CN220503327U - Taking-down mechanism of warping machine beam - Google Patents
Taking-down mechanism of warping machine beam Download PDFInfo
- Publication number
- CN220503327U CN220503327U CN202321925345.9U CN202321925345U CN220503327U CN 220503327 U CN220503327 U CN 220503327U CN 202321925345 U CN202321925345 U CN 202321925345U CN 220503327 U CN220503327 U CN 220503327U
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- Prior art keywords
- block
- sliding block
- warp beam
- mounting part
- supporting
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- 230000006835 compression Effects 0.000 claims abstract description 17
- 238000007906 compression Methods 0.000 claims abstract description 17
- 238000010008 shearing Methods 0.000 claims abstract description 5
- 230000002457 bidirectional effect Effects 0.000 claims description 6
- 230000000149 penetrating effect Effects 0.000 claims description 4
- 230000009286 beneficial effect Effects 0.000 abstract description 2
- 238000009434 installation Methods 0.000 description 7
- 230000003287 optical effect Effects 0.000 description 2
- 230000037431 insertion Effects 0.000 description 1
- 238000003780 insertion Methods 0.000 description 1
- 238000009940 knitting Methods 0.000 description 1
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Abstract
The utility model discloses a take-down mechanism of a warp beam of a warping machine, which comprises the following components: the device comprises a mounting part, two supporting rods, a base, a shearing fork frame, a hydraulic cylinder, a first sliding block, a second sliding block, a supporting block, a spring and a screw rod module. By utilizing the two support rods, a first sliding block, a second sliding block and a screw rod module are arranged. The first sliding block drives the warp beam to slide on the two supporting rods, so that the warp beam is separated from the movable mounting part; the other round baffle is held against the supporting block and presses the compression spring, so that the warp beam is limited on the two supporting rods and is limited to slide along the axial direction of the supporting rods. Has the beneficial effects that: the warp beam is separated from the fixed mounting part more stably; after the warp beam is separated from the fixed mounting part, the warp beam is more stable on the two support rods.
Description
Technical Field
The utility model relates to a warping machine, in particular to a removing mechanism of a warping beam of the warping machine.
Background
The warping machine winds a plurality of yarns together on a warp beam, and finally, a plurality of yarns side by side can be sequentially pulled out of the warp beam, and the yarns can be used as warps and used in corresponding warp-weft knitting equipment.
The warping machine is provided with a fixed installation part and a movable installation part at the beam installation position, and the fixed installation part and the movable installation part are partially inserted into the beam to fix the beam, thereby driving the beam to rotate. For the convenience with empty beam installation to warper and take off beam after warping from the warper, generally supporting upper and lower mechanism that is provided with on the current warper includes: two stay bars and the pneumatic cylinder that drives the bracing piece and reciprocate. When the warp beam is taken down, the two support rods move to the upper limit and contact with the two circular baffles of the warp beam, so as to support the warp beam; the living east mounting part then exits; the two support rods then move downward, and as the two support rods move downward, the beam tilts and the fixed mounting part is disengaged because the length of the fixed mounting part inserted into the insertion portion of the beam is short. However, when the lower end of the beam is dropped onto the supporting rod, the beam is impacted to a certain extent, and the beam is not stable enough on the supporting rod.
Disclosure of Invention
The application provides a take-down mechanism of warper warp beam can solve and put forward the problem among the background art.
In this application, provide a take-off mechanism of warper warp beam, include:
a mounting part;
two horizontal and parallel support rods fixedly connected to the mounting part;
the base is fixedly connected to the frame of the warping machine and is positioned below the mounting part;
the fork shearing frame is arranged between the base and the mounting part, and the mounting part is driven to move upwards or downwards relative to the base by unfolding or folding;
the hydraulic cylinder drives the scissor frame to be unfolded or folded;
the outer side surface of the first sliding block is a fixed propping surface and is connected with the two supporting rods in a sliding way;
the second sliding block is connected with the two supporting rods in a sliding manner;
the propping block is connected to the second sliding block in a sliding way and is positioned at one side of the second sliding block far away from the first sliding block, and the outer side surface is a movable propping surface;
the compression spring is arranged between the propping block and the second sliding block;
the screw rod module with the bidirectional screw rod drives the first sliding block and the second sliding block to be close to each other or far away from each other.
Further, the device also comprises an adjusting mechanism, wherein the adjusting mechanism is arranged between the propping block and the second sliding block and is used for adjusting the maximum distance between the propping block and the second sliding block under the action of the spring.
Further, the adjusting mechanism includes:
the threaded rod is fixedly connected to the supporting block, and the second sliding block is provided with a penetrating hole for the threaded rod to penetrate through;
and the nut is connected with the penetrating part of the threaded rod in a threaded way, and the compression spring enables the nut to prop against the second sliding block.
Further, the supporting block and/or the second slider are/is provided with a containing groove for containing the compression spring, so that the supporting block can be attached to the second slider.
Further, the supporting block is connected to the two supporting rods in a sliding manner.
Further, the compression spring is sleeved on the threaded rod.
Further, the abutment block includes: a lower block and an upper block detachably connected to the lower block.
To sum up, in this application, a mechanism for taking off beam of warping machine includes: the device comprises a mounting part, two supporting rods, a base, a shearing fork frame, a hydraulic cylinder, a first sliding block, a second sliding block, a supporting block, a spring and a screw rod module. By utilizing the two support rods, a first sliding block, a second sliding block and a screw rod module are arranged. The first sliding block drives the warp beam to slide on the two supporting rods, so that the warp beam is separated from the movable mounting part; the other round baffle is held against the supporting block and presses the compression spring, so that the warp beam is limited on the two supporting rods and is limited to slide along the axial direction of the supporting rods. Has the beneficial effects that: the warp beam is separated from the fixed mounting part more stably; after the warp beam is separated from the fixed mounting part, the warp beam is more stable on the two support rods.
Drawings
In order to better and clearly describe the technical solutions in the embodiments or the background of the present application, the following description will describe the drawings used in the embodiments or the background of the present application.
FIG. 1 is a schematic view of the present utility model on a warping machine;
FIG. 2 is a schematic view of the present utility model fitted to a beam on a warping machine;
FIG. 3 is an enlarged schematic view of portion A of FIG. 2;
FIG. 4 is a schematic illustration of the present utility model;
fig. 5 is an enlarged schematic view of the portion B in fig. 4.
In the figure, 1, an installation part; 2. a support rod; 3. a base; 4. a scissors fork; 4A, a first lower hinge end; 4B, a first upper hinge end; 4C, a second lower hinge end; 4D, a second upper hinge end; 4E, connecting rods; 5. a hydraulic cylinder; 6. a first slider; 7. a second slider; 7A, accommodating groove; 8. a supporting block; 8-1, loading; 8-2, lower block; 9. a spring; 10. a screw rod module; 10-1, a bidirectional screw rod; 10-2, a motor; 11. a warp beam; 12. a fixed mounting part; 13. a movable mounting part; 14. a housing; 14A, waist-shaped through grooves; 15. an adjusting mechanism; 15-1, a threaded rod; 15-2, a nut.
Detailed Description
Further description is provided below in connection with the accompanying drawings. Unless defined otherwise, technical or scientific terms used in this disclosure should be given the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs. The terms "first," "second," and the like, as used in this disclosure, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that elements or items preceding the word are included in the element or item listed after the word and equivalents thereof, but does not exclude other elements or items. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", etc. are used merely to indicate relative positional relationships, which may also be changed when the absolute position of the object to be described is changed.
Referring to fig. 4 and 5, a removing mechanism for a beam of a warping machine includes: the device comprises a mounting part 1, two support rods 2, a base 3, a scissor frame 4, a hydraulic cylinder 5, a first sliding block 6, a second sliding block 7, a supporting block 8, a spring 9 and a screw rod module 10.
The two support rods 2 are horizontal and parallel and fixedly connected to the mounting part 1. Specifically, the mounting portion 1 may be two mounting blocks, and is fixedly connected to the ends of the same sides of the two support rods 2.
The base 3 is below the mounting portion 1.
The scissors frame 4 is arranged between the base 3 and the mounting part 1, and the mounting part 1 is driven to move up or down relative to the base 3 by unfolding or folding. Specifically, the first lower hinge end 4A and the first upper hinge end 4B of one side of the scissors frame 4 are respectively hinged to the base 3 and the mounting block of the same side, the second lower hinge end 4C and the second upper hinge end 4D of the other side are respectively hinged to the lower slider and the upper slider, and the lower slider and the upper slider are respectively connected to the base 3 and the mounting block of the same side in a horizontal sliding manner along the direction perpendicular to the axis of the support rod 2.
The hydraulic cylinder 5 drives the scissor frame 4 to be unfolded or folded, namely, the cylinder body of the hydraulic cylinder 5 can be hinged to the base 3, and the piston rod is hinged to a horizontal connecting rod 4E on the scissor frame 4.
The first slider 6 is slidably connected to the two support rods 2, specifically, the two support rods 2 may be a first optical axis, and the first slider 6 is fixedly connected to a linear bearing matched with the first optical axis.
The second slider 7 is also slidably connected to the two support bars 2, reference being made in particular to the first slider 6.
The supporting block 8 is slidably connected to the second slider 7, and is located at a side of the second slider 7 away from the first slider 6. Specifically, the second slider 7 may be provided with a plurality of through holes, each through hole is internally provided with a bolt with a smooth portion, and a threaded portion of the bolt is in threaded connection with the propping block 8, so as to realize sliding connection between the propping block 8 and the second slider 7.
The compression springs 9 are disposed between the supporting block 8 and the second slider 7, specifically, the number of the compression springs 9 is the same as the number of the bolts, and the bolts are sequentially sleeved on the bolts, and the nut parts of the bolts are supported against the second slider 7 under the action of the compression springs 9.
The screw rod module 10 drives the first sliding block 6 and the second sliding block 7 to be close to each other or far away from each other. Specifically, the screw module 10 is of the prior art, and in combination with the principle thereof, the screw module 10 is applicable to the present application, and includes: a bidirectional screw rod 10-1 and a motor 10-2. The bidirectional screw rod 10-1 is rotatably connected to two mounting blocks, and the first sliding block 6 and the second sliding block 7 are fixedly connected with screw nuts 15-2 matched with two threaded parts respectively. The motor 10-2 is fixedly connected to one of the mounting blocks to drive the bidirectional screw rod 10-1 to rotate.
Brief description of the application the principles of use of this application:
referring to fig. 1, 2 and 3, the warping machine includes a fixed mounting portion 12 and a movable mounting portion 13 at the mounting position of the beam 11, and both portions are partially inserted into the beam 11 to fix the beam 11, thereby driving the beam 11 to rotate. The warp beam 11 is arranged right below the mounting position of the warp beam 11 after the warp beam is arranged on the warping machine, the fixed propping surface and the movable mounting part 13 are arranged on the same side, and the movable propping surface and the fixed mounting part 12 are arranged on the same side.
The base 3, the mounting part 1, the shearing fork 4 and the hydraulic cylinder 5 are all arranged in a shell 14 of the warping machine, and three waist-shaped through grooves 14A are respectively arranged on two corresponding side plates of the shell 14 of the warping machine and respectively used for the two support rods 2 and the two-way screw rod 10-1 to pass through.
When the warp beam 11 is installed:
s1, the two support rods 2 are positioned at the lower side for limiting, an empty beam 11 is initially placed on the two support rods 2 (two circular baffles of the beam 11 are contacted with the two support rods 2), the distance between a first sliding block 6 and a second sliding block 7 is minimum, and the first sliding block 6, the second sliding block 7 and a propping block 8 are positioned between the circular baffles at the two ends of the beam 11;
s2, the two support rods 2 are lifted to the upper side to limit with the warp beam 11, the axis of the warp beam 11 is aligned with the fixed mounting part 12 and the movable mounting part 13 in height, and a bit of space is reserved between the warp beam 11 and the fixed mounting part 12;
s3, the movable mounting part 13 stretches out to be matched with the warp beam 11, pushes the warp beam 11 to slide along the two support rods 2, enters the fixed mounting part 12, and completes fixation of the warp beam 11;
s4, resetting the two support rods 2 and the limiting group to the state of S1;
after warping, when the beam 11 is removed:
s5, the two support rods 2 move to the upper side to limit and contact with two circular baffles of the warp beam 11, so that the warp beam 11 is supported; the first sliding block 6, the second sliding block 7 and the propping block 8 are arranged between the circular baffles at the two ends of the warp beam 11;
s6, the movable mounting part 13 is retracted and separated from the warp beam 11;
s6, the screw rod module 10 drives the first sliding block 6 and the second sliding block 7 to be far away from each other, and the fixed propping end face and the movable propping end face are contacted with the circular baffle plate to initially limit the warp beam 11;
s7, the screw rod module 10 drives the first sliding block 6 and the second sliding block 7 to keep away from each other, and the first sliding block 6 drives the warp beam 11 to slide on the two support rods 2, so that the warp beam 11 is separated from the movable mounting part 13; the other circular baffle is held against the abutment block 8 and presses the compression spring 9, so that the beam 11 is limited on the two support rods 2, limiting the sliding along the axial direction of the support rods 2.
S8, the two support rods 2 move to the lower limit along the beam 11.
Optionally, the up-down mechanism further includes: and the adjusting mechanism 15 is arranged between the propping block 8 and the second sliding block 7 and is used for adjusting the maximum distance between the propping block 8 and the second sliding block 7 under the action of the spring 9. Thus, the position of the abutment block 8 in step S5 can be adjusted. Further, the adjusting mechanism 15 may include: a threaded rod 15-1 and a nut 15-2. The threaded rod 15-1 is fixedly connected to the supporting block 8, and the second slider 7 is provided with a penetrating hole for the threaded rod 15-1 to penetrate. The nut 15-2 is screwed to the threaded rod 15-1 at the exit thereof, compressing the spring 9 to urge the nut 15-2 against the second slider 7. Thus, the supporting block 8 can be adjusted by rotating the nut 15-2, and the operation is more convenient.
Optionally, the "adjusting mechanism 15 incorporated into the above may include: the arrangement of the threaded rod 15-1 and the nut 15-2", the sliding connection arrangement between the abutment block 8 and the second slider 7, may also be: the supporting block 8 slides on the two support rods 2. Further, the compression spring 9 is sleeved on the threaded rod 15-1. Further, the abutting block 8 includes: a lower block 8-2 and an upper block 8-1 detachably connected to the lower block 8-2.
Optionally, at least one of the abutment block 8 and the second slider 7 is provided with a receiving groove 7A for receiving the compression spring 9, the receiving groove 7A being for receiving the compressed compression spring 9 so that the abutment block 8 can be attached to the second slider 7. In this way, in S7, the abutting block 8 can be attached to the second slider 7, and the warp beam 11 can be more stably restrained.
Claims (7)
1. The utility model provides a take-off mechanism of warper warp beam which characterized in that includes:
a mounting part (1);
two horizontal and parallel support rods (2) fixedly connected to the mounting part (1);
a base (3) fixedly connected to a frame of the warping machine and positioned below the mounting part (1);
the fork shearing frame (4) is arranged between the base (3) and the mounting part (1) and drives the mounting part (1) to move upwards or downwards relative to the base (3) through unfolding or folding;
the hydraulic cylinder (5) drives the scissor frame (4) to be unfolded or folded;
the outer side surface of the first sliding block (6) is a fixed propping surface and is connected with the two supporting rods (2) in a sliding way;
the second sliding block (7) is connected with the two supporting rods (2) in a sliding manner;
the propping block (8) is connected with the second sliding block (7) in a sliding way, is positioned at one side of the second sliding block (7) far away from the first sliding block (6), and the outer side surface is a movable propping surface;
a compression spring (9) arranged between the supporting block (8) and the second sliding block (7);
the screw rod module (10) with the bidirectional screw rod (10-1) drives the first sliding block (6) and the second sliding block (7) to be close to each other or far away from each other.
2. A warp beam removing mechanism according to claim 1, further comprising an adjusting mechanism (15), wherein the adjusting mechanism (15) is arranged between the supporting block (8) and the second slider (7) for adjusting the maximum distance between the supporting block (8) and the second slider (7) under the action of the spring (9).
3. A mechanism for removing a beam of a warping machine according to claim 2, characterized in that said adjusting mechanism (15) comprises:
the threaded rod (15-1) is fixedly connected to the supporting block (8), and the second sliding block (7) is provided with a penetrating hole for the threaded rod (15-1) to penetrate through;
and a nut (15-2) in threaded connection with the threaded rod (15-1) and the compression spring (9) enables the nut (15-2) to abut against the second sliding block (7).
4. A warp beam take-off mechanism according to claim 1, characterized in that the abutment block (8) and/or the second slider (7) is provided with a receiving groove (7A) for receiving the compression spring (9) so that the abutment block (8) can be attached to the second slider (7).
5. A mechanism for removing a warp beam of a warping machine according to claim 3, characterized in that said support blocks (8) are slidingly connected to two of said support bars (2).
6. A mechanism for removing a warp beam of a warping machine according to claim 5, characterized in that the compression spring (9) is sleeved on the threaded rod (15-1).
7. A mechanism for removing a beam of a warping machine according to claim 5, characterized in that said abutment block (8) comprises: a lower block (8-2) and an upper block (8-1) detachably connected to the lower block (8-2).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202321925345.9U CN220503327U (en) | 2023-07-20 | 2023-07-20 | Taking-down mechanism of warping machine beam |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202321925345.9U CN220503327U (en) | 2023-07-20 | 2023-07-20 | Taking-down mechanism of warping machine beam |
Publications (1)
Publication Number | Publication Date |
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CN220503327U true CN220503327U (en) | 2024-02-20 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202321925345.9U Active CN220503327U (en) | 2023-07-20 | 2023-07-20 | Taking-down mechanism of warping machine beam |
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CN (1) | CN220503327U (en) |
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2023
- 2023-07-20 CN CN202321925345.9U patent/CN220503327U/en active Active
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