CN218950198U

CN218950198U - Sponge processing is with automatic cotton system of holding up

Info

Publication number: CN218950198U
Application number: CN202223452787.4U
Authority: CN
Inventors: 吴晓宇; 丁海成; 林长彬; 沈安祥; 吴鹏翔
Original assignee: Nantong Healthcare Machinery Co ltd
Current assignee: Nantong Healthcare Machinery Co ltd
Priority date: 2022-12-23
Filing date: 2022-12-23
Publication date: 2023-05-02
Anticipated expiration: 2032-12-23

Abstract

The utility model relates to an automatic cotton supporting system for sponge processing, which comprises a conveying unit, wherein the conveying unit comprises a feeding conveying belt and a discharging conveying belt; the cotton supporting unit comprises a cotton supporting bracket and a cotton supporting plate, and the cotton supporting plate is arranged on the cotton supporting bracket through a translation mechanism; the translation mechanism comprises a fixed bracket, a first translation bracket and a second translation bracket, wherein the fixed bracket is arranged on the cotton supporting bracket, the first translation bracket is arranged on the fixed bracket, the second translation bracket is arranged on the first translation bracket, and a linkage mechanism is arranged between the first translation bracket and the second translation bracket; a follow-up mechanism is also arranged on the cotton supporting plate, and a reset mechanism is also arranged between the first translation bracket and the fixed bracket. The utility model has the advantages that: through the design of the relative movement of the first translation bracket and the second translation bracket, the fixing bracket does not need to span two conveying brackets, the whole process of supporting the sponge can be ensured, the length of the whole supporting bracket is reduced, and the installation is convenient.

Description

Sponge processing is with automatic cotton system of holding up

Technical Field

The utility model relates to the field of sponge processing, in particular to an automatic sponge supporting system for sponge processing.

Background

The annular knife belt sponge cutting machine mainly comprises a portal frame, a sponge conveying working platform, a knife belt wheel, an annular knife belt and a knife twisting device, wherein the sponge conveying working platform is arranged below the portal frame, a knife belt wheel set is arranged on the portal frame, and the annular knife belt is sleeved on the knife belt wheel set; one side of the annular cutter belt is provided with a cutter twisting device, and the annular cutter belt is tensioned and driven to rotate through the cutter belt wheel set to realize cutting. The ring vertical knife is a product of a cut-shaped sheet, and the sponge starts to separate at the same time due to high speed, and when the sponge is cut, the sponge can move due to the fact that the sponge two sides are not provided with the cotton supporting devices, so that the cutting precision is affected.

Based on the above-mentioned circumstances, patent CN209380865U just mentions an automatic lateral cotton supporting synchronous operation device, including a pair of cotton supporting plates that set up in the conveying support both sides, two cotton supporting plates cooperate jointly to realize the centre gripping to the sponge, and two cotton supporting plates are driven by a translation mechanism and carry out reciprocating motion between feeding conveyer belt and ejection of compact conveyer belt.

Foretell device is holding up cotton in-process to the sponge realization, holds up the sponge through the cotton board of holding up of both sides, and the rethread contact plate pushes down the cooperation of conveyer belt and realizes holding up cotton board and sponge synchronous movement to realize the support of whole in-process to the sponge, guarantee the cutting accuracy of sponge. The utility model relates to a sponge supporting device, which is characterized in that a sponge supporting plate is arranged on a fixed connecting support and a movable connecting support, wherein the sponge supporting plate is arranged on a fixed connecting support and a movable connecting support, the sponge supporting plate is arranged on a material feeding side of a material feeding conveying belt and a material discharging side of a material discharging conveying belt, the sponge supporting plate is arranged on a material discharging side of the material feeding conveying belt, and the sponge supporting plate is arranged on a material discharging side of the material feeding conveying belt.

Disclosure of Invention

The utility model aims to solve the technical problem of providing an automatic cotton supporting system for sponge processing, which can reduce the length of a cotton supporting bracket on the basis of ensuring the stroke of a cotton supporting plate and is convenient to install.

In order to solve the technical problems, the technical scheme of the utility model is as follows: the utility model provides an automatic cotton system of holding up for sponge processing which innovation point lies in: comprising

The conveying unit comprises a feeding conveying belt and a discharging conveying belt, and the feeding conveying belt and the discharging conveying belt are respectively arranged on the feeding bracket and the discharging bracket;

the cotton supporting unit comprises a cotton supporting bracket arranged on the feeding bracket and a pair of cotton supporting plates which are arranged on the cotton supporting bracket and are distributed in parallel, the two cotton supporting plates are positioned above the feeding conveyor belt, and the cotton supporting plates are arranged on the cotton supporting bracket through a translation mechanism;

the translation mechanism comprises a fixed bracket, a first translation bracket and a second translation bracket, wherein the fixed bracket is arranged on the cotton supporting bracket, the first translation bracket is arranged on the fixed bracket, the second translation bracket is arranged on the first translation bracket, and a linkage mechanism is arranged between the first translation bracket and the second translation bracket;

the cotton supporting plate is arranged on the second translation bracket and moves horizontally in synchronization with the second translation bracket, the cotton supporting plate is also provided with a follow-up mechanism, and a reset mechanism is arranged between the first translation bracket and the fixed bracket.

Further, the linkage mechanism is: four linkage idler wheels which are distributed in a rectangular shape are arranged at the side end of the first translation bracket, a linkage rope which is in a square shape is wound on the four linkage idler wheels, a linkage plate is arranged on the linkage rope, the side end of the linkage plate is fixed with the fixed bracket, a linkage guide rail is further arranged on one side of the first translation bracket in the linkage rope, a linkage guide slide block matched with the linkage guide rail is arranged at the side end of the fixed bracket, a linkage slide rail is further arranged on the other side of the first translation bracket, and a linkage slide block matched with the linkage slide rail is further arranged on the second translation bracket.

Further, the following mechanism is: the bottom end face of the cotton supporting plate is provided with angle aluminum which extends along the long axis direction of the cotton supporting plate, and the angle aluminum is driven by a plurality of lifting cylinders arranged on the cotton supporting plate to lift up and down so as to compress or separate from a feeding conveyer belt or a discharging conveyer belt.

Further, the reset mechanism is: a reset rack is arranged at the side end of the first translation bracket, the reset rack extends along the long axis direction of the first translation bracket, a reset plate is arranged on the fixed bracket, a reset gear meshed with the reset rack is arranged on the reset plate, the reset gear is driven to rotate by a reset motor arranged on the reset plate, and the reset plate is driven to horizontally move by a reset cylinder arranged on the fixed bracket, so that the reset gear is driven to be meshed with or separated from the reset rack.

Further, the two cotton supporting plates are driven to be close to or far away from each other by a clamping mechanism, and the clamping mechanism is as follows: the device comprises a support frame, a pair of clamping guide rails which are distributed in parallel and are arranged on the support frame, clamping sliding blocks which are matched with the clamping guide rails are respectively arranged on two sides of the fixing frame, a clamping rack is further arranged between the two clamping guide rails at the bottom end of the fixing frame, the extending direction of the clamping rack is the same as that of the clamping guide rails, a clamping gear meshed with the clamping rack is further arranged on the support frame, the clamping gear is driven to rotate by a clamping motor arranged on the support frame, and accordingly the fixing frame is driven to reciprocate along the clamping guide rails, and two support plates are further moved close to or away from each other.

Furthermore, a detection plate is respectively arranged at two sides of the cotton supporting plate.

The utility model has the advantages that: according to the utility model, the horizontal movement of the cotton supporting plate is realized by adopting the translation mechanism, through the design of the three supports of the fixed support, the first translation support and the second translation support, and the relative movement of the first translation support and the second translation support is designed by matching with the linkage mechanism, the follow-up mechanism and the reset mechanism, the fixed support does not need to span two conveying supports, the whole process of supporting the sponge can be ensured, the length of the whole cotton supporting support is reduced, and the installation is convenient.

For the design of the linkage mechanism, the mutual matching of the linkage roller, the linkage rope and the linkage plate is adopted, so that the relative movement between the first translation bracket and the second translation bracket is realized, and a foundation is provided for reducing the length of the fixed bracket; the cooperation of linkage guide rail and linkage guide slider is in order to play the guide to the relative movement of first translation support and fixed bolster, and linkage slide rail and linkage slider are in order to play a guide to the relative movement between first translation support and the second translation support, avoid appearing the phenomenon of off tracking.

The follow-up mechanism is designed, the compaction of the cotton supporting plate on the feeding conveying belt or the discharging conveying belt is realized by adopting the cooperation of angle aluminum and a lifting cylinder, and the structure is simple.

The reset mechanism is designed by adopting the mutual matching of the reset rack, the reset plate, the reset gear, the reset cylinder and other parts, so that the reset of the first translation bracket and the second translation bracket can be realized, the interference to the movement of the first translation bracket and the second translation bracket is avoided, and the smooth running of the handrail is ensured.

The clamping mechanism is designed to only adopt a pair of clamping guide rails to match with the clamping sliding blocks, so that the two cotton supporting plates can be clamped and moved, the two cotton supporting plates can be guaranteed to reciprocate on the same straight line all the time, the stable clamping on two sides of the sponge can be guaranteed, the phenomenon of dislocation is avoided, the two cotton supporting plates are respectively driven to act by adopting two clamping motors, the independent action of the cotton supporting plates is realized, and the cotton supporting plates can be conveniently and reciprocally moved and adjusted so as to clamp the sponge conveniently.

The design of the detection plates at two sides of the sponge supporting plate is used for detecting the sponge so as to be matched with the clamping mechanism conveniently, so that the two sponge supporting plates can clamp the sponge, and a foundation is provided for smooth cutting of the subsequent sponge.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic view of an automatic sponge supporting system for sponge processing according to the present utility model.

Fig. 2 is a schematic diagram of a sponge cutting state in the present utility model.

FIG. 3 is a schematic view of a cotton supporting unit according to the present utility model.

Fig. 4 is an enlarged schematic view of a portion a of fig. 3.

Fig. 5 is a schematic view of a translation mechanism according to the present utility model.

Detailed Description

The following examples will provide those skilled in the art with a more complete understanding of the present utility model and are not intended to limit the utility model to the embodiments described.

An automatic sponge supporting system for sponge processing as shown in figures 1-5 comprises

The conveying unit comprises a feeding conveying belt 1 and a discharging conveying belt 2, wherein the feeding conveying belt 1 and the discharging conveying belt 2 are respectively arranged on a feeding support 11 and a discharging support 21, the feeding conveying belt 1 is consistent with the upper end face of the discharging conveying belt 2 in height, the feeding conveying belt 1 is driven by a feeding motor arranged on the feeding support 11 to work, and the discharging conveying belt 2 is driven by a discharging motor arranged on the discharging support 21 to work.

A portal frame 3 is further arranged between the feeding conveyor belt 1 and the discharging conveyor belt 2, two sides of the portal frame 3 transversely span two sides of the feeding conveyor belt 1 and the discharging conveyor belt 2 in the width direction, and a circular vertical cutter 31 is arranged on the portal frame.

The cotton supporting unit 4, the cotton supporting unit 4 comprises a cotton supporting bracket 401 arranged on the feeding bracket 11 and a pair of cotton supporting plates 402 arranged on the cotton supporting bracket 401 in parallel, the two cotton supporting plates 402 are positioned above the feeding conveyor belt 1, and the cotton supporting plates 402 are arranged on the cotton supporting bracket 401 through a translation mechanism.

The translation mechanism comprises a fixed bracket 403, a first translation bracket 404 and a second translation bracket 405, wherein the fixed bracket 403 is arranged on the cotton supporting bracket 401, the first translation bracket 404 is arranged on the fixed bracket 403, the second translation bracket 405 is arranged on the first translation bracket 404, and a linkage mechanism is arranged between the first translation bracket 404 and the second translation bracket 405.

The linkage mechanism is as follows: four rectangular linkage rollers 406 are arranged at the side end of the first translation bracket 404 far away from the second translation bracket 405, the linkage rollers 406 are slidably arranged on the first translation bracket 404, a rectangular linkage rope 407 is wound on the four linkage rollers 406, an annular groove for accommodating the installation of the linkage rope 407 is formed in the middle position of the circumferential outer wall of the linkage roller 406, a linkage plate 408 is arranged on the linkage rope 407, the linkage plate 408 is directly fixed on the linkage rope 407, the side end of the linkage plate 408 is fixed with the fixed bracket 403 through the cooperation of bolts and nuts, waist-shaped adjusting holes for allowing the bolts to pass through are formed in the linkage plate 408, round through holes for allowing the bolts to pass through are formed in the fixed bracket 403, and after the bolts sequentially pass through the waist-shaped adjusting holes in the linkage plate 408 and the round through holes in the fixed bracket 403, the bolts are screwed by nuts, so that the fixation of the linkage plate 408 and the fixed bracket 403 is realized. For the kidney-shaped adjusting hole designed for the linkage plate 408, in order to achieve a fine adjustment effect on the relative fixed position between the linkage plate 408 and the fixed bracket 403, the linkage rope 407 can work smoothly conveniently, and the phenomenon that the linkage rope 407 works unsmoothly due to overhigh or overlow linkage plate 408 is avoided.

One side of the first translation bracket 404 is located in the linkage rope 407 and is further provided with a linkage guide rail 409, the linkage guide rail 409 extends along the long axis direction of the first translation bracket 404, meanwhile, the side end of the fixed bracket 403 is provided with a linkage guide slide block 410 matched with the linkage guide rail 409, the side end of the linkage guide rail 409 is further provided with a first limiting block for limiting the linkage guide slide block 410, the stroke of the linkage guide slide block 410 is mechanically limited through the design of the first limiting block, and the phenomenon that the stroke of the linkage guide slide block 410 is out of limit, namely, the phenomenon that the relative position between the first translation bracket 404 and the fixed bracket 403 is out of limit is avoided, so that the smooth progress of the whole centralizing is affected.

The linkage slide rail is further installed on the other side of the first translation support 404, the linkage slide rail extends along the long axis direction of the first translation support 404, the linkage slide block matched with the linkage slide rail is further installed on one side, close to the first translation support 404, of the second translation support 405, meanwhile, a second limiting block for limiting the linkage slide block is further installed at the side end of the linkage slide rail, the stroke of the linkage slide block is mechanically limited through the design of the second limiting block, the phenomenon that the stroke of the linkage slide block exceeds the limit is avoided, namely, the phenomenon that the relative position of the second translation support 405 and the first translation support 404 exceeds the limit is avoided, and further the smooth operation of the whole handrail is affected.

For the design of the linkage mechanism, the mutual matching of the linkage roller 406, the linkage rope 407 and the linkage plate 408 is adopted, so that the relative movement between the first translation bracket 404 and the second translation bracket 405 and the movement of the first translation bracket 404 relative to the fixed bracket 403 are realized, and a foundation is provided for reducing the length of the fixed bracket 403; the cooperation of the linkage guide rail 409 and the linkage guide slider 410 is to play a guiding role in the relative movement of the first translation bracket 404 and the fixed bracket 403, and the cooperation of the linkage slide rail and the linkage slider is to play a guiding role in the relative movement between the first translation bracket 404 and the second translation bracket 405, so as to ensure the movement stability of the first translation bracket 404 and the second translation bracket 405 and avoid the phenomenon of deviation.

The centralizing plate 402 is mounted on the second translation bracket 405 and is directly fixed to the second translation bracket 405 by the engagement of bolts or screws, thereby enabling the centralizing plate 402 to move horizontally in synchronization with the second translation bracket 405.

Also mounted on the cotton supporting plate 402 is a follower which is: an angular aluminum 411 is mounted on the bottom end surface of the cotton supporting plate 402, the angular aluminum 411 is long and extends along the long axis direction of the cotton supporting plate 402, and the angular aluminum 411 is driven by a plurality of lifting cylinders 412 mounted on the cotton supporting plate 402 to lift up and down so as to press or separate from the feeding conveyor belt 1 or the discharging conveyor belt 2. The follow-up mechanism is designed, and the cotton supporting plate 402 is tightly pressed on the feeding conveyer belt 1 or the discharging conveyer belt 2 by adopting the cooperation of the angular aluminum 411 and the lifting cylinder 412, so that the structure is simple.

A reset mechanism is further arranged between the first translation bracket 404 and the fixed bracket 403, and the reset mechanism is as follows: a reset rack 413 is mounted at the upper end of the first translation bracket 404, the reset rack 413 extends along the long axis direction of the first translation bracket 404, a reset plate 414 is mounted on the fixed bracket 403, a reset gear meshed with the reset rack is mounted on the reset plate 414, the reset gear is driven to rotate by a reset motor 415 mounted on the reset plate 414, and the reset plate 414 is driven to horizontally move by a reset cylinder 416 mounted on the fixed bracket 403, so that the reset gear is driven to be meshed with or separated from the reset rack 413. The reset mechanism is designed by adopting the mutual matching of the reset rack 413, the reset plate 414, the reset gear, the reset cylinder 416 and other parts, so that the reset of the first translation bracket 404 and the second translation bracket 405 can be realized, the interference to the movement of the first translation bracket 404 and the second translation bracket 405 can be avoided, and the smooth running of the handrail is ensured.

The two centralizing plates 402 are driven toward and away from each other by a clamping mechanism: a pair of parallel clamping guide rails 417 are installed on the cotton supporting frame 401, clamping sliding blocks matched with the clamping guide rails 417 are installed on two sides of the fixing frame 403 respectively, a clamping rack 418 is further arranged between the two clamping guide rails 417 at the bottom end of the fixing frame 403, the extending direction of the clamping rack 418 is the same as that of the clamping guide rails 417, a clamping gear meshed with the clamping rack 418 is further installed on the cotton supporting frame 401, and the clamping gear is driven to rotate by a clamping motor 419 installed on the cotton supporting frame 401, so that the fixing frame 403 is driven to reciprocate along the extending direction of the clamping guide rails 417, and two cotton supporting plates 402 are further enabled to approach or separate. The design of the clamping mechanism only adopts the cooperation of a pair of clamping guide rails 417 and clamping sliding blocks, so that the clamping movement of the two cotton holding plates 402 is realized, the two cotton holding plates 402 are ensured to reciprocate on the same straight line all the time, the stable clamping on two sides of a sponge is ensured, the phenomenon of dislocation is avoided, the two cotton holding plates are respectively driven to move by adopting two clamping motors 419, the independent movement of the cotton holding plates 402 is realized, and the cotton holding plates 402 are convenient to reciprocate and adjust, so that the sponge is convenient to clamp.

A test plate 420 is also mounted on each side of the spreader 402. The design of the detection plates 420 on two sides of the sponge supporting plate 402 is used for detecting the sponge so as to be matched with the clamping mechanism conveniently, so that the two sponge supporting plates 402 clamp the sponge, and a foundation is provided for smooth cutting of the subsequent sponge.

Working principle: after the sponge 5 enters the feeding conveyer belt 1 to be in place, the two side sponge supporting plates 402 start to move towards the middle under the driving of the clamping mechanism, when the detection plate 420 detects the sponge 5, the clamping mechanism stops driving, the two sponge supporting plates 402 are utilized to clamp and support the sponge 5, then the lifting cylinder 412 starts to act, so that the angle aluminum 411 is attached to the upper end face of the feeding conveyer belt 1, the sponge supporting plates 402 and the feeding conveyer belt 1 synchronously act during cutting, after the sponge 5 is supported by the sponge supporting plates 402, the circular vertical knife starts to cut the sponge, in order to enable the sponge supporting plates 402 to have a larger stroke, the space occupied by the frame is reduced, a mode of combining the fixed support 403, the first translation support 404 and the second translation support 405 is adopted, and the 4 linkage rollers 406 are fixed on the first translation support 404 in a matched mode, then the first translation support 404 and the second translation support 405 are linked with the sponge supporting plates 402 through the linkage rope 407, and when the sponge supporting plates 402 move, the second translation support 405 is driven to move together by the same distance through the linkage rope 403, and the distance is larger than the fixed support 2, so that the purpose of large stroke is achieved.

After the cutting is finished, the sponge 5 moves to the discharging side of the discharging conveyor belt 2 to stop, the cotton supporting plates 402 on the two sides are driven by the clamping mechanism to retract outwards, after the sponge supporting plates reach the position, the lifting cylinder 412 retracts, the reset cylinder 416 starts to act, the reset gear is driven to be meshed with the reset rack 413, then the reset motor 415 works, and the reset gear drives the reset rack 413 to enable the cotton supporting plates 402 to retract to the initial position.

It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a sponge processing is with automatic system of holding up cotton which characterized in that: comprising

2. The automatic sponge supporting system for sponge processing as claimed in claim 1, wherein: the linkage mechanism is as follows: four linkage idler wheels which are distributed in a rectangular shape are arranged at the side end of the first translation bracket, a linkage rope which is in a square shape is wound on the four linkage idler wheels, a linkage plate is arranged on the linkage rope, the side end of the linkage plate is fixed with the fixed bracket, a linkage guide rail is further arranged on one side of the first translation bracket in the linkage rope, a linkage guide slide block matched with the linkage guide rail is arranged at the side end of the fixed bracket, a linkage slide rail is further arranged on the other side of the first translation bracket, and a linkage slide block matched with the linkage slide rail is further arranged on the second translation bracket.

3. The automatic sponge supporting system for sponge processing as claimed in claim 1, wherein: the following mechanism is as follows: the bottom end face of the cotton supporting plate is provided with angle aluminum which extends along the long axis direction of the cotton supporting plate, and the angle aluminum is driven by a plurality of lifting cylinders arranged on the cotton supporting plate to lift up and down so as to compress or separate from a feeding conveyer belt or a discharging conveyer belt.

4. The automatic sponge supporting system for sponge processing as claimed in claim 1, wherein: the reset mechanism is as follows: a reset rack is arranged at the side end of the first translation bracket, the reset rack extends along the long axis direction of the first translation bracket, a reset plate is arranged on the fixed bracket, a reset gear meshed with the reset rack is arranged on the reset plate, the reset gear is driven to rotate by a reset motor arranged on the reset plate, and the reset plate is driven to horizontally move by a reset cylinder arranged on the fixed bracket, so that the reset gear is driven to be meshed with or separated from the reset rack.

5. The automatic sponge supporting system for sponge processing as claimed in claim 1, wherein: two cotton supporting plates are driven to be close to or far away from by a clamping mechanism, and the clamping mechanism is as follows: the device comprises a support frame, a pair of clamping guide rails which are distributed in parallel and are arranged on the support frame, clamping sliding blocks which are matched with the clamping guide rails are respectively arranged on two sides of the fixing frame, a clamping rack is further arranged between the two clamping guide rails at the bottom end of the fixing frame, the extending direction of the clamping rack is the same as that of the clamping guide rails, a clamping gear meshed with the clamping rack is further arranged on the support frame, the clamping gear is driven to rotate by a clamping motor arranged on the support frame, and accordingly the fixing frame is driven to reciprocate along the clamping guide rails, and two support plates are further moved close to or away from each other.

6. The automatic sponge supporting system for sponge processing as claimed in claim 5, wherein: and a detection plate is respectively arranged at two sides of the cotton supporting plate.