CN219913839U - Oxford dewatering device - Google Patents

Abstract

The utility model discloses an oxford dewatering device which comprises a dewatering outer cylinder, a cover body hinged to the dewatering outer cylinder, a water outlet cylinder arranged at the bottom of the dewatering outer cylinder, and a dewatering assembly arranged at the inner side of the dewatering outer cylinder, wherein the dewatering assembly is used for dewatering oxford, one side of the dewatering outer cylinder is provided with a lifting assembly, the lifting assembly is provided with a transmission assembly, the transmission assembly can transmit the oxford to the dewatering assembly in the dewatering outer cylinder, and the lifting assembly plays a role in adjusting the height of the transmission assembly.

Description

Oxford dewatering device

Technical Field

The utility model relates to an oxford dewatering device, in particular to an oxford dewatering device.

Background

At present, oxford is a novel fabric with various functions and wide application, and the novel fabric mainly comprises the following components in the market: the materials include a set of grids, a full bullet, chinlon, a lifting grid and the like. Originating from the united kingdom, the traditional combed cotton fabric named oxford university, oxford began around 1900. In actual life, a large amount of water remains on oxford after it is washed, and it is necessary to dehydrate oxford when it is put into the next step.

However, the conventional dehydration apparatus has the following drawbacks:

(1) At present, the oxford cloth is manually poured into the dehydrator, so that the labor intensity of workers is increased, and the working efficiency of the workers is affected.

(2) When the transmission device on the existing dehydration device sends oxford into the dehydration inner cylinder, the height of the transmission device is inconvenient to adjust according to actual needs, and the practicability is greatly reduced.

Disclosure of Invention

In order to solve certain or some technical problems in the prior art, one of the purposes of the utility model is to provide an oxford dewatering device, which reduces the labor force of workers for dumping oxford into a dewatering outer cylinder and greatly improves the working efficiency of the workers.

In order to solve the above existing technical problems, one of the purposes of the present utility model is achieved by adopting the following technical scheme:

the utility model provides a oxford cloth dewatering device, its include the dehydration urceolus, articulate in lid on the dehydration urceolus, set up in play water section of thick bamboo of dehydration urceolus bottom, still including set up in the inboard dehydration subassembly of dehydration urceolus, dehydration subassembly is used for carrying out dehydration to oxford cloth, one side of dehydration urceolus is equipped with lifting unit, be equipped with transmission subassembly on the lifting unit, transmission subassembly can with oxford cloth transmission to in the dehydration urceolus on the dehydration subassembly, lifting unit is right transmission unit's height plays the effect of regulation.

Further, the lifting assembly comprises a vertical box, a strip-shaped hole formed in the outer side wall of the vertical box, a lifting motor fixedly arranged at the top of the vertical box, a screw rod penetrating through the top of the vertical box and rotating positively and negatively through the lifting motor, and a lifting cross beam penetrating through the strip-shaped hole and being in threaded connection with the screw rod, wherein the transmission assembly is fixedly arranged on the lifting cross beam.

Further, the transmission assembly comprises a transverse box fixedly arranged on the lifting cross beam, two driven shafts which are symmetrically arranged on the right side wall of the transverse box in a penetrating mode, and conveying rollers fixedly arranged on the driven shafts, wherein the conveying rollers are located on the outer side of the transverse box, the driven shafts are rotatably connected with the inner side wall of the transverse box, driving assemblies are further arranged on the transverse box, and the driving assemblies can simultaneously drive the two driven shafts to rotate.

Further, the driving assembly comprises a driving motor fixedly arranged on the outer side wall of the transverse box, a driving shaft penetrating through the outer side wall of the transverse box and carrying out positive and negative rotation through the driving motor, a driving sprocket fixedly arranged on the driving shaft, a driven sprocket fixedly arranged on the driven shaft, a chain connected between the two driven sprockets and the driving sprocket in a transmission manner, and the two driven sprockets and the driving sprocket are arranged in a triangle array mode.

Further, the dehydration assembly comprises a dehydration motor fixedly arranged at the bottom of the dehydration outer cylinder, a transmission shaft penetrating through the bottom of the dehydration outer cylinder and carrying out forward and reverse rotation through the dehydration motor, an inner cylinder positioned at the inner side of the dehydration outer cylinder and fixedly connected with the transmission shaft, and a plurality of filtering holes uniformly formed in the outer side wall of the inner cylinder.

Compared with the prior art, the utility model has the beneficial effects that:

(1) Through setting up transmission component, transmission component carries out the dehydration in the dehydration urceolus with oxford cloth, has reduced the workman and has emptyd the labour in the dehydration urceolus with oxford cloth, promotes workman's work efficiency greatly, compares in current dewatering device, has solved the manual work and has emptyd the hydroextractor with oxford cloth in, has increased workman's intensity of labour, influences staff work efficiency's technical problem.

(2) Through setting up lifting unit, can adjust the height of adjusting part according to actual need, it is convenient to use, and the practicality is strong, compares in current dewatering device, has solved the transmission device on the current dewatering device when sending into the dehydration inner tube with oxford, is inconvenient for according to the high of actual need regulation transmission device, greatly reduced the technical problem of practicality.

Drawings

FIG. 1 is a schematic overall structure of the present utility model, showing a schematic structure of a lifting assembly, a conveying assembly, a driving assembly, and a dewatering assembly;

FIG. 2 is a schematic view of the internal structure of the upper cross box of the transfer assembly of the present utility model;

FIG. 3 is a schematic diagram of an arrangement of a driven sprocket and a driving sprocket according to the present utility model;

FIG. 4 is a top view of FIG. 1;

in the figure: 1. a vertical box; 2. a lifting motor; 3. a screw; 4. a bar-shaped hole; 5. lifting the cross beam; 6. a driving motor; 7. a transverse box; 8. a driven shaft; 9. a conveying roller; 10. a dehydrating outer cylinder; 11. an inner cylinder; 12. a filter hole; 13. a dehydration motor; 14. a transmission shaft; 15. a water outlet cylinder; 16. a cover body; 17. a drive shaft; 18. a drive sprocket; 19. a driven sprocket; 20. a chain; 21. a lifting assembly; 22. a transmission assembly; 23. a drive assembly; 24. and a dewatering assembly.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, the following embodiments or technical features may be arbitrarily combined to form new embodiments.

In the description of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "left", "right", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description and simplification of the description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

The terms "first," "second," and the like in this specification are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged, as appropriate, such that embodiments of the present utility model may be implemented in sequences other than those illustrated or described herein, and that the objects identified by "first," "second," etc. are generally of a type, and are not limited to the number of objects, such as the first object may be one or more. In addition, "and/or" in the specification and claims means at least one of the connected objects, and the character "/" generally means a relationship in which the front and rear related objects are an oxford dewatering device or.

Example 1:

as shown in fig. 1-4, the present embodiment provides an oxford dewatering device, which includes a dewatering outer cylinder 10, a cover 16 hinged on the dewatering outer cylinder 10, a water outlet cylinder 15 arranged at the bottom of the dewatering outer cylinder 10, and a dewatering assembly 24 arranged at the inner side of the dewatering outer cylinder 10, wherein the dewatering assembly 24 is used for dewatering oxford, a lifting assembly 21 is arranged at one side of the dewatering outer cylinder 10, a transmission assembly 22 is arranged on the lifting assembly 21, the transmission assembly 22 can transmit oxford to the dewatering assembly 24 in the dewatering outer cylinder 10, and the lifting assembly 21 has a function of adjusting the height of the transmission assembly 22.

When the device is used, the height of the transmission assembly 22 is firstly adjusted according to the requirement, the lifting assembly 21 is operated, the height of the transmission assembly 22 is adjusted, oxford is placed on the transmission assembly 22, one end of the oxford is firstly pulled to be placed on the inner side of the dewatering outer cylinder 10, then the transmission assembly 22 is started to continuously transmit the oxford, after the oxford is placed on the dewatering assembly 24, the cover body 16 is covered, the dewatering assembly 24 is started, the dewatering assembly 24 is used for dewatering the oxford, and the dewatered water is discharged through the water outlet cylinder 15.

Through setting up transmission component 22, transmission component 22 is with the oxford cloth transmission to dewater in the urceolus 10, has reduced the workman and has emptyd the labour in the urceolus 10 of dewatering with the oxford cloth, promotes workman's work efficiency greatly, compares in current dewatering device, has solved the manual work and has emptyd the hydroextractor with the oxford cloth in, has increased workman's intensity of labour, influences staff work efficiency's technical problem.

Through setting up lifting unit 21, can adjust the height of adjusting part according to actual need, it is convenient to use, and the practicality is strong, compares in current dewatering device, has solved the transmission device on the current dewatering device when feeding oxford into dewatering inner tube 11, is inconvenient for adjusting the transmission device's height according to actual need, greatly reduced the technical problem of practicality.

The lifting assembly 21 comprises a vertical box 1, a strip-shaped hole 4 formed in the outer side wall of the vertical box 1, a lifting motor 2 fixedly arranged at the top of the vertical box 1, a screw rod 3 penetrating through the top of the vertical box 1 and rotating positively and negatively through the lifting motor 2, and a lifting cross beam 5 penetrating through the strip-shaped hole 4 and being in threaded connection with the screw rod 3, wherein the transmission assembly 22 is fixedly arranged on the lifting cross beam 5.

When the lifting assembly 21 is used, the lifting motor 2 is started, the height of the transmission assembly 22 is adjusted by utilizing the forward and reverse rotation of the lifting motor 2, the lifting motor 2 drives the screw rod 3 to rotate, the screw rod 3 drives the lifting cross beam 5 to move, and the lifting cross beam 5 drives the adjusting assembly to move. The adjusting component can be stopped at any position by utilizing the self-locking property of the screw thread.

The transmission assembly 22 comprises a transverse box 7 fixedly arranged on the lifting cross beam 5, two driven shafts 8 which are symmetrically arranged on the right side wall of the transverse box 7 in a penetrating mode, and a conveying roller 9 fixedly arranged on the driven shafts 8, wherein the conveying roller 9 is positioned on the outer side of the transverse box 7, the driven shafts 8 are rotatably connected with the inner side wall of the transverse box 7, a driving assembly 23 is further arranged on the transverse box 7, and the driving assembly 23 can simultaneously drive the two driven shafts 8 to rotate.

When the transmission assembly 22 is used, oxford is placed on the two conveying rollers 9, one end of the oxford is suspended in the dewatering outer cylinder 10, then the driving assembly 23 is started, the driving assembly 23 drives the two driven shafts 8 to rotate, the driven shafts 8 drive the conveying rollers 9 to rotate, and the conveying rollers 9 transmit the oxford by friction.

The driving assembly 23 comprises a driving motor 6 fixedly arranged on the outer side wall of the transverse box 7, a driving shaft 17 penetrating through the outer side wall of the transverse box 7 and carrying out forward and reverse rotation through the driving motor 6, a driving sprocket 18 fixedly arranged on the driving shaft 17, a driven sprocket 19 fixedly arranged on the driven shaft 8, and a chain 20 connected between the two driven sprockets 19 and the driving sprocket 18 in a transmission manner, wherein the two driven sprockets 19 and the driving sprocket 18 are arranged in a triangular array.

When the driving assembly 23 is used, the driving motor 6 is started, the driving motor 6 drives the driving shaft 17 to rotate, the driving shaft 17 drives the driving sprocket 18 to rotate, the driving sprocket 18 drives the chain 20 to move, the chain 20 drives the two driven sprockets 19 to move, and the driven sprocket 19 drives the driven shaft 8 to rotate, so that the operation is convenient. By arranging the two driven sprockets 19 and the driving sprocket 18 in a triangular array, the driving sprocket 18 and the driven sprocket 19 can independently operate, and the transmission is stable.

The dewatering assembly 24 comprises a dewatering motor 13 fixedly arranged at the bottom of the dewatering outer cylinder 10, a transmission shaft 14 penetrating through the bottom of the dewatering outer cylinder 10 and rotating positively and negatively through the dewatering motor 13, an inner cylinder 11 positioned at the inner side of the dewatering outer cylinder 10 and fixedly connected with the transmission shaft 14, and a plurality of filtering holes 12 uniformly formed on the outer side wall of the inner cylinder 11.

When the dehydration component 24 is used, the dehydration motor 13 is started, the dehydration motor 13 drives the transmission shaft 14 to rotate, the transmission shaft 14 drives the inner cylinder 11 to rotate at a high speed, dehydration of oxford placed on the inner cylinder 11 is achieved, and water separated from the oxford is discharged out of the dehydration outer cylinder 10 along the water outlet cylinder 15.

The above embodiments are only preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present utility model are intended to be within the scope of the present utility model as claimed.

Claims (5)

1. The utility model provides an oxford cloth dewatering device, includes dehydration urceolus (10), articulated in lid (16) on dehydration urceolus (10), set up in play water section of thick bamboo (15) of dehydration urceolus (10) bottom, its characterized in that: still including set up in dehydration subassembly (24) of dehydration urceolus (10) inboard, dehydration subassembly (24) are used for carrying out the dehydration to oxford, one side of dehydration urceolus (10) is equipped with lifting unit (21), be equipped with transmission subassembly (22) on lifting unit (21), transmission subassembly (22) can with oxford transmission to dehydration urceolus (10) in dehydration subassembly (24), lifting unit (21) are right the effect that highly plays the regulation of transmission subassembly (22).

2. An oxford dewatering device as claimed in claim 1, wherein: lifting component (21) including set up case (1), set up in bar hole (4) on set up case (1) lateral wall, fixed set up in lift motor (2) at set up case (1) top, run through set up in set up case (1) top just through screw rod (3) that lift motor (2) carried out positive reverse, run through set up in bar hole (4) on and with lifting beam (5) of screw rod (3) spiro union, transmission component (22) fixed set up in on lifting beam (5).

3. An oxford dewatering device as claimed in claim 2, wherein: the conveying assembly (22) comprises a transverse box (7) fixedly arranged on the lifting cross beam (5), two driven shafts (8) symmetrically penetrating through the right side wall of the transverse box (7), conveying rollers (9) fixedly arranged on the driven shafts (8), the conveying rollers (9) are located on the outer side of the transverse box (7), the driven shafts (8) are rotatably connected with the inner side wall of the transverse box (7), driving assemblies (23) are further arranged on the transverse box (7), and the driving assemblies (23) can drive the two driven shafts (8) to rotate simultaneously.

4. An oxford dewatering device as claimed in claim 3, wherein: the driving assembly (23) comprises a driving motor (6) fixedly arranged on the outer side wall of the transverse box (7), a driving shaft (17) penetrating through the outer side wall of the transverse box (7) and carrying out forward and reverse rotation through the driving motor (6), a driving sprocket (18) fixedly arranged on the driving shaft (17), a driven sprocket (19) fixedly arranged on the driven shaft (8), and a chain (20) connected between the two driven sprockets (19) and the driving sprocket (18) in a transmission manner, wherein the two driven sprockets (19) and the driving sprocket (18) are arranged in a triangular array mode.

5. An oxford dewatering device as claimed in claim 1, wherein: the dehydration assembly (24) comprises a dehydration motor (13) fixedly arranged at the bottom of the dehydration outer cylinder (10), a transmission shaft (14) penetrating through the bottom of the dehydration outer cylinder (10) and carrying out forward and reverse rotation through the dehydration motor (13), an inner cylinder (11) positioned at the inner side of the dehydration outer cylinder (10) and fixedly connected with the transmission shaft (14), and a plurality of filtering holes (12) uniformly formed in the outer side wall of the inner cylinder (11).