CN103920671A - Pipe cleaning assembly line - Google Patents

Abstract

The invention discloses a pipe cleaning assembly line which sequentially comprises a feeding section A, a cleaning section B, a drying section C and a discharging section D. The feeding section A comprises a first vibrating table which is used for feeding pipes and enabling the pipes to be neatly arranged; the cleaning section B comprises a cleaning tank, a brightening tank, a passivating tank and longitudinal rails, the longitudinal rails sequentially penetrate the cleaning tank, the brightening tank and the passivating tank, input ends of the longitudinal rails are connected with the feeding section, the pipes are fed into the longitudinal rails one by one, and conveying directions of the longitudinal rails is perpendicular to the axial directions of the pipes; the drying section C comprises a drying mechanism and a transverse rail, the transverse rail penetrates the drying mechanism, an input end of the transverse rail is close to output ends of the longitudinal rails, the pipes are fed into the transverse rail one by one, and a conveying direction of the transverse rail is parallel to the axial directions of the pipes; the discharging section D comprises a second vibrating table, and the second vibrating table is arranged at an output end of the transverse rail and is used for discharging the pipes and enabling the pipes to be integrally arranged. The pipe cleaning assembly line has the advantages that the pipe cleaning assembly line can be automatically operated under an unmanned condition, an excellent cleaning effect can be realized, and accordingly the pipe cleaning assembly line is high in cleaning efficiency and low in labor consumption.

Description

Tubing washing flow line

Technical field

the present invention relates to a kind of tubing washing flow line.

Background technology

the operation principle of supersonic wave cleaning machine is: ultrasonic wave in cleaning fluid density interphase to previous irradiation, make liquid flow and produce the micro-bubble that ten hundreds of diameters is 50-500 μ m, the micro-bubble being present in liquid vibrates under the effect of sound field.These bubbles form at the negative pressuren zone of ultrasonic wave longitudinal propagation, growth, and at zone of positive pressure, when acoustic pressure reaches certain value, bubble increases rapidly, then closed suddenly.And when bubble is closed, produce shock wave, and at it, produce thousands of atmospheric pressure around, destroy insoluble dirt and they are scattered in cleaning fluid, when group's particle is being wrapped up in by greasy dirt and is attached on cleaning part when surface, oil is emulsified, and solids depart from, thereby reaches the object that cleaning part purifies.Along with the development of cleaning industry, increasing industry and enterprise have applied to supersonic wave cleaning machine.

in prior art, the tubing such as copper pipe need to be successively through matting remove the inside and outside impurity of copper pipe, the oxide layer of removing copper pipe surface to be to prevent copper pipe some the row operations such as variable color, passivation, oven dry of getting rusty.Because the draw ratio of the tubing such as copper pipe is larger, common washing flow line cannot meet the requirement to effective cleaning of large size pipe.Traditional method is to adopt manual cleaning, and each operation is discontinuous, and labour intensity is large and cleaning efficiency is low.In addition, at present by Ultrasonic Cleaning tubing, all that bundled tubing bulk storage is cleaned together in ultrasonic cleaner, ultrasonic vibration box is arranged in bottom and the both sides of rinse bath, the tubing that is positioned at bundle centre has decayed to very faint owing to seeing through the ultrasonic wave of heavy tubing arrival from periphery, therefore need just can clean up for a long time, although and be positioned at the tubing wash clean just in a short period of time of the super nearly ultrasonic vibration box of bottom, but the tubing that need to wait until whole bundle is all after wash clean, whole bundle tubing could be taken out together, caused waste greatly in cleaning efficiency, greatly elongated scavenging period.

Summary of the invention

for the problems referred to above, the object of this invention is to provide a kind of operatorless full-automatic pipe washing flow line, it has cleaning performance preferably, higher cleaning efficiency and less manpower.

for solving the problems of the technologies described above, the present invention adopts following technical scheme:

a tubing washing flow line, it comprises successively:

a, material loading section, it comprises one first shake table, for material loading and make tubing proper alignment;

b, cleaning section, it comprises rinse bath, glow groove, deactivation slot and the long rails that passes successively described rinse bath, glow groove and deactivation slot, the input of described long rails and described material loading section are joined, the throughput direction of described long rails and tubing axially perpendicular;

c, drying section, it comprises drying mechanism and the cross track that passes described drying mechanism, and the input of described cross track is near the output of long rails, and the throughput direction of described cross track axially parallels with tubing;

d, blanking section, it comprises the second shake table that is arranged at described cross track output, for blanking and make tubing overall alignment.

preferably, described material loading section also comprises the baffle plate that is arranged at the first shake table top, be arranged at the first shake table rearward end for stopping a plurality of projections of tubing, can rotate the first turnover panel and the first cylinder for driving the first turnover panel to rotate arranging relative to the first shake table, described the first shake table has from the cleaning section near-end close to and the far-end away from from cleaning section, described the first shake table is downward-sloping gradually to near-end from far-end, between the bottom of described baffle plate and the first shake table, there is a space of passing through for single tubing, described the first turnover panel drives the tubing falling within on the first turnover panel upwards to turn to tubing and falls within on projection, the upper surface of described projection is downward-sloping and join with long rails gradually along the direction towards cleaning section.

preferably, described long rails comprises by motor-driven a plurality of parallel chains and a plurality of for the fixing bearing of tubing, on each chain, be all arranged at intervals with a plurality of described bearings, the upper end of described bearing offers the groove matching with tubing, and tubing is stuck in described groove.

more preferably, described cleaning section also comprises the first Chui Shui mechanism, the first clear water potcher, the second Chui Shui mechanism, the second clear water potcher, San Chui water mechanism, pure water potcher Ji Sichui water mechanism, the bottom of described rinse bath and glow groove is provided with ultrasonic vibration box, and described chain is successively through rinse bath, the first Chui Shui mechanism, the first clear water potcher, glow groove, the second Chui Shui mechanism, the second clear water potcher, deactivation slot, San Chui water mechanism, pure water potcher Ji Sichui water mechanism.

further, the sidepiece that described the first Chui Shui mechanism, the second Chui Shui mechanism, the San Chui water Ji Sichui of mechanism water mechanism are all arranged at long rails is for removing the liquid that is attached to pipe material inner wall.

preferably, between described cleaning section and drying section, be also provided with gas pressure test mechanism.

more preferably, between described gas pressure test mechanism and the input of cross track, between the output of cross track and be provided with turn-down rig between the second shake table, for tubing being moved on cross track or moving to the second shake table, described turn-down rig comprises support, rotates the second turnover panel and the second cylinder for driving the second turnover panel to rotate that are arranged on support, and described the second turnover panel at least has a position of remaining basically stable with cross track.

preferably, described cross track comprises a plurality of rollers that drive to be rotated by motor, and tubing is placed on the periphery of described roller, tubing axially and roller axially perpendicular.

preferably, described drying section also comprises that described cross track is successively through Wu Chui water mechanism, drying mechanism and the mechanism of detecting a flaw for removing the Wu Chui water mechanism of the water that is attached to outer pipe wall and checking that there is flawless flaw detection mechanism tubing inside.

preferably, described the second shake table above and/or under side be provided with for by the cooling blower fan of tubing.

the present invention adopts above structure, tool has the following advantages: by the chain with groove, tubing queued up one by one and drive tubing successively continuously through cleaning, blow water, rinsing, light, blow water, rinsing, passivation, blow water, the operations such as pure water rinsing, because every tubing is all to enter independently above-mentioned each operation, in ultrasonic wave sound field, tubing is not subject to any blocking, the ultrasonic wave that acts on tubing is undamped, the surfaces externally and internally of tubing can farthest contact with medicament and water in each operation, tubing in a short period of time just can wash clean, cleaning efficiency can improve more than 10 times, the tubing that tubing washing flow line therefore of the present invention cleans has the highest cleannes, compared to existing technology, bundled tubing cleans in groove, if the tubing that is positioned at middle part also need be cleaned up, must stop to extend scavenging period, in the application because tubing independently enters each operation, in short time, single tubing can be cleaned up, without stop, so cleaning efficiency is higher, in the application, by chain and roller, carry tubing through each operation, saved manpower.

Accompanying drawing explanation

fig. 1 is structural representation of the present invention;

fig. 2 is side view of the present invention;

fig. 3 is the partial enlarged drawing at A place in Fig. 2.

in figure: 1, material loading section; 11, the first shake table; 12, projection; 13, the first turnover panel; 14, the first cylinder;

2, cleaning section; 21, chain; 211, bearing; 22, rinse bath; 23, Nei Chui water mechanism; 24, the first clear water potcher; 25, glow groove; 26, the second clear water potcher; 27, deactivation slot; 28, pure water potcher;

3, drying section; 31, roller; 32, Wai Chui water mechanism; 33, heating in medium frequency mechanism; 34, flaw detection mechanism;

4, blanking section; 41, the second shake table; 42, blower fan;

5, gas pressure test mechanism;

6, turn-down rig; 61, support; 62, the second turnover panel; 63, the second cylinder.

The specific embodiment

below in conjunction with accompanying drawing, preferred embodiment of the present invention is described in detail, thereby so that advantages and features of the invention can be easier to be those skilled in the art will recognize that, protection scope of the present invention is made to more explicit defining.

shown in Fig. 1, a kind of tubing washing flow line, it comprises successively from A-P: material loading section 1, cleaning section 2, gas pressure test mechanism 5, turn-down rig 6, drying section 3, turn-down rig 6 and blanking section 4, the output of blanking section 4 is also provided with a turn-down rig 6 for cleaned tubing is ploughed under in district to be installed one by one, after vanning, move to vanning district, between above-mentioned each operation, there is a space and can be used as auxiliary material and put district and escape way.Tubing enters above-mentioned each operation one by one continuously successively, tubing is perpendicular at throughput direction and its throughput direction in drying section 3 of material loading section 1, cleaning section 2, gas pressure test mechanism 5, turn-down rig 6, blanking section 4, the throughput direction of tubing in drying section 3 axially parallels with it, in other operation, Duan Zewei is mutually vertical, the first for by streamline bending to save space; It two is for improving cleaning efficiency.

in conjunction with Fig. 2, shown in Fig. 3, material loading section 1 comprises the first shake table 11, be arranged at the baffle plate (not shown) of the first shake table 11 tops, be arranged at the first shake table 11 rearward end for stopping a plurality of projections 12 of tubing, can rotate the first turnover panel 13 and the first cylinder 14 for driving the first turnover panel 13 to rotate arranging relative to the first shake table 11, described the first shake table 11 is driven vibration for material loading and is made tubing justify align proper alignment each other by motor, described the first shake table 11 has from cleaning section 2 near-end close to and the far-end away from from cleaning section, described the first shake table 11 is downward-sloping gradually to near-end from far-end, between the bottom of described baffle plate and the first shake table 11, there is a space of passing through for single tubing, described the first turnover panel 13 drives the tubing falling within on the first turnover panel 13 upwards to turn to tubing and falls within on projection 12, the upper surface of described projection 12 is downward-sloping and join with the long rails of cleaning section 2 gradually along the direction towards cleaning section 2.By operating personnel or manipulator by tubing as on the first shake table 11, by the first shake table 11 oscillation ordering material, make tubing axially and the throughput direction of cleaning section 2 perpendicular.

shown in Fig. 1, Fig. 2, cleaning section 2 comprises rinse bath 22, glow groove 25, deactivation slot 27 and the long rails that passes successively described rinse bath 22, glow groove 25 and deactivation slot 27, the input of described long rails and described material loading section 1 are joined and tubing enters long rails one by one, the throughput direction of described long rails and tubing axially perpendicular.

particularly, shown in Fig. 3, described long rails comprises by motor-driven six parallel chains 21 and a plurality of for the fixing bearing 211 of tubing, on each chain 21, be all arranged at intervals with a plurality of described bearings 211, bearing 211 homogeneous one alignment of the same position of six chains 21 form linear and arrange, so that tubing falls thereon and can stably be carried, the upper end of described bearing 211 offers the groove matching with tubing, and tubing is stuck in described groove.

in conjunction with Fig. 1, shown in Fig. 2, described cleaning section 2 also comprises the Si Geneichui water 23(of mechanism the first Chui Shui mechanism, the second Chui Shui mechanism, the San Chui water Ji Sichui of mechanism water mechanism), the first clear water potcher 24, the second clear water potcher 26, pure water potcher 28, the bottom of described rinse bath 22 and glow groove 25 is provided with ultrasonic vibration box, described chain 21 is successively through rinse bath 22, the first Chui Shui mechanism, the first clear water potcher 24, glow groove 25, the second Chui Shui mechanism, the second clear water potcher 26, deactivation slot 27, San Chui water mechanism, pure water potcher 28 Ji Sichui water mechanisms, and chain 21 falls into rinse bath 22, the first clear water potcher 24, glow groove 25, the second clear water potcher 26, in deactivation slot 27 and pure water potcher 28 and with immerse its cleaning fluid of containing or clear water or pure water or brightening liquid or passivating solution in so that tubing contact with above-mentioned each liquid.Four described Nei Chui water mechanisms 23 are all arranged at the sidepiece of long rails, when chain 21 drives tubing through Nei Chui water mechanism 23, the end of tubing just in time can be aimed at by Nei Chui water mechanism 23, the wind that Ke Shineichui water mechanism 23 blows out acts on pipe material inner wall, for removing the liquid that is attached to pipe material inner wall.Pure water potcher 28, the second clear water potcher 26 and the first clear water potcher 24 are interconnected by pipeline, water used first enters pure water potcher 28 after pure water processor is processed pure water, be circulated to successively again the second clear water potcher 26 and the first clear water potcher 24, finally enter wastewater treatment equipment recycling.

gas pressure test mechanism 5 is arranged between described cleaning section 2 and drying section 3 for tubing is carried out to gas pressure test.By manipulator, tubing is delivered to gas pressure test mechanism 5 by the output of chain 21, tubing left end is sealed, and right-hand member is tested by cylinder top tightening seal.

shown in Fig. 2, between described gas pressure test mechanism 5 and the input of cross track, between the output of cross track and be provided with turn-down rig 6 between the second shake table 41, for tubing being moved on cross track or moving to the second shake table 41, described turn-down rig 6 comprises support 61, rotates the second turnover panel 62 and the second cylinder 63 for driving the second turnover panel 62 to rotate that are arranged on support 61, and described the second turnover panel 62 at least has a position of remaining basically stable with cross track.

shown in Fig. 1, drying section 3 comprises drying mechanism and the cross track that passes described drying mechanism, the input of described cross track enters cross track one by one near output and the tubing of long rails, and the throughput direction of described cross track axially parallels with tubing.Particularly, described cross track comprises a plurality of rollers 31 that rotate that driven by motor, a plurality of rollers 31 be arranged in one with the perpendicular straight line of chain 21, tubing is placed on the periphery of described roller 31, tubing axially and roller 31 axially perpendicular, the drying mechanism in the present embodiment is heating in medium frequency mechanism 33.

described drying section 3 also comprises for removing the Wai Chui water 32(Wu Chui of the mechanism water mechanism of the water that is attached to outer pipe wall) and check that there is flawless flaw detection mechanism 34 tubing inside, described cross track is successively through Wu Chui water mechanism, drying mechanism and the mechanism 34 of detecting a flaw.

blanking section 4 comprises the second shake table 41 that is arranged at described cross track output, for blanking and make tubing overall alignment.Above and/or under described the second shake table 41, side is provided with for by the cooling blower fan 42 of tubing.Blanking section 4 also comprise the blanking for calculating tubing number auto-counter and for accepting the blanking bag of the pipe fitting after cleaning.The output of blanking section 4 is also provided with described turn-down rig 6, for cooled tubing is ploughed under to blanking bag.Auto-counter is arranged on the support 61 of turn-down rig 6, by the number of times that the second turnover panel is stirred, the tubing of blanking counted, and when tubing quantity reaches expection tubing that blanking bag can hold and counts, the blanking bag more renewing.The blanking bag of filling tubing is moved in vanning district and waits for vanning.

jiang Neichui water mechanism 23 is arranged at the sidepiece of long rails can directly act on pipe material inner wall and to save space, Er Jiangwaichui water mechanism 32, drying mechanism and flaw detection mechanism 34 are arranged on cross track so that tubing and above-mentioned each mechanism have maximum contact area, raising treatment effeciency.

above-described embodiment, for explanation technical conceive of the present invention and feature, is only a kind of preferred embodiment, and its object is that person skilled in the art can understand content of the present invention and implement according to this, can not limit protection scope of the present invention with this.Equivalent transformation or modification that all Spirit Essences according to the present invention are done, within all should being encompassed in protection scope of the present invention.

Claims (10)

1. a tubing washing flow line, is characterized in that, it comprises successively:

A, material loading section, it comprises one first shake table, for material loading and make tubing proper alignment;

B, cleaning section, it comprises rinse bath, glow groove, deactivation slot and the long rails that passes successively described rinse bath, glow groove and deactivation slot, the input of described long rails and described material loading section are joined, the throughput direction of described long rails and tubing axially perpendicular;

C, drying section, it comprises drying mechanism and the cross track that passes described drying mechanism, and the input of described cross track is near the output of long rails, and the throughput direction of described cross track axially parallels with tubing;

D, blanking section, it comprises the second shake table that is arranged at described cross track output, for blanking and make tubing overall alignment.

2. tubing washing flow line according to claim 1, it is characterized in that: described material loading section also comprises the baffle plate that is arranged at the first shake table top, be arranged at the first shake table rearward end for stopping a plurality of projections of tubing, can rotate the first turnover panel and the first cylinder for driving the first turnover panel to rotate arranging relative to the first shake table, described the first shake table has from the cleaning section near-end close to and the far-end away from from cleaning section, described the first shake table is downward-sloping gradually to near-end from far-end, between the bottom of described baffle plate and the first shake table, there is a space of passing through for single tubing, described the first turnover panel drives the tubing falling within on the first turnover panel upwards to turn to tubing and falls within on projection, the upper surface of described projection is downward-sloping and join with long rails gradually along the direction towards cleaning section.

3. tubing washing flow line according to claim 1, it is characterized in that: described long rails comprises by motor-driven a plurality of parallel chains and a plurality of for the fixing bearing of tubing, on each chain, be all arranged at intervals with a plurality of described bearings, the upper end of described bearing offers the groove matching with tubing, and tubing is stuck in described groove.

4. tubing washing flow line according to claim 3, it is characterized in that: described cleaning section also comprises the first Chui Shui mechanism, the first clear water potcher, the second Chui Shui mechanism, the second clear water potcher, San Chui water mechanism, pure water potcher Ji Sichui water mechanism, the bottom of described rinse bath and glow groove is provided with ultrasonic vibration box, and described chain is successively through rinse bath, the first Chui Shui mechanism, the first clear water potcher, glow groove, the second Chui Shui mechanism, the second clear water potcher, deactivation slot, San Chui water mechanism, pure water potcher Ji Sichui water mechanism.

5. tubing washing flow line according to claim 4, is characterized in that: the sidepiece that described the first Chui Shui mechanism, the second Chui Shui mechanism, the San Chui water Ji Sichui of mechanism water mechanism are all arranged at long rails is for removing the liquid that is attached to pipe material inner wall.

6. tubing washing flow line according to claim 1, is characterized in that: between described cleaning section and drying section, be also provided with gas pressure test mechanism.

7. tubing washing flow line according to claim 6, it is characterized in that: between described gas pressure test mechanism and the input of cross track, between the output of cross track and be provided with turn-down rig between the second shake table, for tubing being moved on cross track or moving to the second shake table, described turn-down rig comprises support, rotates the second turnover panel and the second cylinder for driving the second turnover panel to rotate that are arranged on support, and described the second turnover panel at least has a position of remaining basically stable with cross track.

8. tubing washing flow line according to claim 1, is characterized in that: described cross track comprises a plurality of rollers that rotate that driven by motor, and tubing is placed on the periphery of described roller, tubing axially and roller axially perpendicular.

9. tubing washing flow line according to claim 1, it is characterized in that: described drying section also comprises that described cross track is successively through Wu Chui water mechanism, drying mechanism and the mechanism of detecting a flaw for removing the Wu Chui water mechanism of the water that is attached to outer pipe wall and checking that there is flawless flaw detection mechanism tubing inside.

10. tubing washing flow line according to claim 1, is characterized in that: above and/or under described the second shake table, side is provided with for by the cooling blower fan of tubing.