to be folded and unfolded; the sliding table cylinder is in driving connection with the clamping jaw cylinder and can drive the clamping jaw cylinder to drive the elastic hoop on the clamping jaw to move axially relative to the rubber tube assembling component.

5. The device for automatically assembling the elastic hoop by using the rubber hose as claimed in claim 1, wherein the rubber hose assembling component comprises a rubber hose placing seat, a pressing cylinder and a limiting cylinder; the rubber tube placing seat is provided with a placing groove, and the rubber tube can be embedded in the placing groove for fixing; the limiting cylinder is connected with the placing groove in a matched mode; the limiting cylinder is provided with a limiting plate, and the end surface of the rubber tube arranged in the placing groove is attached to the limiting plate; the compressing cylinder is connected with the rubber tube placing seat in a matching mode, and after the rubber tube is embedded into the rubber tube placing seat, the compressing cylinder and the rubber tube in the rubber tube placing seat are compressed for limiting.

6. The device for automatically assembling the elastic hoop of the rubber pipe as claimed in claim 5, wherein a detection assembly for detecting the position of the rubber pipe is arranged in the rubber pipe placing seat and connected with the pressing cylinder, and when the detection assembly detects that the rubber pipe is placed in place, the pressing cylinder acts to press the rubber pipe.

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