CN212558703U - Cloth steam humidification preshrinking machine - Google Patents

Abstract

The utility model relates to a cloth processing equipment technical field specifically relates to a cloth steam humidification preshrinking machine, including driven chassis, move the material subassembly, wheelset drive assembly, cloth hold-down mechanism, air knife, count yard ware, the steamer, material folding mechanism and take-up (stock) pan, it is located the top on driven chassis to move the material subassembly, it is including the frame to move the material subassembly, the wheel carrier, first roller train, second roller train and third roller train, the wheel carrier has a plurality ofly, a plurality of wheel carriers are all installed in the bottom of frame, first roller train, second roller train and third roller train are rotatable the installation respectively on the wheel carrier, this technical scheme can make and simplify the material loading formula, realize one-step material loading, the efficiency of work has been improved greatly.

Description

Cloth steam humidification preshrinking machine

Technical Field

The utility model relates to a cloth processing equipment technical field specifically is a cloth steam humidifying preshrinking machine is related to.

Background

The cloth is a material commonly used in decorative materials. Comprises various fabrics such as chemical fiber carpets, non-woven wallcoverings, linen, nylon fabrics, colored rubberized fabrics, flannel and the like. Cloth plays a considerable role in decorative displays, often a major non-negligible effort in the overall sales space. A large amount of cloth is used for wall surface decoration, partition and background treatment, and a good commercial space display style can be formed.

The weaving mode can be divided into: woven fabric and knitted fabric. The processing technology can be divided into: grey cloth, bleached cloth, dyed cloth, printed cloth, colored woven cloth, mixed process cloth (such as printing on the colored woven cloth, composite cloth, flocked cloth, leather-like felt cloth) and the like. It can also be divided into the following raw materials: cotton cloth, chemical fabric, hemp cloth, wool fabric, silk, blended fabric, and the like.

However, the manual feeding mode of the existing equipment is complicated, so that a cloth steam humidifying pre-shrinking machine is provided, the feeding mode can be simplified, one-step feeding is realized, and the working efficiency is greatly improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a cloth steam humidification preshrinking machine is provided, this technical scheme can make and simplify the material loading mode, realizes one step of material loading, has improved the efficiency of work greatly.

In order to solve the technical problem, the utility model provides a following technical scheme:

the cloth steam humidifying pre-shrinking machine comprises a driven chassis, a material moving assembly, a wheel set driving assembly, a cloth pressing mechanism, an air knife, a code counter, a steamer, a material folding mechanism and a material receiving disc;

the material moving assembly is positioned at the top of the driven chassis and comprises a plurality of frames, a plurality of wheel frames, a first roller group, a second roller group and a third roller group, wherein the plurality of wheel frames are all arranged at the bottom of the frame, and the first roller group, the second roller group and the third roller group are respectively and rotatably arranged on the wheel frames;

wheel set drive assembly installs in the frame to wheel set drive assembly's output is connected with first roller train, second roller train and third roller train transmission respectively, and cloth hold-down mechanism installs on driven chassis, and cloth hold-down mechanism is connected with the frame, and air knife and code counter are all installed on driven chassis, and the steam engine is located driven chassis's bottom, and material folding mechanism is located driven chassis's discharge end, and the take-up (stock) pan is located material folding mechanism's work end.

Preferably, driven chassis package can have support frame, belt pulley and trace, and the belt pulley has two, and two belt pulleys are located the both ends of support frame respectively to two belt pulleys pass through trace and support frame rotatable coupling respectively, are connected through belt transmission between two belt pulleys.

Preferably, the wheel set driving assembly comprises a first servo motor, a first synchronizing wheel, a second synchronizing wheel and a third synchronizing wheel, the first servo motor is installed on the rack, the first synchronizing wheel is installed at the output end of the first servo motor, the second synchronizing wheel is installed at the stress section of the first roller set, the third synchronizing wheel is three, the three third synchronizing wheels are respectively installed at the stress ends of the first roller set, the second roller set and the third roller set, the first synchronizing wheel and the second synchronizing wheel are connected through synchronous belt transmission, and the three third synchronizing wheels are connected through synchronous belt transmission.

Preferably, the cloth hold-down mechanism comprises a connecting piece, a guide rod, a lifting driving mechanism and connecting pieces, wherein the connecting pieces are respectively positioned on two sides of the rack, the guide rod is installed on the driven chassis and penetrates through the connecting pieces on two sides of the rack, the lifting driving mechanism is installed on the driven chassis, and the output end of the lifting driving mechanism is connected with the connecting piece on one side of the rack.

Preferably, the lifting driving mechanism comprises a column frame and a pushing cylinder, the pushing cylinder is installed on the driven chassis through the column frame, and the output end of the pushing cylinder is fixedly connected with the connecting piece on one side of the rack.

Preferably, material folding mechanism is including the base, the threaded rod, the gag lever post, work piece and second servo motor, threaded rod and gag lever post all install with the base on, threaded rod and base rotatable coupling, gag lever post and base fixed connection, the work piece overlap respectively establish with threaded rod and gag lever post on, work piece and threaded rod threaded connection, work piece and gag lever post sliding connection, second servo motor installation and base on to second servo motor's output and threaded rod are connected.

Compared with the prior art, the utility model beneficial effect who has is: firstly, a worker opens a cloth pressing mechanism, the work end of the cloth pressing mechanism drives a material moving assembly to rise, the frame is stressed to drive a plurality of wheel frames and a wheel set driving assembly to rise, the wheel frames drive a first roller set, a second roller set and a third roller set to rise, the work ends of the first roller set, the second roller set and the third roller set are far away from the work end of a driven chassis, at the moment, the worker pulls cloth of an unreeling mechanism to the bottom of the work ends of the first roller set, the second roller set and the third roller set, namely the work end of the driven chassis, then the worker opens the cloth pressing mechanism again, the cloth pressing mechanism drives the material moving assembly to descend, the frame drives a first roller, a second roller and a third roller to descend through the wheel frames to press the cloth, then the wheel set driving assembly starts to work, the output end of the wheel set driving assembly drives the first roller set, the wheel set and the wheel set driving assembly, The second roller group and the third roller group start to rotate simultaneously, the working end of the third roller group is combined by the first roller group and the second roller group to drive the cloth at the top of the driven chassis to start to move, the cloth then drives the working end of the driven chassis to start to rotate, the steam engine starts to work, the output end of the steam engine starts to blow out steam, the cloth passing through the steam is driven by the driven chassis to move to the working end of the air knife, the air knife is used for blowing out cold air to the cloth, the cloth is changed from damp to dry after being blown by high-speed cold air, then the cloth reaches the working end of the code counter, the code counter calculates the length of the cloth, finally the cloth falls into the material receiving disc from the discharge end of the driven chassis, the material folding mechanism starts to work, the working end of the material folding mechanism drives the material receiving disc to do linear reciprocating motion, the cloth falling into the material receiving disc is folded, finally, the worker takes away the cloth in the receiving disc;

through the arrangement of the equipment, the feeding mode can be simplified, one-step feeding is realized, and the working efficiency is greatly improved.

Drawings

Fig. 1 is a schematic view showing a three-dimensional structure of a cloth steam humidifying pre-shrinking machine of the present invention;

fig. 2 is a schematic view of a three-dimensional structure of a cloth steam humidifying pre-shrinking machine of the present invention;

fig. 3 is a schematic view of a three-dimensional structure of a driven chassis of the cloth steam humidifying pre-shrinking machine of the present invention;

fig. 4 is a front view of a material moving assembly of the cloth steam humidifying pre-shrinking machine of the present invention;

fig. 5 is a schematic view of a three-dimensional structure of a driven chassis, a material moving assembly, a wheel set driving assembly, a cloth pressing device, an air knife and a code counter of the cloth steam humidifying pre-shrinking machine of the present invention;

fig. 6 is an enlarged view of fig. 5 a according to the present invention;

fig. 7 is an enlarged view of fig. 5B;

fig. 8 is a schematic view of a three-dimensional structure of a material folding mechanism and a material receiving tray of the cloth steam humidifying pre-shrinking machine of the present invention.

The reference numbers in the figures are:

1. a driven chassis; 1a, a support frame; 1b, a belt pulley; 1c, a linkage rod;

2. a material moving component; 2a, a frame; 2b, a wheel carrier; 2c, a first roller group; 2d, a second roller group; 2e, a third roller group;

3. a wheelset drive assembly; 3a, a first servo motor; 3b, a first synchronous wheel; 3c, a second synchronizing wheel; 3d, a third synchronizing wheel;

4. a cloth pressing mechanism; 4a, a connecting piece; 4b, a guide rod; 4c, a lifting driving mechanism; 4c1, a column frame; 4c2, push cylinder;

5. an air knife;

6. a code counter;

7. a steam engine;

8. a material folding mechanism; 8a, a base; 8b, a threaded rod; 8c, a limiting rod; 8d, a working block; 8e, a second servo motor;

9. a take-up pan.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 8, the cloth steam humidifying pre-shrinking machine comprises an unwinding mechanism, a driven chassis 1, a material moving assembly 2, a wheel set driving assembly 3, a cloth pressing mechanism 4, an air knife 5, a code counter 6, a steamer 7, a material folding mechanism 8 and a material receiving disc 9;

the material moving assembly 2 is positioned at the top of the driven chassis 1, the material moving assembly 2 comprises a frame 2a, a plurality of wheel frames 2b, a first roller set 2c, a second roller set 2d and a third roller set 2e, the plurality of wheel frames 2b are all arranged at the bottom of the frame 2a, and the first roller set 2c, the second roller set 2d and the third roller set 2e are respectively and rotatably arranged on the wheel frames 2 b;

the machine comprises a rack 2a, a wheel set driving assembly 3, a cloth pressing mechanism 4, a material receiving disc 9, a material collecting disc 9, a material conveying disc, a material collecting disc and a material collecting disc, wherein the wheel set driving assembly 3 is installed on the rack 2a, the output end of the wheel set driving assembly 3 is in transmission connection with a first roller set 2c, a second roller set 2d and a third roller set 2e respectively, the material collecting disc 4 is installed on a driven chassis 1, the material collecting disc 4 is connected with the rack;

firstly, a worker opens a cloth pressing mechanism 4, the material moving assembly 2 is driven to ascend through a working end of the cloth pressing mechanism 4, a rack 2a is stressed to drive a plurality of wheel frames 2b and a wheel set driving assembly 3 to ascend, the wheel frames 2b drive a first roller set 2c, a second roller set 2d and a third roller set 2e to ascend, the working ends of the first roller set 2c, the second roller set 2d and the third roller set 2e are far away from the working end of a driven chassis 1, at the moment, the worker pulls cloth of an unwinding mechanism to the bottoms of the working ends of the first roller set 2c, the second roller set 2d and the third roller set 2e, namely the working end of the driven chassis 1, then the worker opens the cloth pressing mechanism 4 again, the cloth pressing mechanism 4 drives the material moving assembly 2 to descend, and the rack 2a drives the first roller, the second roller and the third roller through the wheel frames 2b to press the cloth, Then the wheel set driving component 3 starts to work, the output end of the wheel set driving component 3 drives the first roller set 2c, the second roller set 2d and the third roller set 2e to start to rotate simultaneously, the working ends of the first roller set 2c, the second roller set 2d and the third roller set 2e drive the cloth on the top of the driven chassis 1 to start to move, the cloth then drives the working end of the driven chassis 1 to start to rotate, the steam engine 7 starts to work, the output end of the steam engine 7 starts to distribute and blow steam, the cloth passing through the steam is driven by the driven chassis 1 to move to the working end of the air knife 5, the air knife 5 is used for blowing cold air to the cloth, the cloth is changed from damp to dry after being blown by the high-speed cold air, then the cloth reaches the working end of the code counter 6, the code counter 6 calculates the length of the cloth, and finally the cloth falls into the material receiving tray 9 from the discharge end of the driven chassis 1, the material folding mechanism 8 starts to work, the working end of the material folding mechanism 8 drives the material receiving disc 9 to perform linear reciprocating motion, the cloth falling in the material receiving disc 9 is folded and accumulated in the material receiving disc 9, and finally the worker takes away the cloth in the material receiving disc 9.

As shown in fig. 3, the driven chassis 1 may include a support frame 1a, two belt pulleys 1b and two linkage rods 1c, the two belt pulleys 1b are respectively located at two ends of the support frame 1a, the two belt pulleys 1b are respectively rotatably connected with the support frame 1a through the linkage rods 1c, and the two belt pulleys 1b are in transmission connection through a belt;

when first roller train 2c, second roller train 2d closed the drive cloth of third roller train 2e and move, the cloth drives the belt and moves, and belt pulley 1b is used for supporting and the cooperation is grabbed, need explain here that to appear becoming flexible for the belt can not set up a plurality of take-up pulleys between two belt pulleys 1b, supports the belt through a plurality of take-up pulleys, and support frame 1a supports fixed trace 1 c.

As shown in fig. 6, the wheel set driving assembly 3 includes a first servo motor 3a, a first synchronous wheel 3b, a second synchronous wheel 3c and third synchronous wheels 3d, the first servo motor 3a is mounted on the frame 2a, the first synchronous wheel 3b is mounted at the output end of the first servo motor 3a, the second synchronous wheel 3c is mounted at the stressed section of the first roller set 2c, three third synchronous wheels 3d are provided, the three third synchronous wheels 3d are respectively mounted at the stressed ends of the first roller set 2c, the second roller set 2d and the third roller set 2e, the first synchronous wheel 3b and the second synchronous wheel 3c are connected through synchronous belt transmission, and the three third synchronous wheels 3d are connected through synchronous belt transmission;

the first servo motor 3a starts to work, the first servo motor 3a drives the first synchronous wheel 3b to rotate, the first synchronous wheel 3b drives the second synchronous wheel 3c to rotate through the synchronous belt, the second synchronous wheel 3c drives the first roller set 2c to rotate, the first roller set 2c drives the third synchronous wheel 3d located in the stress section to rotate, the third synchronous wheels 3d located in the second roller set 2d and the third roller set 2e are driven by the synchronous belt to rotate, and at the moment, the first roller set 2c, the second roller set 2d and the third roller set 2e simultaneously start to rotate.

As shown in fig. 5, the cloth pressing mechanism 4 includes a connecting piece 4a, a guiding rod 4b and a lifting driving mechanism 4c, the connecting piece 4a is respectively located at two sides of the frame 2a, the guiding rod 4b is installed on the driven chassis 1, the guiding rod 4b penetrates through the connecting piece 4a at two sides of the frame 2a, the lifting driving mechanism 4c is installed on the driven chassis 1, and the output end of the lifting driving mechanism 4c is connected with the connecting piece 4a at one side of the frame 2 a;

the cloth pressing mechanism 4 starts to work, the lifting driving mechanism 4c starts to work, the output end of the lifting driving mechanism 4c starts to push the connecting piece 4a on one side of the rack 2a to move downwards, and the connecting pieces 4a on two sides of the rack 2a start to simultaneously drive the rack 2a to move downwards along the guide rod 4 b.

The lifting driving mechanism 4c shown in fig. 7 comprises a column bracket 4c1 and a pushing cylinder 4c2, wherein the pushing cylinder 4c2 is mounted on the driven chassis 1 through the column bracket 4c1, and the output end of the pushing cylinder 4c2 is fixedly connected with the connecting piece 4a on one side of the frame 2 a;

the lifting driving mechanism 4c starts to work, the pushing cylinder 4c2 starts to work, the output end of the pushing cylinder 4c2 pushes the connecting piece 4a on one side of the frame 2a to move downwards, and the upright post frame 4c1 is used for fixing and supporting.

As shown in fig. 8, the material folding mechanism 8 includes a base 8a, a threaded rod 8b, a limiting rod 8c, a working block 8d and a second servo motor 8e, the threaded rod 8b and the limiting rod 8c are both installed on the base 8a, the threaded rod 8b is rotatably connected with the base 8a, the limiting rod 8c is fixedly connected with the base 8a, the working block 8d is respectively sleeved on the threaded rod 8b and the limiting rod 8c, the working block 8d is in threaded connection with the threaded rod 8b, the working block 8d is in sliding connection with the limiting rod 8c, the second servo motor 8e is installed on the base 8a, and the output end of the second servo motor 8e is connected with the threaded rod 8 b;

the second servo motor 8e starts to work, the output end of the second servo motor 8e drives the threaded rod 8b to rotate, the threaded rod 8b drives the working block 8d to linearly reciprocate along the limiting rod 8c, and the base 8a is used for fixing and supporting.

The utility model discloses a theory of operation: firstly, a worker opens a cloth pressing mechanism 4, drives a material moving assembly 2 to ascend through a working end of the cloth pressing mechanism 4, a rack 2a is stressed to drive a plurality of wheel frames 2b and a wheel set driving assembly 3 to ascend, the plurality of wheel frames 2b drive a first roller set 2c, a second roller set 2d and a third roller set 2e to ascend, the working ends of the first roller set 2c, the second roller set 2d and the third roller set 2e are far away from the working end of a driven chassis 1, at the moment, the worker pulls cloth of an unwinding mechanism to the bottom of the working ends of the first roller set 2c, the second roller set 2d and the third roller set 2e, namely, the belt of the driven chassis 1, then the worker opens the cloth pressing mechanism 4 again, the cloth pressing mechanism 4 starts working, a lifting driving mechanism 4c starts working, a pushing cylinder 4c2 starts working, the output end of the pushing cylinder 4c2 pushes a connecting piece 4a on one side of the rack 2a to move downwards, the connecting pieces 4a on both sides of the frame 2a start to simultaneously drive the frame 2a to move downwards along the guide bar 4b, the frame 2a drives the first, second and third rollers to descend to press the cloth through the plurality of wheel carriers 2b, then the wheel set driving assembly 3 starts to work, the first servo motor 3a drives the first synchronizing wheel 3b to rotate, the first synchronizing wheel 3b drives the second synchronizing wheel 3c to rotate through the synchronous belt, the second synchronizing wheel 3c drives the first roller set 2c to rotate, the first roller set 2c drives the third synchronizing wheel 3d positioned on the stressed section to rotate, the third synchronizing wheels 3d positioned on the second roller set 2d and the third roller set 2e are driven by the synchronous belt to rotate, at the moment, the first roller set 2c, the second roller set 2d and the third roller set 2e start to rotate simultaneously, the working ends of the first roller group 2c, the second roller group 2d and the third roller group 2e drive the cloth on the top of the driven chassis 1 to move, the cloth drives the working end of the driven chassis 1 to rotate, the steam engine 7 starts to work, the output end of the steam engine 7 starts to distribute and blow steam, the cloth passing through the steam is driven by the driven chassis 1 to move to the working end of the air knife 5, the air knife 5 is used for blowing cold air to the cloth, the cloth is blown by high-speed cold air and then becomes dry from damp, the cloth reaches the working end of the code counter 6, the code counter 6 calculates the length of the cloth, finally the cloth falls into the material receiving disc 9 from the discharge end of the driven chassis 1, the material folding mechanism 8 starts to work, the second servo motor 8e starts to work, the output end of the second servo motor 8e drives the threaded rod 8b to rotate, the threaded rod 8b drives the working block 8d to linearly reciprocate along the limiting rod 8c, the work piece 8d drives the material receiving tray 9 to do linear reciprocating motion, the cloth falling in the material receiving tray 9 is folded and stacked in the material receiving tray 9, and finally the worker takes away the cloth in the material receiving tray 9.

Claims (6)

1. A cloth steam humidifying pre-shrinking machine comprises an unwinding mechanism and is characterized by comprising a driven chassis (1), a material moving assembly (2), a wheel set driving assembly (3), a cloth pressing mechanism (4), an air knife (5), a code counter (6), a steamer (7), a material folding mechanism (8) and a material receiving disc (9);

the material moving assembly (2) is positioned at the top of the driven chassis (1), the material moving assembly (2) comprises a plurality of frames (2a), wheel carriers (2b), a first roller group (2c), a second roller group (2d) and a third roller group (2e), the plurality of wheel carriers (2b) are arranged at the bottom of the frame (2a), and the first roller group (2c), the second roller group (2d) and the third roller group (2e) are respectively and rotatably arranged on the wheel carriers (2 b);

wheel set drive assembly (3) is installed on frame (2a), and the output of wheel set drive assembly (3) respectively with first roller train (2c), second roller train (2d) and third roller train (2e) transmission are connected, cloth hold-down mechanism (4) are installed on driven chassis (1), and cloth hold-down mechanism (4) are connected with frame (2a), air knife (5) and count sign indicating number ware (6) are all installed on driven chassis (1), steam engine (7) are located the bottom of driven chassis (1), material folding mechanism (8) are located the discharge end of driven chassis (1), take-up (9) are located the work end of material folding mechanism (8).

2. The cloth steam humidifying pre-shrinking machine according to claim 1, characterized in that the driven chassis (1) can be wrapped with a support frame (1a), two belt pulleys (1b) and a linkage rod (1c), the two belt pulleys (1b) are respectively located at two ends of the support frame (1a), the two belt pulleys (1b) are respectively rotatably connected with the support frame (1a) through the linkage rod (1c), and the two belt pulleys (1b) are connected through a belt transmission.

3. The cloth steam humidifying pre-shrinking machine according to claim 1, characterized in that the wheel set driving assembly (3) comprises a first servo motor (3a), a first synchronous wheel (3b), a second synchronous wheel (3c) and a third synchronous wheel (3d), the first servo motor (3a) is installed on the frame (2a), the first synchronous wheel (3b) is installed at the output end of the first servo motor (3a), the second synchronous wheel (3c) is installed at the stress section of the first roller set (2c), the third synchronous wheel (3d) is provided with three, the three third synchronous wheels (3d) are respectively installed at the stress ends of the first roller set (2c), the second roller set (2d) and the third roller set (2e), and the first synchronizing wheel (3b) is connected with the second synchronizing wheel (3c) through synchronous belt transmission, and the three third synchronizing wheels (3d) are connected through synchronous belt transmission.

4. The cloth steam humidifying pre-shrinking machine according to claim 1, characterized in that the cloth pressing mechanism (4) comprises a connecting piece (4a), a guide rod (4b) and a lifting driving mechanism (4c), the connecting piece (4a) is respectively positioned at two sides of the frame (2a), the guide rod (4b) is installed on the driven chassis (1), the guide rod (4b) penetrates through the connecting piece (4a) at two sides of the frame (2a), the lifting driving mechanism (4c) is installed on the driven chassis (1), and the output end of the lifting driving mechanism (4c) is connected with the connecting piece (4a) at one side of the frame (2 a).

5. The cloth steam humidifying pre-shrinking machine according to claim 4, characterized in that the lifting driving mechanism (4c) comprises a column frame (4c1) and a pushing cylinder (4c2), the pushing cylinder (4c2) is mounted on the driven chassis (1) through the column frame (4c1), and the output end of the pushing cylinder (4c2) is fixedly connected with the connecting piece (4a) at one side of the frame (2 a).

6. The cloth steam humidifying pre-shrinking machine according to claim 1, characterized in that the material folding mechanism (8) comprises a base (8a), a threaded rod (8b), a limiting rod (8c), a working block (8d) and a second servo motor (8e), the threaded rod (8b) and the limiting rod (8c) are both installed on the base (8a), the threaded rod (8b) is rotatably connected with the base (8a), the limiting rod (8c) is fixedly connected with the base (8a), the working block (8d) is respectively sleeved on the threaded rod (8b) and the limiting rod (8c), the working block (8d) is in threaded connection with the threaded rod (8b), the working block (8d) is in sliding connection with the limiting rod (8c), the second servo motor (8e) is installed on the base (8a), and the output end of the second servo motor (8e) is connected with the threaded rod (8 b).

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