阅读说明：本技术 一种输料稳定的智能纺织设备及其使用方法 (Intelligent textile equipment with stable material conveying and use method thereof ) 是由 王浩 于 2020-06-15 设计创作，主要内容包括：本发明一种输料稳定的智能纺织设备,包括纺织机和机架；本发明还涉及一种输料稳定的智能纺织设备的使用方法,包括七个使用步骤。本发明增加定位组件保证机架与纺织机对接时,辊筒能够稳定与纺织机辊轴架对接；支撑块组件的升降和平移机构,能够将支撑块上预置的辊轴与纺织机的辊轴架对接,方便将辊轴转移到纺织机上,调节简单,降低辊轴更换难度；顶块组件在闲置能能够由第三电动推杆驱动,将闲置的辊轴顶起,与支撑块端面持平,方便将闲置辊轴转移到支撑块上,完成预制上料操作,在更换辊轴过程中,能够将纺织机辊轴架上的辊轴取下,方便支撑块移动部件进行更换辊轴操作,方便调节。(The invention relates to intelligent textile equipment with stable material conveying, which comprises a textile machine and a rack; the invention also relates to a use method of the intelligent textile equipment with stable material conveying, which comprises seven use steps. According to the invention, the positioning assembly is additionally arranged to ensure that the roller can be stably butted with a roller frame of the textile machine when the rack is butted with the textile machine; the lifting and translating mechanism of the supporting block assembly can butt the roller shaft preset on the supporting block with a roller shaft frame of a textile machine, so that the roller shaft is conveniently transferred to the textile machine, the adjustment is simple, and the replacement difficulty of the roller shaft is reduced; the kicking block subassembly can be driven by third electric putter in idle, with idle roller jack-up, keep level with the supporting shoe terminal surface, on the roller that conveniently will idle shifts the supporting shoe, accomplish the material loading operation of prefabricating, changing the roller in-process, can take off the roller on the spinning machine roll frame, make things convenient for the supporting block moving part to change the roller operation, convenient regulation.)

1. The utility model provides a defeated stable intelligent weaving equipment of material, includes weaving machine (1) and frame (2), its characterized in that: the textile machine (1) is connected to the base (3) through a bolt, a sleeve (4) is welded on the side wall of the base (3), the side wall of the rack (2) is connected with a plug (5) through a bolt, the end part of the plug (5) is inserted in the middle of the sleeve (4), a clamping block (6) is connected in a cavity in the plug (5) through a rotating shaft, and a clamping groove structure matched with the clamping block (6) is formed in the side wall of the sleeve (4);

the side edge of the middle of the rack (2) is connected with a first electric push rod (7) through a bolt, the side wall of the rack (2) is connected with slide rails (13) through a bolt, a slide block (8) is connected in a sliding and clamping mode in the middle of a group of slide rails (13), the slide block (8) is connected to the end portion of a main shaft of the first electric push rod (7) through a bolt, one side of the upper end of the slide block (8) is connected with a support block (9) in a sliding mode, the side edge of the slide block (8) is connected with a second electric push rod (10) through bolts with the same specification, the end portion of the second electric push rod (10) is connected with the support block (9) through a bolt, and;

the side of the rack (2) is connected with a third electric push rod (11) through a bolt, the main shaft end of the third electric push rod (11) is connected with a top block (12) through a bolt, the side wall of the top block (12) is connected in the middle of another group of sliding rails (13) in a sliding mode, and the end portion of the top block (12) is provided with an arc-shaped groove structure.

2. The intelligent textile equipment with stable material conveying function as claimed in claim 1, wherein: the plug (5) is internally connected with a first spring (14) through a bolt, the other end of the first spring (14) is connected to the bottom of the clamping block (6) through a bolt, the front end of the plug (5) is of an arc-shaped edge structure, an inclined plane structure matched with a groove of the side wall of the sleeve (4) is arranged at the upper end of the clamping block (6), and the front end face of the clamping block (6) is a plane.

3. The intelligent textile equipment with stable material conveying function as claimed in claim 2, wherein: the novel plug is characterized in that a pedal (15) is connected into a groove in the side wall of the rack (2) through a rotating shaft, a rope (16) is connected to the end portion of the pedal (15) through a bolt, the rope (16) is inserted into the plug (5), and the other end of the rope (16) is inserted into the middle of the first spring (14) and connected with the bottom of the clamping block (6) through a bolt.

4. The intelligent textile equipment with stable material conveying function as claimed in claim 1, wherein: frame (2) lower extreme one side has battery (17) and positive reverse switch (18) through bolted connection, positive reverse switch (18) pass through wire and battery (17) electric connection, just positive reverse switch (18) quantity is three groups, three groups positive reverse switch (18) pass through wire and first electric putter (7), second electric putter (10) and third electric putter (11) electric connection respectively.

5. The intelligent textile equipment with stable material conveying function as claimed in claim 1, wherein: the bottom of the rack (2) is connected with universal wheels (19) through bolts, the number of the universal wheels (19) is at least four, and the four universal wheels (19) are distributed at the bottom of the rack (2) at equal intervals.

6. The intelligent textile equipment with stable material conveying function as claimed in claim 1, wherein: the guide groove (20) has been seted up to slider (8) upper end lateral wall, there is guide bar (21) supporting shoe (9) side through bolted connection, guide bar (21) tip is pegged graft inside guide groove (20).

7. The intelligent textile equipment with stable material conveying function as claimed in claim 1, wherein: frame (2) side has stopper (22) that are located slide rail (13) lower extreme through bolted connection, stopper (22) quantity is two sets of, and two sets of stopper (22) are located slider (8) and kicking block (12) below respectively, just seted up in the middle of stopper (22) with slider (8) and kicking block (12) lateral wall protruding assorted groove structure, first electric putter (7) and third electric putter (11) main shaft joint are in stopper (22) intermediate position.

8. The intelligent textile equipment with stable material conveying function as claimed in claim 7, wherein: the lower ends of the sliding block (8) and the top block (12) are respectively connected with second springs (23) with the same specification through bolts, the second springs (23) are respectively sleeved on the outer sides of the main shafts of the first electric push rod (7) and the third electric push rod (11), and the lower ends of the second springs (23) are connected with the limiting block (22) through bolts.

9. The intelligent textile equipment with stable material conveying function as claimed in claim 1, wherein: base (3) and frame (2) lower extreme lateral wall laminate mutually, just slider (8) and kicking block (12) length equals, slider (8) and kicking block (12) tip protruding interval equals.

10. Use of the smart textile device with stable material delivery according to any one of claims 1 to 9, wherein: the method comprises the following steps:

step one, a rack (2) provided with universal wheels (19) is moved to the side of a base (3) provided with a textile machine (1), then a plug (5) on the side wall of the rack (2) is aligned with a sleeve (4) on the side wall of the base (3), the plug (5) is inserted into the sleeve (4) by applying force, the side wall of the sleeve (4) is preferentially contacted with a clamping block (6) arranged on the side wall of the plug (5) during insertion, the clamping block (6) is extruded into a groove on the inner side of the plug (5) along the inclined surface of the clamping block (6), the rack (2) is continuously pushed inwards, so that the side wall of the rack (2) is attached to the side wall of the base (3), at the moment, the clamping block (6) arranged inside the plug (5) is aligned with a clamping groove inside the sleeve (4), the clamping block (6) is outwards ejected under the elastic force action of a first spring (14), and the plug (5) is matched with the clamping block, the connecting structure is clamped in the sleeve (4) to maintain the stability of the connecting structure of the frame (2) and the base (3);

step two, when the rack (2) is tightly attached to the side wall of the base (3), the top block (12) arranged at the end part of the third electric push rod (11) is positioned below a roller shaft of the textile machine (1), the power supply of the third electric push rod (11) is connected through a forward and reverse rotation switch (18), so that the third electric push rod (11) drives the top block (12) to ascend along a sliding rail (13), when the top block (12) is contacted with the roller shaft of the textile machine (1), the roller shaft of the textile machine (1) is driven to be separated from a frame of the textile machine (1) by continuously ascending, the roller shaft can move to a middle groove of the top block (12) along an inclined plane structure at the end part of the top block (12), the third electric push rod (11) is adjusted to reversely work through the forward and reverse rotation switch (18), the top block (12) is driven to descend, so that the used roller shaft is taken out and moves to a position above a limiting block (22), the second spring (23) is used for buffering the ejector block (12) and reducing impact force caused by movement of the roller shaft on the inclined plane at the end part of the ejector block (12);

thirdly, after the used roll shafts descend to the designated positions, the power supply of the first electric push rod (7) is connected through a forward and reverse rotation switch (18), so that the first electric push rod (7) drives the sliding block (8) to ascend for a certain distance along the sliding rail (13), a new roll shaft is guaranteed to be higher than a roll shaft frame of the textile machine (1), and the new roll shaft can be conveniently and safely butted;

step four, after the sliding block (8) rises to a specified height, a power supply corresponding to a second electric push rod (10) is switched on through a forward and reverse switch (18), the second electric push rod (10) works to drive the supporting block (9) to move along a sliding groove on the upper end face of the sliding block (8), a guide rod (21) installed on the side wall of the supporting block (9) is used for matching with a guide groove (20) on the upper end of the sliding block (8) to limit the moving distance of the supporting block (9), and when a new roll shaft clamped at the end part of the supporting block (9) is aligned with the roll shaft frame of the textile machine (1), the power supply of the second electric push rod (10) is switched off;

step five, switching on a power supply corresponding to the first electric push rod (7) through the forward and reverse rotation switch (18) again, controlling the first electric push rod (7) to drive the sliding block (8) to descend, enabling the new roll shaft to be aligned and clamped in a groove in the middle of a roll shaft frame of the textile machine (1), completing roll shaft replacement work, and continuing descending, enabling the first electric push rod (7) to drive the sliding block (8) to descend to the height at which the supporting block (9) is not in contact with the new roll shaft;

step six, at the moment, a power supply corresponding to the second electric push rod (10) is switched on through the forward and reverse switch (18), the second electric push rod (10) is controlled to pull the supporting block (9) to the original position, and the roller shaft can be conveniently placed for use next time;

step seven, the pedal (15) is pressed, the pedal (15) can pull the fixture block (6) to descend through the rope (16), meanwhile, the first spring (14) is compressed, the clamping block (6) retracts into the plug (5), the limiting fit with the sleeve (4) is broken, the frame (2) is pulled outwards to separate the plug (5) from the sleeve (4), the frame (2) is convenient to move away, and the roller shaft of the middle ejector block (12) of the frame (2) is transferred, when the materials are loaded again, the frame (2) is moved to the side wall of the roll shaft, the end part of the top block (12) is aligned with the main shaft of the roll shaft, the jacking block (12) is driven to ascend through the third electric push rod (11), the roller shaft is lifted to the upper end of the sliding block (8) to be flush with the end face of the supporting block (9), the roller shaft is moved at the moment, the roller shaft is transferred into a groove in the end part of the supporting block (9), the material preparation operation is completed, and the roller shaft is convenient to replace for next feeding.

Technical Field

The invention relates to the technical field of intelligent textile machines, in particular to intelligent textile equipment with stable material conveying and a using method thereof.

Background

The textile machine, also called a spinning machine, a weaving machine, a cotton spinning machine, etc., is a general name for a tool for processing raw materials such as thread, silk, hemp, etc. into silk thread and then weaving the silk thread into cloth. Such as spinning pendants, spinning wheels, spindles, pedal looms, modern mechanical looms, modern numerical control automatic looms and the like. The development of textile processes and equipment has been designed according to the textile raw materials, and therefore, the raw materials have an important position in the textile technology.

During the production and processing of large-scale cloth, large-scale weaving machine can be used, but large-scale weaving machine roller is great, need cooperate the last axletree to use when changing, but the weaving machine among the prior art goes up the axletree car and has following defect:

1) the existing upper shaft trolley is independent of a textile machine and needs to be stored independently, and the occupied space of the upper shaft trolley is large;

2) when the existing upper shaft trolley is butted with a textile machine, the position of the existing upper shaft trolley needs to be adjusted for multiple times to be butted with the textile machine, and then a roller shaft can be aligned and replaced;

3) when the roller shaft is replaced by the existing shaft feeding vehicle, the used roller shaft needs to be taken down firstly, and then shaft feeding replacement operation is carried out through the shaft feeding vehicle again, so that more working hours are occupied, and the consumption of equipment is increased.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide intelligent textile equipment with stable material conveying, and a positioning assembly is added to ensure that a roller can be stably butted with a roller frame of a textile machine when a rack is butted with the textile machine; the lifting and translating mechanism of the supporting block assembly can butt the roller shaft preset on the supporting block with a roller shaft frame of a textile machine, so that the roller shaft is conveniently transferred to the textile machine, the adjustment is simple, and the replacement difficulty of the roller shaft is reduced; the kicking block subassembly can be driven by third electric putter in idle, with idle roller jack-up, keep level with the supporting shoe terminal surface, on the roller that conveniently will idle shifts the supporting shoe, accomplish the material loading operation of prefabricating, changing the roller in-process, can take off the roller on the spinning machine roll frame, make things convenient for supporting block moving part to change the roller to solve the problem of proposing in the above-mentioned background art.

In order to achieve the purpose, the invention provides the following technical scheme:

an intelligent textile device with stable material conveying comprises a textile machine and a rack, wherein the textile machine is connected to a base through bolts, a sleeve is welded on the side wall of the base, a plug is connected to the side wall of the rack through bolts, the end of the plug is inserted in the middle of the sleeve, a clamping block is connected to a cavity in the plug through a rotating shaft, and a clamping groove structure matched with the clamping block is formed in the side wall of the sleeve;

the side edge of the middle of the rack is connected with a first electric push rod through a bolt, the side wall of the rack is connected with slide rails through a bolt, a group of slide rails are connected with a slide block in a sliding and clamping manner in the middle, the slide block is connected with the end part of a main shaft of the first electric push rod through a bolt, one side of the upper end of the slide block is connected with a support block in a sliding manner, the side edge of the slide block is connected with a second electric push rod through bolts with the same specification, the end part of the second electric push rod is connected with the support block through a bolt;

the side of the rack is connected with a third electric push rod through a bolt, the main shaft end of the third electric push rod is connected with a top block through a bolt, the side wall of the top block is connected between the other group of slide rails in a sliding mode, and the end portion of the top block is provided with an arc-shaped groove structure.

Furthermore, the plug is internally connected with a first spring through a bolt, the other end of the first spring is connected to the bottom of the fixture block through a bolt, the front end of the plug is of an arc-shaped edge structure, the upper end of the fixture block is provided with an inclined plane structure matched with the groove of the side wall of the sleeve, and the front end face of the fixture block is a plane.

Furthermore, a pedal is connected in the groove of the side wall of the rack through a rotating shaft, the end part of the pedal is connected with a rope through a bolt, the rope is inserted in the plug, and the other end of the rope is inserted in the middle of the first spring and is connected with the bottom of the clamping block through a bolt.

Further, there are battery and positive reverse switch frame lower extreme one side through bolted connection, positive reverse switch passes through wire and battery electric connection, just positive reverse switch quantity is three groups, three groups positive reverse switch passes through wire and first electric putter, second electric putter and third electric putter electric connection respectively.

Furthermore, the bottom of the rack is connected with universal wheels through bolts, the number of the universal wheels is at least four, and the four universal wheels are distributed at the bottom of the rack at equal intervals.

Furthermore, a guide groove is formed in the side wall of the upper end of the sliding block, the side edge of the supporting block is connected with a guide rod through a bolt, and the end part of the guide rod is inserted into the guide groove.

Further, the frame side has the stopper that is located the slide rail lower extreme through bolted connection, stopper quantity is two sets of, and two sets of the stopper is located slider and kicking block below respectively, just set up in the middle of the stopper with the protruding assorted groove structure of slider and kicking block lateral wall, first electric putter and third electric putter main shaft joint are in the stopper intermediate position.

Furthermore, the lower ends of the sliding block and the top block are respectively connected with second springs with the same specification through bolts, the two groups of second springs are respectively sleeved on the outer sides of the main shafts of the first electric push rod and the third electric push rod, and the lower ends of the second springs are connected with the limiting block through bolts.

Further, the base is attached to the side wall of the lower end of the rack, the length of the sliding block is equal to that of the top block, and the protruding distance between the end portion of the sliding block and the end portion of the top block is equal to that of the top block.

The invention also provides a using method of the intelligent textile equipment with stable material conveying, which comprises the following steps:

step one, a rack provided with universal wheels is moved to the side edge of a base provided with a textile machine, then a plug on the side wall of the rack is aligned with a sleeve on the side wall of the base, the plug is inserted into the sleeve by applying force, the side wall of the sleeve is preferentially contacted with a clamping block arranged on the side wall of the plug when the plug is inserted, the clamping block is extruded into a groove on the inner side of the plug along the inclined surface of the clamping block, the rack is continuously pushed inwards, so that the side wall of the rack is attached to the side wall of the base, the clamping block arranged in the plug is aligned with a clamping groove in the sleeve at the moment, the clamping block is outwards ejected under the action of the elastic force of a first spring, so that the plug is clamped in the sleeve under the;

step two, when the rack is tightly attached to the side wall of the base, the ejector block arranged at the end part of the third electric push rod is positioned below a roller shaft of a textile machine, the power supply of the third electric push rod is connected through a forward and reverse switch, so that the third electric push rod drives the ejector block to ascend along a slide rail, when the ejector block is contacted with the roller shaft of the textile machine, the roller shaft of the textile machine is driven to be separated from a frame of the textile machine by continuously ascending, the roller shaft moves to a middle groove of the ejector block along an inclined plane structure at the end part of the ejector block, the third electric push rod is adjusted to reversely work through the forward and reverse switch to drive the ejector block to descend, so that the used roller shaft is taken out and moves to the upper part of a limiting block which does not influence the work of a new roller shaft, and the second spring is used for buffering;

thirdly, after the used roll shafts descend to the designated positions, the power supply of the first electric push rod is connected through a forward and reverse rotation switch, so that the first electric push rod drives the sliding block to ascend for a certain distance along the sliding rail, the new roll shafts are guaranteed to be higher than the roll shaft frame of the textile machine, and the new roll shafts can be conveniently and safely butted;

step four, after the sliding block rises to a specified height, a power supply corresponding to a second electric push rod is switched on through a forward and reverse rotation switch, the second electric push rod works to drive the supporting block to move along the sliding groove on the upper end face of the sliding block, a guide rod arranged on the side wall of the supporting block is used for matching with a guide groove on the upper end of the sliding block to limit the moving distance of the supporting block, and when a new roller shaft clamped at the end part of the supporting block is aligned with the roller frame of the textile machine, the power supply of the second electric push rod is switched;

step five, switching on a power supply corresponding to the first electric push rod through a forward and reverse rotation switch again, controlling the first electric push rod to drive the sliding block to descend, enabling a new roll shaft to be aligned and clamped in a groove in the middle of a textile machine roll shaft frame, completing roll shaft replacement work, and continuing descending, so that the first electric push rod drives the sliding block to descend to the height at which the supporting block is not in contact with the new roll shaft;

step six, at the moment, a power supply corresponding to the second electric push rod is switched on through a forward and reverse rotation switch, and the second electric push rod is controlled to pull the supporting block to the original position, so that the roller shaft can be conveniently placed for use next time;

and step seven, pressing the pedal, pulling the fixture block to descend through a rope by the pedal, compressing the first spring at the same time, retracting the fixture block into the plug, disconnecting the limit fit with the sleeve, pulling the rack outwards to separate the plug from the inside of the sleeve, conveniently moving the rack away, transferring the roller shaft of the middle ejector block of the rack, moving the rack to the side wall of the roller shaft when feeding again, aligning the end part of the ejector block with the main shaft of the roller shaft, driving the ejector block to ascend through a third electric push rod, lifting the roller shaft to the upper end of the slider to be flush with the end surface of the supporting block, moving the roller shaft when feeding again, transferring the roller shaft into the groove at the end part of the supporting block, completing the material preparation operation, and facilitating the next.

In summary, the invention mainly has the following beneficial effects:

according to the invention, the plug assembly is additionally arranged at the bottom of the rack and is matched with the sleeve on the side wall of the base for connection, so that the connection precision of the rack and the base of the textile machine can be improved, and the roller can be stably butted with a roller frame of the textile machine when the rack is butted with the textile machine;

according to the invention, the sliding block connected with the first electric push rod is added on the rack, and the supporting block component connected with the second electric push rod is added on the sliding block, so that a lifting and translating mechanism is formed, a roller shaft preset on the supporting block can be butted with a roller shaft frame of a textile machine, the roller shaft is conveniently transferred to the textile machine, the adjustment is simple, and the roller shaft replacement difficulty is reduced;

according to the invention, the ejecting block assembly connected with the third electric push rod is additionally arranged on the side wall of the frame, the ejecting block assembly can be driven by the third electric push rod when the ejecting block assembly is idle, an idle roller shaft is ejected and is level to the end face of the supporting block, the idle roller shaft is conveniently transferred to the supporting block, the prefabricated feeding operation is completed, the roller shaft on the roller frame of the textile machine can be taken down in the roller shaft replacing process, the roller shaft replacing operation of the moving part of the supporting block is convenient, and the adjustment is convenient.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural diagram of a feeding-stabilized intelligent textile device according to an embodiment;

FIG. 2 is a schematic side view of an intelligent textile device according to an embodiment;

FIG. 3 is a schematic structural diagram of a thimble assembly of an embodiment of a smart textile device;

FIG. 4 is a schematic structural diagram of a support block assembly of an intelligent textile apparatus according to an embodiment;

fig. 5 is a schematic structural diagram of an intelligent textile device top block according to an embodiment.

Wherein the figures include the following reference numerals:

1. a textile machine; 2. a frame; 3. a base; 4. a sleeve; 5. a plug; 6. a clamping block; 7. a first electric push rod; 8. a slider; 9. a support block; 10. a second electric push rod; 11. a third electric push rod; 12. a top block; 13. a slide rail; 14. a first spring; 15. a pedal; 16. a rope; 17. a storage battery; 18. a forward and reverse rotation switch; 19. a universal wheel; 20. a guide groove; 21. a guide bar; 22. a limiting block; 23. a second spring.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the disclosure. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Exemplary embodiments according to the present application will now be described in more detail with reference to the accompanying drawings. These exemplary embodiments may, however, be embodied in many different forms and should not be construed as limited to only the embodiments set forth herein. It is to be understood that these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the exemplary embodiments to those skilled in the art, in the drawings, the thicknesses of layers and regions are exaggerated for clarity, and the same devices are denoted by the same reference numerals, and thus the description thereof will be omitted.

The present invention is described in further detail below with reference to figures 1-5.

An intelligent textile device with stable material conveying comprises a textile machine 1 and a rack 2, wherein the textile machine 1 is connected to a base 3 through bolts, a sleeve 4 is welded on the side wall of the base 3, the side wall of the rack 2 is connected with a plug 5 through bolts, the end part of the plug 5 is inserted in the middle of the sleeve 4, a clamping block 6 is connected in a cavity in the plug 5 through a rotating shaft, and a clamping groove structure matched with the clamping block 6 is formed in the side wall of the sleeve 4;

the side edge of the middle of the frame 2 is connected with a first electric push rod 7 through a bolt, the side wall of the frame 2 is connected with a slide rail 13 through a bolt, a slide block 8 is slidably clamped in the middle of one group of slide rails 13, the slide block 8 is connected with the end part of a main shaft of the first electric push rod 7 through a bolt, one side of the upper end of the slide block 8 is slidably connected with a supporting block 9, the side edge of the slide block 8 is connected with a second electric push rod 10 through a bolt with the same specification, the end part of the second electric push rod 10 is connected with the supporting block 9 through a bolt, and a groove structure matched with a feeding roller;

the side of the frame 2 is connected with a third electric push rod 11 through a bolt, the main shaft end of the third electric push rod 11 is connected with a top block 12 through a bolt, the side wall of the top block 12 is connected with the middle of the other group of the slide rails 13 in a sliding manner, and the end part of the top block 12 is provided with an arc-shaped groove structure.

By adopting the technical scheme, the sleeve 4 part is additionally arranged on the side wall of the base 3 and is used for being matched with the sleeve 4 on the side wall of the rack 2 to be in butt joint, the plug 5 is inserted into the sleeve 4, so that the side wall of the rack 2 is attached to the side wall of the base 3, and the side wall of the plug 5 is provided with the fixture block 6 for increasing a positioning and fixing structure with the sleeve 4; the lateral wall of the frame 2 is additionally provided with a top block 12 connected through a third electric push rod 11, the end part of the top block 12 is additionally provided with an arc-shaped groove structure, the power supply of the top block 12 is switched on, the top block 12 can be driven to ascend, when the top block 12 is contacted with a roller shaft of the textile machine 1, the roller shaft of the textile machine 1 can be driven to be separated from a frame of the textile machine 1 by continuous ascending, the roller shaft can move to a middle groove of the top block 12 along an inclined plane structure at the end part of the top block 12, the third electric push rod 11 is adjusted to reversely work through a forward and reverse rotation switch 18, the top block 12 is driven; increase the removal basis of first electric putter 7 driven slider 8 subassembly simultaneously in frame 2 and constituted vertical direction, the removal basis of horizontal direction is constituteed through the supporting shoe 9 subassembly that second electric putter 10 is connected in the installation of slider 8 upper end, supporting shoe 9 tip increases groove structure and is used for placing the roller that needs to be changed, switch on first electric putter 7's power, can drive the supporting shoe 9 subassembly of slider 8 upper end installation and go up and down, adapt to not the weaving machine of co-altitude and use, switch on second electric putter 10's power, can drive supporting shoe 9 along the translation of slider 8 up end, the horizontal position of the roller that the adjustment needs to be changed, conveniently carry out the butt joint of horizontal direction with the roller frame of weaving machine 1, accomplish and change the roller operation.

Preferably, the inside of the plug 5 is connected with a first spring 14 through a bolt, the other end of the first spring 14 is connected to the bottom of the fixture block 6 through a bolt, the front end of the plug 5 is of an arc-shaped edge structure, the upper end of the fixture block 6 is provided with an inclined plane structure matched with a groove in the side wall of the sleeve 4, the front end face of the fixture block 6 is a plane, the groove in the side wall of the rack 2 is connected with a pedal 15 through a rotating shaft, the end part of the pedal 15 is connected with a rope 16 through a bolt, the rope 16 is inserted into the plug 5, and the other end of the rope 16 is inserted into the middle of the first spring 14 and connected.

By adopting the technical scheme, the first spring 14 is additionally arranged in the plug 5, and the fixture block 6 is ejected outwards under the action of the elastic force of the first spring 14, so that the plug 5 is clamped in the sleeve 4 under the matching of the fixture block 6, and the stability of the connecting structure of the rack 2 and the base 3 is maintained; when the connection structure of the plug 5 and the sleeve 4 needs to be disassembled, the pedal 15 is pressed, the pedal 15 can pull the fixture block 6 to descend through the rope 16, the first spring 14 can be compressed, the fixture block 6 retracts into the plug 5, the limit matching with the sleeve 4 is broken, the rack 2 is pulled outwards, the plug 5 is separated from the interior of the sleeve 4, and the rack 2 is convenient to move away.

Preferably, a storage battery 17 and a forward and reverse rotation switch 18 are connected to one side of the lower end of the frame 2 through bolts, the forward and reverse rotation switch 18 is electrically connected to the storage battery 17 through a lead, the number of the forward and reverse rotation switches 18 is three, and the three sets of forward and reverse rotation switches 18 are electrically connected to the first electric push rod 7, the second electric push rod 10 and the third electric push rod 11 through leads respectively.

By adopting the above technical scheme, the storage battery 17 is used for cooperating with the forward and reverse rotation switch 18 to supply power to the first electric push rod 7, the second electric push rod 10 and the third electric push rod 11, and adjusting the working states of the first electric push rod 7, the second electric push rod 10 and the third electric push rod 11.

Preferably, the bottom of the frame 2 is connected with universal wheels 19 through bolts, the number of the universal wheels 19 is at least four, and the four universal wheels 19 are distributed at the bottom of the frame 2 at equal intervals.

Through adopting above-mentioned technical scheme, install universal wheel 19 in frame 2 bottom, conveniently remove frame 2 subassembly, change with the connected state of weaving machine 1.

Preferably, a guide groove 20 is formed in the side wall of the upper end of the sliding block 8, the side edge of the supporting block 9 is connected with a guide rod 21 through a bolt, and the end part of the guide rod 21 is inserted into the guide groove 20.

Through adopting above-mentioned technical scheme, increase guide way 20 on slider 8, increase guide bar 21 simultaneously at the supporting shoe 9 lateral wall, when supporting shoe 9 removed, guide way 20 can cooperate guide bar 21 to carry on spacingly to supporting shoe 9, prevent that supporting shoe 9 from breaking away from slider 8 upper end.

Preferably, the side of the frame 2 is connected with a limiting block 22 located at the lower end of the slide rail 13 through a bolt, the limiting blocks 22 are two groups, and the limiting blocks 22 are located below the slide block 8 and the top block 12 respectively, a groove structure matched with the protrusions of the side walls of the slide block 8 and the top block 12 is formed in the middle of the limiting block 22, the first electric push rod 7 and the third electric push rod 11 are connected to the middle of the limiting block 22 in a clamping manner, the lower ends of the slide block 8 and the top block 12 are connected with second springs 23 with the same specification through bolts respectively, the second springs 23 are connected to the outer sides of the first electric push rod 7 and the third electric push rod 11 respectively in a sleeving manner, and the lower ends of the second springs 23 are connected with the limiting.

Through adopting above-mentioned technical scheme, increase stopper 22 cooperation second spring 23 and connect slider 8 and kicking block 12 at frame 2 lower extreme, second spring 23 is used for buffering slider 8 and kicking block 12, reduces the impact force that the roller brought when slider 8 and kicking block 12 tip remove.

Preferably, the base 3 is attached to the side wall of the lower end of the rack 2, the length of the sliding block 8 is equal to that of the top block 12, and the protruding distance between the end parts of the sliding block 8 and the top block 12 is equal.

Through adopting above-mentioned technical scheme, equidistant and the slider 8 and kicking block 12 of length setting conveniently lay the roller, guarantee that the roller can stably carry.

The invention also provides a using method of the intelligent textile equipment with stable material conveying, which comprises the following steps:

step one, a rack 2 provided with a universal wheel 19 is moved to the side edge of a base 3 provided with a textile machine 1, then a plug 5 on the side wall of the rack 2 is aligned with a sleeve 4 on the side wall of the base 3, the plug 5 is inserted into the sleeve 4 by applying force, the side wall of the sleeve 4 is preferentially contacted with a clamping block 6 arranged on the side wall of the plug 5 when the plug is inserted, the clamping block 6 is extruded into a groove on the inner side of the plug 5 along the inclined surface of the clamping block 6, the rack 2 is continuously pushed inwards, so that the side wall of the rack 2 is attached to the side wall of the base 3, the clamping block 6 arranged in the plug 5 is aligned with a clamping groove in the sleeve 4 at the moment, the clamping block 6 is outwards ejected under the elastic force action of a first spring 14, the plug 5 is clamped in the sleeve 4 under the matching of the clamping block 6;

step two, when the frame 2 and the side wall of the base 3 are tightly attached, the top block 12 arranged at the end part of the third electric push rod 11 is positioned below the roller shaft of the textile machine 1, the power supply of the third electric push rod 11 is connected through the forward and reverse rotation switch 18, so that the third electric push rod 11 drives the ejector block 12 to ascend along the slide rail 13, when the top block 12 is in contact with the roller of the textile machine 1, the roller of the textile machine 1 is driven to be separated from the frame of the textile machine 1 by continuously rising, the roller moves to the middle groove of the top block 12 along the slope structure at the end part of the top block 12, the third electric push rod 11 is adjusted to work reversely through the forward and reverse rotation switch 18, the ejector block 12 is driven to descend, so that the used roller shaft is taken out, and moved above the limit block 22 which does not affect the operation of the new roller shaft, the second spring 23 is used for buffering the top block 12 and reducing impact force caused by movement of the roll shaft on the inclined plane at the end part of the top block 12;

step three, after the used roll shafts descend to the designated positions, the power supply of the first electric push rod 7 is connected through the forward and reverse rotation switch 18, so that the first electric push rod 7 drives the sliding block 8 to ascend for a certain distance along the sliding rail 13, a new roll shaft is guaranteed to be higher than a roll shaft frame of the textile machine 1, and the new roll shaft is convenient to butt safely;

step four, after the slide block 8 rises to a specified height, a power supply corresponding to the second electric push rod 10 is switched on through the forward and reverse rotation switch 18, the second electric push rod 10 works to drive the supporting block 9 to move along a chute on the upper end face of the slide block 8, a guide rod 21 arranged on the side wall of the supporting block 9 is used for matching with a guide groove 20 on the upper end of the slide block 8 to limit the moving distance of the supporting block 9, and when a new roll shaft clamped at the end part of the supporting block 9 is aligned with the roll shaft frame position of the textile machine 1, the power supply of the second electric push rod 10 is switched;

step five, switching on the power supply corresponding to the first electric push rod 7 through the forward and reverse rotation switch 18 again, controlling the first electric push rod 7 to drive the sliding block 8 to descend, enabling a new roll shaft to be aligned and clamped in a groove in the middle of the roll shaft frame of the textile machine 1, completing roll shaft replacement work, and continuing descending, enabling the first electric push rod 7 to drive the sliding block 8 to descend to the height that the supporting block 9 is not in contact with the new roll shaft;

step six, at the moment, the power supply corresponding to the second electric push rod 10 is switched on through the forward and reverse rotation switch 18, the second electric push rod 10 is controlled to pull the supporting block 9 to the original position, and the roller shaft can be conveniently placed for use next time;

and seventhly, pressing the pedal 15, wherein the pedal 15 can pull the fixture block 6 to descend through the rope 16 and can compress the first spring 14 at the same time, the fixture block 6 retracts into the plug 5, the limit fit with the sleeve 4 is broken, the rack 2 is pulled outwards to enable the plug 5 to be separated from the interior of the sleeve 4, the rack 2 is convenient to move away, the roller shaft of the middle ejector block 12 of the rack 2 is transferred, when the material is fed again, the rack 2 is moved to the side wall of the roller shaft, the end part of the ejector block 12 is aligned with the main shaft of the roller shaft, the ejector block 12 is driven to ascend through the third electric push rod 11, the roller shaft is lifted to the upper end of the sliding block 8 to be flush with the end surface of the supporting block 9, the roller shaft is moved to be transferred into the groove at the end part of.

Preferably, the use method of the intelligent textile equipment with stable material conveying has the advantages of simple steps, easiness and reasonability in operation and convenience for skilled use of designers.

It is worth to be noted that in the embodiment, the use of the forward and reverse rotation switch 18 and the storage battery 17 can be omitted, the circuits of the three groups of electric push rods are directly and intensively connected into the main machine of the textile machine 1, and the main machine of the textile machine 1 sets programs to control the circuits, so that the consumption of manual operation is reduced, the roller shaft is replaced more timely, and the time wasted in replacing the roller shaft is reduced;

secondly, three electric putter subassemblies of group can be replaced for pneumatic propulsion subassembly or electronic hydraulic stem subassembly according to actual demand, and the operation of changing the roller all can be accomplished, by 1 subassembly control of weaving machine, adjusts more sensitively.

In addition, for the sake of safety, a counterweight can be added at the bottom of the frame 2 to adapt to the replacement work of the roll shaft with higher weight, and the stability of the components of the frame 2 is ensured.

The working principle is as follows: the method comprises the following steps that a rack 2 provided with a universal wheel 19 is moved to the side edge of a base 3 provided with a textile machine 1, then a plug 5 on the side wall of the rack 2 is aligned with a sleeve 4 on the side wall of the base 3, the plug 5 is inserted into the sleeve 4 by applying force, the side wall of the sleeve 4 is preferentially contacted with a clamping block 6 arranged on the side wall of the plug 5 during insertion, the clamping block 6 is extruded into a groove on the inner side of the plug 5 along the inclined surface of the clamping block 6, the rack 2 is continuously pushed inwards, so that the side wall of the rack 2 is attached to the side wall of the base 3, the clamping block 6 arranged inside the plug 5 is aligned with a clamping groove in the sleeve 4 at the moment, the clamping block 6 is outwards ejected under the elastic action of a first spring 14, the plug 5 is clamped in the sleeve 4 under the matching;

when the frame 2 and the side wall of the base 3 are tightly attached, the top block 12 arranged at the end part of the third electric push rod 11 is positioned below the roller shaft of the textile machine 1, the power supply of the third electric push rod 11 is connected through the forward and reverse rotation switch 18, so that the third electric push rod 11 drives the ejector block 12 to ascend along the slide rail 13, when the top block 12 is in contact with the roller of the textile machine 1, the roller of the textile machine 1 is driven to be separated from the frame of the textile machine 1 by continuously rising, the roller moves to the middle groove of the top block 12 along the slope structure at the end part of the top block 12, the third electric push rod 11 is adjusted to work reversely through the forward and reverse rotation switch 18, the ejector block 12 is driven to descend, so that the used roller shaft is taken out, and moved above the limit block 22 which does not affect the operation of the new roller shaft, the second spring 23 is used for buffering the top block 12 and reducing impact force caused by movement of the roll shaft on the inclined plane at the end part of the top block 12;

after the used roll shafts descend to the designated positions, the power supply of the first electric push rod 7 is switched on through the forward and reverse rotation switch 18, so that the first electric push rod 7 drives the sliding block 8 to ascend for a certain distance along the sliding rail 13, a new roll shaft is guaranteed to be higher than a roll shaft frame of the textile machine 1, and the new roll shaft is convenient to butt safely;

after the slide block 8 rises to a specified height, a power supply corresponding to the second electric push rod 10 is switched on through the forward and reverse rotation switch 18, the second electric push rod 10 works to drive the supporting block 9 to move along the chute on the upper end face of the slide block 8, the guide rod 21 arranged on the side wall of the supporting block 9 is used for matching with the guide groove 20 on the upper end of the slide block 8 to limit the moving distance of the supporting block 9, and when a new roll shaft clamped at the end part of the supporting block 9 is aligned with the roll shaft frame of the textile machine 1, the power supply of the second electric push rod 10 is switched off;

the power supply corresponding to the first electric push rod 7 is switched on through the forward and reverse rotation switch 18 again, the first electric push rod 7 is controlled to drive the sliding block 8 to descend, so that a new roll shaft is aligned and clamped in a groove in the middle of the roll shaft frame of the textile machine 1, the roll shaft replacement work is completed, the first electric push rod 7 continues to descend, and the first electric push rod 7 drives the sliding block 8 to descend to the height at which the supporting block 9 is not in contact with the new roll shaft;

at the moment, the power supply corresponding to the second electric push rod 10 is switched on through the forward and reverse rotation switch 18, the second electric push rod 10 is controlled to pull the supporting block 9 to the original position, and the roller shaft can be conveniently placed for use next time;

pressing pedal 15, pedal 15 can be through 16 pulling fixture block 6 descendants of rope, can compress first spring 14 simultaneously, fixture block 6 returns to go back to go into inside plug 5, disconnection and the spacing cooperation of sleeve pipe 4, outside pulling frame 2 makes plug 5 break away from the sleeve pipe 4 is inside, conveniently remove frame 2, and shift the roller of kicking block 12 in the middle of frame 2, when material loading once more, move frame 2 to the roller lateral wall, align kicking block 12 tip and roller spindle, drive kicking block 12 through third electric putter 11 and rise, it is level with supporting shoe 9 terminal surface to promote the roller to 8 upper ends of slider, the roller moves at this time, shift the roller to supporting shoe 9 tip recess, accomplish the operation of prepareeing materials, make things convenient for the material loading of next time to change the roller operation.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.