CN210436241U - High-efficient rubber tube cuts feeding device - Google Patents

Abstract

The utility model relates to a high-efficient rubber tube cuts feeding device, including bearing the frame, unreel the wheel, the carrier post, the driving roller way, the main drive roller set, the auxiliary drive roller set, tension sensor, meter rice ware, driving motor and control circuit, bear the frame up end and establish the driving roller way, tension sensor with bear the frame up end and be connected and inlay in the driving roller way, unreel the wheel and pass through the carrier post and bear the frame preceding terminal surface and be connected, the main drive roller set, the auxiliary drive roller set all with bear the frame up end and be connected, the main drive roller set, the auxiliary drive roller set all includes the base, the drive slide rail, bear the roller, the roll squeezer, pressure sensor, meter rice ware, driving motor all is located and bears the frame, control circuit is in bearing the frame side surface connection. The novel rubber tube conveying device can effectively meet the requirements of conveying operation of rubber tubes with different lengths and different tube diameters on one hand; on the other hand, in the conveying operation, the rubber tube can be effectively measured and positioned accurately.

Description

High-efficient rubber tube cuts feeding device

Technical Field

The utility model relates to a conveying equipment is exactly a high-efficient rubber tube cuts feeding device.

Background

At present, when rubber tube equipment is cut, rubber tube feeding and shearing positioning are often carried out through a traction mechanism and a positioning mechanism of the cutting equipment, although the rubber tube feeding and conveying operation efficiency is low, when long-length rubber tubes are continuously cut, the rubber tubes are very easy to drag on the ground, abrasion is caused, the quality of the rubber tubes is influenced, the feeding amount of the rubber tubes is controlled under the control precision, the working precision of the cutting operation is seriously influenced, on the other hand, when the rubber tubes are cut, the rubber tubes are positioned only by the cutting equipment, the positioning capacity is relatively poor, when the shearing acting force is large, the subsequent rubber tubes are very easy to warp and swing and displace, and the like, so that the cutting precision is influenced in eyes, and meanwhile, the rubber tubes are very easy to swing, The warping and the like cause damage to the surface structure of the rubber pipe, damage to peripheral equipment, and even harm to workers in severe cases, and the problem is particularly prominent in rubber pipe products lined with a large amount of metal reinforcements.

Therefore, in order to solve the problem, a new rubber tube cutting and supplying device is urgently needed to be developed to meet the requirement of practical use.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides a high-efficiency rubber tube cutting and supplying device, which has simple structure and good universality, can effectively meet the requirements of rubber tube conveying operation with different lengths and different tube diameters on one hand, has high conveying operation efficiency, effectively reduces the labor intensity of the conveying operation, and improves the operation efficiency; on the other hand, in the conveying operation, the rubber tube can be effectively measured and positioned accurately, the shearing precision is greatly improved, and the serious influence on the shearing quality of the rubber tube and the occurrence of safety accidents caused by the warping, swinging and the like of the rubber tube due to unstable positioning and overlarge shearing acting force during the shearing operation are prevented.

In order to achieve the above purpose, the present invention is realized by the following technical solution:

a high-efficiency rubber tube cutting and feeding device comprises a bearing frame, a unreeling wheel, bearing columns, driving roller ways, a main driving roller set, an auxiliary driving roller set, at least one tension sensor, a meter counter, a driving motor and a control circuit, wherein the cross section of the bearing frame is of a rectangular frame structure, the driving roller ways are arranged on the upper end face of the bearing frame, the axes of the driving roller ways are distributed in parallel with the upper end face of the bearing frame, the tension sensor is connected with the upper end face of the bearing frame and embedded in the driving roller ways, is positioned in the axial direction of the driving roller ways and is 0-20 mm higher than the upper surface of the driving roller ways, the unreeling wheel is connected with the front end face of the bearing frame through at least one bearing column, two sections of the bearing columns are respectively hinged with the front end face of the bearing frame and the unreeling wheel through a rotary table mechanism, the axes of the unreeling wheel are vertically distributed with the axes of the driving roller, the main driving roller set and the auxiliary driving roller set are connected with the upper end face of the bearing rack and are coaxially distributed with the driving roller way, the auxiliary driving roller set is positioned at the front end face of the bearing rack, the main driving roller set is positioned at the rear end face of the bearing rack, the main driving roller set and the auxiliary driving roller set respectively comprise a base, driving slide rails, a bearing roller, a pressing roller and a pressure sensor, wherein the base is of a frame structure and is connected with the upper end face of the bearing rack, the number of the driving slide rails is two, the driving roller way axes are symmetrically distributed and are respectively and vertically connected with the upper end face of the base, the bearing roller is embedded in the base and is connected with the base through a transmission shaft, the bearing roller axes are perpendicular to and intersected with the driving roller way axes, the intersection point is positioned at the middle point of the bearing roller, the pressing roller is positioned right above the bearing roller, is distributed in parallel with the bearing roller, the length counter and the driving motor are both positioned in the bearing rack, the length counter is connected with bearing rollers of the main driving roller group, the driving motor is connected with unwinding wheels, a driving roller way, the main driving roller group and bearing rollers of the auxiliary driving roller group through a transmission mechanism, and the control circuit is connected with the side surface of the bearing rack and is electrically connected with a tension sensor, the length counter, the driving motor, the rotary table mechanism, the main driving roller group and a driving guide rail and a pressure sensor of the auxiliary driving roller group.

Furthermore, the bearing column is of at least two-stage telescopic rod structure, the outer surface of the bearing column is connected with the front end face of the bearing rack through at least one electric telescopic rod, and two ends of the electric telescopic rod are respectively hinged with the bearing column and the front end face of the bearing rack and are electrically connected with the control circuit.

Furthermore, when the included angle between the axis of the bearing column and the upper surface of the driving roller way is less than 0 degree, the axis of the unwinding wheel is positioned below the upper end surface of the driving roller way; when the included angle between the axis of the bearing column and the upper surface of the driving roller way is more than 0 degree, the axis of the unreeling wheel is positioned above the upper end surface of the driving roller way.

Furthermore, when the upper end face of the bearing rack is provided with two or more driving tracks, each driving track forms a working group together with an unwinding wheel, a main driving roller group, an auxiliary driving roller group, a tension sensor, a meter counter and a driving motor.

Further, the tension sensor is a cantilever type tension sensor.

Further, the control circuit is a circuit system based on any one of an industrial single chip microcomputer and a programmable controller.

The novel rubber tube conveying device is simple in structure and good in universality, on one hand, the requirements of conveying operation of rubber tubes with different lengths and different tube diameters can be effectively met, the conveying operation efficiency is high, the labor intensity of the conveying operation is effectively reduced, and the operation efficiency is improved; on the other hand, in the conveying operation, the rubber tube can be effectively measured and positioned accurately, the shearing precision is greatly improved, and the serious influence on the shearing quality of the rubber tube and the occurrence of safety accidents caused by the warping, swinging and the like of the rubber tube due to unstable positioning and overlarge shearing acting force during the shearing operation are prevented.

Drawings

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the top view structure of the present invention.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

The high-efficiency rubber tube cutting and feeding device as shown in fig. 1 comprises a bearing frame 1, an unwinding wheel 2, a bearing column 3, a driving roller way 4, a main driving roller set 5, an auxiliary driving roller set 6, a tension sensor 7, a meter counter 8, a driving motor 9 and a control circuit 10, wherein the cross section of the bearing frame 1 is of a rectangular frame structure, the driving roller way 4 is arranged on the upper end surface of the bearing frame 1, the axial line of the driving roller way 4 is distributed in parallel with the upper end surface of the bearing frame 1, at least one tension sensor 7 is connected with the upper end surface of the bearing frame 1 and embedded in the driving roller way 4, the tension sensor 7 is positioned in the axial line direction of the driving roller way 4 and is 0-20 mm higher than the upper surface of the driving roller way 4, the unwinding wheel 2 is connected with the front end surface of the bearing frame 1 through at least one bearing column 3, and the two ends of the bearing column are respectively hinged with the, the axis of the unwinding wheel 2 is perpendicular to the axis of the driving roller way 4, the axis of the bearing column 3 forms an included angle of-45 degrees to 90 degrees with the upper surface of the driving roller way 4, the main driving roller set 5 and the auxiliary driving roller set 6 are connected with the upper end surface of the bearing rack 1 and are coaxially distributed with the driving roller way 4, the auxiliary driving roller set 6 is located at the front end surface of the bearing rack 1, and the main driving roller set 5 is located at the rear end surface of the bearing rack 1.

In this embodiment, each of the main driving roller set 5 and the auxiliary driving roller set 6 includes a base 101, two driving slide rails 102, two bearing rollers 103, a pressing roller 104, and a pressure sensor 105, where the base 101 is a frame structure and is connected to an upper end surface of the bearing rack 1, the two driving slide rails 102 are symmetrically distributed about an axis of the driving roller table 4 and are respectively connected to the upper end surface of the base 101, the bearing rollers 103 are embedded in the base 101 and are connected to the base 101 through a transmission shaft, the axis of the bearing roller 103 is perpendicular to and intersects with the axis of the driving roller table 4, an intersection point is located at a midpoint of the bearing roller 103, the pressing roller 104 is located right above the bearing roller 103, is distributed parallel to the bearing roller 103 and is slidably connected to the two driving slide rails 102 through a slider 106, and the pressing roller 104 is connected to the slider.

In the embodiment, the meter counter 8 and the driving motor 9 are both positioned in the bearing frame 1, wherein the meter counter 8 is connected with the bearing roller 103 of the main driving roller set 5, the driving motor 9 is respectively connected with the unreeling wheel 2, the driving roller table 4, the bearing rollers 103 of the main driving roller set 5 and the auxiliary driving roller set 6 through a transmission mechanism,

in this embodiment, the control circuit 10 is connected to the side surface of the carrier frame 1, and is electrically connected to the tension sensor 7, the meter counter 8, the driving motor 9, the turntable mechanism 11, the main driving roller group 5, the driving rail 102 of the auxiliary driving roller group 6, and the pressure sensor 105, respectively.

The bearing column 3 is of an at least two-stage telescopic rod structure, the outer surface of the bearing column is connected with the front end face of the bearing rack 1 through at least one electric telescopic rod 12, two ends of the electric telescopic rod 12 are respectively hinged with the bearing column 3 and the front end face of the bearing rack 1 and are electrically connected with the control circuit 10, and when the included angle between the axis of the bearing column 3 and the upper surface of the driving roller table 4 is less than 0 degree, the axis of the unwinding wheel 2 is positioned below the upper end face of the driving roller table 4; when the included angle between the axis of the bearing column 3 and the upper surface of the driving roller way 4 is more than 0 degree, the axis of the unreeling wheel 2 is positioned above the upper end surface of the driving roller way 4.

In addition, when two or more than two driving tracks 4 are arranged on the upper end face of the bearing frame 1, each driving track 4 forms a working group together with one unwinding wheel 2, one main driving roller group 5, one auxiliary driving roller group 6, one tension sensor 7, one meter counter 8 and one driving motor 9.

Preferably, the tension sensor 7 is a cantilever type tension sensor.

Further preferably, the control circuit 10 is a circuit system based on any one of an industrial single chip microcomputer and a programmable controller.

This is novel in the concrete implementation, at first assembles bearing the frame, unreels wheel, carrier post, drive roll table, main drive roller set, auxiliary drive roller set, tension sensor, meter rice ware, driving motor and control circuit, then fixes a position this is novel through bearing the frame to the messenger bears frame rear end face and cutting equipment intercommunication, is connected control circuit and external power system at last and can accomplishes this novel assembly.

When cutting operation is required, firstly, a to-be-cut rubber tube in a winding state is arranged on a cutter unwinding wheel, then, unwinding operation is carried out under the driving of a driving motor, the to-be-cut rubber tube is driven to be positioned by an auxiliary driving roller set in a traction manner, then, bearing driving is carried out by a driving roller table, finally, traction driving is carried out by a main driving roller set, when the main driving roller set drives the to-be-cut rubber tube, the length of the conveyed rubber tube is measured by a meter connected with the main driving roller set so as to improve the precision of the cutting operation, meanwhile, the tension sensor detects the conveying tension of the to-be-cut rubber tube borne by the driving roller table between the main driving roller set and the auxiliary driving roller set, the conveying operation efficiency and the conveying operation speed of the driving roller set, the main driving roller set and the auxiliary driving roller set are adjusted according to the detection result, and under the condition, the purpose of flattening the rubber tube to be cut is achieved, and the rubber tube to be cut is prevented from swinging and warping.

When the cutting operation is needed, firstly, the lower pressing roller of the auxiliary driving roller set descends, the bearing roller stops running, so that the far end of the rubber tube to be cut is clamped and positioned, then, under the condition that the tension of the rubber tube to be cut is constant on a driving roller way, the lower pressing roller of the main driving roller set descends, and the bearing roller stops running, so that the near end of the rubber tube to be cut is clamped and positioned, the stability of clamping and positioning the rubber tube to be cut is improved, and the rubber tube is prevented from warping, swinging and the like when being cut away.

In addition, in operation, when the rubber tube to be cut is not rolled, the included angle between the bearing column and the upper end face of the driving roller way is adjusted firstly, the unwinding wheel operation position is adjusted according to the length of the rubber tube to be cut, then the rubber tube to be cut is carried by the unwinding wheel, then the rubber tube to be cut is conveyed by the driving roller way, the main driving roller set and the auxiliary driving roller set, the driving supply of the rubber tube to be cut is met, meanwhile, the contact area between the rubber tube to be cut and the ground is reduced as much as possible, and the damage of the surface quality caused by the friction between the rubber tube to be cut and the ground is prevented.

The novel rubber tube conveying device is simple in structure and good in universality, on one hand, the requirements of conveying operation of rubber tubes with different lengths and different tube diameters can be effectively met, the conveying operation efficiency is high, the labor intensity of the conveying operation is effectively reduced, and the operation efficiency is improved; on the other hand, in the conveying operation, the rubber tube can be effectively measured and positioned accurately, the shearing precision is greatly improved, and the serious influence on the shearing quality of the rubber tube and the occurrence of safety accidents caused by the warping, swinging and the like of the rubber tube due to unstable positioning and overlarge shearing acting force during the shearing operation are prevented.

This novel simple structure, the commonality is good, the effectual work efficiency who improves the operation is smashed to rubber on the one hand, the extravagant and the equipment maintenance cost of material that rubber deposit caused in crushing apparatus has effectively been overcome, high labor strength's defect, on the other hand is when improving crushing operation efficiency, crushing operation operating temperature has effectively been reduced, traditional crushing apparatus long-time operation has been overcome, it increases to lead to rubber viscidity because of the friction intensifies, reduce the defect of smashing efficiency and crushing quality, and overcome because of high temperature lead to the equipment trouble that directly bonds and cause at the crushing apparatus surface after rubber viscidity increases, the stability and the reliability of equipment operation have been improved, and very big reduction equipment operation maintenance cost.

Those skilled in the art should understand that the present invention is not limited by the above embodiments. The foregoing embodiments and description have been made only for the purpose of illustrating the principles of the invention. The present invention can be further modified and improved without departing from the spirit and scope of the present invention. Such changes and modifications are intended to be within the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a high-efficient rubber tube cuts feeding device which characterized in that: the high-efficiency rubber tube cutting and feeding device comprises a bearing frame, a unreeling wheel, bearing columns, a driving roller way, a main driving roller set, an auxiliary driving roller set, at least one tension sensor, a meter counter, a driving motor and a control circuit, wherein the cross section of the bearing frame is of a rectangular frame structure, the driving roller way is arranged on the upper end face of the bearing frame, the axis of the driving roller way is parallel to the upper end face of the bearing frame, the tension sensor is connected with the upper end face of the bearing frame and embedded in the driving roller way, the tension sensor is positioned in the axis direction of the driving roller way and is 0-20 mm higher than the upper surface of the driving roller way, the unreeling wheel is connected with the front end face of the bearing frame through at least one bearing column, the two sections of the bearing columns are respectively hinged with the front end face of the bearing frame and the unreeling wheel through a turntable mechanism, and the axis of, the bearing column axis and the upper surface of the driving roller table form an included angle of-45 degrees to 90 degrees, the main driving roller set and the auxiliary driving roller set are both connected with the upper end surface of the bearing rack and are coaxially distributed with the driving roller table, wherein the auxiliary driving roller set is positioned at the front end surface of the bearing rack, the main driving roller set is positioned at the rear end surface of the bearing rack, the main driving roller set and the auxiliary driving roller set respectively comprise a base, a driving slide rail, a bearing roller, a pressing roller and a pressure sensor, the base is of a frame structure and is connected with the upper end surface of the bearing rack, the driving slide rails are symmetrically distributed and are respectively and vertically connected with the upper end surface of the base, the bearing roller is embedded in the base and is connected with the base through a transmission shaft, the bearing roller axis is vertical to and intersected with the driving roller axis, the intersection point is positioned at the middle point of the bearing roller, with bearing roller parallel distribution and through the slider respectively with two drive slide rail sliding connection, press down between roller and the slider through pressure sensor interconnect, meter rice ware, driving motor all are located and bear the frame, wherein interconnect between the bearing roller of meter rice ware and main drive roller set, driving motor pass through drive mechanism respectively with unreel wheel, drive roll table and main drive roller set, auxiliary drive roller set's bearing roller interconnect, control circuit is in bearing the frame side surface connection to respectively with tension sensor, meter rice ware, driving motor, revolving stage mechanism and main drive roller set, auxiliary drive roller set's drive guide rail and pressure sensor electrical connection.

2. The efficient rubber tube cutting and feeding device as claimed in claim 1, wherein: the bearing column is of at least two-stage telescopic rod structure, the outer surface of the bearing column is connected with the front end face of the bearing rack through at least one electric telescopic rod, and two ends of the electric telescopic rod are respectively hinged with the bearing column and the front end face of the bearing rack and are electrically connected with the control circuit.

3. The efficient rubber tube cutting and feeding device as claimed in claim 1, wherein: when the included angle between the axis of the bearing column and the upper surface of the driving roller way is less than 0 degree, the axis of the unwinding wheel is positioned below the upper end surface of the driving roller way; when the included angle between the axis of the bearing column and the upper surface of the driving roller way is more than 0 degree, the axis of the unreeling wheel is positioned above the upper end surface of the driving roller way.

4. The efficient rubber tube cutting and feeding device as claimed in claim 1, wherein: when the upper end face of the bearing rack is provided with two or more than two driving tracks, each driving track forms a working group together with an unwinding wheel, a main driving roller group, an auxiliary driving roller group, a tension sensor, a meter counter and a driving motor.

5. The efficient rubber tube cutting and feeding device as claimed in claim 1, wherein: the tension sensor is a cantilever type tension sensor.

6. The efficient rubber tube cutting and feeding device as claimed in claim 1, wherein: the control circuit is a circuit system based on any one of an industrial single chip microcomputer and a programmable controller.

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