CN217857798U - Rubber tube cleaning machine - Google Patents

Abstract

The utility model relates to a rubber tube cleaning machine, which comprises a vibrating screen, a cleaning component and a high-pressure spray head, wherein the vibrating screen comprises a feed inlet; the cleaning component is detachably arranged at the feed inlet in an inclined manner; the cleaning assembly comprises a cleaning cavity and a sputtering plate, and the sputtering plate is arranged in the cleaning cavity; the high-pressure sprayer comprises a nozzle perpendicular to one side face of the sputtering plate, and the high-pressure sprayer is communicated with the water pump. The rubber tube cleaning machine replaces manual cleaning, so that the cleaning efficiency is improved, and the hand of a worker is prevented from being corroded. The cleaning assembly is arranged at one end of the vibrating screen, the rubber tube in the cleaning cavity is cleaned by water flow sprayed by the high-pressure spray head, sputtering is formed on the sputtering plate by water flow sprayed by the high-pressure spray head, and one side, close to the bottom of the cleaning cavity, of the rubber tube is cleaned. Meanwhile, the vibrating screen is used for vibrating the cleaning assembly, so that the cleaning effect on the outer surface of the rubber pipe is further enhanced.

Description

Rubber tube cleaning machine

Technical Field

The utility model relates to a hydraulic pressure rubber tube washs technical field, concretely relates to rubber tube cleaning machine.

Background

The hydraulic hose is a rubber hose product used for conveying hydraulic oil. When a hydraulic hose is just produced, residual viscose often adheres to the inside and the outer surface of the hydraulic hose. And if the viscose in the hydraulic rubber tube is not cleaned, the viscose pollutes hydraulic oil, so that a hydraulic system breaks down. If the mucus on the outer surface of the hydraulic rubber tube is not clear, the hands of an operator can be polluted and corroded when the operator uses the hydraulic rubber tube for installation; meanwhile, with the use of a hydraulic system, a large amount of dirt such as oil stain and dust can be attached to the outer surface of the hydraulic rubber hose, so that the hydraulic rubber hose is corroded, and the service life of the hydraulic rubber hose is shortened.

The existing hydraulic rubber tube cleaning mode is that a large number of hydraulic rubber tubes are soaked in hot water solution for a certain time, and even if workers wear waterproof gloves and repeatedly wipe the outer surfaces of the hydraulic rubber tubes by cotton yarns, a part of hot water solution can still enter the waterproof gloves to corrode the hands of the workers, and meanwhile, the cleaning efficiency of the hydraulic rubber tubes is low.

SUMMERY OF THE UTILITY MODEL

The utility model provides a rubber tube cleaning machine to solve not only the cleaning efficiency low of current hydraulic pressure rubber tube cleaning method, still can corrode the technical problem of workman's hand.

The utility model discloses a rubber tube cleaning machine, which comprises a vibrating screen, a cleaning component and a high-pressure nozzle, wherein the vibrating screen comprises a feed inlet, and the cleaning component is detachably arranged at the feed inlet in an inclined manner; the cleaning assembly comprises a cleaning cavity and a sputtering plate, and the sputtering plate is arranged in the cleaning cavity; the high-pressure spray head comprises a spray nozzle which is perpendicular to one side surface of the sputtering plate, and the high-pressure spray head is communicated with the water pump.

Further, wash the subassembly including wasing the board, wash the board bending type and wash the chamber, and detachably sets up in feed inlet department.

Furthermore, the cleaning assembly further comprises two derived plates, and the two derived plates are obliquely arranged on two sides of the cleaning plate along the length direction of the cleaning plate respectively.

Furthermore, a plurality of sputtering plates are sequentially arranged at intervals along the length direction of the cleaning plate; the length direction of the sputtering plate is perpendicular to the length direction of the cleaning plate.

Furthermore, the sputtering plate comprises a support sub-plate, a first sputtering sub-plate and a second sputtering sub-plate, one side of the support sub-plate is arranged at the bottom of the cavity of the cleaning cavity, the first sputtering sub-plate is obliquely arranged on the other side of the support sub-plate, the second sputtering sub-plate is obliquely arranged on the other side of the support sub-plate, and the first sputtering sub-plate and the second sputtering sub-plate are symmetrically arranged.

Furthermore, the range of the included angle between the first sputtering sub-plate and/or the second sputtering sub-plate and the cavity bottom of the cleaning cavity is 10-40 degrees.

Further, the nozzles are disposed toward the first sputtering sub-plate or the second sputtering sub-plate.

Furthermore, a water outlet hole is formed in the support sub-plate.

Further, the rubber tube cleaning machine further comprises a splash-proof assembly, the splash-proof assembly comprises a housing and a support frame, the housing is covered on the cleaning cavity, and one end of the support frame is connected with the housing.

The utility model provides a rubber tube cleaning machine can realize following technological effect:

1. the rubber tube cleaning machine replaces manual cleaning, so that the cleaning efficiency is improved, and the hand of a worker is prevented from being corroded. The cleaning assembly is arranged at one end of the vibrating screen, the rubber tube in the cleaning cavity is cleaned by water flow sprayed by the high-pressure spray head, sputtering is formed on the sputtering plate by water flow sprayed by the high-pressure spray head, and one side, close to the bottom of the cleaning cavity, of the rubber tube is cleaned. Meanwhile, the vibrating screen is used for vibrating the cleaning assembly, so that the cleaning effect on the outer surface of the rubber pipe is further enhanced.

2. The cleaning plate is connected with one end of the vibrating screen, so that the rubber tube can shake when being cleaned, the rubber tube is enabled to collide with the sputtering plate, cleaning of residual slime, oil stains, dust and other pollutants on the outer surface of the rubber tube is facilitated, and meanwhile, the rubber tube can enter the screen cavity of the vibrating screen from the cleaning cavity conveniently.

3. The cleaning plate is obliquely arranged at one end of the vibrating screen, so that the rubber hose can better enter the cleaning cavity conveniently, and the rubber hose can conveniently enter the screen cavity of the vibrating screen from the cleaning cavity.

The foregoing general description and the following description are exemplary and explanatory only and are not restrictive of the invention.

Drawings

One or more embodiments are illustrated in drawings corresponding to, and not limiting to, embodiments in which elements having the same reference number designation are identified as similar elements, and in which:

FIG. 1 is a schematic view of an embodiment of a rubber tube cleaning machine of the present invention;

FIG. 2 is a schematic structural diagram of an embodiment of a cleaning plate of the rubber hose cleaning machine according to the present invention;

fig. 3 is a schematic side view of an embodiment of a cleaning plate of the rubber hose cleaning machine according to the present invention;

FIG. 4 is a schematic cross-sectional view of an embodiment of a cleaning plate and housing of a rubber hose cleaning machine according to the present invention;

FIG. 5 is an enlarged view of portion A of FIG. 4;

fig. 6 is a schematic structural diagram of an embodiment of a sputtering plate of the rubber tube cleaning machine according to the present invention;

FIG. 7 is a schematic view of an embodiment of the connection of the cleaning assembly and the splash guard assembly of a rubber hose cleaning machine according to the present invention;

fig. 8 is an enlarged view of a portion B of fig. 7.

Reference numerals:

1. vibrating screen; 11. a feed inlet; 12. a discharge port; 13. a water outlet; 14. screening a screen; 2. cleaning the assembly; 21. cleaning the plate; 211. a cleaning chamber; 22. a sputtering plate; 221. supporting the daughter board; 222. a first sputtering daughter board; 223. a second sputtering daughter board; 224. a notch; 225. a water outlet hole; 23. a fixing plate; 231. a fixing hole; 24. a transition plate; 25. an interlayer; 26. a derivative plate; 27. a feeding port; 3. a high pressure spray head; 4. a splash guard assembly; 41. a housing; 42. a support frame; 421. a support bar; 422. a supporting base; 51. a water inlet pipe; 52. a water pump; 6. a wastewater treatment tank; 61. a partition plate; 62. a waste water chamber; 63. A clear water cavity; 64. a sedimentation chamber; the inclination angle is alpha; the included angle is beta.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the following detailed description of the present invention is made with reference to the accompanying drawings and examples, and it should be understood that the specific examples described herein are only for the purpose of explaining the present invention and are not intended to limit the present invention.

As shown in fig. 1, the utility model discloses a rubber tube cleaning machine, this rubber tube cleaning machine include shale shaker 1, wash subassembly 2, multiunit high pressure nozzle 3 and splashproof subassembly 4. For example, shaker 1 may be a two-layer screen sold by seine screen manufacturer in new county, henan, model number SZF-520 all carbon steel. The vibrating screen 1 comprises a feeding hole 11, a discharging hole 12 and a water outlet 13, wherein the discharging hole 12 and the water outlet 13 are arranged opposite to the feeding hole 11. One end of the vibrating screen 1 is provided with a feed inlet 11, and the feed inlet 11 is positioned above a screen mesh 14 of the vibrating screen 1. The other end of the vibrating screen 1 is provided with a discharge port 12 and a water outlet 13, the discharge port 12 is positioned above the screen 14 of the vibrating screen 1, and the water outlet 13 is positioned below the screen 14 of the vibrating screen 1.

As shown in fig. 2 and 3, the cleaning assembly 2 includes a cleaning plate 21 and a plurality of sputtering plates 22. Both sides of the cleaning plate 21 in the longitudinal direction thereof are bent upward to form a cleaning chamber 211, and at this time, the cross-sectional shape of the cleaning plate 21 is U-shaped. A fixing plate 23 is welded to the lower surface of the cleaning plate 21, and the fixing plate 23 is located at one end of the cleaning plate 21. The fixing plate 23 is formed with fixing holes 231, and bolts are passed through the fixing holes 231 of the fixing plate 23 to fix the cleaning plate 21 to one end of the vibration sieve 1, and the cleaning chamber 211 is communicated with the sieve chamber of the vibration sieve 1. The cleaning plate is connected with one end of the vibrating screen, the rubber tube can shake when being cleaned, the rubber tube is enabled to collide with the sputtering plate, cleaning of residual slime, oil stains, dust and other pollutants on the outer surface of the rubber tube is facilitated, and meanwhile the rubber tube can enter the screen cavity of the vibrating screen from the cleaning cavity conveniently. One end of the cleaning plate 21 close to the feed port 11 is integrally formed with a transition plate 24, the transition plate 24 is located in the feed port 11 of the vibrating screen 1, the transition plate 24 abuts against the screen 14 of the vibrating screen 1, and the transition plate 24 facilitates the rubber hose in the cleaning cavity 211 to enter the screen cavity of the vibrating screen 1. An inclination angle alpha is formed between the lower surface of the cleaning plate 21 and the first horizontal plane, and the value range of the inclination angle alpha is 15-45 degrees. The ground on which the hose cleaning machine is placed can be regarded as a first horizontal plane. The cleaning plate is obliquely arranged at one end of the vibrating screen, so that the rubber hose can better enter the cleaning cavity conveniently, and the rubber hose can conveniently enter the screen cavity of the vibrating screen from the cleaning cavity.

As shown in fig. 2 and 4 to 8, the plurality of sputtering plates 22 are all located in the cleaning chamber 211, the plurality of sputtering plates 22 are sequentially arranged at intervals along the length direction of the cleaning plate 21, and the length direction of the sputtering plates 22 is perpendicular to the length direction of the cleaning plate 21. An interlayer 25 is formed between the adjacent two sputtering plates 22. Since the plurality of sputtering plates 22 have the same structure, taking one sputtering plate 22 as an example, the sputtering plate 22 includes a support sub-plate 221, a first sputtering sub-plate 222, and a second sputtering sub-plate 223. A notch 224 is integrally formed at one side of the support sub-plate 221 along the length direction, the side of the support sub-plate 221 with the notch 224 is welded at the bottom of the cleaning cavity 211, at this time, the notch 224 and the bottom of the cleaning cavity 211 form a water outlet hole 225 together, and the cross section of the water outlet hole 225 is rectangular. The outlet hole 225 facilitates the drainage of water in the interlayer 25. The first sputtering sub-plate 222 and the second sputtering sub-plate 223 are connected by welding along one side of the length direction, and the first sputtering sub-plate 222 and the second sputtering sub-plate 223 are symmetrically arranged. The connection part of the first sputtering sub-plate 222 and the second sputtering sub-plate 223 is connected to one side of the support sub-plate 221 far away from the bottom of the cleaning cavity 211 through welding. At this time, since the first sputtering sub-plate 222 and the second sputtering sub-plate 223 are both obliquely arranged on the support sub-plate 221, an included angle β is formed between the first sputtering sub-plate 222 and the bottom of the cleaning chamber 211, an included angle β is also formed between the second sputtering sub-plate 223 and the bottom of the cleaning chamber 211, and the included angle β has a value range of 10 ° to 40 °. By limiting the included angle beta, water flow sprayed by the high-pressure spray head can impact the sputtering plate to generate multiple times of sputtering, and the rubber tube is fully cleaned.

Preferably, as shown in fig. 2, the cleaning assembly 2 further comprises two derivative plates 26. Two derived plates 26 are respectively arranged on the side walls of the two sides of the cleaning plate 21. Since the two derivative plates 26 have a symmetrical structure, the connection structure of one derivative plate 26 and the cleaning plate 21 is described, wherein one derivative plate 26 is welded to the sidewall of one side of the cleaning plate 21 in the length direction, and the other side of the derivative plate 26 is inclined toward the other derivative plate 26. Two derived plates 26 are obliquely arranged on two sides of the cleaning plate 21, so that water in the cleaning cavity can be reduced from splashing outside the cleaning cavity when the rubber pipe is cleaned.

Preferably, as shown in fig. 4 and 7 to 8, the splash guard assembly 4 includes a housing 41 and a support frame 42, and the support frame 42 includes a plurality of support rods 421 and a support seat 422. The supporting seat 422 is located the cleaning plate 21, the one end of the supporting rods 421 are welded at the four corners of the supporting seat 422 respectively, and the other ends of the supporting rods 421 are welded at the four corners of the housing 41 respectively. The cover 41 covers the cleaning cavity 211, and the cover 41 also covers the derivative plate 26, so that the cover 41 does not contact with the cleaning plate 21 and the derivative plate 26. When the cover 41 covers the cleaning cavity 211, a feeding opening 27 is formed at one end of the cover 41 far away from the vibrating screen 1 and one end of the cleaning plate 21 far away from the vibrating screen 1. The cover 41 is provided in the cleaning chamber 211, so that water in the cleaning chamber can be further reduced from splashing outside the cleaning chamber when the hose is cleaned.

As shown in fig. 1 and 4, the longitudinal direction of the housing 41 is the same as the longitudinal direction of the cleaning plate 21, and the plurality of groups of high-pressure nozzles 3 are sequentially provided at intervals in the longitudinal direction of the housing 41. Each group of high-pressure nozzles 3 includes a plurality of high-pressure nozzles 3, and the plurality of high-pressure nozzles 3 are sequentially arranged at intervals in the length direction of the sputtering plate 22. For example, the high-pressure nozzle 3 may be a linear nozzle sold by gull spray systems ltd, guan. Since the high pressure showerhead 3 is installed in the same manner as the housing 41, taking one of the high pressure showerheads 3 as an example, one end of the high pressure showerhead 3 provided with the nozzles is located in the cleaning cavity 211, and the showerhead of the high pressure showerhead 3 is arranged toward the second sputtering sub-plate 223, that is, the central axis of the high pressure showerhead 3 is perpendicular to one side of the second sputtering sub-plate 223 away from the cleaning plate 21. One end of the high-pressure nozzle 3, which is far away from the nozzle, penetrates through the housing 41 to the outside of the housing 41, and is installed at one end of the water inlet pipe 51 in a threaded connection manner, and the other end of the water inlet pipe 51 is connected with a water supply port of the water pump 52.

Preferably, as shown in fig. 1, the rubber tube cleaning machine further comprises a wastewater treatment box 6, the wastewater treatment box 6 is of an L shape, two partition plates 61 are sequentially welded in the wastewater treatment box, the space in the wastewater treatment box is divided into three cavities by the two partition plates 61, the cavity located right below the water outlet 13 is a wastewater cavity 62, the cavity located on one side of the cleaning component 2 is a clear water cavity 63, the remaining cavity is a precipitation cavity 64, and the precipitation cavity 64 is located between the wastewater cavity 62 and the clear water cavity 63. The height of the partition 61 between the clear water chamber 63 and the settling chamber 64 is lower than the height of the partition 61 between the settling chamber 64 and the waste water chamber 62. The water pump 52 is placed in the clean water chamber 63.

Application scenario of an exemplary embodiment:

as shown in fig. 1 to 8, before cleaning the rubber tube, filter cotton is placed in the waste water cavity 62 and the sedimentation cavity 64, then hot water solution is added into the waste water treatment tank, the water pump 52 supplies the hot water solution in the clear water cavity 63 to the water inlet pipe 51, the hot water solution is sprayed out through the high-pressure nozzle 3 on the water inlet pipe 51, and a part of high-pressure water flow sprayed out by the high-pressure nozzle 3 directly washes one side of the rubber tube facing the high-pressure nozzle; the other part of the high-pressure water flow sprayed by the high-pressure spray head 3 impacts the second sputtering sub-plate 223 to form first sputtering, and the rubber tube is washed towards one side of the cavity bottom of the cleaning cavity. The water flow for washing the rubber tube can continuously impact the first sputtering sub-plate 222 to form multiple times of sputtering, and the rubber tube is washed for multiple times, so that the cleaning effect of the rubber tube is improved. Meanwhile, the vibrating screen 1 can drive the cleaning plate 21 and the sputtering plate 22 to vibrate together, the edge of the joint of the first sputtering sub-plate 222 and the second sputtering sub-plate 223 can collide with the rubber tube, and dirty objects on the rubber tube can be cleaned. After the rubber tube enters the screen cavity of the vibrating screen 1 from the cleaning cavity 211, water on the rubber tube is screened out through the vibrating screen 1, finally the rubber tube enters the collecting box through the discharge hole 12 of the vibrating screen 1, sewage after the rubber tube is washed flows into the waste water cavity 62 through the water outlet 13, the sewage in the waste water cavity 62 overflows into the precipitation cavity 64 after accumulating to a certain amount, the water in the precipitation cavity 64 overflows into the clear water cavity 63 after accumulating to a certain amount, dirty objects in the sewage are adsorbed by the filter cotton in the waste water cavity 62 and the filter cotton in the precipitation cavity 64, the sewage is changed into hot water solution through the treatment of the waste water cavity 62 and the precipitation cavity 64, and water resources are saved.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides a rubber tube cleaning machine which characterized in that includes:

a vibrating screen (1) comprising a feed inlet (11);

the cleaning assembly (2) is detachably and obliquely arranged at the feed port (11); the cleaning assembly (2) comprises a cleaning cavity (211) and a sputtering plate (22), and the sputtering plate (22) is arranged in the cleaning cavity (211);

the high-pressure sprayer (3) comprises a nozzle perpendicular to one side face of the sputtering plate (22), and the high-pressure sprayer (3) is communicated with a water pump (52).

2. Hose washing machine according to claim 1, characterized in that said washing assembly (2) comprises:

the cleaning plate (21) is bent to form the cleaning cavity (211) and is detachably arranged at the feed port (11).

3. The hose washing machine according to claim 2, characterized in that the washing assembly (2) further comprises:

and two derived plates (26) which are respectively and obliquely arranged on two sides of the cleaning plate (21) along the length direction.

4. The hose cleaning machine according to claim 2,

the plurality of sputtering plates (22) are sequentially arranged at intervals along the length direction of the cleaning plate (21);

the length direction of the sputtering plate (22) is perpendicular to the length direction of the cleaning plate (21).

5. The hose cleaning machine according to claim 4, characterized in that the splash plate (22) comprises:

a support sub-plate (221), one side of which is arranged at the bottom of the cleaning cavity (211);

a first sputtering sub-plate (222) obliquely provided on the other side of the support sub-plate (221);

a second sputtering sub-plate (223) obliquely disposed at the other side of the support sub-plate (221);

the first sputtering sub-plate (222) and the second sputtering sub-plate (223) are symmetrically arranged.

6. The hose cleaning machine according to claim 5,

the range of the included angle between the first sputtering sub-plate (222) and/or the second sputtering sub-plate (223) and the cavity bottom of the cleaning cavity (211) is 10-40 degrees.

7. The hose cleaning machine according to claim 5,

the nozzles are disposed toward the first sputtering sub-plate (222) or the second sputtering sub-plate (223).

8. The hose cleaning machine according to claim 5,

the support sub-plate (221) is provided with a water outlet hole (225).

9. The hose cleaning machine according to any one of claims 1 to 7, further comprising a splash guard assembly (4), the splash guard assembly (4) comprising:

a cover (41) covering the cleaning cavity (211);

and one end of the support frame (42) is connected with the housing (41).

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