CN205732156U - Hydraulic tube cleaning machine drum structure - Google Patents

Abstract

A kind of hydraulic tube cleaning machine drum structure, it is characterised in that: including that rotary drum and tank, described rotary drum are rotationally connected with in a chamber of frame, the bottom of chamber has described tank；Described rotary drum includes the first clamping dish, the second clamping dish and rotating shaft；First clamping dish is provided with multiple hydraulic tube the first location division, and the second clamping dish is correspondingly provided with multiple hydraulic tube the second location division；Each described hydraulic tube the first location division all connects with the Air-liquid pipeline in chamber, and each hydraulic tube the second location division connects with an injector head respectively, and each injector head is all fixedly arranged on the side outwardly of described second clamping dish；Described rotary drum is horizontally placed in chamber, and at least hydraulic tube in rotary drum is positioned in described tank；Ultrasound wave vibration plate it is provided with in described tank.This utility model design is ingenious, it is possible to many hydraulic tubes of clamping simultaneously, and loading and unloading hydraulic pipe is the most convenient, its 360 degree rotate be designed to shorten scavenging period, improve cleannes grade, reduce and clean cost, lifting cleaning efficiency.

Description

Hydraulic tube cleaning machine drum structure

Technical field

This utility model relates to a kind of automated cleaning equipment, is specifically related to the drum structure of a kind of full automatic hydraulic tube cleaning machine, and this cleaning machine includes cleaning, rinsing and functions/drying.

Background technology

Hydraulic tube is a kind of parts being widely used in engineering machinery, can be divided into plastic tube and metal tube from material.Wherein, the hydraulic tube of metal material, by after extrusion molding, needs to cut off and smear antirust oil to preserve.Hydraulic tube needs to be carried out it before assembling uses, and to remove remaining in the impurity such as particulate matter inside and outside pipe when cutting off, and cleans the antirust greasy dirt being attached on body.

At present, when hydraulic tube is carried out, it is common to use metal brush brushing surface, blow inwall by compressed air, by oil or the method such as chemical solvent immersion, sponge air blowing, high-pressure water jet.Above-mentioned existing cleaning way have the disadvantage that one or cleaning function single, and then cause cleaning performance poor, if the cleannes of hydraulic tube can not reach requirement, particulate matter therein can cause sealing gasket, the breakage of sealing ring, leakage during hydraulic system uses, affect service life of equipment, also bring potential safety hazard；Two or need to use multiple different cleaning equipment to increase cleaning function, cause cost height, scavenging period length, efficiency is low, floor space is big.

Therefore it provides a kind of new type washing machine is to solve many deficiencies that above-mentioned prior art exists, becoming as this utility model problem to be studied, this utility model relates to the drum structure of this new type washing machine.

Summary of the invention

This utility model provides a kind of hydraulic tube cleaning machine drum structure, its object is to solve the problem that prior art cleaning efficiency is poor, cost is high.

For reaching above-mentioned purpose, the technical solution adopted in the utility model is: a kind of hydraulic tube cleaning machine drum structure, is assemblied in a frame of described cleaning machine；

Described drum structure includes that rotary drum and tank, described rotary drum are rotationally connected with in a chamber of described frame along its length, and the bottom of this chamber has described tank；

Described rotary drum includes the first clamping dish, the second clamping dish and rotating shaft；Described first clamping dish and described second clamping dish be arranged in parallel, and all with the interspersed location of its core and described rotating shaft；One side surface of the most described second clamping dish of described first clamping dish is provided with multiple hydraulic tube the first location division, and each described hydraulic tube the first location division is uniformly distributed along the circumference of the first clamping dish core；On described second clamping dish, corresponding described hydraulic tube the first location division such as is provided with at multiple hydraulic tubes second location division of quantity, described hydraulic tube the first location division and described hydraulic tube the second location division are respectively used to position the two ends of hydraulic tube, constitute each hydraulic tube positioned parallel in described rotary drum；Wherein, each described hydraulic tube the first location division all connects with the Air-liquid pipeline in described chamber, and each hydraulic tube the second location division connects with an injector head respectively, and each described injector head is all fixedly arranged on the side outwardly of described second clamping dish；

Described rotary drum is horizontally placed in described chamber, and at least hydraulic tube in described rotary drum is positioned in described tank；Ultrasound wave vibration plate it is provided with in described tank.

Relevant content in technique scheme is explained as follows:

1., in such scheme, described Air-liquid pipeline can supplied gas or liquid communication.

2. in such scheme, described " at least hydraulic tube in rotary drum is positioned in described tank ", design whereby, when tank has liquid, rotary drum has all the time hydraulic tube be soaked in the liquid of tank.

3. in such scheme, described ultrasound wave vibration plate is used for producing ultrasound wave, and the inside and outside wall of hydraulic tube is carried out ultrasonic clean.

4. in such scheme, the side outwardly of described first clamping dish has a gas-liquid entrance, and this gas-liquid enters confession and connects described Air-liquid pipeline；Being formed in described first clamping dish and the split channel of the quantity such as described hydraulic tube the first location division, each split channel connects described gas-liquid entrance and described hydraulic tube the first location division.

5., in such scheme, the injection end of described injector head is tapered.Design whereby, when in hydraulic tube being liquid, hydraulic pressure in hydraulic tube can be promoted, reduce the requirement to water pump.

6., in such scheme, in described hydraulic tube the first location division and described hydraulic tube the second location division, the inside of at least one is provided with elastic component.Design whereby, can promote the stability of hydraulic tube location while convenient installation hydraulic tube.Described elastic component can be spring, it is also possible to be reed etc..

7., in such scheme, the distance between described first clamping dish and described second clamping dish is adjustable.Such as, described second clamping dish can move forward and backward in described rotating shaft, and then changes the distance between the first clamping dish, so that rotary drum adapts to the hydraulic tube of different length.

8., in such scheme, described rotary drum is driven by a driving motor and rotates, it is also possible to be that other can drive the driving means of drum rotating, it might even be possible to hand operation.

9. in such scheme, described drum structure also includes a shower, and this shower is fixedly arranged on above the chamber of described frame, and described shower offers multiple nozzle, and each described nozzle is arranged towards the hydraulic tube on described rotary drum.

Operation principle of the present utility model and advantage are as follows:

This utility model one hydraulic tube cleaning machine drum structure, being assemblied in a frame of hydraulic tube cleaning machine, this cleaning machine can fully automatically realize the outer wall cleaning showers rinsing of hydraulic tube, the rinsing of inwall jet flow cleaning, ultrasound wave inside and outside wall cleaning and rinsing and inside and outside wall dries.This utility model design is ingenious, it is possible to many hydraulic tubes of clamping simultaneously, and loading and unloading hydraulic pipe is the most convenient, and its 360 degree designs rotated can not only shorten scavenging period, moreover it is possible to improves cleannes grade, reduces and cleans cost, promotes cleaning efficiency.

Accompanying drawing explanation

Accompanying drawing 1 is the structural representation one of this utility model embodiment cleaning machine；

Accompanying drawing 2 is the structural representation two of this utility model embodiment cleaning machine；

Accompanying drawing 3 is the structural representation three of this utility model embodiment cleaning machine；

Accompanying drawing 4 is the structural representation four (front shroud is opened, without hydraulic tube) of this utility model embodiment cleaning machine；

Accompanying drawing 5 is the use state reference map one of this utility model embodiment；

Accompanying drawing 6 is the use state reference map two of this utility model embodiment；

Accompanying drawing 7 is the structural representation one of this utility model embodiment rotary drum；

Accompanying drawing 8 is the structural representation two of this utility model embodiment rotary drum；

Accompanying drawing 9 is the structural representation three of this utility model embodiment rotary drum；

Accompanying drawing 10 is that the A-A of Fig. 9 is to generalized section；

Accompanying drawing 11 is that the B-B of Fig. 9 is to generalized section；

Accompanying drawing 12 is that the C-C of Fig. 9 is to generalized section；

Accompanying drawing 13 is the structural representation four of this utility model embodiment rotary drum；

Accompanying drawing 14 is the use state reference map of this utility model embodiment rotary drum.

In the figures above: 1. frame；2. tank；3. the first clamping dish；4. the second clamping dish；5. hydraulic tube the first location division；6. hydraulic tube the second location division；7. hydraulic tube；8. chamber；9. injector head；10. gas-liquid entrance；11. split channels；12. springs；13. drive motor；14. front shrouds；15. ultrasound wave vibration plates；16. showers；17. nozzles；18. cleanout fluid aqua storage tanks；19. cleaned filters；20. flushing water pumps；21. rinsing liquid aqua storage tanks；22. rinsing filter；23. rinsing water pumps；24. air-heaters；25. storage heaters；26. work nest discharge opeing cylinders；27. current divider boxs；28. electrical control cubicles；29. guidance panels；30. Air-liquid pipeline；31. rotating shafts.

Detailed description of the invention

Below in conjunction with the accompanying drawings and this utility model is further described by embodiment:

Embodiment: see shown in accompanying drawing 1 ~ 4, a kind of hydraulic tube cleaning machine drum structure, described cleaning machine includes a frame 1, and is connected with the drum structure in this frame 1, cleaning unit, rinse unit and drying unit.(in order to performance structure constructs, the frame in figure has concealed side panel, top board and backboard)

As shown in Fig. 5 ~ 14, described drum structure includes rotary drum and tank 2；Described rotary drum includes the first clamping dish the 3, second clamping dish 4 and rotating shaft 31；Described first clamping dish 3 and described second clamping dish 4 be arranged in parallel, and all with its core and the described interspersed location of rotating shaft 31；One side surface of the most described second clamping dish 4 of described first clamping dish 3 is provided with multiple hydraulic tube the first location division 5, and each described hydraulic tube the first location division 5 is uniformly distributed along the circumference of the first clamping dish 3 core；On described second clamping dish 4, corresponding described hydraulic tube the first location division 5 such as is provided with at multiple hydraulic tubes second location division 6 of quantity, described hydraulic tube the first location division 5 and described hydraulic tube the second location division 6 are respectively used to position the two ends of hydraulic tube 7, constitute each hydraulic tube 7 positioned parallel in described rotary drum；Wherein, each described hydraulic tube the first location division 5 all connects with the Air-liquid pipeline 30 in frame 1 chamber 8, and each hydraulic tube the second location division 6 connects with an injector head 9 respectively, and each described injector head 9 is all fixedly arranged on the side outwardly of described second clamping dish 4.

Wherein, the side outwardly of described first clamping dish 3 has a gas-liquid entrance 10, and this gas-liquid entrance 10 is for connecting described Air-liquid pipeline 30；Being formed in described first clamping dish 3 and the split channel 11 of the quantity such as described hydraulic tube the first location division 5, each split channel 11 connects described gas-liquid entrance 10 and described hydraulic tube the first location division 5.The injection end of described injector head 9 is tapered, when in hydraulic tube 7 being liquid, can promote hydraulic pressure in hydraulic tube 7, reduce the requirement to water pump.The inside of described hydraulic tube the second location division 6 is provided with spring 12, designs whereby, can promote the stability of hydraulic tube 7 location while convenient installation hydraulic tube 7.

Wherein, as described in Figure 13, described second clamping dish 4 can move forward and backward in described rotating shaft 5, and then changes the distance between the first clamping dish 3, so that rotary drum adapts to the hydraulic tube 7 of different length.

Described rotary drum is driven by a driving motor 13 along its length and rotates, and rotary drum is rotationally connected with in the described chamber 8 of described frame 1.In described frame 1, corresponding described chamber 8 is provided with a front shroud 14 to be opened/closed, the bottom of described chamber 8 has described tank 2, described rotary drum is horizontally placed at least hydraulic tube 7 in described chamber 8 and in described rotary drum and is positioned in described tank 2, when tank 2 has liquid, rotary drum there is all the time hydraulic tube 7 be soaked in the liquid of tank 2.Being provided with ultrasound wave vibration plate 15 in described tank 2, this ultrasound wave vibration plate 15 is used for producing ultrasound wave, and the inside and outside wall of hydraulic tube 7 is carried out ultrasonic clean.

Wherein, described drum structure also includes a shower 16, and this shower 16 is fixedly arranged on above the chamber 8 of described frame 1, and shower 16 offers multiple nozzle 17, and each described nozzle 17 is arranged towards the hydraulic tube 7 on described rotary drum.

Described cleaning unit includes cleanout fluid aqua storage tank 18, cleaned filter 19 and flushing water pump 20；The outlet of described cleanout fluid aqua storage tank 18 connects the Air-liquid pipeline 30 in described chamber 8, and the water inlet of described cleanout fluid aqua storage tank 18 connects the outlet of tank 2 in described drum structure；Described flushing water pump 20 connects described cleanout fluid aqua storage tank 18, is pumped into by cleanout fluid in the tank 2 of drum structure, and described cleaned filter 19 connects with cleanout fluid aqua storage tank 18, for the impurity filtered after cleanout fluid pressure pipe 7 in cleanout fluid.

Described rinse unit includes rinsing liquid aqua storage tank 21, rinsing filter 22 and rinsing water pump 23；The outlet of described rinsing liquid aqua storage tank 21 connects the Air-liquid pipeline 30 in described chamber 8, and the water inlet of described rinsing liquid aqua storage tank 21 connects the outlet of tank 2 in described drum structure；Described rinsing water pump 23 connects described rinsing liquid aqua storage tank 21, is pumped into by rinsing liquid in the tank 2 of drum structure, and described rinsing filter 22 connects with rinsing liquid aqua storage tank 21, for the impurity filtered after rinsing liquid pressure pipe 7 in rinsing liquid.

Described drying unit include air-heater 24 and be located at described frame 1 chamber 8 above multiple described nozzle 17；The air outlet of described air-heater 24 connects the Air-liquid pipeline 30 in described chamber 8 and each described nozzle 17.

Wherein, the gas-liquid entrance of described shower 16 connects with the air outlet of the outlet of described cleanout fluid aqua storage tank 18, the outlet of described rinsing liquid aqua storage tank 21 and described air-heater 24.When described cleaning unit works, the gas-liquid entrance of shower 16 connects with the outlet of described cleanout fluid aqua storage tank 18, and the nozzle 17 of shower 16 sprays cleanout fluid, is carried out processing to the surface of hydraulic tube 7；When described rinse unit works, the gas-liquid entrance of shower 16 connects with the outlet of described rinsing liquid aqua storage tank 21, and the nozzle 17 of shower 16 sprays rinsing liquid, and the surface of hydraulic tube 7 is carried out rinsing process；When described drying unit works, the gas-liquid entrance of shower 16 connects with the air outlet of described air-heater 24, and the nozzle 17 of shower 16 sprays hot blast, and the surface of hydraulic tube 7 is dried process.

Described cleaning machine also includes an ECU, and this ECU electrically connects described cleaning unit, rinse unit and drying unit, takes turns to operate sequentially in order to control three unit.

Wherein, described Air-liquid pipeline 30 can supplied gas or liquid communication.Described air-heater 24 can within set heater and directly blow out hot blast, it is possible to by peripheral hardware storage heater 25, the wind of blowout is heated.

Wherein, a work nest discharge opeing cylinder 26 also it is provided with in described frame 1, this work behaviour's discharge opeing cylinder 26 electrically connects with described ECU, and act on described cleanout fluid aqua storage tank 18 and described rinsing liquid aqua storage tank 21, connect, with cleaning model or the rinsing mode of matching purge machine with cleanout fluid aqua storage tank 18 or with rinsing liquid aqua storage tank 21 for switching the tank 2 of drum structure.

Wherein, in described frame 1, the described Air-liquid pipeline 30 in corresponding described chamber 8 is also provided with a current divider box 27, and this current divider box 27 has three entrances and an outlet；Three entrances of current divider box 27 are respectively communicated with the outlet of described cleanout fluid aqua storage tank 18, the outlet of described rinsing liquid aqua storage tank 21 and the air outlet of described air-heater 24, the Air-liquid pipeline 30 in chamber 8 described in the outlet of current divider box 27；Three entrances of described current divider box 27 control the connection with described Air-liquid pipeline 30 by an electric control valve, and described electric control valve electrically connects with described ECU.

Described ECU includes electrical control cubicles 28, guidance panel 29.Described electrical control cubicles 28 is by PLC electrical connection control panel 29, electric control valve, flushing water pump 20, rinsing water pump 23, driving motor 13, work behaviour discharge opeing cylinder 26, the storage heater 25 of air-heater 24, ultrasound wave vibration plate 15 etc..Described guidance panel 29 is possible not only to send clear instruction, it is also possible to arrange ultrasonic clean time, spray time, cleaning speed, drying temperature and time etc..

Described cleanout fluid aqua storage tank 18 and described rinsing liquid aqua storage tank 21 can be provided with heater, cleanout fluid or rinsing liquid are heated, is used further to cleaning solution pressure pipe 7.

The concrete cleaning process flow of this utility model cleaning machine includes:

The first step, tubulature: open the front shroud 14 of frame 1, by many hydraulic tube 7 clampings to be cleaned in rotary drum.

Second step, cleaning: first, operator is manipulated by panel 29 and opens cleaning, drives motor 13 to start, drives drum rotating；Meanwhile, ECU controls current divider box 27 and connects the outlet of cleanout fluid aqua storage tank 18, and starts flushing water pump 20, is flowed in drum structure and shower 16 via current divider box 27 by the cleanout fluid in cleanout fluid aqua storage tank 18；Then, cleanout fluid flows in the hydraulic tube 7 on drum structure, carries out the jet flow cleaning of inside pipe wall, and the nozzle 17 of shower 16 sprays cleanout fluid simultaneously, carries out the cleaning of pipe outer wall；Cleanout fluid flow in tank 2 while cleaning pipe inside and outside wall, tank 2 is carried out water-retention, when the cleanout fluid liquid level in tank 2 is raised to flood at least hydraulic tube 7, starts the ultrasound wave vibration plate 15 in tank 2, with ultrasound wave, the inside and outside wall of hydraulic tube 7 is carried out ultrasonic clean.

That is, whole cleaning link includes with cleanout fluid the flushing cleaning of pipe inside and outside wall and ultrasonic clean, cleaned after the wash liquid stream containing impurity return in cleanout fluid aqua storage tank 18, carried out the filtration of impurity by cleaned filter 19.

3rd step, rinsing: first, operator is manipulated by panel 29 and opens rinsing work, drives motor 13 to start, drives drum rotating；Meanwhile, ECU controls current divider box 27 and connects the outlet of rinsing liquid aqua storage tank 21, and starts rinsing water pump 23, is flowed in drum structure and shower 16 via current divider box 27 by the rinsing liquid in rinsing liquid aqua storage tank 21；Then, rinsing liquid flows in the hydraulic tube 7 on drum structure, carries out the jet rinsing of inside pipe wall, and the nozzle 17 of shower 16 sprays rinsing liquid simultaneously, carries out the rinsing of pipe outer wall；Rinsing liquid flow in tank 2 while rinsing pipe inside and outside wall, tank 2 is carried out water-retention, when the rinsing liquid liquid level in tank 2 is raised to flood at least hydraulic tube 7, starts the ultrasound wave vibration plate 15 in tank 2, with ultrasound wave, the inside and outside wall of hydraulic tube 7 is carried out ultrasonic clean.

That is, whole rinse cycle includes with rinsing liquid the flushing cleaning of pipe inside and outside wall and ultrasonic clean, rinsed after the rinsing liquid containing impurity flow back in rinsing liquid aqua storage tank 21, carried out the filtration of impurity by rinsing filter 22.

4th step, drying: after treating the rinsing liquid emptying in tank 2, operator is manipulated by panel 29 and opens dry work, ECU controls current divider box 27 and connects the air outlet of air-heater 24, and the wind of air-heater 24 blowout warp after storage heater 25 heats is blown in drum structure and shower 16 by current divider box 27；In the hydraulic tube 7 that wherein hot blast is blown on drum structure, carrying out being dried of inside pipe wall, the nozzle 17 of shower 16 sprays hot blast simultaneously, carries out being dried of pipe outer wall.

5th step, clean complete, open the front shroud 14 of frame 1, glove must be worn when taking off cleaned hydraulic tube 7(operation, prevent from scalding).

Advantage of the present utility model and effect:

This utility model one hydraulic tube cleaning machine drum structure, being assemblied in a frame of hydraulic tube cleaning machine, this cleaning machine can fully automatically realize the outer wall cleaning showers rinsing of hydraulic tube, the rinsing of inwall jet flow cleaning, ultrasound wave inside and outside wall cleaning and rinsing and inside and outside wall dries.This utility model design is ingenious, it is possible to many hydraulic tubes of clamping simultaneously, and loading and unloading hydraulic pipe is the most convenient, and its 360 degree designs rotated can not only shorten scavenging period, moreover it is possible to improves cleannes grade, reduces and cleans cost, promotes cleaning efficiency.

Above-described embodiment only for technology of the present utility model design and feature are described, its object is to allow person skilled in the art will appreciate that content of the present utility model and to implement according to this, can not limit protection domain of the present utility model with this.All equivalence changes made according to this utility model spirit or modification, all should contain within protection domain of the present utility model.

Claims (7)

1. a hydraulic tube cleaning machine drum structure, it is characterised in that: it is assemblied in a frame of described cleaning machine；

Described drum structure includes that rotary drum and tank, described rotary drum are rotationally connected with in a chamber of described frame along its length, and the bottom of this chamber has described tank；

Described rotary drum includes the first clamping dish, the second clamping dish and rotating shaft；Described first clamping dish and described second clamping dish be arranged in parallel, and all with the interspersed location of its core and described rotating shaft；One side surface of the most described second clamping dish of described first clamping dish is provided with multiple hydraulic tube the first location division, and each described hydraulic tube the first location division is uniformly distributed along the circumference of the first clamping dish core；On described second clamping dish, corresponding described hydraulic tube the first location division such as is provided with at multiple hydraulic tubes second location division of quantity, described hydraulic tube the first location division and described hydraulic tube the second location division are respectively used to position the two ends of hydraulic tube, constitute each hydraulic tube positioned parallel in described rotary drum；Wherein, each described hydraulic tube the first location division all connects with the Air-liquid pipeline in described chamber, and each hydraulic tube the second location division connects with an injector head respectively, and each described injector head is all fixedly arranged on the side outwardly of described second clamping dish；

Described rotary drum is horizontally placed in described chamber, and at least hydraulic tube in described rotary drum is positioned in described tank；Ultrasound wave vibration plate it is provided with in described tank.

Drum structure the most according to claim 1, it is characterised in that: the side outwardly of described first clamping dish has a gas-liquid entrance, and this gas-liquid enters confession and connects described Air-liquid pipeline；Being formed in described first clamping dish and the split channel of the quantity such as described hydraulic tube the first location division, each split channel connects described gas-liquid entrance and described hydraulic tube the first location division.

Drum structure the most according to claim 1, it is characterised in that: the injection end of described injector head is tapered.

Drum structure the most according to claim 1, it is characterised in that: in described hydraulic tube the first location division and described hydraulic tube the second location division, the inside of at least one is provided with elastic component.

Drum structure the most according to claim 1, it is characterised in that: the distance between described first clamping dish and described second clamping dish is adjustable.

Drum structure the most according to claim 1, it is characterised in that: described rotary drum is driven by a driving motor and rotates.

Drum structure the most according to claim 1, it is characterized in that: described drum structure also includes a shower, this shower is fixedly arranged on above the chamber of described frame, and described shower offers multiple nozzle, and each described nozzle is arranged towards the hydraulic tube on described rotary drum.