CN213623171U - Automatic temporary storage device for yarn basket - Google Patents

Abstract

The utility model relates to an automatic temporary storage device for a yarn basket, which comprises a yarn basket storage rack and a yarn basket lifting device; the yarn basket storage rack is arranged on one side of the rail conveying system; a plurality of layers of fluency strips are arranged in the yarn basket storage rack; the fluency strip layers are mutually spaced; the yarn basket lifting device is arranged at the end part of the fluency strip layer; a yarn basket lifting platform and a yarn basket lifting mechanism are arranged in the yarn basket lifting device; and a yarn basket lifting platform is arranged on the yarn basket lifting mechanism and driven by the yarn basket lifting mechanism to move up and down along one side of the yarn basket storage rack. The automatic temporary storage device for the yarn basket is arranged in the fine winding system, is directly connected with the track conveying system, takes off and temporarily stores the yarn basket in the automatic temporary storage device, or inputs and uses the yarn basket, so that the temporary storage requirement of the fine winding system on the yarn basket is met; and the input and output of different channels can work simultaneously, thereby greatly improving the temporary storage efficiency of materials.

Description

Automatic temporary storage device for yarn basket

Technical Field

The utility model relates to a device that is arranged in the thin net contact system to carry out online automatic temporary storage to unnecessary yarn basket.

Background

And (4) fine connection, namely a mechanical connection equipment system between the spinning frame and the bobbin winder. The working efficiency of the spinning frame is limited, and more than 2 spinning frames, even 3-5 spinning frames are generally needed to correspond to and meet the working efficiency of one bobbin winder. In the early production process of a yarn mill, spun yarn spools are collected mainly by workers and then are transported to a corresponding winder area for winding, and strict registration and management are needed in the process so as to prevent corresponding transportation errors from affecting production. The specification of the spun yarn product relates to parameters such as color, count and the like, and the spun yarn products with the same color and different counts are difficult to identify by naked eyes, so in order to prevent errors, strict numbering is needed, circulation, storage and transportation records are made, and a large amount of manpower and material resources are consumed.

In order to improve the production efficiency and reduce the risk of material disorder in the storage and transportation process, special 'fine connection' equipment is generated, and 'fine connection' is established between a plurality of spinning machines and a plurality of bobbin winders.

The applicant has applied for a fine network system with a chinese patent publication No. CN111017651A, a material lifting and transporting system with a chinese patent publication No. CN111003654A, and other related patents through research on the fine network system; in further production practice, the above technical solution of the thin network communication system has some disadvantages, and further improvement is necessary.

In the fine connecting system, a yarn basket is used as a main material delivery device and needs to be provided with enough quantity to meet the system requirement; in order to improve the production efficiency, temporary redundant yarn baskets in the system need to be temporarily stored, so that an automatic yarn basket temporary storage device is necessary to be arranged, and the automatic operation requirement of the system is met.

SUMMERY OF THE UTILITY MODEL

The utility model provides an automatic temporary storage device of yarn basket to realize carrying out real-time automatic temporary storage to redundant yarn basket in the thin net allies oneself with the system in due date, improve the automatic operation degree of system.

In order to achieve the aim, the utility model provides an automatic temporary storage device for a yarn basket, which is characterized by comprising a yarn basket storage rack and a yarn basket lifting device;

the yarn basket storage rack is arranged on one side of the rail conveying system;

a plurality of layers of fluency strips are arranged in the yarn basket storage rack; the fluency strip layers are mutually spaced;

the yarn basket lifting device is arranged at the end part of the fluency strip layer;

a yarn basket lifting platform and a yarn basket lifting mechanism are arranged in the yarn basket lifting device;

and a yarn basket lifting platform is arranged on the yarn basket lifting mechanism and driven by the yarn basket lifting mechanism to move up and down along one side of the yarn basket storage rack.

As a further improvement of the utility model, the fluency strips are obliquely arranged in the vertical direction;

the yarn basket lifting device is provided with 2 sets of yarn basket lifting devices, and the two sets of yarn basket lifting devices are respectively arranged at two ends of the fluency strip layer, which are different in height.

As a further improvement of the utility model, the yarn basket lifting device is connected with the track conveying system through a yarn basket delivery platform.

Further, the yarn basket delivery platform is a butt-joint conveying platform consisting of a plurality of butt-joint conveying rollers;

the butt-joint conveying rollers are arranged on the top of the yarn basket delivery table in parallel through bearing seats;

and one end of the butt joint conveying roller is provided with a butt joint driving wheel which is connected to the butt joint driving element through a transmission device.

And furthermore, butt joint platform guardrails are arranged on two sides above a butt joint conveying platform formed by the butt joint conveying rollers.

Still further, the entry end of butt joint platform guardrail is equipped with the butt joint gib block.

As a further improvement of the utility model, one side of the yarn basket lifting platform is provided with a lifting guide device, and a lifting fixing seat is arranged in the lifting guide device;

the other side of the yarn basket lifting platform is provided with an orthogonal conveying mechanism;

the orthogonal conveying mechanism is connected into a lifting transmission device of the yarn basket lifting mechanism through the lifting fixing seat.

Furthermore, a lifting pulley is arranged in the lifting guide device;

a pair of vertically arranged cylindrical guide rods is arranged in the lifting transmission device, and the lifting pulleys are clamped by the cylindrical guide rods from two sides.

Still further, more than 2 lifting pulleys are arranged and vertically fixed in the lifting guide device.

Furthermore, the orthogonal conveying mechanism comprises a yarn basket driving wheel, a yarn basket driving element and a yarn basket driving belt, and the yarn basket driving belt lifting device;

the yarn basket driving wheel forms a conveying plane; the yarn basket driving belt forms another conveying plane; the conveying directions of the two conveying planes are mutually crossed and vertical;

the yarn basket driving wheels and the yarn basket driving belts are arranged in a crossed manner, and the yarn baskets are conveyed in 2 different directions at the same position;

the basket driving wheel is connected with the basket driving element through a connecting piece; the basket driving belt is connected with the other basket driving element through a connecting piece;

and a basket driving lifting device is arranged below the basket driving wheel or the basket driving belt, so that the relative height positions of the two conveying planes are changed alternately.

Further, a basket driving belt lifting device is arranged below the basket driving belt;

the horizontal height of a conveying plane of the yarn basket driving belt is driven to change by the yarn basket driving belt lifting device;

the yarn basket driving belt lifting device drives the yarn basket driving belt to be in a descending state, the conveying plane of the yarn basket driving belt is lower than the conveying plane of the yarn basket driving wheel, and yarn baskets fall on the conveying plane of the yarn basket driving wheel for conveying;

the yarn basket driving belt lifting device drives the yarn basket driving belt to be in a lifting state, the conveying plane of the yarn basket driving belt is higher than the conveying plane of the yarn basket driving wheel, and yarn baskets fall on the conveying plane of the yarn basket driving belt for conveying.

Still further, the basket driving belt lifting device is a cam driving device, and the outer surface of a cam is in contact with the bottom surface of the installing seat of the basket driving belt.

Furthermore, a lifting driving mechanism in the lifting transmission device is a lifting driving belt;

the lifting driving belt is fixed in the upper frame and the lower frame through 2 pulleys and is vertically arranged;

the lifting driving belt is driven by a lifting belt driving element to move;

the lifting fixing seat is fixed with the vertical part of the lifting driving belt.

The automatic temporary storage device for the yarn basket is arranged in the fine connecting system, is directly connected with the track conveying system, and is used for taking down and temporarily storing the yarn basket in the automatic temporary storage device or inputting the yarn basket for use; the yarn basket storage rack is provided with a plurality of mutually independent fluent strip rack layers, so that empty yarn baskets or yarn baskets loaded with different materials can be classified and stored, and various materials can be temporarily stored; and the input and output of different channels can work simultaneously, thereby greatly improving the temporary storage efficiency of materials.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a thin network system;

FIG. 2 is an overall top view of the thin networking system;

FIG. 3 is an overall side view of the thin networking system;

FIG. 4 is a schematic view of the overall construction of the rail transport system;

FIG. 5 is a schematic view of a portion of the track transport system;

FIG. 6 is a schematic view of the overall structure of a yarn basket;

FIG. 7 is a cross-sectional view of a basket;

FIG. 8 is a schematic view of the overall structure of the storage region;

FIG. 9 is a schematic view of a storage rack;

FIG. 10 is a front view of the storage rack;

FIG. 11 is a schematic structural view of a basket lifting device;

fig. 12 is a schematic structural view 1 of a basket lifting platform;

fig. 13 is a schematic structural view of a basket lifting platform 2.

Detailed Description

The following description of the present invention will be made with reference to the accompanying drawings.

A filament winding system, as shown in fig. 1-3, which is to deliver the spun yarn produced by a group a of spun yarns to a designated machine station of a group B of bobbin winders at a fixed point, store spun yarn cop or empty yarn tube by a yarn basket 1, carry and convey the yarn basket 1 at a fixed point by a rail conveying system 2, and carry and temporarily store the yarn basket 1 by a lifting system 3; specifically, a spun yarn bobbin storage basket 1 produced by a spun yarn group a is lifted by a lifting system 3 and is input into a rail conveying system 2; the yarn basket 1 is transferred to a designated machine station of a corresponding bobbin winder group B by a rail conveying system 2, then the yarn basket 1 is taken down by a lifting system 3 of the machine station, and spun yarn cop is thrown into a feed hopper of a bobbin winder according to opportunity; the bobbin after being wound by the bobbin winder group B is stored into the empty yarn basket 1; then the lifting system 3 lifts the yarn basket 1 with the yarn tubes and inputs the yarn basket into the track conveying system 2; the yarn basket 1 is transferred to a corresponding appointed machine station of the spinning frame group A by the rail conveying system 2, the yarn basket 1 is taken down by the lifting system 3 of the machine station, and an empty bobbin is thrown into a feed hopper of the spinning frame according to opportunity. Through the fine network connection system, automatic material handling between the spinning frame and the bobbin winder is realized, and the production automation degree is improved.

The rail transport system 2 shown in the drawings is the smallest unit; the track transportation system 2 may be configured as a large-scale track system according to the scale of a plant, referring to a thin network system of chinese patent publication No. CN111017651A previously applied by the present applicant.

The specific structural form of the track conveying system 2 is shown in fig. 4 and 5, and comprises a mounting upright 21, a linear conveying track 22 and an orthogonal steering mechanism 23; the rail conveying system 2 is installed through a plurality of installation columns 21, the conveying system consisting of the linear conveying rails 22 and the orthogonal steering mechanisms 23 is erected above a workshop, so that the workshop space is saved, and the installation columns 21 can be supported and fixed on the ground of the workshop or hung on the ceiling of the workshop. The linear conveying track 22 is used for carrying out linear conveying on the yarn basket 1, and the orthogonal steering mechanism 23 is arranged at a position needing output or steering butt joint; the linear conveying track 22 and the orthogonal steering mechanism 23 adopt a modular design, and can be conveniently manufactured and quickly assembled.

The specific structure of the linear conveying track 22 comprises a linear beam, a main body of the linear conveying track 22 is arranged on the linear beam, and the bottom of the linear beam is connected with the mounting upright post 21; if the lifting type is adopted, the linear beam is connected with the mounting upright post 21 through a transversely arranged lifting beam; at least 2 linear cross beams are arranged and are respectively positioned on two sides of the linear conveying track 22 to form a mounting plane; a linear driving wheel and a linear follow-up wheel are respectively arranged on the linear cross beam; the linear driving wheels and the linear follow-up wheels are alternately arranged and distributed on the linear beam; more than 2 linear driving wheels are arranged in one group and are arranged on the same driving shaft to synchronously rotate, so that driving elements are saved; the driving shaft is arranged on the linear cross beam through a driving bearing seat; one end of each driving shaft is provided with a driving wheel, and the driving shafts are mutually connected together through a flexible driving part and finally connected to a linear driving element; according to specific requirements, the linear driving element is generally an electric motor; the flexible driving piece is a common belt, a synchronous belt and a chain, and the corresponding driving wheel is a belt pulley, a synchronous belt pulley or a chain wheel; the linear driving elements can synchronously drive a plurality of linear driving wheels to synchronously rotate so as to convey the yarn basket 1.

Further, linear limit baffles are arranged on two sides of the linear conveying track 22; the linear limiting baffle is preferably divided into a plurality of sections which are respectively fixed on the outer side of the linear beam; the linear limiting baffle plate limits the yarn basket 1 and prevents the yarn basket 1 from sliding off a conveying plane formed by the linear driving wheel and the linear following wheel; meanwhile, the top of the linear limiting baffle is turned inwards, a moving space in the vertical direction is formed by the linear limiting baffle and a conveying plane formed by the linear driving wheel and the linear follow-up wheel, the bottom of the yarn basket 1 is limited in the vertical direction, and conveying accidents such as slipping and overturning are further prevented.

Correspondingly, the structure of the yarn basket 1 is as shown in fig. 6 and 7, in order to fully meet the material storage and conveying requirements of a fine connecting system, the yarn basket 1 is bucket-shaped and adopts a special structural design, and comprises a basket body 11 and a basket bottom plate 13; the four sides of the basket body 11 are inclined inwards and downwards, so that the empty yarn baskets 1 can be conveniently stacked, and the space is saved; the top of the basket body 11 is folded outwards to form a basket top 12, so that the basket is convenient to hold and separate after being stacked; a basket bottom plate 13 is arranged at the bottom of the basket body 11, and the basket bottom plate 13 is separated from four side vertical surfaces of the basket body 11; the basket bottom plate 13 is inserted into a motion space in the vertical direction formed by the inward edge of the top of the linear limit baffle and a conveying plane formed by the linear driving wheel and the linear following wheel, so that the motion reliability of the yarn basket 1 in the rail conveying system 2 can be ensured.

In order to realize that the yarn basket 1 is conveyed smoothly by the rail conveying system 2 after being turned by the orthogonal turning mechanism 23, the basket bottom plate 13 is preferably square, so that the size of the bottom surface is unchanged after being turned; the basket bottom plate 13 has a size smaller than the top opening size of the basket 11 so that stacking can be achieved.

The basket bottom plate 13 is a flat plane, and is convenient to drive and convey by the linear driving wheel and the linear driven wheel; to facilitate drive transport, the bottom surface of the basket floor 13 may also be provided with a friction-increasing roughened surface, or a rough coating.

In the filament winding system, the number of the baskets 1 is large, the goods loaded in the baskets are different, and the identification of the baskets 1 is required; one way is that bar codes, two-dimensional codes and the like can be arranged on the outer surface of the yarn basket 1, such as the outer vertical surface of the basket body 11 or the bottom surface of the basket bottom plate 13, the identity of the yarn basket 1 can be read through image recognition, and then the yarn basket is conveyed in a corresponding direction; alternatively, a contactless identification chip, such as an RFID chip, is provided in the yarn basket 1, and as shown in fig. 8, the contactless identification chip 14 is provided in the basket bottom plate 13; by arranging non-contact reading devices at different positions of the track conveying system 2, the identity information of the yarn basket 1 can be read, and then corresponding direction conveying is carried out.

As shown in fig. 8, in the filament winding and unwinding system, in order to buffer the baskets 1 in the system, it is necessary to provide an automatic temporary storage device for the baskets, specifically including a basket storage rack 53, which is provided at the side of the rail transportation system 2; the linear conveying track 22 of the track conveying system 2 is connected with a basket storage rack 53 through a basket delivery table 51, and the input or output of the basket 1 is realized (the orthogonal steering mechanism 23 is not shown on the linear conveying track 22 in the figure).

The yarn basket delivery table 51 is a butt-joint conveying platform consisting of a plurality of butt-joint conveying rollers, and the butt-joint conveying rollers are arranged on the top of the yarn basket delivery table 51 in parallel through bearing seats; one end of the butt-joint conveying roller is provided with a butt-joint driving wheel which is connected to a butt-joint driving element through a transmission device; the embodiment shows a belt drive, which uses a flat belt as a drive element, and can also use a gear drive or a chain drive or the like according to requirements.

Abutting platform guardrails are arranged on two sides above a abutting conveying platform consisting of the abutting conveying rollers, and two sides of the yarn basket 1 are protected; furthermore, in the input direction of the yarn basket 1 of the yarn basket delivery platform 51, the inlet end of the guardrail of the butt joint platform is provided with a butt joint guide strip, so that the input process of the yarn basket 1 can be guided and straightened, and the yarn basket 1 can be input in a straight posture.

As shown in fig. 9 and 10, in order to save installation space, the entire basket storage rack 53 is arranged in parallel with the linear conveying rail 22, basket lifting devices 52 are arranged on both sides of the basket storage rack 53, and the basket lifting devices 52 are abutted with the basket delivery platform 51; the yarn basket storage rack 53 is a plurality of layers of fluent strip storage racks which are obliquely arranged, the yarn basket 1 is placed on the top of the rack, and can automatically slide to the lower part along the rollers of the fluent strips under the action of gravity until the yarn basket slides to the end part, and the yarn basket is output by the yarn basket lifting device 52. A yarn basket limiting device, preferably an electromagnetic lifting limiting stop block, is arranged at the lower end part of the fluency strip shelf, can block the yarn basket 1, and can be input into the yarn basket lifting device 52 when needed.

The specific structure of the basket lifting device 52 is shown in fig. 11 to 13, and comprises a lifting frame 521, in which a basket lifting mechanism 523 is arranged; a basket lifting platform 522 is arranged on the basket lifting mechanism 523; one side of the basket lifting platform 522 is provided with a lifting guide 5221; the basket lifting platform 522 is driven by the basket lifting mechanism 523 to perform specific up-and-down movement, stays at the end of the corresponding fluency strip, and puts in or takes out the basket 1.

One side of the yarn basket lifting platform 522 is provided with a lifting guide device 5221, and a lifting fixed seat and a lifting pulley are arranged in the lifting guide device 5221; the lifting fixing seat is used for fixing the lifting guide device 5221 in the yarn basket lifting mechanism 523, and the lifting pulley plays roles of lifting limiting and guiding.

Preferably, the lifting pulleys are more than 2 and vertically distributed.

The main body of the basket lifting platform 522 is an orthogonal conveying mechanism, which comprises a basket driving wheel 5222, a basket driving element 5223 and a basket driving belt 5224, and the basket driving belt lifting device 5225;

the basket drive wheel 5222 constitutes one conveying plane and the basket drive belt 5224 constitutes another conveying plane; the conveying directions of the two conveying planes are mutually crossed and vertical; the basket drive wheel 5222 is arranged across the basket drive belt 5224 to enable 2 different directions of transport of the basket 1 at the same location.

The basket drive wheel 5222 is connected to the basket drive element 5223 by a connector; and the basket drive belt 5224 is connected to the other basket drive element 5223 by a connector.

A basket driving and lifting device is arranged below the basket driving wheel 5222 or the basket driving belt 5224, so that the height positions of the two conveying planes can be adjusted; in this embodiment, a set of basket driving belt lifting device 5225 is provided below the basket driving belt 5224, and the basket driving belt lifting device 5225 is a cam driving device, and the basket driving belt 5224 is driven to lift and lower by changing the orientation of a cam; when the basket drive belt 5224 is lowered, its plane of transport is below the plane of transport of the basket drive wheel 5222, at which time the basket 1 is driven by the basket drive wheel 5222; when the basket driving belt 5224 is raised, the conveying plane is higher than the conveying plane of the basket driving wheel 5222, and the basket 1 is driven by the basket driving belt 5224; the basket driving elevating means (i.e., the basket driving belt elevating means 5225) serves to change the conveying direction of the basket 1, thereby achieving the transfer from the present position to another position.

The basket lifting mechanism 523 includes a lifting drive mechanism; in the embodiment, the lifting driving mechanism is belt-driven, the lifting belt is vertically arranged by fixing 2 belt pulleys in the upper and lower frames, and the positioning movement is realized under the driving of the driving mechanism of the lifting belt; the lifting fixing seat is used for being fixed on the lifting belt, and the lifting guide device 5221 and the whole yarn basket lifting platform 522 are driven to perform positioning lifting movement through the movement of the lifting belt.

Further, the basket lifting mechanism 523 further includes a lifting guide mechanism; in this embodiment, the lifting guide mechanism is a vertically arranged cylindrical guide rod, and the lifting pulley is clamped by a pair of cylindrical guide rods from two sides to guide and support the lifting movement of the yarn basket lifting platform 522, thereby improving the reliability and stability of the operation.

The automatic temporary storage device for the yarn basket is arranged in the fine connecting system, is directly connected with the track conveying system 2, and is used for taking down and temporarily storing the yarn basket 1 in the automatic temporary storage device or inputting the yarn basket 1 for use; the yarn basket storage rack 53 is provided with a plurality of layers of mutually independent fluent strip rack layers, so that empty yarn baskets 1 or yarn baskets 1 loaded with different materials can be classified and stored, and various materials can be temporarily stored; and the input and output of different channels can work simultaneously, thereby greatly improving the temporary storage efficiency of materials.

In the description of the present specification, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc., indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience of describing the technical solutions of the present patent and for simplification of the description, but do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be interpreted as limiting the present patent application.

In this specification, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integral to one another; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present specification can be understood by those of ordinary skill in the art as appropriate.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (10)

1. The automatic temporary storage device for the yarn basket is characterized by comprising a yarn basket storage rack and a yarn basket lifting device;

the yarn basket storage rack is arranged on one side of the rail conveying system;

a plurality of layers of fluency strips are arranged in the yarn basket storage rack; the fluency strip layers are mutually spaced;

the yarn basket lifting device is arranged at the end part of the fluency strip layer;

a yarn basket lifting platform and a yarn basket lifting mechanism are arranged in the yarn basket lifting device;

and a yarn basket lifting platform is arranged on the yarn basket lifting mechanism and driven by the yarn basket lifting mechanism to move up and down along one side of the yarn basket storage rack.

2. The automatic temporary storage device for the yarn baskets of claim 1, wherein the fluency strips are arranged obliquely in the vertical direction;

the yarn basket lifting device is provided with 2 sets of yarn basket lifting devices, and the two sets of yarn basket lifting devices are respectively arranged at two ends of the fluency strip layer, which are different in height.

3. An automatic temporary storage device for baskets in accordance with claim 1 wherein said basket elevator device is connected to the rail transport system through a basket delivery table.

4. The automatic temporary storage device for the yarn basket as claimed in claim 3, wherein the yarn basket delivery platform is a butt-joint conveying platform consisting of a plurality of butt-joint conveying rollers;

the butt-joint conveying rollers are arranged on the top of the yarn basket delivery table in parallel through bearing seats;

and one end of the butt joint conveying roller is provided with a butt joint driving wheel which is connected to the butt joint driving element through a transmission device.

5. The automatic temporary storage device for the yarn baskets of claim 4, wherein abutting platform guardrails are arranged on two sides above the abutting conveying platform formed by the abutting conveying rollers.

6. The automatic temporary storage device for the yarn baskets according to claim 1, wherein a lifting guide device is arranged on one side of the yarn basket lifting platform, and a lifting fixing seat is arranged in the lifting guide device;

the other side of the yarn basket lifting platform is provided with an orthogonal conveying mechanism;

the orthogonal conveying mechanism is connected into a lifting transmission device of the yarn basket lifting mechanism through the lifting fixing seat.

7. The automatic temporary storage device for the yarn basket as claimed in claim 6, wherein a lifting pulley is arranged in the lifting guide device;

a pair of vertically arranged cylindrical guide rods is arranged in the lifting transmission device, and the lifting pulleys are clamped by the cylindrical guide rods from two sides.

8. The automatic temporary storage device for the yarn baskets of claim 7, wherein more than 2 lifting pulleys are vertically fixed in the lifting guide device.

9. The automatic temporary storage device of a yarn basket as claimed in claim 6, wherein the orthogonal conveying mechanism comprises a yarn basket driving wheel, a yarn basket driving element, a yarn basket driving belt, and a yarn basket driving belt lifting device;

the yarn basket driving wheel forms a conveying plane; the yarn basket driving belt forms another conveying plane; the conveying directions of the two conveying planes are mutually crossed and vertical;

the yarn basket driving wheels and the yarn basket driving belts are arranged in a crossed manner, and the yarn baskets are conveyed in 2 different directions at the same position;

the basket driving wheel is connected with the basket driving element through a connecting piece; the basket driving belt is connected with the other basket driving element through a connecting piece;

and a basket driving lifting device is arranged below the basket driving wheel or the basket driving belt, so that the relative height positions of the two conveying planes are changed alternately.

10. The automatic temporary storage device for the yarn basket as claimed in claim 9, wherein a yarn basket driving belt lifting device is arranged below the yarn basket driving belt;

the horizontal height of a conveying plane of the yarn basket driving belt is driven to change by the yarn basket driving belt lifting device;

the yarn basket driving belt lifting device drives the yarn basket driving belt to be in a descending state, the conveying plane of the yarn basket driving belt is lower than the conveying plane of the yarn basket driving wheel, and yarn baskets fall on the conveying plane of the yarn basket driving wheel for conveying;

the yarn basket driving belt lifting device drives the yarn basket driving belt to be in a lifting state, the conveying plane of the yarn basket driving belt is higher than the conveying plane of the yarn basket driving wheel, and yarn baskets fall on the conveying plane of the yarn basket driving belt for conveying.

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