CN113122968B - Textile equipment with damping function and textile damping method - Google Patents

Abstract

The invention discloses a textile device with a shock absorption function and a textile shock absorption method, and relates to the technical field of textiles. The first supporting base and the second supporting base are used for supporting the textile equipment, and then the two shock absorption mechanisms are used for preventing the small-range movement of the position of the textile equipment from being influenced by overlarge shock generated during the working of the textile equipment, so that the influence on the normal feeding of yarns caused by the movement of the textile equipment can be avoided.

Description

Textile equipment with damping function and textile damping method

Technical Field

The invention relates to the technical field of spinning, in particular to spinning equipment with a damping function and a spinning damping method.

Background

Weaving equipment is essential equipment during weaving operation, because weaving equipment during operation can produce unnecessary vibrations, and weaving equipment vibrations in the time, can lead to the required yarn in the weaving process to take place to remove because of the too big weaving equipment position that leads to of vibration range to influence weaving equipment yarn and normally feed the operation, so designed a weaving equipment and weaving shock attenuation method with shock-absorbing function here, so as to solve above-mentioned problem.

Disclosure of Invention

The invention aims to provide a textile device with a damping function and a textile damping method, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a textile device with a shock absorption function comprises a first supporting base, a second supporting base and two shock absorption mechanisms, wherein the first supporting base and the second supporting base are horizontally and oppositely distributed, the textile device is supported by the first supporting base and the second supporting base, moving rollers are rotatably arranged at four corner positions at the bottom ends of the first supporting base and the second supporting base, the first supporting base and the second supporting base horizontally and freely slide by the aid of the moving rollers, and the size of a supporting surface of the first supporting base and the size of a supporting surface of the second supporting base can be adjusted according to the span size of the bottom surface of the device;

rectangular moving grooves are formed in the middle positions of the upper ends of the first supporting base and the second supporting base, the cushioning mechanism comprises a moving limiting clamping plate and positioning pressing blocks, the moving limiting clamping plate is slidably clamped inside the rectangular moving grooves, a hinge frame is vertically arranged on one side, away from each other, of the middle positions of the upper ends of the first supporting base and the second supporting base, the adjusting plate is rotatably arranged at the top end of the hinge frame, a torsional spring is arranged at the hinge position, a jacking block used for jacking the adjusting plate in a rotating mode around the hinge position is arranged on the side wall of the moving limiting clamping plate, one side, away from the moving limiting clamping plate, of the jacking block is a 45-degree inclined surface, the positioning pressing blocks are hinged with one end of the adjusting plate, the two positioning pressing blocks are respectively located below one side, away from each other, of the first supporting base and the second supporting base, the positioning pressing blocks of the cushioning mechanism are pressed against the ground at the mounting position, and therefore the first supporting base and the second supporting base can be prevented from moving randomly through moving idler wheels, through the injecing of location briquetting, can avoid weaving equipment during operation to produce the vibration and lead to weaving equipment position small-range to remove to can avoid leading to the yarn to normally feed because of weaving equipment's removal and receive the influence.

In a further embodiment, the lower end face of the positioning pressing block is fixedly adhered with the fluororubber pad, and the fluororubber pad cannot deform at will and can play a role in skid resistance by utilizing the characteristic that the fluororubber pad has high hardness and strong skid resistance.

In further embodiment, the inside both sides lateral wall of rectangle shifting chute has all seted up the spacing draw-in groove of rectangle, and the both sides lateral wall of removing spacing cardboard all is equipped with the spacing fixture block with the inside slip joint of the spacing draw-in groove of rectangle, through spacing fixture block slip joint inside the spacing draw-in groove of rectangle, can also avoid removing the phenomenon appearance that the inside of spacing cardboard when sliding breaks away from the rectangle shifting chute.

In further embodiment, the equal horizontal extension in both sides lateral wall top that removes spacing cardboard has the protection crossbeam, prescribes a limit to the weaving equipment lateral wall through setting up the protection crossbeam, avoids weaving equipment to appear free wobbling phenomenon because of vibrations on first support base and second support base.

In a further embodiment, a feeding mechanism is arranged between the first supporting base and the second supporting base, the first supporting base and the second supporting base are connected through the feeding mechanism, and meanwhile the first supporting base and the second supporting base can be closed through the feeding mechanism, so that the textile equipment is effectively supported;

the feeding mechanism comprises a transmission rod, two threaded rods and two threaded cylinders, the transmission rod is rotatably inserted into the first support base, the two axial ends of the transmission rod respectively extend into the two corresponding hollow connecting seats in a rotating manner, the outer wall of the transmission rod is fixedly sleeved with two first bevel gears respectively positioned in the two hollow connecting seats, one ends of the two threaded rods respectively extend into the hollow connecting seats on the two sides of the first support base in a rotating manner, the threaded rods are connected with second bevel gears meshed with the first bevel gears, the two threaded cylinders are respectively fixedly connected with the side walls of the hollow connecting seats on the two sides of the second support base, the threaded rods are rotatably inserted into the threaded cylinders, and the two first bevel gears can be driven to rotate by rotating the transmission rod, so that the two second bevel gears synchronously rotate, two threaded rods are driven to rotate synchronously, and the axial adjustment can be realized between the rotating threaded rod and the threaded barrel, so that the first supporting base and the second supporting base can be closed, and the spinning equipment is effectively supported.

In a further embodiment, one axial end of the transmission rod extends to the outer wall of one of the hollow connecting seats and is provided with a cross-shaped groove, and a cross-shaped screwdriver is inserted into the cross-shaped groove, so that the transmission rod can be rotated in an auxiliary manner conveniently, and time and labor are saved.

In a further embodiment, the opposite side walls of the first supporting base and the second supporting base are provided with a plurality of lifting mechanisms which are distributed in a mutually crossed manner, each lifting mechanism comprises a first triangular supporting frame, a second triangular supporting frame and a plurality of guide rollers, the first triangular supporting frame and the second triangular supporting frame are distributed oppositely, the axial two ends of each guide roller are rotatably inserted into the first triangular supporting frame and the second triangular supporting frame, the bottom end surface of the textile equipment can be in rolling fit with the guide rollers between the first triangular supporting frame and the second triangular supporting frame, and as the plurality of guide rollers are distributed along the inclined surfaces of the upper ends of the first triangular supporting frame and the second triangular supporting frame, the textile equipment is gradually lifted up along with the gradual closing of the lifting mechanisms at the two sides until the textile equipment completely slides onto the first supporting base and the second supporting base, the traditional lifting mode is replaced, the installation cost is saved, and a large amount of manpower is not required to be consumed.

In a further embodiment, the highest point of the radial side wall of the guide roller is 5mm higher than the upper end surface of the first triangular support frame, so that the highest point of the radial side wall of the guide roller can be in rolling fit with the bottom end surface of the textile equipment, and the effective lifting operation of the textile equipment is guaranteed.

Preferably, the textile damping method based on the textile equipment with the damping function comprises the following steps:

a1, placing the textile equipment at the upper ends of a first supporting base and a second supporting base, ensuring that the textile equipment is positioned between two movable limiting clamping plates, moving the first supporting base and the second supporting base together, enabling the two movable limiting clamping plates to slide to one side away from each other along the inside of respective rectangular moving grooves, enabling an adjusting plate to rotate around a hinged joint to be jacked up by utilizing a jacking block, namely enabling a positioning pressing block to be pressed downwards to the ground of an installation position, avoiding small-range movement of the position of the textile equipment caused by vibration generated during the working of the textile equipment, and further avoiding influence on normal feeding of yarns caused by the movement of the textile equipment;

a2, roll the laminating with the guide roll between the bottom face of weaving equipment and first triangular supports frame and the second triangular supports frame, because a plurality of guide roll distributes along the inclined plane of first triangular supports frame and second triangular supports frame upper end, so along with the mechanism of lifting up of both sides closes gradually, weaving equipment is lifted gradually, until weaving equipment slides completely to first support base and second support base on, replace the mode that the tradition adopted hoist and mount, save installation cost, need not to consume a large amount of manpowers.

Compared with the prior art, the invention has the beneficial effects that:

the first supporting base and the second supporting base are used for supporting the textile equipment, and then the small-range movement of the position of the textile equipment, which is influenced by overlarge vibration generated during the working of the textile equipment, is avoided through the two cushioning mechanisms, so that the influence on the normal feeding of yarns caused by the movement of the textile equipment can be avoided.

Drawings

FIG. 1 is a schematic view of the main structure of the present invention;

FIG. 2 is an enlarged view of the structure of FIG. 1 at A in accordance with the present invention;

FIG. 3 is a cross-sectional view of a first support base and feed mechanism of the present invention;

FIG. 4 is an enlarged view of the structure of FIG. 1 at B according to the present invention;

fig. 5 is a sectional view of a first supporting base structure of the present invention.

In the figure: 1. a first support base; 2. a second support base; 3. a lifting mechanism; 31. a first triangular support frame; 32. a second triangular support frame; 33. a guide roller; 4. a feed mechanism; 41. a hollow connecting seat; 42. a threaded cylinder; 43. a threaded rod; 44. a transmission rod; 45. a cross groove; 46. a second bevel gear; 47. a first bevel gear; 5. a rectangular moving slot; 51. a rectangular limiting clamping groove; 6. a cushioning mechanism; 61. moving the limiting clamping plate; 62. a protective beam; 63. a hinged frame; 64. an adjusting plate; 65. positioning a pressing block; 66. a fluororubber pad; 67. a top block; 68. a limiting clamping block; 7. the roller is moved.

Detailed Description

The following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1-5, the present embodiment provides a textile apparatus with a shock absorption function and a textile shock absorption method, including a first supporting base 1, a second supporting base 2 and two shock absorption mechanisms 6, wherein the first supporting base 1 and the second supporting base 2 are horizontally and oppositely distributed, four corner positions at the bottom ends of the first supporting base 1 and the second supporting base 2 are respectively and rotatably provided with a moving roller 7, the first supporting base 1 and the second supporting base 2 can horizontally and freely slide by using the moving roller 7, the size of the supporting surface of the first supporting base 1 and the second supporting base 2 can be adjusted according to the size of the bottom surface span of the apparatus, and the textile apparatus is supported by using the first supporting base 1 and the second supporting base 2.

First support base 1 and second support base 2's upper end middle section position has all seted up rectangle shifting chute 5, bradyseism mechanism 6 is including removing spacing cardboard 61 and location briquetting 65, remove the inside of spacing cardboard 61 slip joint at rectangle shifting chute 5, it is located between two removal spacing cardboards 61 to weave the equipment, utilize two to remove spacing cardboard 61 along the inside slip of the rectangle shifting chute 5 that corresponds separately, realize adjusting two spacing clearance sizes that remove between the spacing cardboard 61, thereby satisfy putting of not unidimensional weaving equipment.

The side, away from each other, of the middle position of the upper end of the first supporting base 1 and the second supporting base 2 is vertically provided with a hinged frame 63, the top end of the hinged frame 63 is rotatably provided with an adjusting plate 64, the hinged position is provided with a torsion spring, the side wall of the movable limiting clamping plate 61 is provided with an ejecting block 67 for rotatably ejecting the adjusting plate 64 around the hinged position, one side, away from the movable limiting clamping plate 61, of the ejecting block 67 is a 45-degree inclined plane, a positioning pressing block 65 is hinged with one end of the adjusting plate 64, the two positioning pressing blocks 65 are respectively positioned below the side, away from each other, of the first supporting base 1 and the second supporting base 2, by arranging the textile equipment at the upper ends of the first supporting base 1 and the second supporting base 2 and ensuring that the textile equipment is positioned between the two movable limiting clamping plates 61, by drawing the first supporting base 1 and the second supporting base 2 together, the first supporting base 1 and the second supporting base 2 are continuously drawn together, two remove spacing cardboard 61 can slide to the one side of keeping away from each other along respective rectangle shifting chute 5's inside, usable kicking block 67 rotates jack-up regulating plate 64 around articulated department, can push down location briquetting 65 and support subaerial at mounted position, can avoid first support base 1 and second support base 2 to remove at will through removing gyro wheel 7 like this, accessible location briquetting 65's injecion in addition, can avoid weaving equipment during operation to produce the vibration and lead to weaving equipment position miniaturation to remove, thereby can avoid leading to the yarn to normally feed and receive the influence because of weaving equipment's removal.

In order to solve the problem that how avoid removing when spacing cardboard 61 slides from the inside of rectangle shifting chute 5 and break away from, the spacing draw-in groove 51 of rectangle has all been seted up to the inside both sides lateral wall of rectangle shifting chute 5, the both sides lateral wall of removing spacing cardboard 61 all is equipped with the spacing fixture block 68 with the inside slip joint of the spacing draw-in groove 51 of rectangle, slip joint inside the spacing draw-in groove 51 of rectangle through spacing fixture block 68, do not influence the inside free slip of removing spacing cardboard 61 at rectangle shifting chute 5, the phenomenon that can also avoid removing when spacing cardboard 61 slides and break away from the inside of rectangle shifting chute 5 appears.

In order to solve the problem of how to assist in drawing close the first supporting base 1 and the second supporting base 2, a feeding mechanism 4 is arranged between the first supporting base 1 and the second supporting base 2, the first supporting base 1 and the second supporting base 2 are connected through the feeding mechanism 4, and meanwhile, the first supporting base 1 and the second supporting base 2 can be drawn close through the feeding mechanism 4, so that the textile equipment is effectively supported.

The end of the two side walls of the first supporting base 1 and the second supporting base 2 far away from each other is provided with a hollow connecting base 41, the feeding mechanism 4 comprises a transmission rod 44, two threaded rods 43 and two threaded cylinders 42, the transmission rod 44 is rotatably inserted into the first supporting base 1, the two axial ends of the transmission rod 44 are respectively rotatably extended into the two corresponding hollow connecting bases 41, the outer wall of the transmission rod 44 is fixedly sleeved with two first bevel gears 47 respectively positioned in the two hollow connecting bases 41, one end of each threaded rod 43 is respectively rotatably extended into the hollow connecting bases 41 on the two sides of the first supporting base 1, the threaded rod 43 is connected with a second bevel gear 46 meshed with the first bevel gear 47, the two threaded cylinders 42 are respectively fixedly connected with the side walls of the hollow connecting bases 41 on the two sides of the second supporting base 2, the threaded rod 43 is rotatably inserted into the threaded cylinders 42, and the transmission rod 44 is rotated, the two first bevel gears 47 can be driven to rotate, so that the two second bevel gears 46 synchronously rotate, namely, the two threaded rods 43 are synchronously driven to rotate, the rotating threaded rods 43 can be axially adjusted with the threaded cylinder 42, and the first supporting base 1 and the second supporting base 2 can be closed, namely, the textile equipment can be effectively supported.

In order to solve the problem of how to replace a hoisting device to place the textile equipment at the upper ends of a first supporting base 1 and a second supporting base 2, a plurality of lifting mechanisms 3 which are distributed in a mutually crossed manner are arranged on the opposite side walls of the first supporting base 1 and the second supporting base 2, the lifting mechanisms 3 are distributed in a mutually crossed manner, the folding operation of the first supporting base 1 and the second supporting base 2 is not influenced, each lifting mechanism 3 comprises a first triangular supporting frame 31, a second triangular supporting frame 32 and a plurality of guide rollers 33, the first triangular supporting frame 31 and the second triangular supporting frame 32 are distributed in a mutually opposite manner, the axial two ends of the plurality of guide rollers 33 are rotatably inserted with the first triangular supporting frame 31 and the second triangular supporting frame 32, the first supporting base 1 and the second supporting base 2 are respectively placed at the two sides of the textile equipment, and the lifting mechanisms 3 which are installed on the first supporting base 1 and the second supporting base 2 are respectively placed at the two sides below the textile equipment, utilize the feeding operation of feeding mechanism 4, can realize closing up first support base 1 and second support base 2, can close up lifting up mechanism 3 of both sides, weaving equipment's bottom face can roll with the guide roll 33 between first triangular supports frame 31 and the second triangular supports frame 32 and laminate, because a plurality of guide roll 33 is along the inclined plane distribution of first triangular supports frame 31 and second triangular supports frame 32 upper end, so along with lifting up mechanism 3 of both sides closes up gradually, weaving equipment is lifted up gradually, until weaving equipment slides completely to first support base 1 and second support base 2 on, replace the mode that the tradition adopted hoist and mount, save installation cost, need not to consume a large amount of manpowers.

In addition, the highest point of the radial side wall of the guide roller 33 is 5mm higher than the upper end surface of the first triangular support frame 31, so that the highest point of the radial side wall of the guide roller 33 can be in rolling fit with the bottom end surface of the textile equipment, and the problem that the bottom end surface of the textile equipment is contacted with the upper end surface of the first triangular support frame 31 or the upper end surface of the second triangular support frame 32 to influence the lifting operation of the textile equipment is avoided.

Example two

Referring to fig. 1-5, a further improvement is made on the basis of embodiment 1:

in order to further solve the problem of how to avoid the weaving equipment to take place the side and move, the terminal surface is fixed to be pasted with fluororubber pad 66 under the locating briquetting 65, through set up fluororubber pad 66 at locating briquetting 65 lower extreme, utilizes the specific hardness of fluororubber pad 66 self great and have stronger anti-skidding characteristic, can not take place deformation at will, and can play skid-proof effect.

In order to solve the problem of how to avoid weaving equipment to appear free wobbling because of vibrations on first support base 1 and second support base 2, the equal level extension in both sides lateral wall top of removing spacing cardboard 61 has protection crossbeam 62, prescribes a limit to the weaving equipment lateral wall through setting up protection crossbeam 62, avoids weaving equipment to appear free wobbling phenomenon because of vibrations on first support base 1 and second support base 2.

One axial end of the transmission rod 44 extends to the outer wall of one of the hollow connecting seats 41, and is provided with a cross-shaped groove 45, and a cross-shaped screwdriver is inserted into the cross-shaped groove 45, so that the transmission rod 44 can be rotated in an auxiliary manner, and time and labor are saved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a weaving equipment with shock-absorbing function, includes that first support base (1), second support base (2) and two bradyseism mechanisms (6), its characterized in that: the first supporting base (1) and the second supporting base (2) are horizontally and oppositely distributed, and four corner positions at the bottom ends of the first supporting base (1) and the second supporting base (2) are respectively and rotatably provided with a movable roller (7);

rectangular moving grooves (5) are formed in the middle positions of the upper ends of the first supporting base (1) and the second supporting base (2), the cushioning mechanism (6) comprises a movable limiting clamping plate (61) and a positioning pressing block (65), the movable limiting clamping plate (61) is connected to the inside of the rectangular moving grooves (5) in a sliding and clamping mode, a hinge frame (63) is vertically arranged on one side, away from each other, of the middle positions of the upper ends of the first supporting base (1) and the second supporting base (2), an adjusting plate (64) is arranged at the top end of the hinge frame (63) in a rotating mode, a torsion spring is arranged at the hinge position, an ejecting block (67) used for ejecting the adjusting plate (64) in a rotating mode around the hinge position is arranged on the side wall of the movable limiting clamping plate (61), an inclined plane of 45 degrees is arranged on one side, away from the movable limiting clamping plate (61), the positioning pressing block (65) is hinged to one end of the adjusting plate (64), the two positioning pressing blocks (65) are respectively positioned below one side, away from each other, of the first supporting base (1) and the second supporting base (2).

2. A textile apparatus with shock-absorbing function, according to claim 1, characterized in that: and a fluororubber pad (66) is fixedly adhered to the lower end face of the positioning pressing block (65).

3. A textile apparatus with shock-absorbing function, according to claim 1, characterized in that: the inside both sides lateral wall of rectangle removal groove (5) has all been seted up rectangle spacing draw-in groove (51), the both sides lateral wall that removes spacing cardboard (61) all is equipped with spacing fixture block (68) with the inside slip joint of rectangle spacing draw-in groove (51).

4. A textile apparatus with shock-absorbing function, according to claim 1, characterized in that: the top ends of the side walls on the two sides of the movable limiting clamping plate (61) are horizontally extended to form a protective cross beam (62).

5. A textile apparatus with shock-absorbing function, according to claim 1, characterized in that: a feeding mechanism (4) is arranged between the first supporting base (1) and the second supporting base (2);

first support base (1) and second support base (2) both sides lateral wall one end of keeping away from each other all is equipped with cavity connecting seat (41), feed mechanism (4) are including transfer line (44), two threaded rods (43) and two screw thread barrel (42), transfer line (44) rotate with first support base (1) and peg graft and transfer line (44) axial both ends respectively and rotate and extend to two cavity connecting seats (41) that correspond inside, the outer wall of transfer line (44) is fixed to be cup jointed two and is located two inside first bevel gears (47) of cavity connecting seat (41) respectively, two the one end of threaded rod (43) rotates respectively and extends to inside and threaded rod (43) of cavity connecting seat (41) of first support base (1) both sides and is connected with second bevel gear (46) with first bevel gear (47) meshing, two screw thread barrel (42) support base (2) both sides cavity connecting seat (41) side respectively and screw thread barrel (42) side The wall is fixedly connected, and the threaded rod (43) is rotatably inserted into the threaded cylinder (42).

6. A textile apparatus with shock-absorbing function, according to claim 5, characterized in that: one axial end of the transmission rod (44) extends to the outer wall of one of the hollow connecting seats (41) and is provided with a cross groove (45).

7. A textile apparatus with shock-absorbing function, according to claim 1, characterized in that: first support base (1) and second support base (2) relative lateral wall are equipped with the lifting mechanism (3) that a plurality of intercrossing distributes, lifting mechanism (3) are including first triangular supports frame (31), second triangular supports frame (32) and a plurality of guide roll (33), first triangular supports frame (31) and second triangular supports frame (32) are just to distributing each other and a plurality of guide roll (33) axial both ends rotate with first triangular supports frame (31) and second triangular supports frame (32) and peg graft.

8. A textile apparatus with shock-absorbing function, according to claim 7, characterized in that: the highest point of the radial side wall of the guide roller (33) is 5mm higher than the upper end face of the first triangular support frame (31).

9. A textile shock absorbing method of a textile apparatus with a shock absorbing function according to claim 8, comprising the steps of:

A1. the textile equipment is arranged at the upper ends of the first supporting base (1) and the second supporting base (2), the textile equipment is positioned between the two movable limiting clamping plates (61), the first supporting base (1) and the second supporting base (2) are drawn close, the two movable limiting clamping plates (61) can slide to one side far away from each other along the inside of the respective rectangular moving groove (5), the adjusting plate (64) can be rotated and jacked up around the hinged part by using the jacking block (67), namely, the positioning pressing block (65) can be pressed down and abutted on the ground at the mounting position, the small-range movement of the position of the textile equipment caused by the vibration generated during the work of the textile equipment can be avoided, and the influence on the normal feeding of yarns caused by the movement of the textile equipment can be avoided;

A2. the bottom end face of the textile equipment is in rolling fit with the guide rollers (33) between the first triangular support frame (31) and the second triangular support frame (32), and the guide rollers (33) are distributed along the inclined planes at the upper ends of the first triangular support frame (31) and the second triangular support frame (32), so that the textile equipment is gradually lifted along with the lifting mechanisms (3) at the two sides until the textile equipment completely slides to the first support base (1) and the second support base (2).

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