CN217345761U - Automatic feeding device for cutting and processing automobile rubber tubes - Google Patents

Abstract

The utility model discloses an automatic feeding device for cutting and processing automobile rubber tubes, which belongs to the technical field of rubber tube manufacturing, and the upper end surface of a conveying supporting plate is a conveying plane; the feeding frame is arranged above the conveying supporting plate; the lifting cylinder is positioned above the feeding frame and provided with a lifting cylinder rod extending downwards, the lifting cylinder rod is connected with the feeding frame, and the lifting cylinder drives the feeding frame to move vertically; the axis of the driving wheel roller is parallel to the conveying plane of the conveying supporting plate, the driving wheel roller is arranged on the feeding frame, and the driving wheel roller rotates around the axis of the driving wheel roller; the axis of the driven wheel roller is parallel to the axis of the driving wheel roller, the driven wheel roller is arranged on the feeding frame, and the driven wheel roller rotates around a rotating shaft of the driven wheel roller; the feeding belt is assembled on the driving roller and the driven roller, and the feeding belt rotates around the driven roller and the driving roller; the feeding motor is connected with the driving wheel roller. The device can feed rubber pipes in batches one by one, is favorable for improving the processing efficiency of the rubber pipes, and can be used as a basic functional unit in the whole-process automatic manufacturing of the rubber pipes.

Description

Automatic feeding device for cutting and processing automobile rubber tubes

Technical Field

The utility model belongs to the technical field of the rubber tube is made, especially, relate to an automatic feeding device is used in car rubber tube cutting process.

Background

The automobile is a main vehicle used by people, and rubber pipes are needed for oil passages, water passages, gas passages and dredging passages of cables in the automobile.

In the production and manufacturing process of the automobile rubber tube, the length of the automobile rubber tube needs to be calibrated by cutting. At present, the car rubber tube is placed on solitary rubber tube cutting device, is gone up the material loading by operating personnel rubber tube operation one by one, accomplishes the cutting by workman's manual operation device, and cutting process is the independent manufacturing procedure who exists in the production process, and the rubber tube needs to be transported between different processes, and material loading and cutting rely on artifical manually operation to accomplish completely, and the cutting degree of automation of car rubber tube is low, and is inefficient.

In recent years, with the increase of labor cost and the increasing of the requirement of the market on the automation degree of enterprises, the automation transformation of product production becomes the first task of improving the market competitiveness of the enterprises. Therefore, it is necessary to design an automatic feeding device for automatic cutting of rubber tubes, which can be integrated into a conveying system of an automatic rubber tube production line.

SUMMERY OF THE UTILITY MODEL

Problem to prior art exists, the utility model provides a solve present automobile rubber tube cutting material loading operation degree of automation low, automatic feeding device is used in automobile rubber tube cutting process of inefficiency problem.

The utility model is realized in such a way, the automatic feeding device for cutting and processing the automobile rubber tube is characterized by comprising a conveying supporting plate, a feeding frame, a lifting cylinder, a driving wheel roller, a driven wheel roller, a feeding belt and a feeding motor; the upper end surface of the conveying supporting plate is a conveying plane, and one end of the conveying supporting plate is a feeding end; the feeding frame is arranged above the conveying supporting plate; the lifting cylinder is positioned above the feeding frame and provided with a lifting cylinder rod extending downwards, the lifting cylinder rod is connected with the feeding frame, and the lifting cylinder drives the feeding frame to move vertically; the axis of the driving wheel roller is parallel to the conveying plane of the conveying supporting plate, the driving wheel roller is installed on the feeding frame, and the driving wheel roller rotates around the axis of the driving wheel roller; the axis of the driven wheel roller is parallel to the axis of the driving wheel roller, the driven wheel roller is arranged on the feeding frame, and the driven wheel roller rotates around a rotating shaft of the driven wheel roller; the feeding belt is assembled on the driving wheel roller and the driven wheel roller, and the feeding belt rotates around the driven wheel roller and the driving wheel roller; the feeding motor is installed on the feeding frame, and an output shaft of the feeding motor is connected with the driving wheel roller.

In the above technical solution, preferably, the device further comprises an ear seat, a vertical movable rod, a spring, and a top plate; the ear seats are provided with vertical through holes, and the ear seats are symmetrically arranged at two side parts of the feeding frame; the vertical movable rod is assembled in the vertical through hole of the ear seat and moves along the vertical axis; the spring is sleeved on the vertical movable rod and exerts vertical downward elastic force on the vertical movable rod; the top plate is a panel parallel to the conveying plane of the conveying supporting plate, two side parts of the top plate are respectively connected with the vertical movable rods positioned on two sides of the feeding frame, the top plate penetrates through the inner side of the feeding belt, and the top plate downwards pushes against the lower belt surface of the feeding belt.

In the technical scheme, preferred, the feeding frame includes grillage, vertical stores pylon and curb plate frame, go up the grillage with the jar pole of lift cylinder is connected, vertical stores pylon bilateral symmetry sets up go up the both sides of grillage, the upper end of vertical stores pylon with go up the grillage and connect, the homonymy a curb plate frame is connected to the lower extreme of vertical stores pylon, the tip of driving wheel roller and driven wheel roller is connected to the curb plate frame.

In the above technical solution, preferably, both end portions of the top plate are provided with an upward raised portion.

In the above technical solution, it is preferable that the apparatus further comprises a preheating unit, the preheating unit is arranged at two side portions of the conveying support plate, and the preheating unit comprises an upper pipeline, a lower pipeline, a blower, a circulating air pipe, and a heating box; the upper pipeline extends along a straight line parallel to the side edge of the conveying supporting plate, an upper air hole which extends downwards along the length direction of the upper pipeline is formed in the lower part of the upper pipeline, and the upper pipeline is arranged on the side of the feeding frame; the lower pipeline extends along a straight line parallel to the side edge of the conveying supporting plate, a lower air hole which extends upwards and along the length direction of the lower pipeline is formed in the upper part of the lower pipeline, and the lower pipeline is arranged on the side of the conveying supporting plate; the air blower is provided with an air inlet and an air outlet; an air inlet of the air blower is communicated with the upper pipeline through the circulating air pipe, and an air outlet of the air blower is communicated with the lower pipeline through the circulating air pipe; the heating box is internally provided with a heating chamber, a heating element is arranged in the heating chamber, and the heating box is serially arranged on the circulating air pipe.

In the above technical solution, preferably, the upper pipe and the lower pipe are plate-shaped boxes of a long-strip structure, and the upper end surface of the lower pipe and the conveying plane of the conveying pallet are in the same plane.

The utility model has the advantages and effects that:

the utility model provides a can carry out automatic feeding's device to the rubber tube, many rubber tubes can be discharged to the transport layer board in this device, through the winding of feed zone, the friction force drive rubber tube between face and the rubber tube is sold in the lower area of dependence feed zone rolls on the transport plane of carrying the layer board to this realizes automatic feeding, compares traditional artifical manual feeding, and the degree of automation of this device is high. The conveying supporting plate in the device can be adapted to an automatic rubber tube production line, and a foundation is provided for full-automatic processing and manufacturing of rubber tubes.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 is an enlarged view of part A of the present invention;

fig. 3 is a schematic structural diagram of a second embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

For present car rubber tube cutting material loading operation degree of automation is low, the problem of inefficiency, the utility model particularly provides a car rubber tube is automatic feeding device for cutting process, this device can be implemented the feeding one by one to the rubber tube in batches, is favorable to improving rubber tube machining efficiency, can regard as the basic function unit in the rubber tube full automation makes. For further explanation of the structure of the present invention, the following detailed description is made with reference to the accompanying drawings:

example one

Referring to fig. 1 and 2, an automatic feeding device for cutting and processing an automobile rubber tube comprises a conveying supporting plate 1, a feeding frame 2, a lifting cylinder 3, a driving wheel roller 4, a driven wheel roller 5, a feeding belt 6 and a feeding motor 7.

The conveying support plate is a component used for supporting rubber tubes in the device, and the rubber tubes which are parallel to each other in batches are transversely arranged on the conveying support plate in rows. The upper end surface of the conveying supporting plate is a conveying plane, and one end of the conveying supporting plate is a feeding end. The conveying supporting plate can be an independently arranged supporting plate body or a rubber tube conveying line bedplate in a rubber tube production line.

The feeding frame is a carrying frame body of the rubber tube feeding driving part in the device. The feeding frame is arranged above the conveying supporting plate. In this embodiment, specifically, the feeding frame includes upper plate frame 2-1, vertical stores pylon 2-2 and curb plate frame 2-3, and vertical stores pylon bilateral symmetry sets up in the both sides of upper plate frame, and the upper end and the upper plate frame of vertical stores pylon are connected, and a curb plate frame is connected to the lower extreme of the vertical stores pylon of homonymy, and both sides frame plate bilateral symmetry sets up.

The lifting cylinder is used for driving the feeding frame to move vertically. The lifting cylinder is located above the feeding frame and provided with a lifting cylinder rod extending downwards, the lifting cylinder rod is connected with the feeding frame, and the lifting cylinder drives the feeding frame to move vertically. The lifting cylinder can be supported and carried by an independent frame body.

The axis of the driving wheel roller is parallel to the conveying plane of the conveying supporting plate, the driving wheel roller is arranged on the feeding frame, and the driving wheel roller rotates around the axis of the driving wheel roller; the axis of the driven wheel roller is parallel to the axis of the driving wheel roller, the driven wheel roller is arranged on the feeding frame, and the driven wheel roller rotates around the rotating shaft of the driven wheel roller. Specifically, the driving wheel roller and the driven wheel roller are cylindrical rollers, the driving wheel roller and the driven wheel roller are positioned on the same horizontal plane, and the axes of the driving wheel roller and the driven wheel roller are vertical to the feeding direction of the device. Two ends of the driving wheel roller and the driven wheel roller are respectively arranged on the side frame plate of the feeding frame through bearings. The driving wheel roller and the driven wheel roller can rotate around the axes of the driving wheel roller and the driven wheel roller.

The feeding belt is assembled on the driving wheel roller and the driven wheel roller, and the feeding belt rotates around the driven wheel roller and the driving wheel roller. Specifically, the feeding belt is a rubber belt, and the feeding belt is tensioned and wound on the driving wheel roller and the driven wheel roller.

The feeding motor is installed on the feeding frame, and the output shaft of the feeding motor is connected with the driving wheel roller. The feeding motor is used for driving the driving wheel roller to rotate so as to realize the revolution of the feeding belt.

A space for the rubber tube to pass through is formed between the lower belt surface of the feeding belt and the conveying supporting plate, and the rubber tube is driven to roll through the action of the feeding belt, so that the end part of the conveying supporting plate is fed.

In order to ensure reliable contact between the feeding belt and the rubber tube and stably drive the rubber tube to roll, the rubber tube rolling device further comprises an ear seat 8, a vertical movable rod 9, a spring 10 and a top plate 11;

the ear seats are provided with vertical through holes, and the two side parts of the feeding frame are symmetrically provided with the ear seats. Specifically, the lug seats are L-shaped plate bodies, and the lug seats are installed on the side plate frames close to the two end portions of each side of the feeding frame through bolts. The horizontal plate body of the vertical through hole is provided with a vertical through hole.

The vertical movable rod is assembled in the vertical through hole of the ear seat and moves along the vertical axis. The vertical movable rod is a cylindrical rod, the upper end of the vertical movable rod is an end, and the vertical movable rod vertically moves under the guiding action of the vertical through hole.

The spring is sleeved on the vertical movable rod and applies vertical downward elasticity to the vertical movable rod. The upper end of the spring is pressed against the horizontal plate body of the lug seat, and the lower end of the spring is pressed against the top plate.

The top plate is a panel parallel to the conveying plane of the conveying supporting plate, two side parts of the top plate are respectively connected with vertical movable rods positioned on two sides of the feeding frame, the top plate penetrates through the inner side of the feeding belt, and the top plate downwards pushes and presses the lower belt surface of the feeding belt.

Under the action of the spring, the top plate downwards presses the lower belt surface of the feeding belt so as to ensure that the lower belt surface of the feeding belt is reliably contacted with the rubber pipe. Both ends of roof are equipped with ascending perk portion, and this perk portion and the lower plate surface smooth transition of roof avoid the feeding zone wearing and tearing.

Example two

In this embodiment, a preheating unit is added on the basis of the structure of the first embodiment, and the preheating unit is arranged on two side parts of the conveying pallet. The preheating unit is used for heating the end part of the rubber tube to be fed, so that the end part of the rubber tube to be cut becomes soft, the deformation of the cut end part of the rubber tube caused by over-hard materials in the cutting process is reduced, and the cutting quality is improved.

Referring to fig. 3, the preheating unit includes an upper duct 12, a lower duct 13, a blower 14, a circulation gas pipe 15, and a heating box 16.

The upper pipeline extends along a straight line parallel to the side edge of the conveying supporting plate, an upper air hole which extends downwards along the length direction of the upper pipeline is formed in the lower part of the upper pipeline, and the upper pipeline is arranged on the side of the feeding frame; the lower pipeline extends along a straight line parallel to the side edge of the conveying supporting plate, the upper part of the lower pipeline is provided with an upward lower air hole extending along the length direction of the lower pipeline, and the lower pipeline is arranged on the side of the conveying supporting plate. In this embodiment, the upper duct and the lower duct are plate-shaped boxes of a long strip structure, and the upper end surface of the lower duct and the conveying plane of the conveying pallet are on the same plane. The upper pipeline and the lower pipeline are internally provided with cavities, and the upper air hole and the lower air hole are long holes. The upper pipeline is arranged on the feeding frame through an independent frame body, and the lower pipeline is arranged on the conveying supporting plate through an independent frame body.

The air blower is provided with an air inlet and an air outlet. The blower is a conventional component available from outsourcing, and in the embodiment, the blower is fixed at the lower part of the conveying supporting plate.

The air inlet of the air blower is communicated with the upper pipeline through a circulating air pipe, and the air outlet of the air blower is communicated with the lower pipeline through a circulating air pipe. The blower works to discharge gas from the lower air hole of the lower pipeline, and the gas is sucked from the upper air hole of the upper pipeline, so that circulating airflow is formed between the lower pipeline and the upper pipeline.

The heating chamber is arranged in the heating box, the heating element is arranged in the heating chamber, and the heating box is serially arranged on the circulating air pipe. Specifically, the heating box is a box body with an air inlet and an air outlet, the heating element is an electric heating tube, the heating box is fixed at the lower part of the conveying supporting plate, and the heating box is connected with a circulating air pipe in series through the air inlet and the air outlet to heat circulating air flow.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides an automatic feeding device is used in cutting process of car rubber tube which characterized in that includes:

the upper end surface of the conveying supporting plate is a conveying plane, and one end of the conveying supporting plate is a feeding end;

the feeding frame is arranged above the conveying supporting plate;

the lifting cylinder is positioned above the feeding frame and provided with a lifting cylinder rod extending downwards, the lifting cylinder rod is connected with the feeding frame, and the lifting cylinder drives the feeding frame to move vertically;

the axis of the driving wheel roller is parallel to the conveying plane of the conveying supporting plate, the driving wheel roller is installed on the feeding frame, and the driving wheel roller rotates around the axis of the driving wheel roller;

the axis of the driven wheel roller is parallel to the axis of the driving wheel roller, the driven wheel roller is arranged on the feeding frame, and the driven wheel roller rotates around a rotating shaft of the driven wheel roller;

the feeding belt is assembled on the driving wheel roller and the driven wheel roller, and the feeding belt rotates around the driven wheel roller and the driving wheel roller;

the feeding motor is installed on the feeding frame, and an output shaft of the feeding motor is connected with the driving wheel roller.

2. The automatic feeding device for cutting and processing the automobile rubber hose according to claim 1, further comprising:

the ear seat is provided with a vertical through hole, and the ear seats are symmetrically arranged at two side parts of the feeding frame;

the vertical movable rod is assembled in the vertical through hole of the ear seat and moves along a vertical axis;

the spring is sleeved on the vertical movable rod and exerts vertical downward elastic force on the vertical movable rod;

the top plate is a panel parallel to the conveying plane of the conveying supporting plate, two side parts of the top plate are respectively connected with the vertical movable rods positioned on two sides of the feeding frame, the top plate penetrates through the inner side of the feeding belt, and the top plate downwards pushes against the lower belt surface of the feeding belt.

3. The automatic feeding device for cutting and processing the automobile rubber tubes as claimed in claim 2, wherein the feeding frame comprises an upper plate frame, a vertical hanging frame and side plate frames, the upper plate frame is connected with a cylinder rod of the lifting cylinder, the vertical hanging frame is arranged on two sides of the upper plate frame in a bilateral symmetry mode, the upper end of the vertical hanging frame is connected with the upper plate frame, one side plate frame is connected with the lower end of the vertical hanging frame on the same side, and the side plate frames are connected with the ends of the driving wheel roller and the driven wheel roller.

4. The automatic feeding device for cutting the automobile rubber hose according to claim 3, wherein two end portions of the top plate are provided with upward raised portions.

5. The automatic feeding device for cutting and processing the automobile rubber hose according to claim 1, further comprising a preheating unit, wherein the preheating unit is arranged on two side portions of the conveying supporting plate, and comprises:

the upper pipeline extends along a straight line parallel to the side edge of the conveying supporting plate, an upper air hole which extends downwards along the length direction of the upper pipeline is formed in the lower part of the upper pipeline, and the upper pipeline is arranged on the side of the feeding frame;

the lower pipeline extends along a straight line parallel to the side edge of the conveying supporting plate, a lower air hole which extends upwards and along the length direction of the lower pipeline is formed in the upper part of the lower pipeline, and the lower pipeline is arranged on the side of the conveying supporting plate;

the air blower is provided with an air inlet and an air outlet;

the air inlet of the air blower is communicated with the upper pipeline through the circulating air pipe, and the air outlet of the air blower is communicated with the lower pipeline through the circulating air pipe;

the heating box, the inside of heating box is the heating chamber, the internally mounted heating element of heating chamber, the heating box cluster is adorned on the circulating gas pipe.

6. The automatic feeding device for cutting and processing the automobile rubber hose according to claim 5, wherein the upper pipe and the lower pipe are plate-shaped boxes with long strip structures, and the upper end surface of the lower pipe is positioned on the same plane as the conveying plane of the conveying support plate.

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