CN215404709U

CN215404709U - Roller device on blooming machine

Info

Publication number: CN215404709U
Application number: CN202121493337.2U
Authority: CN
Inventors: 曹高月
Original assignee: Zhejiang Yongyao Machinery Technology Co ltd
Current assignee: Zhejiang Yongyao Machinery Technology Co ltd
Priority date: 2021-07-01
Filing date: 2021-07-01
Publication date: 2022-01-04
Anticipated expiration: 2031-07-01

Abstract

The utility model relates to a roller device on a blooming machine, which comprises a driving piece and at least two roller groups, wherein one roller group comprises a prepressing roller a and a prepressing roller b, the other roller group comprises a pressing roller a and a pressing roller b, one end of the prepressing roller b is in linkage fit with the driving piece to realize the rotation of the prepressing roller b, a transmission component I is arranged between the other end of the prepressing roller b and the pressing roller b to realize the rotation of the pressing roller b, the prepressing roller b and one end of the prepressing roller a realize the linkage of the prepressing roller a and the pressing roller b through a transmission component II, a transmission component III is arranged between the other end of the prepressing roller a and the pressing roller a to realize the rotation of the pressing roller a, and a roller spring is abutted to one side of the pressing roller a, which is far away from the pressing roller b. By adopting the technical scheme, the roller device on the blooming machine provided by the utility model adopts a gear set transmission mode, and has the advantages of simple structure, convenience in installation and long service life.

Description

Roller device on blooming machine

Technical Field

The utility model relates to a blooming machine, in particular to a roller device on the blooming machine.

Background

The blooming machine is a large-scale device capable of removing impurities, and can loosen compacted and intertwined fiber raw materials and remove impurities. Various fiber materials for spinning, such as raw cotton, wool, chemical short fibers, cotton, hemp, terylene, rags and the like, are mostly transported to textile factories in a form of pressing and baling. The blooming mill is generally composed of a pair of feed rollers or feed rolls and an opening cylinder.

A utility model patent among the prior art, the patent number is: 202020574075.1, improve cloth angle material blooming machine, which comprises a supporting rack, the left side fixedly connected with servo motor of support frame, servo motor's output fixedly connected with bull stick, the right-hand member of bull stick runs through to the inner chamber of support frame and through bearing and support frame fixed connection, the left side fixed link on bull stick surface has first sprocket, the surface meshing of first sprocket has the chain, feed material package fluted roller through bearing fixedly connected with between the both sides of support frame inner chamber, the left end of feed material package fluted roller runs through to the left side and the fixedly connected with second sprocket of support frame, the equal fixedly connected with feed compression spring frame in top of support frame both sides, just be located the below of feeding material package fluted roller between the both sides of support frame inner chamber and through bearing fixedly connected with material package fluted roller down, the rear side at support frame top is provided with the big fluted roller of cotton of pricking. In the patent, the rotating rod and the feeding tooth wrapping roller are driven by matching the chain wheel and the chain, but the structure of the chain wheel and the chain is easy to damage, and the service life is short.

Disclosure of Invention

The purpose of the utility model is as follows: in order to overcome the defects of the prior art, the utility model provides the roller device on the flowering machine, which adopts a gear set transmission mode, and has the advantages of simple structure, convenience in installation and long service life.

The technical scheme of the utility model is as follows: the roller device on the blooming machine is characterized by comprising a driving piece and at least two roller sets, wherein one roller set comprises a prepressing roller a and a prepressing roller b, a space is arranged between the prepressing roller a and the prepressing roller b, the other roller set comprises a pressing roller a and a pressing roller b, a space is arranged between the pressing roller a and the pressing roller b, the space between the prepressing roller a and the prepressing roller b is larger than the space between the pressing roller a and the pressing roller b, one end of the prepressing roller b is in linkage fit with the driving piece to realize the rotation of the pressing roller b, a transmission assembly I is arranged between the other end of the prepressing roller b and the pressing roller b to realize the rotation of the pressing roller b, the prepressing roller b is also in linkage with one end of the prepressing roller a through a transmission assembly II, a transmission assembly III is arranged between the other end of the prepressing roller a and the pressing roller a to realize the rotation of the pressing roller a, and one side of the pressing roller a, which is far away from the pressing roller b, is abutted with a roller spring.

Adopt above-mentioned technical scheme, driving piece direct or indirect drive pre-compaction roller b rotates, pre-compaction roller b then drives pre-compaction roller a through drive assembly, it rotates to compress tightly roller b, it passes through drive assembly to compress tightly roller a, rotate under pre-compaction roller a's drive, compress tightly the material earlier through pre-compaction roller group, then compress tightly the material through compressing tightly the roller again, when material thickness is thick, it can be to keeping away from the direction motion that compresses tightly roller b to compress tightly roller a, make things convenient for the material to pass through like this, the roller spring can reset compressing tightly roller a, adopt drive assembly to realize the rotation of each roller, make each roller during operation, and stable in structure, and then make the material more stable when the conveying, and adopt drive assembly's transmission mode, moreover, the steam generator is simple in structure, long service life.

The utility model further comprises the following steps: still including the transfer roller, be equipped with drive assembly IV between pre-compaction roller b and the transfer roller and realize the rotation of transfer roller.

Adopt above-mentioned further setting, the cover is equipped with the conveyer belt on the transfer roller, and the material conveys on the conveyer belt, sets up the rotation that transmission assembly realized the transfer roller between transfer roller and the pre-compaction roller b, makes the simple structure of blooming machine like this, need not to establish a driving piece drive belt motion in addition.

The utility model further provides that: still including the thickness measuring roller, thickness measuring roller and transfer roller interval set up and form feedstock channel, be equipped with the rotation that drive assembly V realized the thickness measuring roller between thickness measuring roller and the pre-compaction roller a, the thickness measuring roller on contradict and have the thickness measuring roller spring, still including the inductive switch who is used for responding to the thickness measuring roller position.

By adopting the above further arrangement, the thickness of the material can be measured, when the height of the material exceeds the height of the feeding channel, the thickness measuring roller can move towards the direction far away from the conveying roller, so that the position of the thickness measuring roller can be sensed by the sensing switch, the material can be stopped or reversed, and the excessively thick material can be prevented from being conveyed to the pin gear roller of the blooming machine.

Still further arrangements of the utility model are: the transmission assembly I, the transmission assembly III, the transmission assembly IV and the transmission assembly V respectively comprise a driving gear I and a driven gear I, and the driving gear I is directly meshed or indirectly meshed with the driven gear I.

By adopting the above further arrangement, the structure is simple and the transmission is convenient.

Still further arrangements of the utility model are: the transmission assembly II comprises a driving gear II and a driven gear II, wherein the driving gear II is sleeved on the pre-pressing roller b, the driven gear II is sleeved on the pre-pressing roller a, and the driven gear II is meshed with the driving gear II to realize linkage of the pre-pressing roller a and the pre-pressing roller b.

Still further arrangements of the utility model are: the transmission assembly I, the transmission assembly III, the transmission assembly IV and the transmission assembly V further comprise transition gears, the transition gears are arranged between the driven gear I and the driving gear I, and the transition gears are respectively meshed with the driven gear I and the driving gear I to realize indirect meshing of the driven gear I and the driving gear I.

Adopt above-mentioned still further setting, stable in structure, simple to operate.

The utility model further provides that: the transmission assembly I, the transmission assembly III, the transmission assembly IV and the transmission assembly V are all further provided with two fixing plates which are oppositely arranged, the two fixing plates are connected through a plurality of fixing columns, the driving gear I, the driven gear I and the transition gear are all arranged between the two corresponding fixing plates, bearings are arranged on the two fixing plates corresponding to the driving gear I, the driven gear I and the transition gear, rotating columns are arranged on the transition gears, and the rotating columns and the rollers are arranged on the corresponding bearings in a penetrating mode and are in rotating fit with the bearings.

By adopting the above further arrangement, the installation is convenient, and in the movement process of the roller, all the gears are always kept meshed, so that the rigidity is good in the use process, and the roller is more durable.

Still further arrangements of the utility model are: still including setting up two mounts at each roller both ends, the both ends of each roller are all installed on the mount that corresponds through the installation axle sleeve, correspond roller spring and thickness measuring roller spring position on two mounts and be equipped with spring shim, roller spring and thickness measuring roller spring all be equipped with two, correspond the both ends that compress tightly roller a and thickness measuring roller's both ends respectively, two roller spring one end are contradicted with the spring shim that corresponds and are set up, the other end is contradicted with the installation axle sleeve that compresses tightly roller a and is set up, two thickness measuring roller spring one end are contradicted with the spring shim that corresponds and are set up, the other end is contradicted with the installation axle sleeve of thickness measuring roller and is set up.

Adopt above-mentioned still further setting for the stable in structure of each roller, simple to operate, roller spring and thickness measuring roller spring are contradicted and are set up at spring shim and installation axle sleeve, stable in structure, the roller that better resets and correspond.

Drawings

FIG. 1 is a front view of an embodiment of the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is a cross-sectional view taken along line B-B of FIG. 1;

FIG. 4 is a schematic overall structure diagram of an embodiment of the present invention;

FIG. 5 is a schematic view of a pre-pressing roller b according to an embodiment of the present invention;

FIG. 6 is a schematic view of a roller spring and a thickness measuring roller spring according to an embodiment of the present invention;

FIG. 7 is a schematic view of a transmission assembly IV according to an embodiment of the present invention;

fig. 8 is a schematic view of a transmission assembly II according to an embodiment of the present invention.

Detailed Description

As shown in fig. 1-8, a roller device on a blooming mill includes a driving member 1 and at least two roller sets, or three or four roller sets, wherein one roller set includes a pre-pressing roller a21 and a pre-pressing roller b22, a spacing 23 is provided between the pre-pressing roller a21 and the pre-pressing roller b22, the other roller set includes a pressing roller a31 and a pressing roller b32, a spacing 33 is provided between the pressing roller a31 and the pressing roller b32, the spacing 23 between the pre-pressing roller a21 and the pre-pressing roller b22 is larger than the spacing 33 between the pressing roller a31 and the pressing roller b32, one end of the pre-pressing roller b22 is linked and matched with the driving member 1 to realize the rotation of the pre-pressing roller b22, an output shaft of the driving member 1 may directly drive the rotation of the pre-pressing roller b22 or indirectly drive the rotation of the pre-pressing roller b22 through a transmission member, such as a gear set, a transmission member I4 is provided between the other end of the pre-pressing roller b22 and the pressing roller b32 to realize the rotation of the pressing roller b32, and pre-compaction roller b22 still passes through drive assembly II5 with the one end of pre-compaction roller a21 and realizes pre-compaction roller a21 and the linkage of pre-compaction roller b22, be equipped with drive assembly III6 between the pre-compaction roller a21 other end and the compaction roller a31 and realize compressing tightly the rotation of roller a31, it has roller spring 7 to press tightly roller a31 and keep away from one side of compressing tightly roller b32 conflict, pre-compaction roller b22 then drives pre-compaction roller a21, compresses tightly roller b32 and rotates through drive assembly, it rotates to press tightly roller a31 through drive assembly under the drive of pre-compaction roller a21, compress tightly the material once earlier through pre-compaction roller group, then compress tightly the material through compressing tightly roller group, when material thickness is thicker, it can be to keeping away from the direction motion that roller a31 compresses tightly roller b32 to make things convenient for the material to pass through, roller spring 7 can reset compressing tightly roller a31, adopt drive assembly to realize each rotation, make each roller during operation, stable in structure, and then make the material more stable when the conveying to adopt drive assembly's transmission mode, simple structure, long service life.

In this embodiment, still including transfer roller 8, be equipped with transmission assembly IV9 between pre-compaction roller b22 and the transfer roller 8 and realize the rotation of transfer roller 8, the cover is equipped with conveyer belt 81 on the transfer roller 8, and the material conveys on conveyer belt 81, sets up transmission assembly IV9 between transfer roller 8 and the pre-compaction roller b22 and realizes the rotation of transfer roller 8, makes the simple structure of flower machine like this, need not to establish a driving piece drive belt motion in addition.

In this embodiment, still including the thickness measuring roller 10, thickness measuring roller 10 and transfer roller 8 interval set up and form feedstock channel 11, be equipped with drive assembly V12 between thickness measuring roller 10 and the pre-compaction roller a21 and realize thickness measuring roller 10's rotation, thickness measuring roller 10 on contradict thickness measuring roller spring 13, still include inductive switch 14 that is used for responding to thickness measuring roller 10 position, can carry out the measurement of a thickness to the material, when the height of the material exceedes feedstock channel 11, feedstock channel 11's height indicates the direction that lines a indicates, thickness measuring roller 10 can move to the direction of keeping away from transfer roller 8, and inductive switch 14 will sense thickness measuring roller 10's position and change like this, will stop conveying or back the material at this moment, prevent that too thick material from conveying to the pin tooth cylinder of blooming machine.

In this embodiment, the transmission assembly I4, the transmission assembly III6, the transmission assembly IV9 and the transmission assembly V12 all include a driving gear I91 and a driven gear I92, the driving gear I91 is directly or indirectly engaged with the driven gear I92, the structure is simple, the transmission is convenient, the indirect engagement is specific, the transmission assembly I4, the transmission assembly III6, the transmission assembly IV9 and the transmission assembly V12 all further include a transition gear 93, the transition gear 93 is disposed between the driven gear I92 and the driving gear I91, and the transition gear 93 is respectively engaged with the driven gear I92 and the driving gear I91 to realize the indirect engagement between the driven gear I92 and the driving gear I91, so that the structure is stable and the installation is convenient.

Specifically, the transmission assembly I4, the transmission assembly III6, the transmission assembly IV9 and the transmission assembly V12 further include two fixing plates 94 disposed opposite to each other, the two fixing plates are connected by a plurality of fixing posts 95, the driving gear I91 and the driven gear I92 and the transition gear 93 are disposed between the two corresponding fixing plates 94, bearings are disposed on the two fixing plates 94 corresponding to the driving gear I91, the driven gear I92 and the transition gear 93, a rotating post 931 is disposed on each transition gear 93, the rotating post 931 and each roller are disposed on the corresponding bearings in a penetrating manner and rotatably engaged with the bearings, and the installation is convenient.

In this embodiment, transmission assembly II5 establishes driving gear II51 on pre-pressure roller b22 and establishes driven gear II52 on pre-pressure roller a21 including the cover, driven gear II51 and driving gear II52 meshing realize pre-pressure roller a21 and the linkage of pre-pressure roller b22, simple structure, the transmission is convenient.

For the installation convenience, still including setting up two mounts 15 at each roller both ends, the both ends of each roller are all installed on corresponding mount 15 through installation axle sleeve 16, correspond roller spring 7 and thickness measuring roller spring 13 position on two mounts 15 and are equipped with spring shim 151, roller spring 7 and thickness measuring roller spring 13 all be equipped with two, correspond the both ends that compress tightly roller a and the both ends of thickness measuring roller respectively, two roller spring 7 one end is contradicted with corresponding spring shim 151 and is set up, the other end is contradicted with the installation axle sleeve 16 of compressing tightly roller a21 and is set up, two thickness measuring roller spring 13 one end is contradicted with corresponding spring shim 151 and is set up, the other end is contradicted with the installation axle sleeve 16 of thickness measuring roller 10 and is set up for the stable in structure of each roller, simple to operate, roller spring 7 and thickness measuring roller spring 13 are contradicted and are set up on spring shim 151 and installation axle sleeve 16, stable in structure, and the corresponding roller can be better reset.

Claims

1. The roller device on the blooming machine is characterized by comprising a driving piece and at least two roller sets, wherein one roller set comprises a prepressing roller a and a prepressing roller b, a space is arranged between the prepressing roller a and the prepressing roller b, the other roller set comprises a pressing roller a and a pressing roller b, a space is arranged between the pressing roller a and the pressing roller b, the space between the prepressing roller a and the prepressing roller b is larger than the space between the pressing roller a and the pressing roller b, one end of the prepressing roller b is in linkage fit with the driving piece to realize the rotation of the pressing roller b, a transmission assembly I is arranged between the other end of the prepressing roller b and the pressing roller b to realize the rotation of the pressing roller b, the prepressing roller b is also in linkage with one end of the prepressing roller a through a transmission assembly II, a transmission assembly III is arranged between the other end of the prepressing roller a and the pressing roller a to realize the rotation of the pressing roller a, and one side of the pressing roller a, which is far away from the pressing roller b, is abutted with a roller spring.

2. The roller device on the flowering machine as claimed in claim 1, further comprising a conveying roller, wherein a transmission assembly IV is arranged between the pre-pressing roller b and the conveying roller to realize rotation of the conveying roller.

3. The roller device on the flowering machine as claimed in claim 2, further comprising a thickness measuring roller, wherein the thickness measuring roller and the conveying roller are arranged at intervals to form a feeding channel, a transmission assembly V is arranged between the thickness measuring roller and the pre-pressing roller a to realize rotation of the thickness measuring roller, a thickness measuring roller spring is abutted on the thickness measuring roller, and the roller device further comprises a sensing switch for sensing the position of the thickness measuring roller.

4. The roller device on the flowering machine as claimed in claim 3, wherein the transmission assembly I, the transmission assembly III, the transmission assembly IV and the transmission assembly V each comprise a driving gear I and a driven gear I, and the driving gear I is directly meshed or indirectly meshed with the driven gear I.

5. The roller device on the flowering machine as claimed in claim 1, 2, 3 or 4, wherein the transmission assembly II comprises a driving gear II sleeved on the pre-pressing roller b and a driven gear II sleeved on the pre-pressing roller a, and the driven gear II is meshed with the driving gear II to realize linkage of the pre-pressing roller a and the pre-pressing roller b.

6. The roller device on the flowering machine as claimed in claim 3, wherein the transmission assembly I, the transmission assembly III, the transmission assembly IV and the transmission assembly V further comprise a transition gear, the transition gear is arranged between the driven gear I and the driving gear I, and the transition gear is respectively engaged with the driven gear I and the driving gear I to realize indirect engagement of the driven gear I and the driving gear I.

7. The roller device on the flowering machine according to claim 6, wherein the transmission assembly I, the transmission assembly III, the transmission assembly IV and the transmission assembly V further comprise two fixing plates which are oppositely arranged, the two fixing plates are connected through a plurality of fixing columns, the driving gear I, the driven gear I and the transition gear are arranged between the two corresponding fixing plates, bearings are arranged on the two fixing plates corresponding to the driving gear I, the driven gear I and the transition gear, a rotating column is arranged on each transition gear, and the rotating column and each roller are arranged on the corresponding bearings in a penetrating mode and are in rotating fit with the bearings.

8. The roller device of claim 7, further comprising two fixing frames at two ends of each roller, wherein two ends of each roller are mounted on the corresponding fixing frames through mounting sleeves, spring washers are arranged on the two fixing frames corresponding to the roller springs and the thickness measuring roller springs, two roller springs and two thickness measuring roller springs are arranged and correspond to two ends of the pressing roller a and two ends of the thickness measuring roller respectively, one end of each roller spring is abutted against the corresponding spring washer, the other end of each roller spring is abutted against the mounting sleeve of the pressing roller a, one end of each thickness measuring roller spring is abutted against the corresponding spring washer, and the other end of each thickness measuring roller spring is abutted against the mounting sleeve of the thickness measuring roller.