CN210795222U - Adjusting assembly for textile cloth - Google Patents

Adjusting assembly for textile cloth Download PDF

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Publication number
CN210795222U
CN210795222U CN201921683053.2U CN201921683053U CN210795222U CN 210795222 U CN210795222 U CN 210795222U CN 201921683053 U CN201921683053 U CN 201921683053U CN 210795222 U CN210795222 U CN 210795222U
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CN
China
Prior art keywords
shaft
groove
gear
rotating
section
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201921683053.2U
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Chinese (zh)
Inventor
刘红波
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Yichang Rick Textile Co ltd
Original Assignee
Yichang Rick Textile Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Yichang Rick Textile Co ltd filed Critical Yichang Rick Textile Co ltd
Priority to CN201921683053.2U priority Critical patent/CN210795222U/en
Application granted granted Critical
Publication of CN210795222U publication Critical patent/CN210795222U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model discloses an adjusting component for textile cloth, which comprises a rolling shaft, wherein the rolling shaft is rotationally connected with a supporting plate, a through groove in the vertical direction is arranged on the supporting plate, the through groove is connected with the rolling shaft through an adjusting component, and the adjusting component is used for adjusting the position of the rolling shaft above and below the supporting plate; the fixed block is matched and connected with the sliding chute body through the sliding block, and the top of the fixed block is connected with the top of the through groove through the spring; the transmission mechanism comprises a rotating shaft, the rotating shaft comprises a threaded section and a rotating shaft section, the rotating shaft section is rotatably connected with a first fixing plate through a shaft sleeve, the threaded section is connected with a second fixing plate through a threaded sleeve, and the threaded section is also connected with a rotating gear; the first fixing plate and the second fixing plate are fixed on the chute body; the tail end of the rotating shaft section is rotatably connected with the fixed block; the rotating gear is meshed with the gear shaft to rotate; the sliding groove body is embedded into the first mounting groove, and a damping layer is arranged between the sliding groove body and the first mounting groove. The effect of the small-range adjusting force is improved.

Description

Adjusting assembly for textile cloth
Technical Field
The utility model relates to a spinning machine technical field, concretely relates to an adjusting part for weaving cloth.
Background
Textile machines often use rollers for the adjustment of the transmission and the winding forces during production and processing. However, in the actual production process, the roller comprises a driving roller and a driven roller, and the matching force between the textile cloth and the roller needs to be adjusted according to the winding form of the textile cloth, particularly the problem of small-range force fluctuation of the textile cloth between the rollers.
SUMMERY OF THE UTILITY MODEL
Not enough to exist among the prior art, the utility model provides an adjusting part for weaving cloth has solved the altitude mixture control of driven roller bearing and the problem of minim dynamics regulation. In order to achieve the above purpose, the utility model adopts the following technical scheme:
an adjusting assembly for textile cloth comprises a rolling shaft, wherein the rolling shaft is rotatably connected with a supporting plate, a through groove in the vertical direction is formed in the supporting plate, the through groove and the rolling shaft are connected through the adjusting assembly, and the adjusting assembly is used for adjusting the vertical position of the rolling shaft on the supporting plate; the adjusting assembly comprises a fixed block, a first mounting groove is formed in the side wall of the through groove, a sliding groove body is fixed in the first mounting groove, the fixed block is connected with the sliding groove body in a matched mode through a sliding block, and the top of the fixed block is connected with the top of the through groove through a spring; the fixed block is rotationally connected with the rolling shaft through a bearing; the lower end of the fixed block is connected with a transmission mechanism, the transmission mechanism is connected with a power positioning mechanism, and the transmission mechanism is used for driving the fixed block to move up and down linearly; the power positioning mechanism transmits power through the gear axial transmission mechanism, and the transmission mechanism slides on the gear shaft in the axial direction; the transmission mechanism comprises a rotating shaft, the rotating shaft comprises a threaded section and a rotating shaft section, the rotating shaft section is rotatably connected with a first fixing plate through a shaft sleeve, the threaded section is connected with a second fixing plate through a threaded sleeve, and the threaded section is also connected with a rotating gear; the first fixing plate and the second fixing plate are fixed on the chute body; the tail end of the rotating shaft section is rotatably connected with the fixed block; the rotating gear is meshed with the gear shaft to rotate; the sliding groove body is embedded into the first mounting groove, and a damping layer is arranged between the sliding groove body and the first mounting groove.
Furthermore, the power positioning mechanism comprises a protective shell, the protective shell is detachably connected with a bottom plate, and a power shaft penetrates through the protective shell; the gear shaft penetrates through the protective shell; gear shaft and power shaft pass through the bearing and connect in protection casing and bottom plate, and the end connection of power shaft has the carousel, the end connection of gear shaft has first rotating gear, is provided with the tooth on the circumference of carousel, carousel and the meshing of first rotating gear, the axial sets up the rack on the gear shaft, forms the gear section, the gear section with the rotating gear meshing, the length of gear section is greater than the axial travel of moving of rotating gear.
Furthermore, the turntable and the protective shell are uniformly provided with positioning holes along the rotating shaft of the turntable, and the positioning holes are connected with positioning pins.
Further, the gear shaft still has the rack in the meshing, be provided with the rack groove on the lateral wall of protection casing, rack and rack groove sliding connection, rack groove connection have the assembly groove, and the width in assembly groove is greater than the width in rack groove.
Compared with the prior art, the utility model discloses following beneficial effect has:
the utility model is rotationally connected with the roller through the fixed block, and then is driven to move up and down through the transmission mechanism, so that the up-and-down adjustment of the roller can be conveniently adjusted; the first fixing plate and the second fixing plate are fixed on the chute body through the design of the shock absorption layer, so that the matching difficulty between the parts can be reduced, and small-range fluctuation between the textile cloth and the rolling shaft can be realized through the adjustment of the shock absorption layer; furthermore, the roller of the utility model can be used as a driven shaft from top to bottom through the arrangement of the spring; when the lower part is used as textile cloth through the shaft, the springs and the damping layer are used, so that a two-stage damping effect is formed, and the effect of adjusting force in a small range is improved.
Drawings
Fig. 1 is a schematic structural view of the present invention;
FIG. 2 is a side view of the support plate;
FIG. 3 is a schematic view of a rack slot structure on the protective housing;
FIG. 4 is a top view of the protective housing;
FIG. 5 is a schematic plan view of the protective housing on the side closer to the rotating gear;
FIG. 6 is a right side view of the fixed block;
FIG. 7 is a schematic view of a runner body engaged with a slider;
the device comprises a rolling shaft 1, a supporting plate 2, a bottom plate 3, a through groove 4, a fixing block 5-1, a sliding block 5-2, a first fixing plate 5-5, a second fixing plate 5-7, a rotating gear 5-8, a rotating shaft 5-9, a first rotating gear 6-1, a rack 6-2, a gear shaft 6-3, a protective shell 7-1, a power shaft 7-2, a rotary table 7-3, a rack groove 7-5, an assembling groove 7-6 and a positioning hole 7-8.
Detailed Description
The scheme will now be further described with reference to the accompanying drawings.
EXAMPLE 1
As shown in fig. 1-7, an adjusting assembly for textile fabric comprises a roller 1, wherein the roller 1 is rotatably connected with a support plate 2, the support plate is provided with a through groove 4 in the vertical direction, the through groove 4 is connected with the roller 1 through an adjusting assembly, and the adjusting assembly is used for adjusting the vertical position of the roller 1 on the support plate 2; the adjusting assembly comprises a fixed block 5-1, a first mounting groove is formed in the side wall of the through groove 4, a sliding groove body 9 is fixed in the first mounting groove, the fixed block 5-1 is connected with the sliding groove body in a matched mode through a sliding block 5-2, and the top of the fixed block 5-1 is connected with the top of the through groove 4 through a spring 10; the fixed block 5-1 is rotationally connected with the roller 1 through a bearing; the lower end of the fixed block 5-1 is connected with a transmission mechanism, the transmission mechanism is connected with a power positioning mechanism, and the transmission mechanism is used for driving the fixed block 5-1 to move up and down linearly; the power positioning mechanism transmits power to the transmission mechanism through the gear shaft 6-3, and the transmission mechanism slides on the gear shaft 6-3 in the axial direction; the transmission mechanism comprises a rotating shaft 5-9, the rotating shaft 5-9 comprises a threaded section and a rotating shaft section, the rotating shaft section is rotatably connected with a first fixing plate 5-5 through a shaft sleeve, the threaded section is connected with a second fixing plate 5-7 through a threaded sleeve, and the threaded section is further connected with a rotating gear 5-8; the first fixing plate 5-5 and the second fixing plate 5-7 are fixed on the chute body; the tail end of the rotating shaft section is rotationally connected with the fixed block 5-1; the rotating gear 5-8 is meshed with the gear shaft 6-3 to rotate; the sliding groove body is embedded into the first mounting groove, and a damping layer is arranged between the sliding groove body 9 and the first mounting groove. The fixed block 5-1 is provided with a sliding block fixing groove 5-4, the side wall of the sliding block fixing groove 5-4 is provided with a positioning bolt hole 5-3, the distance between the sliding block 5-2 and the sliding groove body is adjusted during equipment, and the sliding groove body 9 is preferably a hollow rectangular groove body. The adjusting device is characterized in that the sliding block 5-2 is fixed through the bolt 5-6 after being inserted into the sliding groove body, and therefore the adjusting device is convenient to design and assemble. The fixed block 5-1 is provided with a rotating groove, and the tail end of the rotating shaft section is placed in the rotating groove to facilitate matching and rotating. The transmission mechanism is integrally fixed on the sliding chute body 9, so that the matching difficulty between the gears is reduced.
The power positioning mechanism comprises a protective shell 7-1, the protective shell 7-1 is detachably connected with a bottom plate 3, and a power shaft 7-2 penetrates through the protective shell 7-1; the gear shaft 6-3 penetrates through the protective shell 7-1; the gear shaft 6-3 and the power shaft 7-2 are connected to the protective shell 7-1 and the bottom plate 3 through bearings, the end portion of the power shaft 7-2 is connected with the rotary table 7-3, the end portion of the gear shaft 6-3 is connected with the first rotating gear 6-1, teeth are arranged on the circumference of the rotary table 7-3, the rotary table 7-3 is meshed with the first rotating gear 6-1, a rack 6-2 is axially arranged on the gear shaft 6-3 to form a gear section, the gear section is meshed with the rotating gear 5-8, and the length of the gear section is larger than the axial moving stroke of the rotating gear 5-8.
Positioning holes 7-8 are uniformly distributed on the turntable 7-3 and the protective shell 7-1 along the rotating shaft of the turntable 7-3, and positioning pins are connected to the positioning holes 7-8. One side of the protective shell 7-1 facing the side of the rotating gear 5-8 is provided with a gear stroke groove 7-4, and the rotating gear 5-8 penetrates through the gear stroke groove 7-4 to be meshed with the gear shaft 6-3. The rotating gear 5-8 can slide axially along the gear shaft 6-3 in the rotating process, so that the transmitted power is continuously output. A positioning groove 8 is formed in the bottom plate between the gear shaft 6-3 and the supporting plate 2, when the protective shell 7-1 is assembled, the protective shell 7-1 is connected with the side face of the bottom plate through a bolt after the protective shell 7-1 is in place through a protrusion matched with the positioning groove 8 on the protective shell 7-1, and therefore disassembly and assembly are convenient.
The gear shaft 6-3 is further meshed with a rack 6-2, a rack groove 7-5 is formed in the side wall of the protective shell 7-1, the rack 6-2 is connected with the rack groove 7-5 in a sliding mode, the rack groove 7-5 is connected with an assembling groove 7-6, and the width of the assembling groove 7-6 is larger than that of the rack groove 7-5. When the rack 6-2 is assembled, the rack 6-2 is placed into the assembling groove 7-6, the rack 6-2 is firstly meshed with the gear shaft 6-3, then the rack slides into the rack groove 7-5, then the eccentric wheel 7-7 is rotated to a proper position, the assembling groove 7-6 is covered, and the rack is prevented from jumping out of the rack groove 7-5. In the transmission process, the rotary table 7-3 drives the first rotating gear 6-1 to rotate through the rotation of the handle, then the gear shaft 6-3 drives the rotating gear 5-8, the rotating gear 5-8 is converted into linear motion through the threaded sleeve, and the sliding block 5-2 is driven to move up and down along the sliding chute body; the rack 6-2 is arranged, so that the force can be assisted, and the use torque of the rotary disc 7-3 can be reduced. After the adjustment is finished, the positioning pin can be fixed in the positioning holes 7-8 through the pin shaft to perform effective positioning. The ratio of the turntable 7-3 to the turning gear 5-8 is preferably 9 to 1. During the use, weaving cloth passes through in the top of roller bearing 1, through adjusting from top to bottom, can adjust weaving cloth and roller bearing 1's contact dynamics and dynamics requirement, makes weaving cloth be in the state that sets up at any time in the processing transmission process. When the lower part is used as textile cloth through the shaft, the springs and the damping layer are used, so that a two-stage damping effect is formed, and the effect of adjusting force in a small range is improved.
Example 2
The shock attenuation layer sets up the carbon fiber board between for the plastic slab, and the plastic slab is connected with interior basal layer, and the plastic slab is connected and interior basal layer integrated into one piece. The carbon fiber has good performances of high tensile strength, corrosion resistance, shock resistance, impact resistance and the like, and can ensure the service life. When the inner substrate layer is made of carbon fiber, the inner substrate layer is formed by stretching and extrusion molding, and when the inner substrate layer is made of plastic, the inner substrate layer is formed by hot casting.
Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (4)

1. An adjusting assembly for textile cloth comprises a rolling shaft (1), wherein the rolling shaft (1) is rotatably connected with a supporting plate (2), and is characterized in that the supporting plate is provided with a through groove (4) in the vertical direction, the through groove (4) is connected with the rolling shaft (1) through the adjusting assembly, and the adjusting assembly is used for adjusting the vertical position of the rolling shaft (1) on the supporting plate (2); the adjusting assembly comprises a fixing block (5-1), a first mounting groove is formed in the side wall of the through groove (4), a sliding groove body (9) is fixed in the first mounting groove, the fixing block (5-1) is connected with the sliding groove body in a matched mode through a sliding block (5-2), and the top of the fixing block (5-1) is connected with the top of the through groove (4) through a spring (10); the fixed block (5-1) is rotationally connected with the roller (1) through a bearing; the lower end of the fixed block (5-1) is connected with a transmission mechanism, the transmission mechanism is connected with a power positioning mechanism, and the transmission mechanism is used for driving the fixed block (5-1) to move up and down linearly; the power positioning mechanism transmits power to the transmission mechanism through the gear shaft (6-3), and the transmission mechanism slides on the gear shaft (6-3) in the axial direction; the transmission mechanism comprises a rotating shaft (5-9), the rotating shaft (5-9) comprises a threaded section and a rotating shaft section, the rotating shaft section is rotatably connected with a first fixing plate (5-5) through a shaft sleeve, the threaded section is connected with a second fixing plate (5-7) through a threaded sleeve, and the threaded section is further connected with a rotating gear (5-8); the first fixing plate (5-5) and the second fixing plate (5-7) are fixed on the chute body; the tail end of the rotating shaft section is rotationally connected with a fixed block (5-1); the rotating gear (5-8) is meshed with the gear shaft (6-3) to rotate; the sliding groove body is embedded into the first mounting groove, and a damping layer is arranged between the sliding groove body (9) and the first mounting groove.
2. The adjusting assembly for textile cloth according to claim 1, wherein the power positioning mechanism comprises a protective shell (7-1), the protective shell (7-1) is detachably connected with the bottom plate (3), and a power shaft (7-2) penetrates through the protective shell (7-1); the gear shaft (6-3) penetrates through the protective shell (7-1); the gear shaft (6-3) and the power shaft (7-2) are connected to the protective shell (7-1) and the bottom plate (3) through bearings, the end portion of the power shaft (7-2) is connected with a rotary table (7-3), the end portion of the gear shaft (6-3) is connected with a first rotating gear (6-1), teeth are arranged on the circumference of the rotary table (7-3), the rotary table (7-3) is meshed with the first rotating gear (6-1), a rack (6-2) is axially arranged on the gear shaft (6-3) to form a gear section, the gear section is meshed with the rotating gear (5-8), and the length of the gear section is larger than the axial moving stroke of the rotating gear (5-8).
3. The adjusting assembly for textile cloth according to claim 2, wherein the rotary disc (7-3) and the protective shell (7-1) are provided with positioning holes (7-8) along the rotating shaft of the rotary disc (7-3), and the positioning holes (7-8) are connected with positioning pins.
4. An adjusting assembly for textile cloth according to claim 2, wherein the gear shaft (6-3) is further engaged with a rack (6-2), a side wall of the protective housing (7-1) is provided with a rack groove (7-5), the rack (6-2) is slidably connected with the rack groove (7-5), the rack groove (7-5) is connected with an assembling groove (7-6), and the width of the assembling groove (7-6) is greater than that of the rack groove (7-5).
CN201921683053.2U 2019-10-10 2019-10-10 Adjusting assembly for textile cloth Expired - Fee Related CN210795222U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921683053.2U CN210795222U (en) 2019-10-10 2019-10-10 Adjusting assembly for textile cloth

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921683053.2U CN210795222U (en) 2019-10-10 2019-10-10 Adjusting assembly for textile cloth

Publications (1)

Publication Number Publication Date
CN210795222U true CN210795222U (en) 2020-06-19

Family

ID=71244568

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201921683053.2U Expired - Fee Related CN210795222U (en) 2019-10-10 2019-10-10 Adjusting assembly for textile cloth

Country Status (1)

Country Link
CN (1) CN210795222U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112551234A (en) * 2020-11-27 2021-03-26 安徽恒硕纺织品有限公司 Conveying device with elastic structure for dyeing fiber products

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112551234A (en) * 2020-11-27 2021-03-26 安徽恒硕纺织品有限公司 Conveying device with elastic structure for dyeing fiber products

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GR01 Patent grant
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20200619

Termination date: 20211010

CF01 Termination of patent right due to non-payment of annual fee