CN111715631A - Pipe fitting cleaning equipment - Google Patents

Abstract

The present invention provides a pipe cleaning apparatus, comprising: casing, mounting panel and washing tank. Wherein be provided with the feed inlet on the casing and advance the notch, be provided with feeding chamber and washing chamber in the casing, the feeding chamber is located the top in washing chamber, and the mounting panel is connected with the casing, and the mounting panel is located the washing chamber, and the washing tank can be installed on the mounting panel. The cleaning tank specifically comprises: the main slot cavity, vice slot cavity, rotation piece, driving medium and sealing member. The main groove cavity is used for placing cleaning liquid, the rotating part is located the main groove cavity, one end of the rotating part penetrates through the partition plate and stretches into the auxiliary groove cavity, the transmission part is located the auxiliary groove cavity, and the sealing part is located between the rotating part and the partition plate. When the driving medium drives and rotates the piece when rotatory, the driving medium not with the liquid medicine contact of main tank intracavity, and the rotatory in-process of driving medium, piece, the residue that the driving medium produced can be intercepted by the sealing member between piece and the baffle, have further guaranteed that the washing liquid of main tank intracavity is not contaminated, have promoted the cleaning performance to the life of washing liquid has been prolonged.

Description

Pipe fitting cleaning equipment

Technical Field

The invention relates to the technical field of cleaning equipment, in particular to pipe cleaning equipment.

Background

In the related art, the whole rotating mechanism of the quartz tube cleaning machine is soaked in the liquid medicine of the cleaning tank, and residues generated by abrasion of a transmission part of the rotating mechanism can influence the cleanliness of the cleaning tank and the cleaning effect on the quartz tube.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

To this end, one object of the invention is to propose a pipe cleaning device.

In view of the above, the present invention provides a pipe cleaning apparatus, including: the cleaning device comprises a shell, a cleaning cavity and a feeding hole, wherein the shell is provided with the feeding hole and a feeding notch; the mounting plate is connected with the shell and is positioned in the cleaning cavity; a cleaning tank which can be mounted on the mounting plate; the cleaning tank comprises: the cleaning device comprises a tank body, wherein a partition plate is arranged in the tank body to divide the tank body into a main tank cavity and an auxiliary tank cavity, and the main tank cavity is used for placing cleaning liquid; the rotating piece is positioned in the main groove cavity, and one end of the rotating piece penetrates through the partition board and extends into the auxiliary groove cavity; the transmission part is positioned in the auxiliary groove cavity and is connected with one end of the rotating part extending into the auxiliary groove cavity; the sealing piece is sleeved on the rotating piece and located between the rotating piece and the partition plate.

The shell of the pipe cleaning equipment provided by the invention is internally provided with the feeding cavity and the cleaning cavity, wherein the pipe to be cleaned enters the feeding cavity from the feeding hole on the shell, the feeding cavity provides a space for the displacement of the pipe, and the pipe can move to different positions of the pipe cleaning equipment in the feeding cavity in each cleaning process. The below in feeding chamber is provided with the washing chamber, is provided with the washing tank that is used for wasing the pipe fitting in the washing chamber, and operating personnel can directly push the washing tank in wasing the chamber through the notch of advancing on the casing to install the washing tank to the mounting panel on, and need not to lift the operation of groove, transport inside the equipment, reduced the operation degree of difficulty, promoted the loading and unloading efficiency of washing tank.

The cleaning tank of the pipe cleaning equipment provided by the invention comprises a tank body, a rotating part, a transmission part and a sealing part. Wherein, the cell body of washing tank is separated into main tank chamber and vice tank chamber by the baffle, and the washing liquid that is used for wasing the pipe fitting has been placed to main tank chamber intracavity. The rotating part is located the main slot cavity and is used for driving the pipe fitting in the main slot cavity to rotate, so that under the condition that a small amount of cleaning liquid is used, the pipe fitting can be cleaned and soaked from multiple directions, the cleaning effect is improved, the cleaning liquid is saved, and the production cost is reduced. Be provided with the driving medium in the vice flute chamber for it is rotatory to drive the rotation piece, and the driving medium does not contact with the liquid medicine of main flute intracavity, and the rotatory in-process of driving medium, and piece, the residue that the driving medium produced can be intercepted by the sealing member between rotation piece and the baffle, have further guaranteed that the washing liquid of main flute intracavity is not contaminated, have promoted the cleaning performance, and have prolonged the life of washing liquid.

In addition, the pipe cleaning equipment in the technical scheme provided by the invention can also have the following additional technical characteristics:

in the above technical solution, further, the method further includes: the overflowing hole is arranged on the mounting plate; the mounting plate, the outer wall of the cleaning tank and the shell are enclosed to form a leakage buffer cavity, and the overflowing hole is communicated with the leakage buffer cavity; the bottom of the leakage buffer cavity is provided with a leakage discharge port.

In this technical scheme, be equipped with the discharge orifice on the mounting panel, at the in-process that removes the pipe fitting, remaining washing liquid can flow into the weeping cushion chamber that the outer wall and the casing of mounting panel, washing tank enclose through the discharge orifice on the pipe fitting, again via the weeping discharge port discharge pipe fitting cleaning equipment that the bottom of weeping cushion chamber set up. Effectively avoided hydrops, weeping in the equipment to cause the harm to equipment, promoted the stability of equipment operation, and the waste liquid can concentrate and accomodate the processing, has guaranteed the cleanliness of equipment internal and external environment.

In any of the above technical solutions, further, the method further includes: the carrying assembly is arranged in the shell and is positioned in the feeding cavity; the handling assembly includes: the mounting frame is connected with the shell; the slide rail is arranged on the mounting frame; the lifting frame can slide along the slide rail; the first lifting arm and the second lifting arm are arranged on two sides of the lifting frame and can slide along the lifting frame; the hook assembly is connected with the first lifting arm and the second lifting arm and is positioned below the mounting frame; wherein, the couple subassembly includes: the two ends of the hook cross beam are connected with the first lifting arm and the second lifting arm; the first hook and the second hook are connected with the hook cross beam and are respectively positioned on two sides of the hook cross beam; the limiting plates are arranged at two ends of the hook beam, and the first hook and the second hook are located between the two limiting plates.

In the technical scheme, a conveying assembly for conveying the pipe fitting to each station is arranged in a feeding cavity in the pipe fitting cleaning equipment. Wherein, the crane of transport subassembly can follow the slide rail slip on the installation frame, and then carries the pipe fitting along the direction that the washing tank was arranged. The both sides of crane are equipped with first lifing arm and second lifing arm, and the both ends of couple crossbeam are connected with first lifing arm and second lifing arm, and when first lifing arm and second lifing arm lifting or descend, can drive first couple on the couple crossbeam and second couple and rise or descend, and then realize proposing the pipe fitting or put into the function of washing tank. And first lifing arm and second lifing arm can independently carry out the action of lifting or descending, make the couple crossbeam can incline towards one side of first lifing arm or second lifing arm, and then make the pipe fitting of placing on first couple and second couple can incline to two directions, be favorable to discharging the remaining washing liquid of pipe fitting and can satisfy the different multiple pipe fitting flowing back demands of opening direction, enlarged the application range of product.

Further, the distance between the first hook and the second hook on the hook cross beam can be adjusted, so that the carrying assembly can carry pipe fittings with various lengths, the carrying requirements of pipe fittings with various different models are met, and popularization is facilitated. Limiting plates at two ends of the hook beam can prevent the pipe fitting from sliding out of the first hook and the second hook.

In any of the above technical solutions, further, the method further includes: the feeding door is arranged at the feeding port, and an air inlet is formed in the feeding door; the lifting assembly is arranged on the shell and is connected with the feeding door, and the lifting assembly is used for driving the feeding door to open or close the feeding hole; the air inlet plate is arranged at the air inlet.

In this technical scheme, the feed gate sets up in feed inlet department and links to each other with lifting unit, and lifting unit is used for driving the feed gate lifting or descend and then accomplishes the switching of feed inlet, and when the feed inlet was opened, treat that abluent pipe fitting is sent into pipe fitting cleaning equipment's casing by the feed inlet. In addition, still be equipped with the air intake on the feed door, the air inlet board sets up on the air intake, and the outside air of pipe fitting cleaning equipment can get into inside participation ventilation of pipe fitting cleaning equipment through the air inlet board of air intake department, has reduced the inside washing liquid volatile gaseous accumulation amount of equipment, has improved the operational environment of equipment.

In any of the above technical solutions, further, the method further includes: the air inlet channel is communicated with the feeding cavity and the cleaning cavity; the air outlet assembly is communicated with the air inlet duct; the air-out subassembly includes: the air outlet partition plate is connected with the mounting plate, and an air suction cavity is formed between the air outlet partition plate and the shell; the air outlet transfer box is arranged on the outer side wall of the shell, and an inlet of the air outlet transfer box is communicated with the air draft cavity; and the exhaust valve is communicated with an outlet of the air outlet transfer box.

In this technical scheme, pipe fitting cleaning equipment still includes the air inlet duct, and the air inlet duct communicates in feeding chamber and washing chamber, and inside the outside air of pipe fitting cleaning equipment not only can get into equipment from the air intake on the feeding door, can also get into feeding chamber and washing chamber from the air inlet duct, has strengthened the air exchange capacity of equipment.

Further, pipe fitting cleaning equipment still includes the air-out subassembly, and when the updraft ventilator in the air-out subassembly was opened, the inside negative pressure that forms of equipment was sent into the exhaust chamber that is enclosed by air-out baffle and casing after the air that gets into via air inlet duct and air intake mixes with the volatile gas of washing liquid. The air outlet adapter box further changes the gas flow direction, and the mixed gas enters the exhaust valve through the outlet of the air outlet adapter box and is finally discharged from the outlet of the exhaust valve.

In any of the above technical solutions, further, the number of the cleaning tanks is multiple, and the cleaning tanks include a rinsing tank and a pickling tank.

In this technical scheme, include a plurality of washing tanks among the pipe fitting cleaning equipment, make the pipe fitting accept in a plurality of different washing tanks and wash, the type of washing tank is rinsing bath and descaling bath, and the abluent mode that combines mutually is washed through the pickling water, has further promoted the cleaning performance, is favorable to getting rid of all kinds of impurity, spot in the pipe fitting.

In any of the above technical solutions, further, the method further includes: the liquid inlet pipeline module is connected with the cleaning tank and is provided with a first liquid leakage detection device; wherein, feed liquor pipeline module includes: a liquid medicine pipeline and a pure water pipeline.

In the technical scheme, the pipe cleaning equipment comprises a liquid inlet pipeline module, and the liquid inlet pipeline module is connected with the cleaning tank and used for providing corresponding cleaning liquid for the cleaning tank. Be equipped with first weeping detection device on the feed liquor pipeline module, can detect whether the weeping takes place for the feed liquor pipeline module, on the one hand, avoid the weeping to cause the damage to equipment, on the other hand has guaranteed equipment operating personnel's personal safety. The liquid inlet pipeline module specifically comprises a liquid medicine pipeline and a pure water pipeline and is used for providing liquid medicine, pure water or mixed liquid of the liquid medicine and the pure water for cleaning the pipe fitting for the cleaning tank.

In any of the above technical solutions, further, the method further includes: wash the pipeline module, wash the pipeline module and link to each other with the washing tank, wash and be equipped with second weeping detection device in the pipeline module, wash the pipeline module and include: a liquid level detection pipeline; the circulating pipeline is provided with a first filtering device; and one end of the liquid drainage pipeline is connected with the cleaning tank, and the other end of the liquid drainage pipeline is arranged on the outer side of the shell.

In this technical scheme, pipe fitting cleaning equipment is including wasing the pipeline module, washs the pipeline module and links to each other with the washing tank for realize all kinds of cleaning functions in the washing tank. The second leakage detection device can detect whether the cleaning pipeline module has leakage or not, on one hand, the leakage is avoided from damaging equipment, and on the other hand, the personal safety of equipment operators is ensured.

Further, the liquid level detection pipeline in the cleaning pipeline module can be used for monitoring the liquid level in the cleaning tank, if the liquid level is too low, an operator can control the liquid inlet pipeline module to replenish liquid in the cleaning tank according to liquid level indication. If the liquid level is too high, an operator can open the liquid discharge pipeline to enable the cleaning liquid in the cleaning tank to flow out of the equipment. Circulation pipeline can make the washing liquid circulation flow in the washing tank, on the one hand, is favorable to the mixture of different washing liquids in the washing tank, and on the other hand compares and stews in stewing, and the washing liquid that flows can wash the pipe fitting, and the cleaning performance is better. And still be equipped with first filter equipment on the circulating line to impurity in the washing liquid and the dirt of washing down filter, further promoted the purity of washing liquid, still prolonged the life of washing liquid when promoting the cleaning performance.

In any of the above technical solutions, further, the cleaning tank further includes: the bubbling device is arranged on the inner side of the shell, and the air outlet end of the bubbling device is communicated with the cleaning tank; the water outlet end of the spraying device is communicated with the cleaning tank; the water outlet end of the flow mixing device is communicated with the cleaning tank.

In the technical scheme, a bubbling device, a spraying device and a flow mixing device are also arranged in the cleaning tank. Wherein, the bubbling device can produce a large amount of bubbles in the washing tank, is favorable to the mixture of multiple washing liquid in the washing tank, and the bubble is through the friction effect that brings when the pipe fitting surface, has still further strengthened the cleaning capacity. But spray set blowout high pressure washing liquid has increased the scouring force degree of washing liquid, is favorable to getting rid of stubborn impurity and the dirt on pipe fitting surface, and spray set can also spray highly-compressed air in addition, and then weathers the pipe fitting surface fast. The mixed flow device can further enhance the flowing effect of the cleaning liquid in the cleaning tank, and further enables the pipe fitting to be cleaner.

In any of the above technical solutions, further, the method further includes: the gas circuit module is arranged in the shell; and the electrical module is arranged in the shell.

In the technical scheme, the gas circuit module and the electric module are arranged in a shell of the pipe fitting cleaning equipment, and the gas circuit module is connected with the carrying assembly and used for controlling the carrying assembly to execute corresponding actions. The electric module is connected with the carrying assembly, the lifting assembly, the air suction valve, the liquid inlet pipeline module, the cleaning pipeline module and the cleaning tank and is used for controlling the structure to execute corresponding operation.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 shows a schematic structural view of a pipe cleaning apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic view of another angle of the pipe cleaning apparatus of the embodiment of FIG. 1;

FIG. 3 is a schematic view showing the internal structure of a cleaning tank of the pipe cleaning apparatus of the embodiment shown in FIG. 1;

FIG. 4 is a schematic view showing the internal structure of another angle of the cleaning tank of the pipe cleaning apparatus of the embodiment shown in FIG. 1;

FIG. 5 is a schematic view showing the internal structure of the pipe cleaning apparatus of the embodiment shown in FIG. 1;

FIG. 6 is a top view of the internal structure of the pipe cleaning apparatus of the embodiment of FIG. 1;

FIG. 7 is a schematic diagram showing the structure of a handling assembly in the pipe cleaning apparatus of the embodiment of FIG. 1;

FIG. 8 is a schematic view of another angle of the carrier assembly of the pipe cleaning apparatus of the embodiment of FIG. 1;

FIG. 9 is a schematic diagram showing the construction of the elevator assembly of the pipe cleaning apparatus of the embodiment of FIG. 1;

FIG. 10 is a schematic diagram of the structure of an inlet door of the pipe cleaning apparatus of the embodiment shown in FIG. 1;

FIG. 11 shows a schematic structural view of a pipe cleaning apparatus according to another embodiment of the present invention;

FIG. 12 is a schematic view showing the structure of a cleaning bath in the pipe cleaning apparatus of the embodiment shown in FIG. 11;

FIG. 13 is a schematic view showing another angle of the wash tank in the pipe cleaning apparatus of the embodiment shown in FIG. 11;

fig. 14 is a schematic structural view showing still another angle of the wash tank in the pipe cleaning apparatus according to the embodiment shown in fig. 11.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 14 is:

1 pipe cleaning equipment, 10 casing, 102 feeding inlet, 104 inlet notch, 106 feeding cavity, 108 cleaning cavity, 110 mounting plate, 112 overflowing hole, 114 cleaning tank, 1140 tank body, 1141 baffle plate, 1142 main tank cavity, 1143 auxiliary tank cavity, 1144 rotating part, 1145 driving part, 1146 sealing part, 1147 bubbling device, 1148 spraying device, 1149 mixed flow device, 116 rinsing tank, 118 pickling tank, 120 leaked liquid buffer cavity, 122 leaked liquid discharge outlet, 14 carrying component, 141 mounting frame, 142 sliding rail, 143 lifting frame, 144 first lifting arm, 145 second lifting arm, 146 hook component, 1462 hook beam, 1464 first hook, 1466 second hook, 1468 limiting plate, 16 feeding door, 162 air inlet, 164 air inlet plate, 166 hole, 18 lifting component, 181 motor, 182, 183 torque limiter, 184 bearing, driving sprocket 185, 186, 187 driven sprocket, 188 driven shaft, 189, 20 air inlet ducts, 22 air outlet assemblies, 222 air outlet partition plates, 224 guide plates, 226 air outlet transfer boxes, 228 exhaust valves, 24 liquid inlet pipeline modules, 242 first leakage detection devices, 244 liquid medicine pipelines, 246 pure water pipelines, 26 cleaning pipeline modules, 262 second leakage detection devices, 264 liquid level detection pipelines, 266 circulating pipelines, 2662 first filtering devices, 268 liquid discharge pipelines, 28 supporting plates, 30 air channel modules, 32 electrical modules and 322 smoke alarm devices.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

The pipe cleaning apparatus 1 of some embodiments provided by the present invention is described below with reference to fig. 1 to 14.

Example one

As shown in fig. 1 to 5, one embodiment of the present invention provides a pipe cleaning apparatus 1 including: housing 10, mounting plate 110, cleaning tank 114. The shell 10 is provided with a feed inlet 102 and a feed slot 104, the shell 10 is provided with a feed cavity 106 and a cleaning cavity 108, the feed inlet 102 is communicated with the feed cavity 106, the feed slot 104 is communicated with the cleaning cavity 108, and the feed cavity 106 is positioned above the cleaning cavity 108. A mounting plate 110 is attached to the housing 10, the mounting plate 110 being located in the wash chamber 108, and a wash tank 114 being mountable on the mounting plate 110.

The present embodiment provides a pipe cleaning apparatus 1, which has a feeding chamber 106 and a cleaning chamber 108 in the housing 10, wherein the pipe to be cleaned enters the feeding chamber 106 from the feeding inlet 102 of the housing 10, the feeding chamber 106 provides a space for the displacement of the pipe, and the pipe can move to different positions of the pipe cleaning apparatus 1 in the feeding chamber 106 during each cleaning process. The lower part of the feeding cavity 106 is provided with a cleaning cavity 108, a cleaning groove 114 for cleaning the pipe fitting is arranged in the cleaning cavity 108, an operator can directly push the cleaning groove 114 into the cleaning cavity 108 through the groove inlet 104 on the shell 10, and the cleaning groove 114 is installed on the installation plate 110, so that the operation of groove lifting and carrying in the equipment is not needed, the operation difficulty is reduced, and the loading and unloading efficiency of the cleaning groove 114 is improved.

Further, the cleaning tank 114 includes a tank body 1140, a rotating member 1144, a transmission member 1145, and a sealing member 1146. Wherein, be provided with baffle 1141 in the cell body 1140 and separate into main slot cavity 1142 and vice slot cavity 1143 with cell body 1140, main slot cavity 1142 is used for placing the washing liquid, it is located main slot cavity 1142 to rotate 1144, the one end of rotating 1144 passes baffle 1141 and stretches into vice slot cavity 1143, driving medium 1145 is located vice slot cavity 1143, driving medium 1145 is connected with the one end of the rotation piece 1144 that stretches into vice slot cavity 1143, rotation piece 1144 is located to sealing member 1146 cover, sealing member 1146 is located and rotates between 1144 and the baffle 1141.

In this embodiment, the rotating member 1144 is located in the main chamber 1142, and is used to drive the rotation of the pipe in the main chamber 1142, so that the pipe can be cleaned and soaked from multiple directions under the condition of using a small amount of cleaning liquid, thereby improving the cleaning effect, saving the cleaning liquid and reducing the production cost. Be provided with driving medium 1145 in the vice flute chamber 1143 for it is rotatory to drive a piece 1144, driving medium 1145 does not contact with the liquid medicine in the main flute chamber 1142, and the rotatory in-process of driving medium 1145, the piece that driving medium 1145 produced, the residue can be intercepted by the sealing member 1146 between a piece 1144 and the baffle 1141 of rotating, it is not contaminated to have further guaranteed the washing liquid in the main flute chamber 1142, the cleaning performance has been promoted, and the life of washing liquid has been prolonged.

Example two

As shown in fig. 1 to 6, one embodiment of the present invention provides a pipe cleaning apparatus 1 including: housing 10, mounting plate 110, cleaning bowl 114 and overflow aperture 112. The shell 10 is provided with a feed inlet 102 and a feed slot 104, the shell 10 is provided with a feed cavity 106 and a cleaning cavity 108, the feed inlet 102 is communicated with the feed cavity 106, the feed slot 104 is communicated with the cleaning cavity 108, and the feed cavity 106 is positioned above the cleaning cavity 108. A mounting plate 110 is attached to the housing 10, the mounting plate 110 being located in the wash chamber 108, and a wash tank 114 being mountable on the mounting plate 110.

The present embodiment provides a pipe cleaning apparatus 1, which has a feeding chamber 106 and a cleaning chamber 108 in the housing 10, wherein the pipe to be cleaned enters the feeding chamber 106 from the feeding inlet 102 of the housing 10, the feeding chamber 106 provides a space for the displacement of the pipe, and the pipe can move to different positions of the pipe cleaning apparatus 1 in the feeding chamber 106 during each cleaning process. The lower part of the feeding cavity 106 is provided with a cleaning cavity 108, a cleaning groove 114 for cleaning the pipe fitting is arranged in the cleaning cavity 108, an operator can directly push the cleaning groove 114 into the cleaning cavity 108 through the groove inlet 104 on the shell 10, and the cleaning groove 114 is installed on the installation plate 110, so that the operation of groove lifting and carrying in the equipment is not needed, the operation difficulty is reduced, and the loading and unloading efficiency of the cleaning groove 114 is improved.

Further, the cleaning tank 114 includes a tank body 1140, a rotating member 1144, a transmission member 1145, and a sealing member 1146. Wherein, be provided with baffle 1141 in the cell body 1140 and separate into main slot cavity 1142 and vice slot cavity 1143 with cell body 1140, main slot cavity 1142 is used for placing the washing liquid, it is located main slot cavity 1142 to rotate 1144, the one end of rotating 1144 passes baffle 1141 and stretches into vice slot cavity 1143, driving medium 1145 is located vice slot cavity 1143, driving medium 1145 is connected with the one end of the rotation piece 1144 that stretches into vice slot cavity 1143, sealing member 1146 cover is located and is rotated 1144, be located between rotation piece 1144 and the baffle 1141.

In this embodiment, the rotating member 1144 is located in the main chamber 1142, and is used to drive the rotation of the pipe in the main chamber 1142, so that the pipe can be cleaned and soaked from multiple directions under the condition of using a small amount of cleaning liquid, thereby improving the cleaning effect, saving the cleaning liquid and reducing the production cost. Be provided with driving medium 1145 in the vice flute chamber 1143 for it is rotatory to drive a piece 1144, driving medium 1145 does not contact with the liquid medicine in the main flute chamber 1142, and the rotatory in-process of driving medium 1145, the piece that driving medium 1145 produced, the residue can be intercepted by the sealing member 1146 between a piece 1144 and the baffle 1141 of rotating, it is not contaminated to have further guaranteed the washing liquid in the main flute chamber 1142, the cleaning performance has been promoted, and the life of washing liquid has been prolonged.

Further, as shown in fig. 6, the overflowing hole 112 is disposed on the mounting plate 110, wherein the mounting plate 110, the outer wall of the cleaning tank 114 and the housing 10 together define a leakage buffer cavity 120 as shown in fig. 5, the overflowing hole 112 is communicated with the leakage buffer cavity 120, and a leakage discharge port 122 is disposed at the bottom of the leakage buffer cavity 120.

Specifically, the mounting plate 110 is provided with an overflowing hole 112, and during the process of moving the pipe, the cleaning solution remaining on the pipe flows into a leakage buffer cavity 120 enclosed by the mounting plate 110, the outer wall of the cleaning tank 114 and the housing 10 through the overflowing hole 112, and then is discharged out of the pipe cleaning apparatus 1 through a leakage discharge port 122 provided at the bottom of the leakage buffer cavity 120. Effectively avoided hydrops, weeping in the equipment to cause the harm to equipment, promoted the stability of equipment operation, and the waste liquid can concentrate and accomodate the processing, has guaranteed the cleanliness of equipment internal and external environment.

EXAMPLE III

As shown in fig. 5, 7 and 8, in any of the above embodiments, further, the pipe cleaning apparatus 1 further includes: the handling assembly 14. Wherein the handling assembly 14 is disposed within the housing 10 in the feed cavity 106.

Specifically, the handling assembly 14 includes a mounting frame 141, a crane 143, a first lifting arm 144, a second lifting arm 145, and a hook assembly 146. Hook assembly 146 specifically includes a hook beam 1462, a first hook 1464, a second hook 1466, and a limit plate 1468.

In this embodiment, a handling assembly 14 for handling tubulars to various stations is provided within the feed chamber 106 in the tubular cleaning apparatus 1. Wherein, the mounting frame 141 of the carrying assembly 14 is connected to the housing 10, and the lifting frame 143 can slide along the slide rail 142 on the mounting frame 141, so as to carry the pipe along the arrangement direction of the cleaning tank 114. The first lifting arm 144 and the second lifting arm 145 are arranged on two sides of the lifting frame 143, two ends of the hook beam 1462 are connected with the first lifting arm 144 and the second lifting arm 145, and when the first lifting arm 144 and the second lifting arm 145 are lifted or lowered, the first hook 1464 and the second hook 1466 on the hook beam 1462 are driven to ascend or descend, so that a pipe fitting is lifted or placed into the cleaning tank 114. In addition, the first lifting arm 144 and the second lifting arm 145 can independently lift or lower, so that the hook beam 1462 can incline towards one side of the first lifting arm 144 or the second lifting arm 145, and further, the pipe fittings placed on the first hook 1464 and the second hook 1466 can incline towards two directions, which is beneficial to discharging cleaning liquid remained on the pipe fittings and can meet the drainage of various pipe fittings with different opening directions, and the application range of products is expanded.

Further, the distance between first couple 1464 and the second couple 1466 on couple crossbeam 1462 can be adjusted, makes transport assembly 14 can carry the pipe fitting of multiple different length, and then satisfies the transport demand of multiple different model pipe fittings, is favorable to promoting. And no matter which direction the hook beam 1462 inclines towards, limiting plates 1468 at two ends of the hook beam 1462 can prevent the pipe fittings from sliding out of the first hook 1464 and the second hook 1466.

Example four

As shown in fig. 1 to 10, one embodiment of the present invention provides a pipe cleaning apparatus 1 including: housing 10, mounting plate 110, sink 114, overflow aperture 112, feed door 16, lift assembly 18, air inlet duct 20, carrier assembly 14, and air outlet assembly 22.

The shell 10 is provided with a feed inlet 102 and a feed slot 104, the shell 10 is provided with a feed cavity 106 and a cleaning cavity 108, the feed inlet 102 is communicated with the feed cavity 106, the feed slot 104 is communicated with the cleaning cavity 108, and the feed cavity 106 is positioned above the cleaning cavity 108. A mounting plate 110 is attached to the housing 10, the mounting plate 110 being located in the wash chamber 108, and a wash tank 114 being mountable on the mounting plate 110.

The pipe cleaning device 1 provided in this embodiment is provided with a feeding cavity 106 and a cleaning cavity 108 in the housing 10, wherein the feeding gate 16 is disposed at the feeding port 102 and connected to the lifting assembly 18, the lifting assembly 18 is configured to drive the feeding gate 16 to lift or lower so as to complete opening and closing of the feeding port 102, and when the feeding port 102 is opened, a pipe to be cleaned enters the feeding cavity 106 from the feeding port 102 on the housing 10.

Below the feed chamber 106 is a wash chamber 108, in which wash chamber 108 a wash tank 114 for washing the tubular is arranged, and in each step of washing the tubular is moved by the carrier assembly 14 into a different wash tank 114 in the tubular washing apparatus 1. An operator can push the cleaning tank 114 into the cleaning cavity 108 directly through the notch 104 on the casing 10, and mount the cleaning tank 114 on the mounting plate 110, without the operation of lifting and carrying the tank inside the equipment, thereby reducing the operation difficulty and improving the loading and unloading efficiency of the cleaning tank 114.

Further, as shown in fig. 9, the lifting assembly 18 includes a motor 181, a driving shaft 182, a torque limiter 183, a bearing 184, a driving sprocket 185, a chain 186, a driven sprocket 187, a driven shaft 188, and a weight 189. The output shaft of the motor 181 is connected with the driving shaft 182 through the torque limiter 183, so that the output torque is transmitted to the driving shaft 182, the torque limiter 183 can effectively prevent the torque from being overloaded, and the structural damage of the whole transmission structure is avoided. The driving shaft 182 drives the driving sprocket 185 sleeved thereon to rotate, and the driven sprocket 187 and the driving sprocket 185 tension the chain 186 together, so as to drive the chain 186 to move, thereby driving the feeding door 16 to lift or descend. Wherein, the driving shaft 182 and the driven shaft 188 are both provided with bearings 184, which effectively reduces the circumferential jumping gap of the driving shaft 182 and the driven shaft 188, reduces the jumping of the driving chain wheel 185 and the driven chain wheel 187, makes the chain 186 move more stably, and further makes the feeding door 16 lift stably. Balancing weight 189 effectively balances the self weight of feed gate 16, makes lift subassembly 18 only need provide a less power of starting and can accomplish the lift of feed gate 16, has effectively reduced the maximum torque demand of motor 181, has practiced thrift manufacturing cost. Further, an operator can manually push and pull the feeding door 16 to open and close the feeding hole 102, so that the situation that feeding cannot be performed when an electrical fault occurs is avoided.

Further, as shown in fig. 6, the overflowing hole 112 is disposed on the mounting plate 110, wherein, as shown in fig. 5, the mounting plate 110, the outer wall of the cleaning tank 114 and the housing 10 together define a leakage buffer cavity 120, the overflowing hole 112 is communicated with the leakage buffer cavity 120, and a leakage discharge port 122 is disposed at the bottom of the leakage buffer cavity 120.

Specifically, the mounting plate 110 is provided with an overflowing hole 112, and during the process of moving the pipe, the cleaning solution remaining on the pipe flows into a leakage buffer cavity 120 enclosed by the mounting plate 110, the outer wall of the cleaning tank 114 and the housing 10 through the overflowing hole 112, and then is discharged out of the pipe cleaning apparatus 1 through a leakage discharge port 122 provided at the bottom of the leakage buffer cavity 120. Effectively avoided hydrops, weeping in the equipment to cause the harm to equipment, promoted the stability of equipment operation, and the waste liquid can concentrate and accomodate the processing, has guaranteed the cleanliness of equipment internal and external environment.

Further, as shown in fig. 10, the inlet door 16 is further provided with an air inlet 162, the air inlet plate 164 is disposed on the air inlet 162, and air outside the pipe cleaning device 1 can enter the pipe cleaning device 1 through the air inlet plate 164 at the air inlet 162 to participate in ventilation, so as to reduce the amount of volatile gas in the cleaning liquid inside the device and improve the working environment of the device.

Specifically, two air inlet plates 164 are arranged on the air inlet 162, a plurality of through air inlet holes 166 are formed in the air inlet plates 164, the two air inlet plates 164 are arranged in parallel, one air inlet plate 164 can slide in parallel relative to the other air inlet plate 164, and in the sliding process, the staggered area of the air inlet holes 166 of the two air inlet plates 164 is changed, so that the air inlet amount is adjusted.

Further, as shown in fig. 5, the air inlet duct 20 is connected to the feeding chamber 106 and the cleaning chamber 108, so that air outside the pipe cleaning apparatus 1 can enter the inside of the apparatus not only through the air inlet 162 of the feeding door 16, but also through the air inlet duct 20 into the feeding chamber 106 and the cleaning chamber 108, thereby enhancing the ventilation capability of the apparatus.

Further, as shown in fig. 5, the air outlet assembly 22 specifically includes an air outlet partition 222, a guide plate 224, an air outlet adapter box 226, and an exhaust valve 228. The air outlet partition 222 is connected to the mounting plate 110, and an air exhaust cavity is formed between the air outlet partition 222 and the casing 10. The guide plate 224 is connected to the casing 10 and the mounting plate 110, and the guide plate 224 is disposed in the draft chamber obliquely with respect to the inner wall of the casing 10. The air outlet adapter box 226 is disposed on the outer side wall of the casing 10, and an inlet of the air outlet adapter box 226 is communicated with the air exhaust cavity. The exhaust valve 228 is disposed at an outlet of the outlet adaptor box 226, and the outlet direction of the exhaust valve 228 faces the top of the housing 10.

Specifically, when the exhaust valve 228 in the air outlet assembly 22 is opened, a negative pressure is formed inside the device, and the air entering through the air inlet duct 20 and the air inlet 162 is mixed with the volatile gas of the cleaning solution, and then is sent into the exhaust cavity enclosed by the air outlet partition 222 and the casing 10. The guiding plate 224 which is obliquely arranged relative to the shell 10 is arranged in the air draft cavity and used for changing the flow direction of the gas, so that the mixed gas enters the air-out adapter box 226 through an inlet of the air-out adapter box 226 along an oblique upward direction, in addition, condensate formed in the air draft cavity can flow down along an oblique plane through the guiding plate 224 which is obliquely arranged, and then flows to the overflowing hole 112 of the mounting plate 110, so that waste liquid is recycled. The outlet adaptor box 226 further changes the air flow direction, and the mixed air enters the exhaust valve 228 through the outlet of the outlet adaptor box 226, and is finally discharged from the outlet of the exhaust valve 228. The air-out direction of the exhaust valve 228 faces the top of the casing 10, so even if the volatile gas is condensed, the volatile gas flows down along the inner wall of the exhaust valve 228 and cannot be accumulated in the exhaust valve 228, the failure rate of the exhaust valve 228 is reduced, the operation efficiency of the exhaust valve 228 is further ensured, and the ventilation efficiency of the equipment is improved.

EXAMPLE five

As shown in fig. 11, in any of the above embodiments, further, the number of the cleaning tanks 114 is three, including one rinsing tank 116 and two pickling tanks 118.

Specifically, the pipe cleaning equipment 1 comprises three cleaning tanks 114, so that the pipe is cleaned in three different cleaning tanks 114, the types of the cleaning tanks 114 are a washing tank 116 and a pickling tank 118, and the cleaning mode combining the pickling and the water cleaning further improves the cleaning effect and is beneficial to removing various impurities and stains in the pipe.

Further, as shown in fig. 2, the pipe cleaning apparatus 1 further includes a liquid inlet pipeline module 24, the liquid inlet pipeline module 24 is connected to the cleaning tank 114, and the liquid inlet pipeline module 24 is provided with a first leakage detection device 242, wherein the liquid inlet pipeline module 24 includes a liquid medicine pipeline 244 and a pure water pipeline 246.

Specifically, the liquid inlet pipeline module 24 is connected to the cleaning tank 114 for providing a corresponding cleaning liquid to the cleaning tank 114. Be equipped with first weeping detection device 242 on feed liquor pipeline module 24, can detect whether the weeping takes place for feed liquor pipeline module 24, on the one hand, avoid the weeping to cause the damage to equipment, on the other hand has guaranteed equipment operating personnel's personal safety. The liquid inlet pipeline module 24 specifically includes a liquid medicine pipeline 244 and a pure water pipeline 246 for providing the cleaning tank 114 with liquid medicine, pure water or a mixture of the two for cleaning the pipe.

Further, as shown in fig. 2, the pipe cleaning apparatus 1 further includes a cleaning pipeline module 26, the cleaning pipeline module 26 is connected to the cleaning tank 114, a second liquid leakage detection device 262 is disposed on the cleaning pipeline module 26, and the cleaning pipeline module 26 includes: a liquid level detection line 264, a circulation line 266, and a drain line 268.

In this embodiment, cleaning conduit module 26 is connected to cleaning tank 114 for performing various cleaning functions within cleaning tank 114. The second leakage detection device 262 can detect whether leakage occurs in the cleaning pipeline module 26, on one hand, damage to the equipment caused by leakage is avoided, and on the other hand, personal safety of equipment operators is guaranteed. The liquid level detection line 264 of the cleaning line module 26 can be used to monitor the liquid level in the cleaning tank 114, and if the liquid level is too low, the operator can control the liquid inlet line module 24 to replenish the cleaning tank 114 according to the liquid level indication. If the liquid level is too high, the operator can open the drain line 268 to allow the cleaning solution in the cleaning tank 114 to flow out of the apparatus. Circulation pipeline 266 can make the washing liquid circulation flow in washing tank 114, on the one hand, is favorable to the mixture of different washing liquids in washing tank 114, and on the other hand, compare and stew, the pipe fitting can be washed to the washing liquid that flows, and the cleaning performance is better. In addition, the circulation pipeline 266 is further provided with a first filtering device 2662 for filtering impurities in the cleaning solution and dirt to be cleaned, so as to further improve the purity of the cleaning solution, improve the cleaning effect and prolong the service life of the cleaning solution.

Further, as shown in fig. 12 to 14, the cleaning tank 114 further includes: a bubbling device 1147, a spraying device 1148 and a flow mixing device 1149.

In this embodiment, the bubbling device 1147 can generate a large amount of bubbles in the cleaning tank 114, which is beneficial to mixing of multiple cleaning solutions in the cleaning tank 114, and the friction effect of bubbles passing through the surface of the pipe further enhances the cleaning capability. But spray set 1148 blowout high pressure cleaning liquid has increased the scouring force degree of cleaning liquid, is favorable to getting rid of stubborn impurity and the dirt on pipe fitting surface, and spray set 1148 can also spray highly-compressed air in addition, and then weathers the pipe fitting surface fast. The flow mixing device 1149 can further enhance the flowing effect of the cleaning liquid in the cleaning tank 114, so as to clean the pipe.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

In this embodiment, a horizontal quartz tube cleaning apparatus is provided, as shown in fig. 1 to 14, the horizontal quartz tube cleaning apparatus includes: housing 10, mounting plate 110, cleaning bath 114, carrier assembly 14, liquid inlet manifold module 24, cleaning manifold module 26, gas circuit module 30, and electrical module 32.

Specifically, a feeding cavity 106, a cleaning cavity 108, a liquid inlet pipeline module 24, a cleaning pipeline module 26, a gas pipeline module 30 and an electric module 32 are arranged in the shell 10 of the horizontal quartz tube cleaning equipment. Wherein the feed chamber 106 is located above the wash chamber 108. The shell 10 of the horizontal quartz tube cleaning device is provided with a feed inlet 102 and a notch 104. Wherein the feed inlet 102 is in communication with the feed chamber 106.

Further, the shell 10 of the horizontal quartz tube cleaning device is also provided with a lifting assembly 18, and the feeding door 16 is arranged at the feeding port 102 and connected with the lifting assembly 18. The lifting assembly 18 is used to lift or lower the feeding door 16 to complete the opening and closing of the feeding inlet 102, and when the feeding inlet 102 is opened, the pipe to be cleaned enters the feeding cavity 106 from the feeding inlet 102 on the housing 10.

Further, the lifting assembly 18 includes a motor 181, a driving shaft 182, a torque limiter 183, a bearing 184, a driving sprocket 185, a chain 186, a driven sprocket 187, a driven shaft 188, and a weight 189. The output shaft of the motor 181 is connected with the driving shaft 182 through the torque limiter 183, so that the output torque is transmitted to the driving shaft 182, the torque limiter 183 can effectively prevent the torque from being overloaded, and the structural damage of the whole transmission structure is avoided. The driving shaft 182 drives the driving sprocket 185 sleeved thereon to rotate, and the driven sprocket 187 and the driving sprocket 185 tension the chain 186 together, so as to drive the chain 186 to move, thereby driving the feeding door 16 to lift or descend. Wherein, the driving shaft 182 and the driven shaft 188 are both provided with bearings 184, which effectively reduces the circumferential jumping gap of the driving shaft 182 and the driven shaft 188, reduces the jumping of the driving chain wheel 185 and the driven chain wheel 187, makes the chain 186 move more stably, and further makes the feeding door 16 lift stably. Balancing weight 189 effectively balances the self weight of feed gate 16, makes lift subassembly 18 only need provide a less power of starting and can accomplish the lift of feed gate 16, has effectively reduced the maximum torque demand of motor 181, has practiced thrift manufacturing cost. Further, an operator can manually push and pull the feeding door 16 to open and close the feeding hole 102, so that the situation that feeding cannot be performed when an electrical fault occurs is avoided.

Further, a mounting plate 110 is coupled to the housing 10, the mounting plate 110 is positioned in the wash chamber 108, and the slot 104 is in communication with the wash chamber 108. An operator can send the cleaning tank 114 into the cleaning cavity 108 through the notch 104 and install the cleaning tank 114 on the mounting plate 110 without carrying out operations of lifting and carrying the tank inside the equipment, thereby reducing the installation difficulty of the cleaning tank 114 and improving the loading and unloading efficiency of the cleaning tank 114. The bottom of the housing 10 is further provided with a supporting plate 28, and one end of the supporting plate 28 is abutted against the bottom of the cleaning tank 114, so as to fix and support the cleaning tank 114.

Furthermore, the mounting plate 110 is provided with an overflow hole 112, and during the process of transporting the quartz tube between the cleaning tanks 114, the cleaning liquid remaining on the tube may flow into a leakage buffer chamber 120 enclosed by the mounting plate 110, the outer wall of the cleaning tank 114 and the housing 10 through the overflow hole 112, and then be discharged out of the tube cleaning apparatus 1 through a leakage discharge port 122 provided at the bottom of the leakage buffer chamber 120. Effectively avoided hydrops, weeping in the equipment to cause the harm to equipment, promoted the stability of equipment operation, and the waste liquid can concentrate and accomodate the processing, has guaranteed the cleanliness of equipment internal and external environment.

Further, the inlet door 16 is further provided with an air inlet 162, the air inlet plate 164 is arranged on the air inlet 162, and air outside the pipe cleaning device 1 can enter the pipe cleaning device 1 through the air inlet plate 164 at the air inlet 162 to participate in ventilation, so that the accumulation of volatile gas of cleaning liquid inside the device is reduced, and the working environment of the device is improved.

Specifically, two air inlet plates 164 are arranged on the air inlet 162, a plurality of through air inlet holes 166 are formed in the air inlet plates 164, the two air inlet plates 164 are arranged in parallel, one air inlet plate 164 can slide in parallel relative to the other air inlet plate 164, and in the sliding process, the staggered area of the air inlet holes 166 of the two air inlet plates 164 is changed, so that the air inlet amount is adjusted.

Further, the horizontal quartz tube cleaning equipment is also provided with an air inlet duct 20, the air inlet duct 20 is communicated with the feeding cavity 106 and the cleaning cavity 108, air outside the pipe fitting cleaning equipment 1 can enter the equipment from the air inlet 162 on the feeding door 16 and can also enter the feeding cavity 106 and the cleaning cavity 108 from the air inlet duct 20, and the air exchange capacity of the equipment is enhanced.

Correspondingly, the horizontal quartz tube cleaning equipment is further provided with an air outlet assembly 22, and the air outlet assembly 22 specifically comprises an air outlet partition plate 222, a guide plate 224, an air outlet adapter box 226 and an exhaust valve 228. The air outlet partition 222 is connected to the mounting plate 110, and an air exhaust cavity is formed between the air outlet partition 222 and the casing 10. The guide plate 224 is connected to the casing 10 and the mounting plate 110, and the guide plate 224 is disposed in the draft chamber obliquely with respect to the inner wall of the casing 10. The air outlet adapter box 226 is disposed on the outer side wall of the casing 10, and an inlet of the air outlet adapter box 226 is communicated with the air exhaust cavity. The exhaust valve 228 is disposed at an outlet of the outlet adaptor box 226, and the outlet direction of the exhaust valve 228 faces the top of the housing 10.

Specifically, when the exhaust valve 228 in the air outlet assembly 22 is opened, a negative pressure is formed inside the device, and the air entering through the air inlet duct 20 and the air inlet 162 is mixed with the volatile gas of the cleaning solution, and then is sent into the exhaust cavity enclosed by the air outlet partition 222 and the casing 10. The air draft cavity is provided with a guide plate 224 which is obliquely arranged relative to the housing 10 and is used for changing the flow direction of air, so that the mixed air enters the air outlet adapter box 226 through an inlet of the air outlet adapter box 226 along an oblique upward direction. The outlet adaptor box 226 further changes the air flow direction, and the mixed air enters the exhaust valve 228 through the outlet of the outlet adaptor box 226, and is finally discharged from the outlet of the exhaust valve 228. The air-out direction of the exhaust valve 228 faces the top of the casing 10, so even if the volatile gas is condensed, the volatile gas flows down along the inner wall of the exhaust valve 228 and cannot be accumulated in the exhaust valve 228, the failure rate of the exhaust valve 228 is reduced, the operation efficiency of the exhaust valve 228 is further ensured, and the ventilation efficiency of the equipment is improved. In addition, the guide plate 224 arranged obliquely can also enable condensate formed in the air draft cavity to flow down along the inclined plane and further flow to the overflowing hole 112 of the mounting plate 110 until the condensate is discharged to the leakage buffer cavity 120, and then the accumulated liquid in the air draft cavity is reduced.

Further, the liquid inlet pipeline module 24 is connected to the cleaning tank 114, and the liquid inlet pipeline module 24 is provided with a first leakage detection device 242, wherein the liquid inlet pipeline module 24 includes a liquid medicine pipeline 244 and a pure water pipeline 246.

Specifically, the liquid inlet pipeline module 24 is connected to the cleaning tank 114 for providing a corresponding cleaning liquid to the cleaning tank 114. Be equipped with first weeping detection device 242 on feed liquor pipeline module 24, can detect whether the weeping takes place for feed liquor pipeline module 24, on the one hand, avoid the weeping to cause the damage to equipment, on the other hand has guaranteed equipment operating personnel's personal safety. The liquid inlet pipeline module 24 specifically includes a liquid medicine pipeline 244 and a pure water pipeline 246 for providing the cleaning tank 114 with liquid medicine, pure water or a mixture of the two for cleaning the pipe.

Further, the purge line module 26 includes: a second leak detection device 262, a liquid level detection line 264, a circulation line 266, and a drain line 268. Cleaning conduit module 26 is connected to cleaning tank 114 for performing various cleaning functions within cleaning tank 114. Wherein, second weeping detection device 262 can detect whether the weeping takes place for washing pipeline module 26, and on the one hand, avoid the weeping to cause the damage to equipment, and on the other hand has guaranteed equipment operating personnel's personal safety. The liquid level detection line 264 of the cleaning line module 26 can be used to monitor the liquid level in the cleaning tank 114, and if the liquid level is too low, the operator can control the liquid inlet line module 24 to replenish the cleaning tank 114 according to the liquid level indication. If the liquid level is too high, the operator can open the drain line 268 to allow the cleaning solution in the cleaning tank 114 to flow out of the apparatus.

Further, the air path module 30 includes an air path power element and an air path control element, and the air path module 30 is connected to the carrying assembly 14 and is configured to control the carrying assembly 14 to perform corresponding actions. Electrical module 32 includes electrical power components and electrical control components, and electrical module 32 is connected to carrier assembly 14, lift assembly 18, air exhaust valve 228, intake manifold module 24, wash manifold module 26, and wash tank 114 for controlling the above-described structure to perform corresponding operations. The electric module 32 is also provided with a smoke alarm device 322, so that when the electric module 32 has faults such as short circuit and the like, early warning can be timely sent out, and the safety of equipment is ensured.

Further, the cleaning tank 114 includes a tank body 1140, a rotating member 1144, a transmission member 1145, and a sealing member 1146. In one embodiment of the present invention, the number of cleaning tanks 114 is three, wherein two cleaning tanks 114 are pickling tanks 118 and one cleaning tank 114 is a rinsing tank 116. Two pickling tanks 118 are adjacently arranged, and can carry out secondary pickling on the quartz tube, so that the cleaning capacity is enhanced.

Specifically, the rotation piece 1144 in the pickling tank 118 can drive the rotation of the quartz tube in the tank, so that the pipe fitting can be cleaned and soaked from a plurality of directions under the condition of using a small amount of cleaning liquid, the cleaning effect is improved, the cleaning liquid is saved, and the production cost is reduced. Can make the washing liquid circulation flow in the descaling bath 118 through circulation line 266, on the one hand, be favorable to the mixture of different washing liquids in the descaling bath 118, on the other hand, compare and stew, the washing liquid that flows can wash the pipe fitting, and the cleaning performance is better. In addition, the circulation pipeline 266 is further provided with a first filtering device 2662 for filtering impurities in the cleaning solution and dirt to be cleaned, so as to further improve the purity of the cleaning solution, improve the cleaning effect and prolong the service life of the cleaning solution. As shown in the figure, the pickling tank 118 is further provided with a bubbling device 1147, the bubbling device 1147 can generate a large amount of bubbles in the pickling tank 118, which is beneficial to mixing of multiple cleaning liquids in the cleaning tank 114, and the bubbles bring friction effect when passing through the surface of the pipe, thereby further enhancing cleaning capability.

Further, compared with the pickling tank 118, the rinsing tank 116 is also provided with a spray device 1148 and a flow mixing device 1149.

Specifically, spray set 1148 can spray out high-pressure cleaning liquid, has increased the scouring force degree of washing liquid, is favorable to getting rid of stubborn impurity and the dirt on pipe fitting surface, and spray set 1148 can also spray highly-compressed air in addition, and then weathers the pipe fitting surface fast. The flow mixing device 1149 can further enhance the flowing effect of the cleaning liquid in the cleaning tank 114, so as to clean the pipe.

In this embodiment, the handling assembly 14 first moves the quartz tube into the first pickling tank 118 for pickling, then removes the quartz tube from the first pickling tank 118, places the quartz tube into the second pickling tank 118 for secondary pickling, and finally places the quartz tube into the rinsing tank 116 for cleaning. The washing in the washing tank 116 may be performed in the order of empty tank spraying, water injection soaking, and water discharging, or may be performed in the order of water injection soaking, water discharging, and empty tank spraying, and both washing modes may be set for multiple cycles until the stains on the quartz tube and the residual acid solution are completely washed.

Further, a partition plate 1141 is arranged in the groove body 1140 to divide the groove body 1140 into a main groove cavity 1142 and an auxiliary groove cavity 1143, the main groove cavity 1142 is used for placing cleaning liquid, the rotating member 1144 is located in the main groove cavity 1142, one end of the rotating member 1144 penetrates through the partition plate 1141 and extends into the auxiliary groove cavity 1143, the transmission member 1145 is located in the auxiliary groove cavity 1143, and the transmission member 1145 is connected with one end of the rotating member 1144 extending into the auxiliary groove cavity 1143. When the transmission member 1145 in the auxiliary tank 1143 drives the rotation member 1144 to rotate, the transmission member 1145 is not in contact with the liquid medicine in the main tank 1142, and in the rotating process of the transmission member 1145, the scraps and residues generated by the transmission member 1145 are intercepted by the sealing member 1146 between the rotation member 1144 and the partition plate 1141, so that the cleaning liquid in the main tank 1142 is further prevented from being polluted, the cleaning effect is improved, and the service life of the cleaning liquid is prolonged.

Further, in one embodiment of the present invention, the number of cleaning tanks 114 is three, wherein two cleaning tanks 114 are pickling tanks 118 and one cleaning tank 114 is a rinsing tank 116. Two pickling tanks 118 are arranged adjacent to each other, and when pickling is performed, one of the two pickling tanks 118 is selected for pickling, and the other pickling tank 118 serves as a spare pickling tank 118, and when one of the tanks fails, the second pickling tank 118 can be quickly started to avoid interruption of cleaning.

Further, the carrying assembly 14 in this embodiment includes a mounting frame 141, a crane 143, a first lifting arm 144, a second lifting arm 145, and a hook assembly 146. Hook assembly 146 specifically includes a hook beam 1462, a first hook 1464, a second hook 1466, and a limit plate 1468.

In this embodiment, a handling assembly 14 for handling tubulars to various stations is provided within the feed chamber 106 in the tubular cleaning apparatus 1. Wherein, the mounting frame 141 of the carrying assembly 14 is connected to the housing 10, and the lifting frame 143 can slide along the slide rail 142 on the mounting frame 141, so as to carry the pipe along the arrangement direction of the cleaning tank 114. The first lifting arm 144 and the second lifting arm 145 are arranged on two sides of the lifting frame 143, two ends of the hook beam 1462 are connected with the first lifting arm 144 and the second lifting arm 145, and when the first lifting arm 144 and the second lifting arm 145 are lifted or lowered, the first hook 1464 and the second hook 1466 on the hook beam 1462 are driven to ascend or descend, so that a pipe fitting is lifted or placed into the cleaning tank 114. In addition, the first lifting arm 144 and the second lifting arm 145 can independently lift or lower, so that the hook beam 1462 can incline towards one side of the first lifting arm 144 or the second lifting arm 145, and further, the pipe fittings placed on the first hook 1464 and the second hook 1466 can incline towards two directions, which is beneficial to discharging cleaning liquid remained on the pipe fittings and can meet the drainage of various pipe fittings with different opening directions, and the application range of products is expanded.

Further, the distance between first couple 1464 and the second couple 1466 on couple crossbeam 1462 can be adjusted, makes transport assembly 14 can carry the pipe fitting of multiple different length, and then satisfies the transport demand of multiple different model pipe fittings, is favorable to promoting. And no matter which direction the hook beam 1462 inclines towards, limiting plates 1468 at two ends of the hook beam 1462 can prevent the pipe fittings from sliding out of the first hook 1464 and the second hook 1466.

In the description of the present invention, the terms "plurality" or "a plurality" refer to two or more, and unless otherwise specifically defined, the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention; the terms "connected," "mounted," "secured," and the like are to be construed broadly and include, for example, fixed connections, removable connections, or integral connections; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description of the present invention, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In the present invention, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A pipe cleaning apparatus (1), comprising:

the cleaning device comprises a shell (10), wherein a feed inlet (102) and a feed inlet opening (104) are formed in the shell (10), a feed cavity (106) and a cleaning cavity (108) are formed in the shell (10), the feed inlet (102) is communicated with the feed cavity (106), the feed inlet opening (104) is communicated with the cleaning cavity (108), and the feed cavity (106) is positioned above the cleaning cavity (108);

a mounting plate (110), the mounting plate (110) being connected to the housing (10), the mounting plate (110) being located in the wash chamber (108);

a cleaning tank (114), the cleaning tank (114) being mountable on the mounting plate (110);

the cleaning tank (114) includes:

the cleaning tank comprises a tank body (1140), wherein a partition plate (1141) is arranged in the tank body (1140) to divide the tank body (1140) into a main tank cavity (1142) and an auxiliary tank cavity (1143), and the main tank cavity (1142) is used for placing cleaning liquid;

a rotor (1144), the rotor (1144) being located in the primary slot cavity (1142), one end of the rotor (1144) extending through the spacer plate (1141) into the secondary slot cavity (1143);

a transmission member (1145), the transmission member (1145) being located in the secondary slot cavity (1143), the transmission member (1145) being connected to an end of the rotating member (1144) extending into the secondary slot cavity (1143);

a seal (1146), the seal (1146) being sleeved on the rotating member (1144), the seal (1146) being located between the rotating member (1144) and the partition plate (1141).

2. Pipe cleaning apparatus (1) according to claim 1, further comprising:

an overflow hole (112) provided on the mounting plate (110);

the outer wall of the cleaning tank (114) and the shell (10) form a leakage buffer cavity (120) in a surrounding mode, and the overflowing hole (112) is communicated with the leakage buffer cavity (120);

and a leakage discharge port (122) is formed at the bottom of the leakage buffer cavity (120).

3. Pipe cleaning apparatus (1) according to claim 1, further comprising:

a handling assembly (14), the handling assembly (14) being disposed within the housing (10) at the feed cavity (106);

the handling assembly (14) comprises:

a mounting frame (141), the mounting frame (141) being connected with the housing (10);

the slide rail (142), the said slide rail (142) is set up on the said mounting frame (141);

a lifting frame (143), wherein the lifting frame (143) can slide along the slide rail (142);

the lifting device comprises a first lifting arm (144) and a second lifting arm (145), wherein the first lifting arm (144) and the second lifting arm (145) are arranged on two sides of the lifting frame (143), and the first lifting arm (144) and the second lifting arm (145) can slide along the lifting frame (143);

a hook assembly (146), the hook assembly (146) being connected to the first lifting arm (144) and the second lifting arm (145), the hook assembly (146) being located below the mounting frame (141);

wherein the hook assembly (146) comprises:

a hook beam (1462), both ends of the hook beam (1462) being connected to the first lifting arm (144) and the second lifting arm (145);

a first hook (1464) and a second hook (1466), wherein the first hook (1464) and the second hook (1466) are connected with the hook beam (1462), and the first hook (1464) and the second hook (1466) are respectively positioned on two sides of the hook beam (1462);

limiting plates (1468), the quantity of limiting plate (1468) is two, two limiting plates (1468) set up in couple crossbeam (1462)'s both ends, first couple (1464) and second couple (1466) be located two between the limiting plate (1468).

4. Pipe cleaning apparatus (1) according to claim 1, further comprising:

the feeding door (16), the feeding door (16) is arranged at the feeding port (102), and an air inlet (162) is arranged on the feeding door (16);

the lifting assembly (18) is arranged on the shell (10), the lifting assembly (18) is connected with the feeding door (16), and the lifting assembly (18) is used for driving the feeding door (16) to open or close the feeding hole (102);

the air inlet plate (164), air inlet plate (164) set up in air intake (162).

5. The pipe cleaning apparatus (1) according to any of claims 2 to 4, further comprising:

an air inlet duct (20), wherein the air inlet duct (20) is communicated with the feeding cavity (106) and the cleaning cavity (108);

the air outlet assembly (22), the air outlet assembly (22) is communicated with the air inlet duct;

the air outlet assembly (22) comprises:

the air outlet partition plate (222) is connected with the mounting plate (110), and an air suction cavity is formed between the air outlet partition plate (222) and the shell (10);

the air outlet adapter box (226) is arranged on the outer side wall of the shell (10), and an inlet of the air outlet adapter box (226) is communicated with the air draft cavity;

and the air exhaust valve (228) is arranged at an outlet of the air exhaust adapter box (226) and communicated with the air exhaust valve (228).

6. Pipe cleaning apparatus (1) according to any of claims 1 to 4,

the number of the cleaning tanks (114) is multiple, and the cleaning tanks (114) comprise a water washing tank (116) and an acid washing tank (118).

7. Pipe cleaning apparatus (1) according to any of claims 1 to 4, further comprising:

the liquid inlet pipeline module (24), the liquid inlet pipeline module (24) is connected with the cleaning tank (114), and a first liquid leakage detection device (242) is arranged on the liquid inlet pipeline module (24);

wherein the intake line module (24) comprises: a liquid medicine pipeline (244) and a pure water pipeline (246).

8. Pipe cleaning apparatus (1) according to any of claims 1 to 4, further comprising:

a cleaning pipeline module (26), wherein the cleaning pipeline module (26) is connected with the cleaning tank (114), a second leakage detection device (262) is arranged on the cleaning pipeline module (26),

the purge line module (26) comprises:

a liquid level detection line (264);

a circulation pipeline (266), wherein a first filtering device (2662) is arranged on the circulation pipeline (266);

and one end of the drainage pipeline (268) is connected with the cleaning tank (114), and the other end of the drainage pipeline (268) is arranged on the outer side of the shell (10).

9. The pipe cleaning apparatus (1) according to any of claims 1 to 4, wherein the cleaning tank (114) further comprises:

the bubbling device (1147), the bubbling device (1147) is installed inside the shell (10), and the air outlet end of the bubbling device (1147) is communicated with the cleaning tank (114);

the water outlet end of the spraying device (1148) is communicated with the cleaning tank (114);

the water outlet end of the flow mixing device (1149) is communicated with the cleaning tank (114).

10. Pipe cleaning apparatus (1) according to any of claims 1 to 4, further comprising:

the gas circuit module (30), the gas circuit module (30) is arranged in the shell (10);

an electrical module (32), the electrical module (32) being disposed within the housing (10).

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