CN110961375A - Lifting type rubber tire grading station - Google Patents

Abstract

The invention relates to the technical field of tire production, in particular to a lifting type rubber tire grading station which is characterized in that a feeding conveyor is connected with a code scanning machine, tire detection equipment and a lifter in sequence backwards according to a process direction, one path of outlet of the lifter is connected with a qualified product conveyor, and the other path of outlet of the lifter is connected with an unqualified product conveyor; the tire with the bar code is identified on the code scanning machine, the control system tracks the tire, after detection, the identification information and the detection result are integrated and recorded, and when the tire reaches the elevator, the control system controls the elevator to be in butt joint with the qualified product conveyor or to be in butt joint with the unqualified product conveyor downwards according to the detection result. Compared with the prior art, the invention has the following beneficial effects: the station can be matched with various tire detection devices for use, automatic feeding, code scanning, detection and classification are realized, classification can be carried out according to various standards according to production requirements, and quality improvement of products and fine management of a sales scheme are facilitated.

Description

Lifting type rubber tire grading station

Technical Field

The invention relates to the technical field of tire production, in particular to a lifting type rubber tire grading station, which solves the problem of multi-standard grading transmission of tires in a quality inspection grading process.

Background

With the continuous and rapid development of economic society in China, automobiles serving as modern vehicles become necessary articles for life. The tire is an important part of the automobile, and the quality of the tire directly influences the safety performance and the comfort of the automobile. In the tire production process, tires are classified according to different standard requirements after being manually subjected to appearance inspection and are respectively conveyed to different places, along with the expansion of the production scale of the tires, about 5000 tires need to be conveyed by one inspection grading station one day, the labor intensity of manual conveying work is high, and the tires are gradually replaced by automatic equipment.

The classification screening of tires according to different process requirements is an important step, the conventional classification stations are controlled by pneumatic elements, the problem of inaccurate positioning exists, tires are easy to block during classification, and the classification efficiency is seriously influenced. In addition, due to the limitation of mechanisms, most of the screening mechanisms can only carry out two-stage screening, the grades of separable tires are few, the mechanism structure of more than two-stage screening is complex, the occupied area is large, and the requirements of modern tire manufacturers cannot be met.

The Chinese patent with the patent application number of 200810139111.5 discloses a turnover plate tandem type tire grading conveying device, and belongs to the field of tire conveying machinery. Is provided with an inspection table, an upper grading conveyer belt and a middle grading conveyer belt which are arranged on the same vertical plane, the lower hierarchical conveyer belt, the roll table is got to connecing of slope below forward is installed to the inspection desk front end, it is equipped with the one-level in roll table the place ahead and turns over the board belt feeder to connect, the one-level turns over the board belt feeder and links to each other with one-level hydraulic cylinder's telescopic link end, the one-level turns over the board belt feeder and swings around its rear end portion under one-level hydraulic cylinder's promotion, the one-level turns over and is provided with down the transition belt feeder between board belt feeder and the lower hierarchical conveyer belt feeder, the second grade is installed to transition belt feeder top down and is turned over the board belt feeder, the second grade turns over the board belt feeder and links to each other with second grade hydraulic cylinder's telescopic link end portion, the. This structure is difficult to be used with production check out test set matching, and three hierarchical trend is towards a direction, has the interference problem, and the security performance is also lower in addition, and the tire is when the transition belt feeder off tracking, hardly corrects, probably leads to production to break.

Disclosure of Invention

The invention aims to provide a lifting type rubber tire grading station, which overcomes the defects of the prior art, can be matched with various tire detection devices for use, automatically realize feeding, code scanning, detection and grading, can be graded according to various standards according to production requirements, can be used for grading qualified products and unqualified products according to the standards of first-grade products and second-grade products, ensures that the production control precision is higher, the tire is firstly identified by code scanning, after the detection is finished, the detection data information is matched with the identity information by a background control system, so that the tire is automatically turned to subsequent processing or defect elimination treatment, the vertical lifting structure occupies a small area, the lifting distance is adjustable, and the lifting type rubber tire grading station can be more generally applied to the rubber tire production process.

In order to achieve the purpose, the invention is realized by the following technical scheme:

the lifting type rubber tire grading station is characterized by comprising a feeding conveyor, a code scanning machine, a lifter, a qualified product conveyor and an unqualified product conveyor, wherein the feeding conveyor is connected with the code scanning machine, the tire detection equipment and the lifter backwards in sequence according to the process direction; the tire with the bar code is identified on the code scanning machine, the control system tracks the tire, the identification information and the detection result are integrated and recorded after the tire is detected, and when the tire reaches the elevator, the control system controls the elevator to be in butt joint with the qualified product conveyor or to be in butt joint with the unqualified product conveyor in a downward mode according to the detection result.

The material loading conveyer includes frame, conveyer belt, drive roll, driven voller, bearing roller and material loading motor, the both sides of conveyer belt are equipped with spacing railing, be equipped with a plurality of anticollision gyro wheel on the spacing railing, material loading conveyer's lifting height is 2~2.5 meters, and is not more than 40 with the ground contained angle.

The code scanner comprises a main body frame, conveying rollers, centering embracing arms and a scanner, wherein the centering embracing arms are symmetrically arranged on two sides of the main body frame, the conveying rollers are distributed on the main body frame in two groups, the conveying rollers are symmetrically arranged on the main body frame in a left-right mode, universal rollers are distributed in the positions, close to the feeding side, of the areas between the two groups of conveying rollers, and the other sides of the areas are hollow; the scanner is located below the cavity and connected with the scanner support through the scanning cylinder.

The tire detection equipment is a tire uniformity testing machine or a tire dynamic balance testing machine.

The elevator comprises a fixed support, a bracket, an elevator motor and a bracket motor, wherein the height of the vertical fixed support is 2-2.5 m, two side surfaces of the bracket are in rolling connection with a V-shaped guide rail and a flat guide rail surface on the fixed support through guide wheels, a plurality of conveying rollers are distributed on the upper surface of the bracket, and the conveying rollers are connected with the bracket motor through a bracket chain wheel and a bracket chain; the lifting motor is connected with one end of the driving long roller through a driving chain wheel and a driving chain, the two ends of the driving long roller and the driven long roller are respectively connected with the lifting chain through the lifting chain wheel, and the lifting chain is fixedly connected with the bracket; the driven long roller is positioned at the upper half part of the fixed bracket, and the driving long roller is positioned at the lower half part of the fixed bracket; the adjacent conveying rollers on the bracket are connected through a middle chain, so that the transmission of driving force is realized.

The guide wheels are arranged on the upper layer and the lower layer of the bracket in pairs.

And pull switches are arranged on two sides of the conveying channel of the qualified product conveyor.

The conveyer belt on the unqualified product conveyer comprises an inclined section and a horizontal section, wherein the horizontal section is provided with a driving roller, the inclined section is provided with a driven roller, and a carrier roller is arranged below the conveyer belt.

The conveying belt on the unqualified product conveyor comprises a horizontal section and two inclined sections, wherein the horizontal section is positioned between the two inclined sections, and when the moving directions of the conveying belt on the horizontal section are opposite, the corresponding inclined sections start to work, so that two standard tire grading products can be obtained.

The conveying belt on the unqualified product conveyor is a ball mesh belt.

Compared with the prior art, the invention has the following beneficial effects: 1) the station can be matched with various tire detection devices such as a tire uniformity testing machine or a tire dynamic balance testing machine for use, automatic feeding, code scanning, detection and classification are realized, classification can be performed according to various standards according to production requirements, and besides two-stage classification occasions of qualified products and unqualified products, first-stage products, second-stage products and the like can be separated, so that the production control precision is higher. 2) The tire is firstly subjected to identity recognition by code scanning, enters detection equipment, and after detection is finished, detection data information is matched with the tire identity information by the background control system, so that the tire automatically turns to subsequent processing or is subjected to defect elimination processing. 3) The vertical lifting structure has small occupied area and adjustable lifting distance, and can be more generally applied to the production process of rubber tires. 4) The uniqueness of the tire identity in the whole process of tire production is ensured, the identity can still be used as the basis of various data applications such as quality analysis, process evaluation analysis, customer analysis, quality recall and the like in the whole life cycle of the tire, and the quality improvement of products and the fine management of sales schemes are facilitated.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a schematic structural diagram of an embodiment of the feeding conveyor of the invention.

FIG. 4 is a schematic structural diagram of an embodiment of a code scanner according to the present invention.

Fig. 5 is a top view of fig. 4.

Fig. 6 is a schematic structural diagram of an embodiment of the elevator of the present invention.

Fig. 7 is a left side view of fig. 6.

Fig. 8 is a schematic structural view of an embodiment of the reject conveyor of the present invention.

FIG. 9 is a schematic structural view of a second embodiment of the reject conveyor of the present invention.

In the figure: 1-feeding conveyor, 2-code scanning machine, 3-tire detection equipment, 4-lifter, 5-qualified product conveyor, 6-unqualified product conveyor, 7-tire, 8-frame, 9-conveying belt, 10-driving roller, 11-driven roller, 12-supporting roller, 13-feeding motor, 14-limit railing, 15-anti-collision roller, 16-main frame, 17-conveying roller, 18-centering holding arm, 19-scanner, 20-universal roller, 21-scanning cylinder, 22-scanner bracket, 23-synchronous connecting rod, 24-holding arm cylinder, 25-conveying motor, 26-fixed bracket, 27-bracket, 28-lifting motor, 29-bracket motor, 30-guide wheel, 31-V-shaped guide rail, 32-flat guide rail, 33-transport roller, 34-driving long roller, 35-driven long roller, 36-lifting chain, 37-pull switch, 38-horizontal segment, 39-inclined segment, 40-machine base, 41-driving roller, 42-driven roller, 43-speed reducer and 44-carrier roller.

Detailed Description

The following examples are presented to further illustrate embodiments of the present invention:

in the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 7, which are schematic diagrams of an implementation state of a lifting type rubber tire grading station of the invention, a feeding conveyor 1 is connected with a code scanning machine 2, a tire detection device 3 and a lifter 4 in sequence backwards according to a process direction, one path of outlet of the lifter 4 is connected with a qualified product conveyor 5, and the other path of outlet of the lifter 4 is connected with a unqualified product conveyor 6; the tire 7 with the bar code is identified on the code scanner 2, the control system tracks the tire, and after the tire is detected, the identification information and the detection result are integrated and recorded, and when the tire 7 reaches the elevator 4, the control system controls the elevator 4 to be in butt joint with the qualified product conveyor 5 or to be in butt joint with the unqualified product conveyor 6 in a descending mode according to the detection result, so that the tire is automatically turned to subsequent processing or is subjected to defect elimination processing.

The feeding conveyor 1 comprises a frame 8, a conveying belt 9, a driving roller 10, a driven roller 11, a carrier roller 12 and a feeding motor 13, wherein limit railings 14 are arranged on two sides of the conveying belt 9, a plurality of anti-collision rollers 15 are arranged on the limit railings 14, the lifting height of the feeding conveyor 1 is 2.3 meters, and the included angle between the conveying belt and the ground is not more than 36 degrees. The distance between the limit railings 14 and the conveying belt 9 is matched with the specification of the tire 7, so that the tire is prevented from accidentally falling, and potential safety hazards are caused.

Sweep ink recorder 2 and include main body frame 16, conveying roller 17, centering and embrace arm 18 and scanner 19, main body frame 16's bilateral symmetry is equipped with centering and embraces arm 18, and main body frame 16 is last to be arranged and is equipped with a plurality of conveying rollers 17, and conveying roller 17 divides two sets of bilateral symmetry setting on main body frame 16, is driven respectively by two conveying motor 25, and the direction of rotation of two sets of conveying rollers 17 can be the same or different. Universal rollers 20 are arranged on the position, close to the feeding side, of the area between the two groups of conveying rollers 17, and the other side of the area is a hollow hole; the scanner 19 is located below the cavity, the scanner 19 is connected with the scanner support 22 through the scanning cylinder 21, and the position of the scanner 19 can be finely adjusted through the arrangement of the scanning cylinder 21, so that the capturing efficiency of the tire bar codes is improved. Centering armful arm 18 is in the both sides of main body frame 16 setting up in pairs, and two pairs of centering armful arms 18 are held arm cylinder 24 drive by holding through synchronous connecting rod 23, can realize pushing away tire 7 to the position of centering, and when two sets of conveying rollers 17 were rotatory with different direction of rotation, tire 7 can be rotatory around self, realized scanning identification identity.

In an embodiment, the tire testing apparatus 3 may be a tire uniformity testing machine or a tire dynamic balance testing machine, and the loading heights of the loading conveyor 1 and the code scanner 2 are matched with the tire uniformity testing machine or the tire dynamic balance testing machine.

The elevator 4 comprises a fixed support 26, a bracket 27, an elevator motor 28 and a bracket motor 29, wherein the height of the fixed support 26 in a vertical structure is 2-2.5 m, two side surfaces of the bracket 27 are in rolling connection with the surfaces of a V-shaped guide rail 31 and a flat guide rail 32 on the fixed support 26 through guide wheels 30, a plurality of conveying rollers 33 are distributed on the upper surface of the bracket 27, and the conveying rollers 33 are connected with the bracket motor 29 through bracket chain wheels and bracket chains; the lifting motor 28 is connected with one end of the driving long roller 34 through a driving chain wheel and a driving chain, two ends of the driving long roller 34 and the driven long roller 35 are respectively connected with a lifting chain 36 through a lifting chain wheel, and the lifting chain 36 is fixedly connected with the bracket 27; the driven long roller 35 is positioned on the upper half part of the fixed bracket, and the driving long roller 34 is positioned on the lower half part of the fixed bracket 26; the adjacent transport rollers on the bracket 27 are connected through a middle chain to realize the transmission of driving force, and the transmission of force by the middle chain belongs to the prior art and does not need to be embellished. The guide wheels 30 are arranged on the upper layer and the lower layer of the bracket 27 in pairs, so that the bracket 27 can be prevented from deviating.

The pull-cord switches 37 are arranged on two sides of the conveying channel of the qualified product conveyor 5, pull cords on the switches are distributed along the conveying channel, when the tires are deviated and touch the pull cords, the pull-cord switches 37 act, the conveyor stops running, the tire deviation and falling can be prevented through the structure, potential safety hazard is eliminated, and the conveyor can continue running after being processed by an operator.

Referring to fig. 8, which is a schematic structural diagram of an embodiment of the rejected product conveyor in the figure of the present invention, a conveyor belt on a base 40 of the rejected product conveyor includes an inclined section 39 and a horizontal section 38, the horizontal section is provided with a driving roller 41, the inclined section is provided with a driven roller 42, the driving roller 41 is connected with a speed reducer 43 through a sprocket and a chain, and a carrier roller 44 is arranged below the conveyor belt. The conveying belt on the unqualified product conveyor 5 is a ball mesh belt. The structure can separate out unqualified products.

Referring to fig. 9, which is a schematic structural diagram of a second embodiment of the rejected product conveyor in the drawing of the present invention, a conveyor belt on a base 40 of the rejected product conveyor includes a horizontal section 38 and two inclined sections 39, the horizontal section 38 is located between the two inclined sections 39, the horizontal section is provided with a driving roller 41, the inclined sections are provided with driven rollers 42, the driving roller 41 is connected with a speed reducer 43 through a sprocket and a chain, and a carrier roller 44 is arranged below the conveyor belt. When the moving directions of the conveyer belts on the horizontal sections are opposite, the corresponding inclined sections start to work, and two standard tire grading products can be obtained. The conveying belt on the unqualified product conveyor 5 is a ball mesh belt. The structure can separate the unqualified products according to two standards.

The above embodiments are merely specific examples selected for illustrating the objects, technical solutions and advantages of the present invention in detail, and should not be construed as limiting the scope of the present invention, and various modifications, equivalent substitutions and improvements can be made without departing from the spirit and principle of the present invention.

Claims (10)

1. The lifting type rubber tire grading station is characterized by comprising a feeding conveyor, a code scanning machine, a lifter, a qualified product conveyor and an unqualified product conveyor, wherein the feeding conveyor is connected with the code scanning machine, the tire detection equipment and the lifter backwards in sequence according to the process direction; the tire with the bar code is identified on the code scanning machine, the control system tracks the tire, the identification information and the detection result are integrated and recorded after the tire is detected, and when the tire reaches the elevator, the control system controls the elevator to be in butt joint with the qualified product conveyor or to be in butt joint with the unqualified product conveyor in a downward mode according to the detection result.

2. The lifting type rubber tire grading station according to claim 1, wherein the feeding conveyor comprises a frame, a conveying belt, a driving roller, a driven roller, a carrier roller and a feeding motor, limiting railings are arranged on two sides of the conveying belt, a plurality of anti-collision rollers are arranged on the limiting railings, the lifting height of the feeding conveyor is 2-2.5 m, and the included angle between the lifting height and the ground is not more than 40 degrees.

3. The lifting rubber tire grading station according to claim 1, wherein the code scanner comprises a main frame, conveying rollers, centering arms and a scanner, the centering arms are symmetrically arranged on two sides of the main frame, a plurality of conveying rollers are arranged on the main frame, the conveying rollers are symmetrically arranged on the main frame in two groups, universal rollers are arranged on the positions, close to the feeding side, of the areas between the two groups of conveying rollers, and the other sides of the areas are hollow; the scanner is located below the cavity and connected with the scanner support through the scanning cylinder.

4. The elevating rubber tire staging station of claim 1 wherein the tire testing apparatus is a tire uniformity machine or a tire dynamic balance machine.

5. The lifting type rubber tire grading station according to claim 1, wherein the lifter comprises a fixed support, a bracket, a lifting motor and a bracket motor, the height of the vertical fixed support is 2-2.5 m, two side surfaces of the bracket are in rolling connection with a V-shaped guide rail and a flat guide rail surface on the fixed support through guide wheels, a plurality of conveying rollers are arranged on the upper surface of the bracket, and the conveying rollers are connected with the bracket motor through a bracket chain wheel and a bracket chain; the lifting motor is connected with one end of the driving long roller through a driving chain wheel and a driving chain, the two ends of the driving long roller and the driven long roller are respectively connected with the lifting chain through the lifting chain wheel, and the lifting chain is fixedly connected with the bracket; the driven long roller is positioned at the upper half part of the fixed bracket, and the driving long roller is positioned at the lower half part of the fixed bracket; the adjacent conveying rollers on the bracket are connected through a middle chain, so that the transmission of driving force is realized.

6. The elevating rubber tire staging station of claim 5 wherein the guide wheels are arranged in pairs of upper and lower tiers on the carriage.

7. The elevating rubber tire grading station of claim 1, wherein pull switches are provided on both sides of the conveying passage of the accepted product conveyor.

8. The elevating rubber tire grading station of claim 1, wherein the conveyor belt on the reject conveyor comprises an inclined section and a horizontal section, the horizontal section is provided with a driving roller, the inclined section is provided with a driven roller, and a carrier roller is arranged below the conveyor belt.

9. The elevating rubber tire grading station of claim 1, wherein the belt of the reject conveyor comprises a horizontal section and two inclined sections, the horizontal section is located between the two inclined sections, and when the moving direction of the belt on the horizontal section is opposite, the corresponding inclined sections start to work, and two standard tire grading products can be obtained.

10. The elevating rubber tire staging station of claim 8 or 9 wherein the conveyor belt on the reject conveyor is a ball belt.

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