CN215713710U - Warp beam servo transmission mechanism and weaving machine - Google Patents

Abstract

The utility model discloses a warp beam servo transmission mechanism and a weaving machine. The warp beam servo transmission mechanism comprises a wallboard; a transmission gear; the connecting seat is used for installing the transmission gear; the first end of the transition support is detachably connected with the wall plate, the transition support, the connecting seat and the transmission gear are all positioned on one side, away from the beam, of the wall plate, the second end of the transition support is detachably connected with the connecting seat, and a plurality of mounting positions for mounting the connecting seat are arranged on the transition support; a turbine reduction gearbox; and a driving member. This warp beam servo drive mechanism is through the mounted position of the outside adjustment connecting seat on the transition support at the wallboard, alright in order to adjust drive gear's mounted position, realize the matching to the warp beam limit dish of different diameters, because transition support, connecting seat and drive gear all are located the outside of wallboard for drive gear's dismouting does not receive the space restriction between two wallboards, has improved drive gear's dismouting convenience, has improved drive gear's dismouting efficiency.

Description

Warp beam servo transmission mechanism and weaving machine

Technical Field

The utility model relates to the technical field of weaving machines, in particular to a warp beam servo transmission mechanism and a weaving machine.

Background

At present, a transmission gear and a warp beam of a weaving machine are generally arranged between two wall plates of the weaving machine, and the transmission gear drives the warp beam to rotate. When the loom needs to be changed and the warp beam side disc is changed into the warp beam side disc with different diameters, the transmission gear for driving the warp beam to rotate also needs to be changed or the installation position is adjusted correspondingly, and the transmission gear is positioned between the two wallboards, so that the dismounting space of the transmission gear is limited, the dismounting of the transmission gear is inconvenient, and the dismounting efficiency of the transmission gear is reduced.

Therefore, how to improve the assembly and disassembly efficiency of the transmission gear is a technical problem to be solved by the technical personnel in the field at present.

SUMMERY OF THE UTILITY MODEL

In view of the above, an object of the present invention is to provide a warp beam servo transmission mechanism to improve the assembling and disassembling efficiency of transmission gears.

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

a warp beam servo drive comprising:

a wall panel for mounting a warp beam;

the transmission gear is used for driving the warp beam to rotate;

the connecting seat is used for mounting the transmission gear;

the first end of the transition support is detachably connected with the wall plate, the transition support, the connecting seat and the transmission gear are all positioned on one side, away from the beam, of the wall plate, the second end of the transition support is detachably connected with the connecting seat, and a plurality of mounting positions for mounting the connecting seat are arranged on the transition support;

the driving gear of the turbine reduction box is meshed with the transmission gear; and

and the driving piece is used for driving the turbine reduction gearbox.

Preferably, in the warp beam servo transmission mechanism, the transition support is connected with the connecting seat through a bolt, and a plurality of groups of mounting holes for mounting the connecting seat are arranged on the transition support.

Preferably, in the warp beam servo transmission mechanism, one end of the transition support close to the wall plate is provided with a first spigot boss, the wall plate is provided with a first spigot groove matched with the spigot boss, one end of the transition support close to the wall plate is provided with a first positioning pin hole, and the wall plate is provided with a second positioning pin hole matched with the first positioning pin hole.

Preferably, in the warp beam servo transmission mechanism, the turbine reduction gearbox is mounted on the transition support, an avoiding groove is formed in the transition support, and gear teeth of a driving gear of the turbine reduction gearbox and gear teeth of the driving gear can be meshed through the avoiding groove.

Preferably, in the warp beam servo transmission mechanism, a second spigot boss is arranged at one end of the transition support close to the turbine reduction gearbox, and a second spigot groove capable of being matched with the second spigot boss is arranged on a shell of the turbine reduction gearbox.

Preferably, in the beam servo transmission mechanism, the turbine reduction gearbox is connected to the transition support through a bolt, and the transition support is connected to the wall plate through a bolt.

Preferably, in the warp beam servo transmission mechanism, one end of the transition support close to the turbine reduction gearbox is provided with a protruding connecting arm, and a mounting hole group for mounting the connecting seat is arranged on the connecting arm.

Preferably, in the above warp beam servo transmission mechanism, the driving member is a servo motor.

Preferably, in the warp beam servo transmission mechanism, the transition bracket is provided with two mounting positions for mounting the connecting seat, which are a first mounting position and a second mounting position respectively, the first mounting position is provided with a first mounting hole group for mounting the connecting seat, and the second mounting position is provided with a second mounting hole group for mounting the connecting seat;

the connecting seat passes through first installation punch combination can dismantle connect in during the transition support, the diameter of the limit dish of warp beam is 1000mm, the connecting seat passes through second installation punch combination can dismantle connect in during the transition support, the diameter of the limit dish of warp beam is 914 mm.

When the servo transmission mechanism provided by the utility model is used, the driving piece drives the turbine reduction gearbox, so that the driving gear of the turbine reduction gearbox drives the transmission gear to rotate, and the transmission gear drives the warp beam to rotate; because the transmission gear is arranged on the connecting seat, the connecting seat is detachably connected with the transition support, the transition support is detachably connected with the wallboard, namely, the transmission gear is arranged on the wallboard through the connecting seat and the transition support, the connecting seat and the transmission gear are all positioned on one side of the wallboard far away from the beam, namely, the transition support, the connecting seat and the transmission gear are all positioned on the outer side of the wallboard, and a plurality of mounting positions for mounting the connecting seat are arranged on the transition support, therefore, the mounting position of the transmission gear can be adjusted by adjusting the mounting position of the connecting seat on the transition support on the outer side of the wallboard, the matching of beam edge discs with different diameters is realized, because the transition support, the connecting seat and the transmission gear are all positioned on the outer side of the wallboard, the dismounting of the transmission gear is not limited by the space between the two wallboards, and the dismounting convenience of the transmission gear is improved, the assembly and disassembly efficiency of the transmission gear is improved.

In addition, the utility model also discloses a loom, which comprises the warp beam servo transmission mechanism, so that all the technical effects of the warp beam servo transmission mechanism are achieved, and the description is omitted.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a warp beam servo transmission mechanism according to an embodiment of the present invention;

fig. 2 is a schematic front structural view of a transition support according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a rear structure of a transition support according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram illustrating a connection seat mounted at a first mounting position of a transition bracket according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a connection seat installed at a second installation position of a transition bracket according to an embodiment of the present invention.

The connecting structure comprises a wall plate 100, a first spigot groove 101, a second positioning pin hole 102, a transmission gear 200, a connecting seat 300, a transition support 400, a first spigot boss 401, a first positioning pin hole 402, an avoidance groove 403, a second spigot boss 404, a connecting arm 405, an installation hole group 406, a first installation hole group 4061, a first installation hole 4061-a, a second installation hole 4061-b, a second installation hole 4062, a third installation hole 4062-a, a fourth installation hole 4062-b and a turbine reduction gearbox 500.

Detailed Description

In view of the above, the core of the present invention is to provide a warp beam servo transmission mechanism to improve the assembly and disassembly efficiency of transmission gears.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings 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 of the 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.

As shown in fig. 1 to 5, the embodiment of the utility model discloses a warp beam servo transmission mechanism, which comprises a wall plate 100, a transmission gear 200, a connecting seat 300, a transition support 400, a turbine reduction gearbox 500 and a driving part.

Wherein the wall panel 100 is used for mounting a warp beam; the transmission gear 200 is used for driving the warp beam to rotate; the connecting seat 300 is used for installing the transmission gear 200; the first end of the transition support 400 is detachably connected with the wall plate 100, the transition support 400, the connecting seat 300 and the transmission gear 200 are all positioned on one side of the wall plate 100 away from the warp beam, the second end of the transition support 400 is detachably connected with the connecting seat 300, and a plurality of mounting positions for mounting the connecting seat 300 are arranged on the transition support 400; the driving gear of the turbine reduction gearbox 500 is meshed with the transmission gear 200; the drive is used to drive the turbine reduction gearbox 500.

When the servo transmission mechanism provided by the utility model is used, the driving part drives the turbine reduction gearbox 500, so that the driving gear of the turbine reduction gearbox 500 drives the transmission gear 200 to rotate, and the transmission gear 200 drives the warp beam to rotate; since the transmission gear 200 is installed on the connection seat 300, the connection seat 300 is detachably connected with the transition support 400, the transition support 400 is detachably connected with the wall panel 100, that is, the transmission gear 200 is installed on the wall panel 100 through the connection seat 300 and the transition support 400, the connection seat 300 and the transmission gear 200 are all located on one side of the wall panel 100 away from the beam, that is, the transition support 400, the connection seat 300 and the transmission gear 200 are all located on the outer side of the wall panel 100, and a plurality of installation positions for installing the connection seat 300 are provided on the transition support 400, therefore, the installation position of the transmission gear 200 can be adjusted by adjusting the installation position of the connection seat 300 on the transition support 400 on the outer side of the wall panel 100, matching of beam edge discs with different diameters is realized, and since the transition support 400, the connection seat 300 and the transmission gear 200 are all located on the outer side of the wall panel 100, the assembly and disassembly of the transmission gear 200 are not limited by the space between the two wall panels 100, the assembly and disassembly convenience of the transmission gear 200 is improved, and the assembly and disassembly efficiency of the transmission gear 200 is improved.

It should be noted that, the transition bracket 400 and the connection seat 300 may be connected by a bolt connection, a flange connection, a key connection, or the like, and any mode that can achieve the detachable connection between the transition bracket 400 and the connection seat 300 is within the protection scope of the present invention; preferably, the embodiment of the present invention employs a bolt connection, as shown in fig. 1 to 5, a plurality of mounting hole sets 406 for mounting the connecting seat 300 are provided on the transition bracket 400, so as to adjust the mounting position of the connecting seat 300 on the transition bracket 400, thereby adjusting the mounting position of the transmission gear 200, and realizing matching of warp end plates with different diameters.

Further, as shown in fig. 1 to fig. 3, one end of the transition bracket 400 close to the wall plate 100 is provided with a first seam allowance boss 401, and the wall plate 100 is provided with a first seam allowance groove 101 matched with the seam allowance boss, so that the transition bracket 400 is positioned in the axial direction through the matching of the first seam allowance boss 401 and the first seam allowance groove 101; one end of the transition support 400 close to the wall plate 100 is provided with a first positioning pin hole 402, and the wall plate 100 is provided with a second positioning pin hole 102 capable of being matched with the first positioning pin hole 402, so that the transition support 400 is positioned in the circumferential direction through the first positioning pin hole 402 and the second positioning pin hole 102, and the transition support 400 is positioned on the wall plate 100.

The turbine reduction gearbox 500 provided by the utility model can be directly arranged on the transition support 400, and also can be arranged on an additionally arranged connecting support, and the arrangement mode which can meet the use requirement belongs to the protection scope of the utility model; preferably, the turbine reduction gearbox 500 provided by the embodiment of the utility model is directly mounted on the transition support 400, so that the number of parts is reduced, and the cost is reduced.

In addition, the transition bracket 400 is provided with an avoiding groove 403, so that the gear teeth of the driving gear of the turbine reduction gearbox 500 and the gear teeth of the transmission gear 200 can be meshed through the avoiding groove 403, the turbine reduction gearbox 500 drives the transmission gear 200 to rotate, and the transmission gear 200 drives the warp beam to rotate.

In addition, one end of the transition support 400 close to the turbine reduction gearbox 500 is provided with a second spigot boss 404, and a shell of the turbine reduction gearbox 500 is provided with a second spigot groove capable of being matched with the second spigot boss 404, so that the turbine reduction gearbox 500 is positioned on the transition support 400 through matching of the second spigot boss 404 and the second spigot groove.

In addition, the turbine reduction gearbox 500 and the transition support 400 and the wall panel 100 can be connected by means of bolt connection, key connection or flange connection, and the connection mode which can meet the use requirement belongs to the protection scope of the utility model; preferably, the turbine reduction gearbox 500 provided by the embodiment of the utility model is connected to the transition support 400 through bolts, and the transition support 400 is connected to the wall plate 100 through bolts, so that the turbine reduction gearbox is convenient to mount and dismount.

Further, the end of the transition bracket 400 near the turbine reduction gearbox 500 is provided with a connecting arm 405 extending therefrom, so that the mounting hole set 406 is provided on the connecting arm 405, and the connecting seat 300 is mounted through the mounting hole set 406.

The number of the mounting hole groups 406 may be two, three, or four, and in practical applications, the number of the mounting hole groups 406 may be adaptively adjusted according to practical requirements, and the number of the mounting hole groups 406 is not specifically limited in the present invention, and all numbers that can meet the use requirements fall within the protection scope of the present invention; preferably, the connecting arm 405 provided by the embodiment of the present invention is provided with two mounting positions for mounting the connecting base 300, which are a first mounting position and a second mounting position, respectively, the first mounting position is provided with a first mounting hole group 4061 for mounting the connecting base 300, and the second mounting position is provided with a second mounting hole group 4062 for mounting the connecting base 300.

As shown in fig. 2 to 5, the first mounting hole group 4061 includes a first mounting hole 4061-a and a second mounting hole 4061-b provided on the connecting arm 405, and when the connecting base 300 is bolted to the transition bracket 400 through the first mounting hole 4061-a and the second mounting hole 4061-b, the diameter of the side plate of the warp beam is 1000 mm; the second mounting hole group 4062 includes a third mounting hole 4062-a and a fourth mounting hole 4062-b provided on the connecting arm 405, and when the connecting base 300 is bolted to the transition bracket 400 through the third mounting hole 4062-a and the fourth mounting hole 4062-b, the diameter of the side plate of the warp beam is 914mm, so that the warp beam servo transmission mechanism provided by the embodiment of the utility model can switch the mounting position of the transmission gear 200 through the first mounting hole group 4061 and the second mounting hole group 4062 to match the warp beam with a diameter of 1000mm and the warp beam side plate with a diameter of 914 mm.

It should be noted that the driving member provided in the embodiment of the present invention may be a switched reluctance motor, a servo motor, or a closed-loop stepping motor, and the like, and the type of the driving member as long as the driving member can drive the turbine reduction gearbox 500 is within the protection scope of the present invention; preferably, the embodiment of the utility model adopts the servo motor, so that the cost is lower.

In addition, the utility model also discloses a loom, which comprises the warp beam servo transmission mechanism, so that all the technical effects of the warp beam servo transmission mechanism are achieved, and the description is omitted.

The terms "first" and "second," and the like in the description and claims of the present invention and the above-described drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not set forth for a listed step or element but may include steps or elements not listed.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A warp beam servo drive, comprising:

a wall panel for mounting a warp beam;

the transmission gear is used for driving the warp beam to rotate;

the connecting seat is used for mounting the transmission gear;

the first end of the transition support is detachably connected with the wall plate, the transition support, the connecting seat and the transmission gear are all positioned on one side, away from the beam, of the wall plate, the second end of the transition support is detachably connected with the connecting seat, and a plurality of mounting positions for mounting the connecting seat are arranged on the transition support;

the driving gear of the turbine reduction box is meshed with the transmission gear; and

and the driving piece is used for driving the turbine reduction gearbox.

2. The warp beam servo transmission mechanism as claimed in claim 1, wherein the transition bracket is connected with the connecting seat by bolts, and the transition bracket is provided with a plurality of sets of mounting holes for mounting the connecting seat.

3. The warp beam servo transmission mechanism as claimed in claim 1, wherein the transition bracket has a first spigot boss at an end thereof adjacent to the wall plate, the wall plate has a first spigot recess engaged with the spigot boss, and the transition bracket has a first positioning pin hole at an end thereof adjacent to the wall plate, and the wall plate has a second positioning pin hole engaged with the first positioning pin hole.

4. The warp beam servo transmission mechanism as claimed in claim 1, wherein the turbine reduction gearbox is mounted on the transition support, and an avoiding groove is formed on the transition support, and the gear teeth of the driving gear of the turbine reduction gearbox and the gear teeth of the transmission gear can be meshed through the avoiding groove.

5. The warp beam servo transmission mechanism as claimed in claim 1, wherein a second spigot boss is provided at one end of the transition support close to the turbine reduction gearbox, and a second spigot groove capable of being matched with the second spigot boss is provided on the housing of the turbine reduction gearbox.

6. The warp beam servo drive mechanism of claim 1, wherein the turbine reduction gearbox is bolted to the transition support, the transition support being bolted to the wall panel.

7. The warp beam servo transmission mechanism as claimed in claim 1, wherein the end of the transition bracket near the turbine reduction gearbox is provided with a projecting connecting arm, and a set of mounting holes for mounting the connecting seat is provided on the connecting arm.

8. A warp beam servo drive as claimed in claim 1, wherein the drive member is a servo motor.

9. The warp beam servo transmission mechanism as claimed in claim 1, wherein the transition bracket is provided with two mounting positions for mounting the connecting seat, which are a first mounting position and a second mounting position, respectively, the first mounting position is provided with a first mounting hole set for mounting the connecting seat, and the second mounting position is provided with a second mounting hole set for mounting the connecting seat;

the connecting seat passes through first installation punch combination can dismantle connect in during the transition support, the diameter of the limit dish of warp beam is 1000mm, the connecting seat passes through second installation punch combination can dismantle connect in during the transition support, the diameter of the limit dish of warp beam is 914 mm.

10. A weaving machine comprising a warp beam servodrive according to any one of claims 1 to 9.

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