CN114836878A - Transverse moving device for loom beam - Google Patents

Abstract

A transverse moving device for loom beam comprises a left wall plate and a right wall plate which are arranged face to face with each other and a beam rotatably arranged between the left wall plate and the right wall plate, and is characterized in that: a transverse moving mechanism is arranged on the side face, far away from the left wall plate, of one side of the right wall plate and corresponds to the mounting position of the driving shaft, the transverse moving mechanism comprises a support fixed on the right wall plate, a motor fixed on the support, a screw rod in transmission connection with the motor, a moving sleeve which is sleeved on the screw rod and is detachably connected with the right end of the driving shaft, and a moving bearing seat in threaded connection with the screw rod, and the right end of the moving sleeve is rotationally arranged in the moving bearing seat. The advantages are that: the transverse moving distance of the beam can be timely and accurately controlled when friction occurs between the warp yarns and the reed, so that the warp yarns and the reed are ensured to be vertical, the quality of a finished silk screen is effectively improved, the service life of the reed is prolonged, and the operation is time-saving and labor-saving; the influence of the shutdown on the production efficiency of the weaving machine is avoided.

Description

Transverse moving device for loom beam

Technical Field

The invention belongs to the technical field of textile equipment, and particularly relates to a transverse moving device for a loom beam of a loom.

Background

Weaving machines are one of the indispensable devices in the textile industry, being the machines for the rapid processing of fibers into textile products. The technical development of the present loom is mature, wherein the beam of a loom is a roller for winding warp, the warp is gradually unwound from the beam of a loom and consumed and vertically passes through the reed gap between reed blades during normal weaving, but when a silk screen with the diameter of the warp being less than 0.3mm is woven, the industry usually adopts a sectional warping process to wind the warp onto a roller shaft to be used as the beam of the loom, a certain yarn winding inclination generally exists at two ends of the roller shaft used in the sectional warping process, the yarn winding inclination is convenient for completing the sectional warping process, when the beam of a loom is transferred onto the loom and consumed along with the unwinding of the warp, the whole warp layer gradually deviates along the inclination, so that the warp is no longer perpendicular to the reed, if no adjustment is made, the friction between the warp and the reed blades is larger along with the increase of the warp deviation, and even the bad consequences of warp abrasion and reed blades can be caused, therefore, the correction is usually performed manually; in addition, the normal weaving shaft may have the situation that the warp yarn is not perpendicular to the reed to generate friction in the normal weaving process.

Currently, there are two main methods for correcting deviation: firstly, the position of the reed is moved manually, and secondly, the position of the beam is moved manually, and the final purpose of the reed and the beam is to enable the warp to be perpendicular to the steel buckle to eliminate friction. The former is to move the reed towards the direction of warp layer deviation, but the operation of frequently moving the reed in the weaving process is very inconvenient, and the fixed strength of the reed can be influenced, so that accidents are easily caused; the former usually moves the beam in the opposite direction of the warp layer, and the beam is manually pried by a crowbar at present to move the beam transversely for a certain distance, but the deviation rectifying operation has high labor intensity, and the transverse moving distance of the beam is not easy to control.

In view of the above, there is a need for a traverse device for loom beams, which has a simple structure, is convenient to use, is time-saving and labor-saving to operate, and can precisely move the beam distance in a manual or electric mode. The applicant has therefore made an advantageous design, in the context of which the solution to be described below is made.

Disclosure of Invention

The invention aims to provide a transverse moving device for a loom beam, which is beneficial to ensuring that the warp yarns and a reed are kept vertical and eliminating friction between the warp yarns and the reed in time by accurately and transversely moving the loom beam within a certain range through the transverse moving device, and is beneficial to improving the quality of a finished silk screen and prolonging the service life of the reed.

The task of the invention is achieved by a transverse moving device for a loom beam, which comprises a left wall plate and a right wall plate which are arranged in parallel and face to face with each other, and a beam rotatably arranged between the left wall plate and the right wall plate, and is characterized in that: the transverse moving mechanism comprises a support fixed on the right wall plate, a motor fixed on the support, a screw rod in transmission connection with the motor, a moving sleeve which is sleeved on the screw rod and is detachably connected with the right end of the driving shaft, and a moving bearing seat in threaded connection with the screw rod, wherein the right end of the moving sleeve is rotationally arranged in the moving bearing seat.

In a specific embodiment of the invention, a left spindle nose and a right spindle nose are respectively formed at the left end and the right end of the length direction of the driving shaft, a left sliding sleeve is sleeved on the left spindle nose, a right sliding sleeve is sleeved on the right spindle nose, a left spindle nose support plate and a right spindle nose support plate are respectively fixed at the positions corresponding to the left sliding sleeve and the right sliding sleeve on the left wallboard and the right wallboard, a left spindle nose support plate hoop and a right spindle nose support plate hoop are respectively hinged on the left spindle nose support plate and the right spindle nose support plate, the left sliding sleeve and the right sliding sleeve are respectively supported on the corresponding left spindle nose support plate and the right spindle nose support plate and are tightly locked through the left spindle nose support plate hoop and the right spindle nose support plate hoop, a left spindle nose locking screw fixed with the left spindle nose support plate is arranged on the left spindle nose support hoop, a right locking screw fixed with the right spindle nose support plate is arranged on the right spindle nose support plate, the left spindle nose backup pad is fixed on left wallboard through a set of left spindle nose backup pad set screw, the right spindle nose backup pad is fixed on right wallboard through a set of right spindle nose backup pad set screw.

In another specific embodiment of the invention, the bracket is fixed on the side surface of the right wall plate far away from the left wall plate through a group of bracket screws, the motor is fixed at the right end position above the bracket through a motor frame, the lower part of the motor frame is fixedly connected with the bracket through a group of motor frame screws, the motor is fixed on the motor frame through a group of motor fixing screws, a speed reducer is also fixed on the motor frame, the speed reducer is provided with a motor input end, a manual input end and an output end, the motor is provided with a motor shaft in transmission connection with the motor input end, one end of the screw rod is in transmission connection with the output end, the manual input end is provided with a hand wheel, the right end of the screw rod is provided with a bearing seat at a position corresponding to the left side of the motor frame, and a bearing seat base is arranged below the bearing seat, the supporting seat base is fixed on the support through a group of supporting seat base screws, the supporting seat is fixed above the supporting seat base through a group of supporting seat screws, and the screw rod is rotationally arranged on the supporting seat.

In another specific embodiment of the present invention, a moving sleeve cavity is formed in the moving sleeve, the screw rod is inserted into the moving sleeve cavity, a retaining ring is arranged at the left end of the screw rod, the retaining ring is fixed on the screw rod through a retaining spring, the outer diameter of the retaining ring is matched with the inner diameter of the moving sleeve cavity, a moving sleeve bearing is arranged on the outer wall of the right end of the moving sleeve, the moving sleeve bearing is fixed on the moving sleeve through a moving sleeve bearing retaining ring, the moving bearing seat is sleeved on the right end of the moving sleeve, the moving sleeve is rotatably arranged in the moving bearing seat through the moving sleeve bearing, a housing cover plate is arranged at the left end of the moving bearing seat, the housing cover plate is sleeved on the moving sleeve and fixed on the left side surface of the moving bearing seat through a set of housing cover plate screws, the right side surface of the housing cover plate abuts against the moving sleeve bearing, and a nut in threaded connection with the screw is arranged at the right end of the movable bearing seat and is fixed on the right side surface of the movable bearing seat through a group of nut screws.

In another embodiment of the present invention, a limiting post is disposed below the movable bearing seat, a limiting groove is disposed on the bracket at a position corresponding to the limiting post along the left-right direction, and the limiting post extends downward and protrudes into the limiting groove.

In a further specific embodiment of the present invention, the right spindle head of the loom spindle is fixedly connected to the movable sleeve by a clamp, and two ends of the clamp are respectively sleeved on the right spindle head and the movable sleeve and are locked and fixed by a set of clamp screws.

In yet another specific embodiment of the present invention, the outer diameter of the screw is smaller than the inner diameter of the moving cannula lumen.

In a more specific embodiment of the present invention, the left end of the driving shaft further forms a circle of transmission gear, and a transmission shaft gear in transmission connection with the transmission gear is arranged on the left wall plate and is in transmission connection with a main motor arranged on the left wall plate.

After adopting the structure, the invention has the advantages that: firstly, as the structure that the beam rotates on the sliding sleeve and is driven by the transverse moving mechanism in a manual or electric mode to realize transverse movement is adopted, the transverse moving distance of the beam can be timely and accurately controlled when friction occurs between the warp and the reed, the warp and the reed are ensured to be kept vertical, the quality of the finished silk screen is effectively improved, the service life of the reed is prolonged, and the problems of time and labor waste caused by manually correcting the position of the beam or the reed in the prior art are solved; secondly, because the transverse movement action can be carried out in the weaving process, the normal unwinding of the warp yarn can not be influenced, and the influence on the production efficiency of the weaving machine caused by the shutdown is avoided.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention.

Fig. 2 is an enlarged view of a portion a of fig. 1.

Fig. 3 is a side partial cross-sectional view of the lateral shifting mechanism of the present invention.

In the figure: 1. the left wall plate, 11, a left shaft head support plate, 111, a left shaft head support plate hoop, 112, a left locking screw, 113, a left shaft head support plate fixing screw, 12, a transmission shaft gear, 13 and a main motor; 2. the left wall board, 21, a left spindle nose support plate, 211, a left spindle nose support plate hoop, 212, a left locking screw, 213 and a left spindle nose support plate fixing screw; 3. a beam of loom, 31, a left shaft head, 311, a left sliding sleeve, 32, a right shaft head, 321, a right sliding sleeve, 33, a transmission gear; 4. the device comprises a transverse moving mechanism, 41, a bracket, 411, a bracket screw, 412, a limiting groove, 42, a hoop, 421, a hoop screw, 43, a motor, 431, a motor fixing screw, 432, a motor shaft, 44, a motor frame, 441, a reducer, 4411, a motor input end, 4412, a manual input end, 44121, a hand wheel, 4413, an output end, 442, a motor frame screw, 45, a screw rod, 451, a supporting seat, 4511, a supporting seat screw, 4512, a supporting seat base, 45121, a supporting seat base screw, 452, a retaining ring, a clamp spring, 453, 46, a moving sleeve, 461, a moving sleeve cavity, 462, a moving sleeve bearing, 463, a moving sleeve bearing retaining ring, 47, a moving bearing seat, 471, a nut, 4711, a nut screw, 472, a housing cover plate, 4721, a housing cover plate screw, 473 and a limiting column.

Detailed Description

In order to clearly understand the technical spirit and the advantages of the present invention, the following detailed description is given by way of examples, but the description of the examples is not intended to limit the scope of the present invention, and any equivalent changes made according to the present inventive concept, which are merely in form and not in substance, should be considered as the scope of the present invention.

In the following description, all the concepts related to the directions or orientations of up, down, left, right, front and rear are based on the position corresponding to that shown in fig. 1, and thus should not be construed as particularly limiting the technical solution provided by the present invention.

Referring to fig. 1, 2 and 3, the present invention relates to a traverse device for a loom beam, comprising a left wall plate 1 and a right wall plate 2 arranged in parallel facing each other and a beam 3 rotatably arranged between the left wall plate 1 and the right wall plate 2.

The technical key points of the technical scheme provided by the invention are as follows: a lateral moving mechanism 4 is arranged on the side surface of the right wall board 2 far away from the left wall board 1 and corresponding to the mounting position of the loom beam 3, the lateral moving mechanism 4 comprises a bracket 41 fixed on the right wall board 2, a motor 43 fixed on the bracket 41, a screw 45 in transmission connection with the motor 43, a moving sleeve 46 sleeved on the screw 45 and detachably connected with the right end of the loom beam 3, and a moving bearing seat 47 screwed on the screw 45, and the right end of the moving sleeve 46 is rotatably arranged in the moving bearing seat 47. A moving sleeve cavity 461 is formed in the moving sleeve 46, the screw rod 45 is inserted into the moving sleeve cavity 461, a retaining ring 452 is disposed at the left end of the screw rod 45, the retaining ring 452 is fixed on the screw rod 45 by a retaining spring 453, the outer diameter of the retaining ring 452 matches with the inner diameter of the moving sleeve cavity 461, the outer diameter of the screw rod 45 is smaller than the inner diameter of the moving sleeve cavity 461, a moving sleeve bearing 462 is disposed on the outer wall of the right end of the moving sleeve 46, the moving sleeve bearing 462 is fixed on the moving sleeve 46 by a moving sleeve bearing retaining ring 463, the moving sleeve bearing retaining ring 463 is in threaded fit with the outer wall of the moving sleeve bearing 462, the moving bearing seat 47 is disposed at the right end of the moving sleeve 46, the moving sleeve 46 is rotatably disposed in the moving bearing seat 47 by the moving sleeve bearing 462, a cover 472 is disposed at the left end of the moving bearing seat 47, the housing cover plate 472 is sleeved on the movable sleeve 46 and fixed on the left side surface of the movable bearing seat 47 through a set of housing cover plate screws 4721, the right side surface of the housing cover plate 472 abuts against the movable sleeve bearing 462, the right end of the movable bearing seat 47 is provided with a nut 471 in threaded connection with the screw 45, and the nut 471 is fixed on the right side surface of the movable bearing seat 47 through a set of nut screws 4711. A limiting post 473 is disposed below the movable bearing block 47, a limiting groove 412 is disposed on the bracket 41 at a position corresponding to the limiting post 473 along the left-right direction, and the limiting post 473 extends downward and protrudes into the limiting groove 412.

In this embodiment, a left spindle head 31 and a right spindle head 32 are respectively formed at the left and right ends of the beam 3 in the length direction, the right spindle head 32 of the beam 3 is fixedly connected with the movable sleeve 46 through a clamp 42, and the two ends of the clamp 42 are respectively sleeved on the right spindle head 32 and the movable sleeve 46 and are locked and fixed through a set of clamp screws 421. A left sliding sleeve 311 is sleeved on the left spindle nose 31, a right sliding sleeve 321 is sleeved on the right spindle nose 32, a left spindle nose support plate 11 and a right spindle nose support plate 21 are respectively fixed on the left wall plate 1 and the right wall plate 2 at positions corresponding to the left sliding sleeve 311 and the right sliding sleeve 321, a left spindle nose support plate hoop 111 and a right spindle nose support plate hoop 211 are respectively hinged on the left spindle nose support plate 11 and the right spindle nose support plate 21, the left sliding sleeve 311 and the right sliding sleeve 321 are respectively supported on the corresponding left spindle nose support plate 11 and the right spindle nose support plate 21 and are tightly locked by the left spindle nose support plate hoop 111 and the right spindle nose support plate hoop 211, a left locking screw 112 fixed with the left spindle nose support plate 11 is arranged on the left spindle nose support plate hoop 111, a right locking screw 212 fixed with the right spindle nose support plate 21 is arranged on the right spindle nose support plate hoop 211, the left head support plate 11 is fixed to the left wall panel 1 by a set of left head support plate fixing screws 113, and the right head support plate 21 is fixed to the right wall panel 2 by a set of right head support plate fixing screws 213. The left end of the driving shaft 3 is also provided with a circle of transmission gear 33, the left wall plate 1 is provided with a transmission shaft gear 12 which is in transmission connection with the transmission gear 33, and the transmission shaft gear 12 is in transmission connection with a main motor 13 arranged on the left wall plate 1.

Further, the bracket 41 is fixed on the side of the right wall board 2 away from the left wall board 1 by a set of bracket screws 411, the motor 43 is fixed at the right end position above the bracket 41 by a motor frame 44, the lower part of the motor frame 44 is fixedly connected with the bracket 41 by a set of motor frame screws 442, the motor 43 is fixed on the motor frame 44 by a set of motor fixing screws 431, a speed reducer 441 is fixed on the motor frame 44, the speed reducer 441 is provided with a motor input end 4411, a manual input end 4412 and an output end 4413, the motor 43 is provided with a motor shaft 432 in transmission connection with the motor input end 4411, one end of the screw 45 is in transmission connection with the output end 4413, the manual input end 4412 is provided with a hand wheel 44121, the right end of the screw 45 is provided with a bearing seat 451 at the position corresponding to the left side of the motor frame 44, a support base 4512 is provided below the support base 451, the support base 4512 is fixed to the bracket 41 by a set of support base screws 45121, the support base 451 is fixed to the support base 4512 by a set of support base screws 4511, and the screw 45 is rotatably provided on the support base 451.

Referring to fig. 1 in combination with fig. 2 and 3, in the weaving process of the loom, the main motor 13 drives the transmission shaft gear 12 to rotate, so that the transmission gear 33 engaged with the transmission shaft gear 12 rotates, and further drives the loom beam 3 to rotate, the warp threads are unwound from the loom beam 3 and pass through the reed, when the warp threads and the reed deviate, a worker can pull the right spindle head 32 by rotating the hand wheel 44121 or the control motor 43 to slide the loom beam 3 on the left sliding sleeve 311 and the right sliding sleeve 321 and correct the position between the warp threads and the reed, and the specific working principle is as follows: the hand wheel 44121 or the motor shaft 432 of the control motor 43 rotates, the output end 4413 of the speed reducer 441 drives the screw rod 45 to rotate, the nut 471 is displaced under the rotation of the screw rod 45 to drive the movable bearing seat 47 to drag the movable sleeve 46 to move, the movable sleeve 46 drags the right spindle head 32 through the hoop 42 to make the loom shaft 3 slide on the left sliding sleeve 311 and the right sliding sleeve 321, so as to realize the transverse movement of the loom shaft, in the process, the movable sleeve 46 is driven by the loom shaft 3 to rotate through the hoop 42, one end of the movable sleeve 46 is rotationally matched with the movable bearing seat 47 through the movable sleeve bearing 462, and the limiting column 473 slides reversely along the length of the limiting groove 412 when the movable bearing seat 47 moves, so that the movable bearing seat 47 is prevented from rotating along with the movable sleeve 46.

Claims (8)

1. A traverse device for loom beam, comprising a left wall plate (1) and a right wall plate (2) arranged in parallel facing each other and a beam (3) rotatably arranged between the left wall plate (1) and the right wall plate (2), characterized in that: the weaving machine is characterized in that a transverse moving mechanism (4) is arranged on the side face, away from the left wall plate (1), of the right wall plate (2) and corresponding to the installation position of the weaving shaft (3), the transverse moving mechanism (4) comprises a support (41) fixed on the right wall plate (2), a motor (43) fixed on the support (41), a screw (45) in transmission connection with the motor (43), a moving sleeve (46) which is sleeved on the screw (45) and is detachably connected with the right end of the weaving shaft (3) and a moving bearing seat (47) in threaded connection on the screw (45), and the right end of the moving sleeve (46) is rotatably arranged in the moving bearing seat (47).

2. The transverse moving device for the loom beam of claim 1, characterized in that a left shaft head (31) and a right shaft head (32) are respectively formed at the left end and the right end of the length direction of the beam of loom (3), a left sliding sleeve (311) is sleeved on the left shaft head (31), a right sliding sleeve (321) is sleeved on the right shaft head (32), a left supporting plate (11) and a right supporting plate (21) are respectively fixed at the positions corresponding to the left sliding sleeve (311) and the right sliding sleeve (321) of the left wall plate (1) and the right wall plate (2), a left supporting plate hoop (111) and a right supporting plate (211) are respectively hinged on the left shaft head supporting plate (11) and the right supporting plate (21), and the left sliding sleeve (311) and the right sliding sleeve (321) are respectively supported on the corresponding left supporting plate (11) and right supporting plate hoop (21) and pass through the left supporting plate hoop (111) and the right supporting plate hoop (211) The left shaft head support plate hoop (111) is provided with a left locking screw (112) fixed with a left shaft head support plate (11), the right shaft head support plate hoop (211) is provided with a right locking screw (212) fixed with a right shaft head support plate (21), the left shaft head support plate (11) is fixed on a left wallboard (1) through a set of left shaft head support plate fixing screws (113), and the right shaft head support plate (21) is fixed on a right wallboard (2) through a set of right shaft head support plate fixing screws (213).

3. The device for moving a loom beam in a transverse direction according to claim 1, wherein the bracket (41) is fixed to the right wall plate (2) on the side away from the left wall plate (1) by a set of bracket screws (411), the motor (43) is fixed to the right end position above the bracket (41) by a motor bracket (44), the lower part of the motor bracket (44) is fixedly connected to the bracket (41) by a set of motor bracket screws (442), the motor (43) is fixed to the motor bracket (44) by a set of motor fixing screws (431), a speed reducer (441) is further fixed to the motor bracket (44), the speed reducer (441) has a motor input end (4411), a manual input end (4412) and an output end (4413), the motor (43) has a motor shaft (432) drivingly connected to the motor input end (4411), one end of the screw rod (45) is in transmission connection with the output end (4413), a hand wheel (44121) is mounted on the manual input end (4412), a supporting seat (451) is arranged at the position, corresponding to the left side of the motor frame (44), of the right end of the screw rod (45), a supporting seat base (4512) is arranged below the supporting seat (451), the supporting seat base (4512) is fixed on the support (41) through a group of supporting seat base screws (45121), the supporting seat (451) is fixed above the supporting seat base (4512) through a group of supporting seat screws (4511), and the screw rod (45) is rotatably arranged on the supporting seat (451).

4. The transverse moving device for loom beam of claim 1, characterized in that the moving sleeve (46) has a moving sleeve cavity (461), the screw rod (45) is inserted into the moving sleeve cavity (461), the left end of the screw rod (45) is provided with a retaining ring (452), the retaining ring (452) is fixed on the screw rod (45) by a clamp spring (453), the outer diameter of the retaining ring (452) matches with the inner diameter of the moving sleeve cavity (461), the outer wall of the right end of the moving sleeve (46) is provided with a moving sleeve bearing (462), the moving sleeve bearing (462) is fixed on the moving sleeve (46) by a moving sleeve bearing retaining ring (463), the moving bearing seat (47) is sleeved on the right end of the moving sleeve (46), the moving sleeve (46) is rotatably arranged in the moving bearing seat (47) by the moving sleeve bearing (462), the left end of the movable bearing seat (47) is provided with a cover shell cover plate (472), the cover shell cover plate (472) is sleeved on the movable sleeve (46) and fixed on the left side surface of the movable bearing seat (47) through a group of cover shell cover plate screws (4721), the right side surface of the cover shell cover plate (472) abuts against the movable sleeve bearing (462), the right end of the movable bearing seat (47) is provided with a nut (471) in threaded connection with the screw rod (45), and the nut (471) is fixed on the right side surface of the movable bearing seat (47) through a group of nut screws (4711).

5. The transverse moving device for the loom beam of claim 4, wherein a limiting column (473) is disposed below the moving bearing seat (47), a limiting groove (412) is disposed on the bracket (41) at a position corresponding to the limiting column (473) along the left-right direction, and the limiting column (473) extends downward and protrudes into the limiting groove (412).

6. The transverse moving device for the loom beam of claim 2 is characterized in that the right shaft head (32) of the loom beam (3) is fixedly connected with the moving sleeve (46) through a hoop (42), and two ends of the hoop (42) are respectively sleeved on the right shaft head (32) and the moving sleeve (46) and are locked and fixed through a set of hoop screws (421).

7. A transverse moving device for loom beams according to claim 4, characterized in that the outer diameter of the screw (45) is smaller than the inner diameter of the moving sleeve chamber (461).

8. A traverse device for a loom beam according to claim 1, characterized in that the left end of the beam (3) is formed with a ring of transmission gears (33), a transmission shaft gear (12) in transmission connection with the transmission gears (33) is arranged on the left wall plate (1), and the transmission shaft gear (12) is in transmission connection with a main motor (13) arranged on the left wall plate (1).

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