CN209275413U - Tire base fabric feeds storage system - Google Patents

Abstract

The utility model relates to a kind of tire base fabrics to feed storage system, including the first catching robot, conveying mechanism, tire base fabric dynamic-balance tester, hoisting mechanism and the Three-dimensional storage rack set gradually, the second catching robot is provided between the end and tire base fabric dynamic-balance tester of conveying mechanism；Three-dimensional storage rack includes frame body, and the front of frame body is provided with several grids arranged vertically and horizontally, the actuator for being internally provided with supporting plate and supporting plate is driven to stretch out grid or be recovered in grid of grid, pallets level setting；Hoisting mechanism includes walking track, handling hanging basket and the walking component for driving handling hanging basket to be moved along walking track, when supporting plate stretches out grid, walking track is located at the surface of grid, the boom hoisting of control handling hanging basket height is provided on walking component, the utility model, which has the advantages that reduce in production process, takes up space to the handling time and manpower and material resources of tire base fabric raw material and saving tire base fabric raw material.

Description

Tire base fabric feeds storage system

Technical field

The utility model relates to the technical fields of waterproofing membrane production, feed storage system more particularly, to a kind of tire base fabric System.

Background technique

Tire base fabric is as one of big main material of waterproof roll three, and dosage is very huge during waterproofing membrane production.Tire Yardage roll of the base fabric raw material for large size, about one meter of wide, one meter in diameter or so of specification, cylindrical body of the weight at 200 kilograms or more, and Weight and volume is larger.

Existing tire base fabric raw material is mainly carried by fork truck, is conveyed, thus by tire base fabric when being sent to workshop Raw material is sent in the storage area specified in workshop.When carrying out the production of waterproof roll using tire base fabric raw material, passing through Crane on waterproof roll production line, which is hoisted to, to be deposited on cloth holder.Tire base fabric raw material stored in being sent to workshop when It waits, mostly lands the arrangement of stacking formula, need to occupy a large amount of hall space to place tire base fabric raw material, and tire base fabric raw material exists It is mostly not specification stacking when stacking, it is easy to the phenomenon that causing the tire base fabric raw material piled up to topple over, to cause thing Therefore appearance.It when carrying tire base fabric raw material using fork truck, needs frequently to wait fork truck, can slattern a large amount of Time, while when using fork truck, fork truck can generate a large amount of tail gas on startup, can pollute the space of factory.

Utility model content

The purpose of the utility model is to provide a kind of tire base fabrics to feed storage system, and having reduces in production process to tire The advantages of handling time and manpower and material resources and taken up space saving tire base fabric raw material of base fabric raw material.

The above-mentioned purpose of utility model of the utility model has the technical scheme that

A kind of tire base fabric charging storage system, the first catching robot, conveying mechanism, tire base fabric including setting gradually are dynamic Balance detection instrument, hoisting mechanism and Three-dimensional storage rack are arranged between the end and tire base fabric dynamic-balance tester of conveying mechanism Have for the tire base fabric raw material on conveying mechanism to be placed on tire base fabric dynamic-balance tester and is moved by raw material from tire base fabric The second catching robot that balance detection instrument is removed；

Three-dimensional storage rack includes frame body, and the front of frame body is provided with several arranged vertically and horizontally for storing tire base fabric raw material Grid, being internally provided with for grid stretch out the supporting plate of grid from the front of frame body and drive supporting plate to stretch out grid or be recovered to net Actuator in lattice, pallets level setting；

Hoisting mechanism includes walking track, handling hanging basket and the row for driving handling hanging basket to be moved along walking track Walk component, walking track is located at the positive oblique upper of frame body, and walking track is positive along Three-dimensional storage rack and to be laterally arranged Grid is guiding horizontal setting, and when supporting plate stretches out grid, walking track is located at the surface of grid, is arranged on component of walking There is the boom hoisting of control handling hanging basket height, handling hanging basket is connected by boom hoisting with walking component.

By using above-mentioned technical proposal, the tire base fabric raw material being located on transport vehicle is sent to by the first catching robot On conveying mechanism, conveying mechanism send tire base fabric raw material to progress pan feeding detection at tire base fabric dynamic-balance tester, if detection Tire base fabric raw material it is qualified, then tire base fabric raw material is sent to storing at Three-dimensional storage rack by hoisting mechanism, thus instead of The mode of carrying fork truck, uses manpower and material resources sparingly, while the stacking of tire base fabric is realized by Three-dimensional storage rack, saves the use of workshop Space.

The utility model is further arranged to: the two sides opposite positioned at the second catching robot are respectively arranged with qualified product and deposit Platform and rejected product lodging bench are put, walking track is located at the surface of qualified product lodging bench.

By using above-mentioned technical proposal, convenient for differentiating qualified tire base fabric raw material and underproof tire base fabric raw material.

The utility model is further arranged to: the two sides that the bottom end of grid is located at supporting plate moving direction are provided with opposite lead Rail, guide rail is " U "-shaped and opening is opposite, and the opposite two sides of supporting plate are respectively protruding into guide rail and are connected with guide rail sliding.

By using above-mentioned technical proposal, supporting plate is limited by guide rail, to be placed on by tire base fabric raw material When on supporting plate, the case where supporting plate is not in inclination.

The utility model is further arranged to: the edge of splint upper surface is provided with enclosing.

By using above-mentioned technical proposal, tire base fabric raw material is avoided to tumble from supporting plate.

The utility model is further arranged to: walking track includes the sliding rail being parallel to each other in same level, The both ends of sliding rail pass through the column fixed on the ground vertically respectively and are supported.

By using above-mentioned technical proposal, walking track is made to be located at the oblique upper of Three-dimensional storage rack.

The utility model is further arranged to: the both ends of sliding rail length direction are respectively arranged with limit plate.

By using above-mentioned technical proposal, walking component is avoided to fall off from sliding rail.

The utility model is further arranged to: walking component includes the walking plate above two sliding rails, plate of walking Bottom end is connected with driving shaft and driven shaft, the axis and sliding rail of driving shaft and driven shaft along the both ends revolution of sliding rail length direction Axis it is vertical, be fixed with the idler wheel being in rolling contact with sliding rail with two opposite positions of sliding rail on driving shaft and driven shaft, row The driving assembly for driving driving shaft rotation is provided in limp.

By using above-mentioned technical proposal, driving shaft rotation, to make the idler wheel on driving shaft on the slide rail and along cunning The length direction of rail is moved, so that walking component be made to carry out walking movement on the slide rail.

The utility model is further arranged to: driving assembly includes the driving motor being fixed on walking plate, driving motor Output shaft axis it is parallel with the axis of driving shaft, the output shaft of driving motor is connected by transmission component with driving shaft.

By using above-mentioned technical proposal, the power of driving motor is transmitted on driving shaft by transmission component, thus Rotate driving shaft, so that walking plate be made to be moved on the slide rail.

The utility model is further arranged to: transmission component is gear-driven assembly.

It is big with transmission ratio, transmission ratio is accurate, stable, high-efficient, functional reliability by using above-mentioned technical proposal High advantage.

The utility model is further arranged to: the conveying end of conveying mechanism is provided with weighing device.

By using above-mentioned technical proposal, can weigh to tire base fabric raw material.

In conclusion the advantageous effects of the utility model are as follows:

1. the tire base fabric raw material being located on transport vehicle is sent on conveying mechanism by the first catching robot, conveying mechanism Tire base fabric raw material is sent to progress pan feeding detection at tire base fabric dynamic-balance tester, if the tire base fabric raw material of detection is qualified, Tire base fabric raw material is sent to storing at Three-dimensional storage rack, to save instead of the mode of carrying fork truck by hoisting mechanism Manpower and material resources, while by the stacking of Three-dimensional storage rack realization tire base fabric, save the use space of workshop；

2. by setting weighing device, to weigh to the weight of tire base fabric raw material.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of tire base fabric charging storage system；

Fig. 2 is the structural schematic diagram of Three-dimensional storage rack；

Fig. 3 is the structural schematic diagram of hoisting mechanism；

Fig. 4 is the structural schematic diagram of walking component；

Fig. 5 is the structural schematic diagram of tire base fabric dynamic-balance tester；

Fig. 6 is the side view of tire base fabric dynamic-balance tester.

In figure, the 1, first catching robot；2, conveying mechanism；3, tire base fabric dynamic-balance tester；31, pedestal；32, it moves flat Weigh instrument；321, cabinet；33, lifting platform；331, bottom plate；3311, traveling wheel；332, support board；333, cylinder；34, shaft；341, The end of thread；342, positioning column；343, clamping column；3431, barre；35, display device；36, infrared range-measurement system；37, slideway；4, it hangs Transport mechanism；41, walking track；411, sliding rail；412, column；413, limit plate；42, handling hanging basket；43, walking component；431, Walking plate；432, driving shaft；433, driven shaft；434, idler wheel；435, driving motor；436, driving gear；437, driven gear； 44, boom hoisting；441, motor is lifted by crane；442, roll shaft；443, wirerope；5, Three-dimensional storage rack；51, frame body；511, grid； 52, supporting plate；521, enclosing；53, guide rail；54, straight line steering engine；6, the second catching robot；7, qualified product lodging bench；8, unqualified Product lodging bench；9, weighing device.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

Referring to Fig.1, feed storage system for a kind of tire base fabric disclosed in the utility model, including set gradually first Catching robot 1, conveying mechanism 2, tire base fabric dynamic-balance tester 3, hoisting mechanism 4 and Three-dimensional storage rack 5.Conveying mechanism 2 Using chain plate conveyor belt, the conveying end positioned at conveying mechanism 2 is provided with weighing device 9, and wherein weighing device 9 is electronic scale, The weight for sending the tire base fabric raw material to conveying end is weighed by weighing device 9.

It is provided with the second catching robot 6 between the conveying end and tire base fabric dynamic-balance tester 3 of conveying mechanism 2, The tire base fabric raw material for being located at the conveying end of conveying mechanism 2 is grabbed to tire base fabric dynamic balancing by the second catching robot 6 and is examined It surveys on instrument 3 and tire base fabric raw material is detected.Two sides positioned at the second catching robot 6 are respectively arranged with qualified product lodging bench 7 And rejected product lodging bench 8.When the tire base fabric raw material that tire base fabric dynamic-balance tester 3 detects is unqualified, the second crawl Tire base fabric raw material is placed on rejected product lodging bench 8 by manipulator 6, and when the tire base fabric raw material qualification detected, second is grabbed Take manipulator 6 that tire base fabric raw material is placed on qualified product lodging bench 7.

Hoisting mechanism 4 will be placed on conjunction between qualified product lodging bench 7 and Three-dimensional storage rack 5, through hoisting mechanism 4 Qualified tire base fabric raw material on lattice product lodging bench 7 is sent to being stored in Three-dimensional storage rack 5.

Referring to Fig. 2, Three-dimensional storage rack includes frame body 51, and wherein frame body 51 is the rectangle rack that several steel plate assembly are welded Body 51 is provided with the grid 511 of the rectangle for storing tire base fabric raw material of several equidistant arrangements in length and breadth on frame body 51.Every The inner bottom of a grid 511 is provided with horizontally disposed supporting plate 52, wherein the one end of 511 mesh of grid downward of supporting plate 52 Two sides are provided with opposite guide rail 53, and the opening of the " U "-shaped and opposite guide rail 53 in the section of guide rail 53 is oppositely arranged.Opposite The closed end of guide rail 53, which is respectively welded, to be fixed on the opposite side wall of grid 511.The opposite two sides of supporting plate 52 reach respectively leads The inside of rail 53 is simultaneously connected with the sliding of guide rail 53.It is provided between two guide rails 53 and pushes mesh of the grid 511 from grid 511 The straight line steering engine 54 of middle stretching, axis and the guide rail 53 of straight line steering engine 54 are set in parallel.Straight line steering engine 54 is solid by fixing seat The projecting shaft for being scheduled on the inside of grid 511 and straight line steering engine 54 is welded and fixed with supporting plate 52 to be connected.Supporting plate 52 stretches out frame body 51 Side is the front of frame body 51, is welded in the edge of the upper surface of supporting plate 52 surface of supporting plate 52 being trapped among inside Enclosing 521.

Referring to Fig.1, Fig. 3, the height that the height of hoisting mechanism 4 compares Three-dimensional storage rack 5 is high, and hoisting mechanism 4 includes being higher than What the walking track 41 and handling hanging basket 42 and drive handling hanging basket 42 of Three-dimensional storage rack 5 were moved along walking track 41 Walking component 43, wherein being provided with boom hoisting 44 on walking component 43, handling hanging basket 42 passes through boom hoisting 44 and walking Component 43 is connected.

Track 41 of walking includes that two sliding rails 411 being located in same level and parallel to each other form, in sliding rail 411 Both ends be respectively arranged with the column 412 fixed on the ground vertically, be welded and fixed and be connected between column 412 and sliding rail 411.? The both ends of two 411 length directions of sliding rail are provided with limit plate 413, and limit plate 413 is weldingly fixed on sliding rail 411, passes through Limit plate 413 is to limit walking component 43, and the component 43 that prevents to walk from sliding rail 411 from skidding off.411 length direction of sliding rail One end is located at the surface of qualified product lodging bench 7, and the other end is located at the oblique upper of the positive side of Three-dimensional storage rack 5.Sliding rail 411 One end of Three-dimensional storage rack 5 is connected, length direction is along the front of Three-dimensional storage rack 5 and laterally to set in Three-dimensional storage rack 5 The grid 511 set is that guiding is configured.When supporting plate 52 is in stretching state in Three-dimensional storage rack 5, sliding rail 411 is located at supporting plate 52 surface.Sliding rail 411 is located at the surface of qualified product lodging bench 7 far from one end of Three-dimensional storage rack 5.

Referring to Fig. 4, walking component 43 includes the walking plate 431 positioned at two 411 tops of sliding rail, wherein walking 431 edge of plate The both ends revolution at 411 length direction both ends of sliding rail be connected with driving shaft 432 and driven shaft 433, wherein driving shaft 432 and driven Axis 433 is respectively positioned on the lower surface of walking plate 431.Driving shaft 432 and 433 length direction of driven shaft and sliding rail 411 are perpendicular.In master Moving axis 432 and the position opposite with sliding rail 411 of driven shaft 433 are respectively arranged with idler wheel 434, idler wheel 434 respectively with driving shaft 432 It is fixedly linked with driven shaft 433 and is in rolling contact with sliding rail 411.Wherein sliding rail 411 is " u "-shaped sliding rail of the top with opening 411, idler wheel 434 extend into the open interior of sliding rail 411.

The driving motor 435 for driving driving shaft 432 to be rotated is provided on walking component 43, driving motor 435 is solid The output shaft of the lower surface and driving motor 435 that are scheduled on walking plate 431 is parallel with driving shaft 432.In the defeated of driving motor 435 On shaft and it is respectively fixed with driving gear 436 and driven gear 437 on the axle body of driving shaft 432, wherein 436 He of driving gear Driven gear 437 is meshed.When driving motor 435 starts, the output shaft on driving motor 435 passes through 436 He of driving gear The transmission of driven gear 437 is to make driving shaft 432 be rotated, and the rotation of driving shaft 432 is to drive walking plate 431 at two It is moved on sliding rail 411.

Boom hoisting 44 includes the lifting motor 441 being fixed on walking plate 431, and the output shaft of lifting motor 441 is located at Between two sliding rails 411 and lift by crane motor 441 output shaft voluntarily limp 431 edge stretch out.In the output of lifting motor 441 It is fixed with roll shaft 442 on axis, wirerope 443 is provided on roll shaft 442,443 one ends wound of wirerope is fixed on roll shaft 442 On, the other end is freely sagging, and handling hanging basket 42 is fixed on the free sagging one end of wirerope 443.The length of wirerope 443 can Fall to handling hanging basket 42 on qualified product lodging bench 7 to which qualified tire base fabric raw material is carried out handling.

Referring to Fig. 5, Fig. 6, tire base fabric dynamic-balance tester 3 includes pedestal 31, in the opposite two sides in the upper surface of pedestal 31, Wherein side is fixed with dynamic balance instrument 32, and the other side, which is provided with, slides the lifting platform 33 being connected with pedestal 31, wherein lifting platform 33 Moving direction be close to dynamic balance instrument 32 or far from dynamic balance instrument 32.

Dynamic balance instrument 32 includes the cabinet 321 that is fixed on pedestal 31, in cabinet 321 towards a side surface of lifting platform 33 It is extended with horizontal shaft 34, the length direction of shaft 34 is identical as the moving direction of lifting platform 33.Shaft 34 connects cabinet 321 one end extend into the inside of cabinet 321 and is connected with the revolution of cabinet 321, and the other end is free end.In cabinet 321 Portion is provided with the driving mechanism for driving shaft 34 to be rotated, and driving mechanism includes the driving motor being fixed on inside cabinet 321 And the transmission component for connecting the output shaft of driving motor with shaft 34, wherein transmission component is chain drive component or belt Transmission component or gear transfer assembly.Start driving motor, drives shaft 34 to be rotated by transmission component.

It is fixed with display device 35 on the top of cabinet 321, it is solid that the side side wall that shaft 34 is stretched out is located on cabinet 321 Surely there is infrared range-measurement system 36, wherein infrared range-measurement system 36 is connected with 35 signal of display device.Infrared range-measurement system 36 is apart from shaft 34 Distance be less than the diameter of tire base fabric raw material, thus when tire base fabric raw material is filled in shaft 34, infrared range-measurement system 36 and tire One end end face of base fabric raw material towards cabinet 321 is opposite.

The free end of shaft 34 is the externally threaded end of thread 341 of side opening, solid close to one end of cabinet 321 in shaft 34 Surely there is positioning column 342, wherein positioning column 342 is that the axis of cylindrical body and positioning column 342 and the axis of shaft 34 are located at always On line, positioning column 342 is gradually increased from one end away from cabinet 321 to one end diameter dimension close to cabinet 321.In shaft 34 The end of thread on be threaded with clamping column 343, clamping column 343 is the axis of cylindrical body and clamping column 343 and the axis of shaft 34 Line is located along the same line, clamping column 343 from support or oppose towards one end of cabinet 321 disembark case 321 one end diameter dimension gradually Increase.It is welded with barre 3431 on one end end face of the clamping column 343 away from cabinet 321, by barre 3431 to just In rotation clamping column 343, so that it be made to be moved in shaft 34 along the screw thread of 34 end of thread 341 of shaft.

In the upper surface of pedestal 31, the side opposite with dynamic balance instrument 32, which is provided with, slides the lifting platform being connected with pedestal 31 33 include the bottom plate 331 and support board 332 of parallel opposite rectangle up and down, is provided with and pushes away between bottom plate 331 and support board 332 Dynamic support board 332 carries out vertical direction and carries out four mobile cylinders 333, and four cylinders 333 are located at bottom plate 331 and loading At corner location between plate 332.Cylinder 333 be vertically arranged and the both ends of cylinder 333 respectively with bottom plate 331 and support board 332 It is welded and fixed connected.

Two parallel opposite slideways 37 being laterally arranged, the longitudinal direction of slideway 37 are welded in the upper surface of pedestal 31 Section is " u "-shaped, and the opening of slideway 37 is upward.The length direction phase of the length direction of its middle slideway 37 and shaft 34 Together.Lifting platform 33 is located at the top of slideway 37 and is connected with the sliding of slideway 37.

The every opposite position of slideway 37 is provided at least two traveling wheels 3311 in the bottom end of bottom plate 331, wherein going Wheel 3311 is walked to be arranged along the length direction of slideway 37.Traveling wheel 3311 turns round the bottom end surface for being connected to bottom plate 331 and protrudes into Open interior to slideway 37 is in rolling contact with slideway 37.

When tire base fabric raw material is sent into workshop, the tire base on transport vehicle will be located at by the first catching robot 1 Cloth raw material is sent to conveying mechanism 2, is sent tire base fabric raw material to tire base fabric dynamic-balance tester 3 by conveying mechanism 2.Pass through Second catching robot 6 will send the tire base fabric raw material for conveying end to conveying mechanism 2 to grab to tire base fabric dynamic-balance tester 3 Rotation detection is carried out to tire base fabric, it is by the second catching robot 6 that qualified tire base fabric is former if the detection of tire base fabric is qualified Material is placed on qualified product lodging bench 7, will be underproof by the second catching robot 6 if the detection of tire base fabric is unqualified Tire base fabric raw material is placed on rejected product lodging bench 8.

The tire base fabric being placed on qualified product lodging bench 7 is hoisted in Three-dimensional storage rack 5 by handling hanging basket 42, and is controlled Supporting plate 52 in each grid 511 is successively stretched out, will be closed by the straight line steering engine 54 in Three-dimensional storage rack 5 processed in each grid 511 The tire base fabric raw material of lattice is placed on supporting plate 52, supporting plate 52 is retracted in grid 511 in starting straight line steering engine 54, thus pairing The tire base fabric raw material of lattice is stored.

The embodiment of present embodiment is the preferred embodiment of the utility model, and not limitation is originally practical new according to this The protection scope of type, therefore: the equivalence changes that all structures, shape, principle according to the utility model are done should all be covered by practical Within novel protection scope.

Claims (10)

1. a kind of tire base fabric feeds storage system, it is characterised in that: including set gradually the first catching robot (1), conveying Mechanism (2), tire base fabric dynamic-balance tester (3), hoisting mechanism (4) and Three-dimensional storage rack (5), the conveying mechanism (2) It is provided between end and tire base fabric dynamic-balance tester (3) for the tire base fabric raw material on conveying mechanism (2) to be placed into tire The second catching robot removed on base fabric dynamic-balance tester (3) and by raw material from tire base fabric dynamic-balance tester (3) (6)；

The Three-dimensional storage rack (5) includes frame body (51), and the front of the frame body (51) is provided with several arranged vertically and horizontally be used for The grid (511) of tire base fabric raw material is stored, grid is stretched out in being internally provided with from the front of frame body (51) for the grid (511) (511) actuator that supporting plate (52) and the drive supporting plate (52) stretches out grid (511) or be recovered in grid (511), The supporting plate (52) is horizontally disposed；

The hoisting mechanism (4) includes walking track (41), handling hanging basket (42) and drives handling hanging basket (42) along walking Track (41) carries out mobile walking component (43), and the walking track (41) is located at the frame body (51) positive oblique upper, Walking track (41) is arranged along Three-dimensional storage rack (5) front and with the grid (511) being laterally arranged for guiding horizontal, institute When stating supporting plate (52) stretching grid (511), walking track (41) is located at the surface of grid (511), the walking The boom hoisting (44) of control handling hanging basket (42) height is provided on component (43), the handling hanging basket (42) is risen by described Device for hoisting (44) is connected with walking component (43).

2. tire base fabric according to claim 1 feeds storage system, it is characterised in that: be located at second catching robot (6) opposite two sides are respectively arranged with qualified product lodging bench (7) and rejected product lodging bench (8), walking track (41) position In the surface of qualified product lodging bench (7).

3. tire base fabric according to claim 1 feeds storage system, it is characterised in that: the bottom end position of the grid (511) It is provided with opposite guide rail (53) in the two sides of supporting plate (52) moving direction, the guide rail (53) is " U "-shaped and opening is opposite, institute The opposite two sides of supporting plate (52) are stated to be respectively protruding into guide rail (53) and be connected with guide rail (53) sliding.

4. tire base fabric according to claim 1 feeds storage system, it is characterised in that: the side of supporting plate (52) upper surface Enclosing (521) are provided at edge.

5. tire base fabric according to claim 1 feeds storage system, it is characterised in that: the walking track (41) includes position In the sliding rail (411) being parallel to each other in same level, the both ends of the sliding rail (411) pass through respectively is fixed on ground vertically On column (412) be supported.

6. tire base fabric according to claim 5 feeds storage system, it is characterised in that: sliding rail (411) length direction Both ends be respectively arranged with limit plate (413).

7. tire base fabric according to claim 5 feeds storage system, it is characterised in that: the walking component (43) includes position Walking plate (431) above two sliding rails (411), the bottom end of walking plate (431) is along sliding rail (411) length direction Both ends revolution is connected with driving shaft (432) and driven shaft (433), the axis and cunning of the driving shaft (432) and driven shaft (433) The axis of rail (411) is vertical, fixes on the driving shaft (432) and driven shaft (433) with two opposite positions of sliding rail (411) There is the idler wheel (434) being in rolling contact with sliding rail (411), is provided on the walking plate (431) and the driving shaft (432) is driven to turn Dynamic driving assembly.

8. tire base fabric according to claim 7 feeds storage system, it is characterised in that: the driving component includes being fixed on The driving motor (435) walked on plate (431), the axis of the output shaft of the driving motor (435) and the axis of driving shaft (432) Line is parallel, and the output shaft of the driving motor (435) is connected by transmission component with the driving shaft (432).

9. tire base fabric according to claim 8 feeds storage system, it is characterised in that: the transmission component is gear drive Component.

10. tire base fabric according to claim 1 feeds storage system, it is characterised in that: the conveying of the conveying mechanism (2) End is provided with weighing device (9).