JP4420992B2 - Jet cleaning unit for cooling piping - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a pipe cleaning apparatus, and more particularly, to a cooling pipe jet cleaning unit that easily and reliably removes rust generated on a cooling path, cooling pipes, and attached scale.
[0002]
[Prior art]
FIG. 6 is a block diagram for explaining the cooling pipe cleaning apparatus 1 of the conventional apparatus. If the cooling path of the mold or the cooling pipe of the air conditioner is used for a long time, rust will be generated inside the pipe, or scales such as calcium and silica will adhere, the inside of the pipe will become narrow and the cooling effect will be reduced. There is a fear. For this reason, this cooling pipe cleaning apparatus 1 is used to remove rust generated on the cooling passages and cooling pipes and the attached scale by the cleaning liquid.
[0003]
The cooling pipe cleaning apparatus 1 includes a storage tank 2 that stores a cleaning liquid, a pump 3 that supplies the cleaning liquid from the storage tank 2, a filter 4 that filters the cleaning liquid, a pressure gauge 5, and the like.
[0004]
For example, when cleaning the cooling path 91 of the mold 90, the cleaning liquid is put into the storage tank 2, and the cooling path 91 of the mold 90 and the cooling pipe cleaning device 1 are connected to the connecting pipe 92 on the cleaning liquid supply side and the connecting pipe on the cleaning liquid recovery side. When the pump 3 is operated by opening the valves 8 and 9, the cleaning liquid circulates through the cooling passage 91 of the mold 90 and cleaning is performed. The cleaning status can be monitored with the pressure gauge 5, and after cleaning, the drain valve 7 can be opened to recover the cleaning liquid.
[0005]
[Problems to be solved by the invention]
However, the conventional cooling pipe cleaning device 1 has the following problems.
[0006]
As described above, the conventional cooling pipe cleaning apparatus 1 can remove rust and attached scale generated in the cooling path and the cooling pipe by the cleaning liquid, but there are irregularities and steps in the cooling path and the cooling pipe. In some cases, the removal takes time or is difficult to remove. In particular, engineering plastics (engineering plastics), which are high-precision plastics, are easily affected by rust generated in the cooling path of the molding die and attached scale, and it is desired to remove them more reliably.
[0007]
The present invention has been made in view of the above, and provides a jet cleaning unit for cooling pipes that easily and reliably removes rust and attached scale generated in cooling paths and cooling pipes. Objective.
[0008]
[Means for Solving the Problems]
A jet cleaning unit for cooling pipes according to the present invention includes a cylindrical water channel through which a cleaning liquid flows, a nozzle inserted in the cylindrical water channel, and a smaller diameter than the water channel provided on the outlet side of the nozzle. Out of A cylindrical water channel on the mouth side; An air intake portion that is provided in a direction perpendicular to the cylindrical water channel on the outlet side and introduces air from the outside, and communicates with the air intake portion The outlet side water channel includes an orifice capable of sucking air.
[0009]
In addition, the jet cleaning unit for cooling pipe of the present invention is characterized by comprising a cylindrical water channel for circulating the cleaning liquid, and an orifice provided on a side surface of the cylindrical water channel and capable of sucking air into the water channel. .
[0010]
The cooling pipe jet cleaning unit is connected to a magnet unit in which a plurality of ring-shaped magnets are stacked to form a cylindrical water channel, and the cleaning liquid flows through the magnet water channel. It is characterized by flowing in.
[0011]
The cooling pipe is connected to a filter unit with a magnet in which a filter having a filter element mounted therein and a magnet unit in which a plurality of ring-shaped magnets are stacked, and the filter is inserted inside the magnet unit. A jet cleaning unit is connected, and when the cleaning liquid permeates and flows out of the filter element, it passes through the magnetism of the magnet unit and flows into the cooling cleaning jet cleaning unit.
[0012]
The orifice is provided with a plurality of orifices in a cylindrical direction or a circumferential direction of the water channel.
[0013]
The orifice may be inclined in the water flow direction of the water channel and directed outward with respect to the water flow direction.
[0014]
Further, the orifice communicates with a compressor that press-fits air into the orifice, and bubbles are forcibly mixed in the cleaning liquid flowing in the water channel by the compressor.
[0015]
The cooling pipe jet cleaning unit is attached to an outlet side of a storage tank provided in the cooling pipe cleaning apparatus.
[0016]
Further, the cooling pipe jet cleaning unit is attached to an outlet side of a cooling device provided in the cooling pipe purification device.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below.
[0018]
FIG. 1 is a side view of a cooling pipe jet cleaning unit 10 according to the present invention, in which a magnet unit 20 is integrally attached. The cooling cleaning jet cleaning unit 10 includes a housing 11, a nozzle 14 inserted into a cylindrical water passage 11A provided in the housing 11, an attachment 17 inserted into a cylindrical cavity 11B, and a nozzle 14 And an air intake portion 12 for sucking air. The nozzle 14 has a tapered portion 14A that forms a nozzle portion 14B inside, and injects the introduced cleaning liquid at a reduced flow rate, and the air intake portion 12 has an air intake passage 13 penetrating inside. The air is introduced toward the nozzle 14. The attachment 17 has an orifice 15 for sucking air from the air intake passage 13 to the outlet of the nozzle 14 by an air guide 17A, and has a cylindrical water passage 17B having a smaller diameter than the water passage 11A. Accordingly, air is sucked into the outlet side of the nozzle 14 through the air intake 12 and the orifice 15, and the cleaning liquid can flow out of the water channel 17B from the water channel 11A through the nozzle 14. The cylindrical connecting pipe portion 19 is attached to the end of the housing 11 and can be attached with a connecting pipe.
[0019]
The magnet unit 20 is formed by stacking a plurality of ring-shaped magnets 21. A cylindrical water channel 24 is formed inside the magnet 21. The water channel 24 and the water channel 11 </ b> A communicate with each other and are integrated with the jet cleaning unit 10 for cooling piping. Is attached. The cylindrical connecting pipe portion 29 is attached to the end of the magnet 21 and can be attached with a connecting pipe. Moreover, since the jet cleaning unit 10 for cooling piping is attached with the magnet unit 20 integrally, it is compact as a whole.
[0020]
Next, the operation of air and cleaning liquid introduced into the magnet unit 20 and the cooling cleaning jet cleaning unit 10 will be described.
[0021]
When the cleaning liquid is introduced into the connecting pipe part 29 from the direction of the arrow W1, the cleaning liquid passes through the magnetic water channel 24, is throttled by the nozzle 14 and is increased in flow velocity, and is ejected from the outlet side of the nozzle 14. On the other hand, the air passes through the air intake path 13 of the air intake portion 12 from the direction of the arrow E1 and is sucked into the outlet side of the nozzle 14 through the orifice 15. The cleaning liquid ejected from the nozzle 14 flows in the direction of the arrow S1 through the water channel 17B. However, since the flow rate of the cleaning liquid is high on the outlet side of the nozzle 14, it is sucked from the orifice 15, and the sucked air becomes a large number of bubbles. It is mixed in.
[0022]
Since the water channel 17B is smaller in diameter than the water channel 11A and has a diameter corresponding to the nozzle portion 14B of the nozzle 14, bubbles are accurately mixed in the cleaning liquid, and the mixed bubbles can be maintained and distributed in the water channel 17B. .
[0023]
The cleaning liquid in which the flow velocity is increased by the nozzle 14 through the magnet unit 20 and a large number of bubbles are mixed by the orifice 15 flows into the cooling path and cooling pipe, but passes through the magnetism by the magnet 21 when passing through the magnet unit 20. The cleaning liquid can more efficiently remove rust generated in the cooling path and cooling pipe due to its magnetic effect, and since many bubbles are mixed in the cleaning liquid, it adheres in addition to the cleaning effect by the cleaning liquid. Scales and the like can be effectively removed by contact with bubbles.
[0024]
FIG. 2 is a side view of the cooling pipe jet cleaning unit 10 according to the present invention in which the filter unit with magnet 40 is integrally attached. The jet cleaning unit 10 for cooling piping has a filter unit 40 with a magnet attached integrally and has the same configuration as shown in FIG.
[0025]
The filter unit with magnet 40 includes a filter 30 and a magnet unit 50, and the filter 30 is connected to the cooling cleaning jet cleaning unit 10 and the magnet unit 50 is attached to the filter 30. In the filter 30, the filter element 32 is mounted inside the filter housing 31, and the cleaning liquid introduced from the connecting portion 39 penetrates the filter element 32 and flows out to the water channel 11 </ b> A of the cooling cleaning jet cleaning unit 10.
[0026]
The magnet unit 50 is a stack of a plurality of ring-shaped magnets 51 and is inserted and fixed to the outside of the filter housing 31. A connecting pipe can be attached to the cylindrical connecting part 39. Moreover, since the cooling unit jet cleaning unit 10 is integrally attached with the filter unit with magnet 40, it is compact as a whole.
[0027]
Next, the operation of air and cleaning liquid introduced into the filter unit with magnet 40 and the jet cleaning unit 10 for cooling pipe will be described.
[0028]
When the cleaning liquid is introduced into the connecting portion 39 from the direction of the arrow W2, it passes through the filter element 32, passes through the magnetism of the magnet unit 50, and flows out to the cooling cleaning jet cleaning unit 10. The cleaning liquid that has flowed out into the water channel 11 </ b> A of the cooling pipe jet cleaning unit 10 is squeezed by the nozzle 14 to increase the flow velocity, and is ejected from the outlet side of the nozzle 14. On the other hand, the air passes through the air intake path 13 of the air intake portion 12 from the direction of the arrow E2, and is sucked into the outlet side of the nozzle 14 through the orifice 15. The cleaning liquid ejected from the nozzle 14 flows out in the direction of the arrow S2 through the water channel 17B. However, since the flow rate of the cleaning liquid is high on the outlet side of the nozzle 14, the air is sucked from the air intake unit 12, and a large number of the sucked air Air bubbles are mixed into the cleaning liquid and flow out of the water channel 17B.
[0029]
The cleaning liquid having a flow velocity increased by the nozzle 14 and mixed with a large number of bubbles by the orifice 15 passes through the filter unit with magnet 40 and flows into the cooling path and the cooling pipe. The cleaning liquid that has passed through the interior can more efficiently remove rust generated in the cooling path and cooling pipe due to its magnetic effect. Further, since a large number of bubbles are mixed in the cleaning liquid, in addition to the cleaning effect by the cleaning liquid, the attached scale and the like can be effectively removed by contact with the bubbles, and the scale in the cleaning liquid can also be removed by the filter 30. It has a compact structure.
[0030]
FIG. 3 shows another embodiment according to the present invention, and shows a side configuration diagram of a cooling cleaning jet cleaning unit 60. FIG. 3A shows a side view of the configuration of the first embodiment of the cooling cleaning jet cleaning unit 60 according to the present invention, and FIG. 3B shows the configuration of the cooling cleaning jet cleaning unit 60 according to the present invention. The side surface block diagram of 2 Example is shown.
[0031]
The cooling pipe jet cleaning unit 60 shown in FIG. 3 (A) includes a flowing water pipe portion 61 having a cylindrical water passage 64 therethrough, and one end inserted into the side surface of the flowing water pipe portion 61 and an air intake passage inside. 63 and an air intake portion 62 having an orifice 65 at the lower end and capable of sucking air into the water channel 64. The magnet unit 20 or the filter unit with magnet 40 can be attached to the end of the cooling pipe jet cleaning unit 60, and the connecting pipe can be attached to the other end.
[0032]
Next, the operation of the air and cleaning liquid introduced into the cooling pipe jet cleaning unit 60 will be described.
[0033]
When a cleaning liquid having a relatively high flow rate is introduced into the water channel 64 from the direction of the arrow W3, the cleaning solution flows through the water channel 64 and flows out in the direction of the arrow S3 from the outlet side. The air is sucked from the plurality of orifices 65 through the air intake path 63 from the direction of the air, and the sucked air is mixed into the cleaning liquid as a large number of bubbles.
[0034]
Although a cleaning liquid having a relatively high flow rate is required from the direction of the arrow W3, the cleaning liquid in which a large number of bubbles are mixed flows into the cooling path and the cooling pipe and is generated in the cooling path and the cooling pipe as in the above embodiment. Rust can be removed more efficiently, and a large number of bubbles are mixed by the plurality of orifices 65, so that in addition to the cleaning effect of the cleaning liquid, the attached scale and the like are effectively removed by contact with the bubbles. be able to.
[0035]
In addition, the removal effect of a scale can be raised, so that the bubble to mix is small and there are many mixing numbers. Since the size of the orifice 65 is determined in order to obtain bubbles of a predetermined size with respect to the flow rate of the cleaning liquid flowing through the water channel 64, the number of bubbles of a predetermined size to be mixed is limited to the flow rate of the cleaning liquid. Will be.
[0036]
In the embodiment of FIG. 3 (A), a single air intake unit 62 can mix a predetermined number of bubbles of a predetermined size with respect to the flow rate of the cleaning liquid, but a plurality of air intake units 62 are provided. As a result, the size of the bubbles is substantially the same and the number of contamination can be increased, and the scale removal effect can be further increased.
[0037]
The cooling pipe jet cleaning unit 70 shown in FIG. 3B includes a flowing water pipe portion 71 having a cylindrical water passage 74 penetrating therethrough, a plurality of orifices 75 formed on the side surface of the flowing water pipe portion 71, and a plurality of orifices 75. An annular air intake portion 76 attached along the circumference of the flowing water pipe portion 71 where the orifice 75 is opened, and one end is inserted into the annular air intake portion 76 and has an air intake passage 73 therein, and the air is annular. The air intake portion 72 is configured to be sucked into the water channel 74 from the plurality of orifices 75 via the inside of the air intake portion 76. The magnet unit 20 or the magnet filter unit 40 can be attached to the end of the cooling pipe jet cleaning unit 70, and the connecting pipe can be attached to the other end.
[0038]
The operation of the air and cleaning liquid introduced into the cooling pipe jet cleaning unit 70 will be described.
[0039]
When a cleaning liquid having a relatively high flow rate is introduced into the water channel 74 from the direction of the arrow W4, the cleaning solution flows through the water channel 74 and flows out in the direction of the arrow S4 from the outlet side. The air sucked and sucked from the plurality of orifices 75 through the air intake passage 73 from the direction E4 becomes a large number of bubbles and is mixed into the cleaning liquid.
[0040]
The cleaning liquid in which a large number of bubbles are mixed flows into the cooling path and the cooling pipe, but as with the cooling pipe jet cleaning unit 60, the rust generated in the cooling path and the cooling pipe should be removed more efficiently. In addition, since many bubbles are mixed in the cleaning liquid from the plurality of orifices 75, in addition to the cleaning effect by the cleaning liquid, the adhered scales and the like can be effectively removed by contact with the bubbles.
[0041]
3A and 3B, an example in which air is sucked from the air intake 62 or the air intake 72 according to the flow rate of the cleaning liquid in the water channel 64 or the water channel 74 has been described. A separate compressor can be used to press-in air from the air intake section 62 or the air intake section 72 to change the state of air bubble mixing, and the cleaning effect can be improved depending on the conditions of the cooling path and cooling piping to be cleaned. it can.
[0042]
Further, the orifices 15, 65, 75 are inclined in the water flow direction of the water channel and directed outward with respect to the water flow direction, so that bubbles can be spirally mixed into the flow of the cleaning liquid, and the cleaning effect Can be raised.
[0043]
In the embodiment of FIG. 1 and FIG. 2, a plurality of air intake portions 12 are provided so that the size of the bubbles is substantially the same and the number of mixing is increased so that the scale removal effect can be further increased. In addition, air can be injected from the air intake section 12 using a compressor or the like to change the state of air bubbles being mixed, and the cleaning effect can be improved depending on the state of the cooling path and cooling pipe to be cleaned.
[0044]
FIG. 4 shows a block diagram when the cooling unit jet cleaning unit 10 with the magnet unit 20 or the magnet-equipped filter unit 40 is attached to the cooling tube cleaning apparatus 1A. The cooling pipe cleaning apparatus 1A removes rust and scales attached to the cooling path and the cooling pipe with the cleaning liquid. The storage tank 102 stores the cleaning liquid, the pump 103 supplies the cleaning liquid from the storage tank 102, and the cleaning liquid. The cooling pipe jet cleaning unit 10 is mounted on the outlet side of the storage tank 102 between the pressure gauge 105 and the valve 109, and the cooling pipe jet cleaning unit 10. Thus, the cleaning liquid in which bubbles are mixed is sent to the mold 90.
[0045]
For example, when cleaning the cooling path 91 of the mold 90, the cleaning liquid is put into the storage tank 102, and the cooling path 91 of the mold 90 and the cooling pipe cleaning device 1A are connected to the connecting pipe 92 on the cleaning liquid supply side and the connecting pipe on the cleaning liquid recovery side. When the pump 103 is operated by opening the valves 108 and 109 and operating the pump 103, the cleaning liquid passes through the cooling pipe jet cleaning unit 10 and bubbles are mixed and circulates in the cooling path 91 of the mold 90 to perform cleaning. The cleaning status can be monitored with the pressure gauge 105, and after cleaning, the drain valve 107 can be opened to recover the cleaning liquid.
[0046]
Since the cooling pipe cleaning device 1A has the cooling pipe jet cleaning unit 10 attached thereto, as described above, it is possible to more efficiently remove rust generated in the cooling path and the cooling pipe due to the magnetic effect. Since the bubbles are mixed, in addition to the cleaning effect by the cleaning liquid, the attached scale and the like can be effectively removed by contact with the bubbles.
[0047]
In addition, as described above, the compressor 106 can be attached to the cooling pipe jet cleaning unit 10 to change the state of mixing of bubbles, and the cooling pipe jet cleaning unit 10 can be used instead of the cooling pipe jet cleaning unit 10. 60 and 70 can be attached.
[0048]
FIG. 5 shows a block diagram when the cooling cleaning jet cleaning unit 10 with the magnet unit 20 or the filter unit with magnet 40 is attached to the cooling pipe purification apparatus 1B. The cooling pipe purification device 1B uses, for example, a cleaning liquid as a cooling liquid circulating through a cooling path of an operating molding die, and prevents or removes rust and scale in the cooling path during operation. A pump 203 for sending the cleaning liquid to the cooling device 201, a filter 204A for filtering the cleaning liquid from the cooling device 201, a pressure gauge 205 connected to the filter 204A, a filter 204B for filtering the cleaning liquid from the mold 90, and the like. The cooling piping jet cleaning unit 10 is mounted between the pressure gauge 205 and the valve 209 to circulate the cleaning liquid through the mold 90 and the cooling device 201. Since the cooling cleaning jet cleaning unit 10 is mounted on the outlet side of the cooling device 201 between the pressure gauge 205 and the valve 209, bubbles can be mixed into the cleaning liquid on the outlet side of the cooling device 201. A cleaning liquid in which bubbles are constantly mixed can be sent to the mold 90.
[0049]
During operation, the cleaning liquid circulates between the mold 90 and the cooling device 201, and the cooling pipe jet cleaning unit 10 is attached to the cooling pipe cleaning apparatus. In addition, the rust generated in the cooling path of the molding die in operation due to the magnetic effect can be removed more efficiently, and since many bubbles are mixed in, the scale attached is in addition to the cleaning effect of the cleaning liquid. Etc. can be effectively removed by contact with the bubbles, and the molding die can be maintained in an appropriate condition.
[0050]
As described above, the compressor 206 can be attached to the cooling pipe jet cleaning unit 10 to change the state of mixing of bubbles, and the cooling pipe jet cleaning unit 10 can be used instead of the cooling pipe jet cleaning unit 10. 60 may be attached.
[0051]
Moreover, although the above Example demonstrated the cooling path and the cooling piping, this invention is not limited to this, It can be used for the other piping which a rust and a scale generate | occur | produce.
[0052]
【The invention's effect】
The jet cleaning unit for cooling pipes of the present invention includes a cylindrical water channel for circulating a cleaning liquid, A nozzle inserted in the cylindrical water channel, a cylindrical water channel on the outlet side of the nozzle that is smaller in diameter than the water channel, and a cylindrical water channel on the outlet side that is provided at right angles to the cylindrical water channel. An air intake for introducing air, and communication with the air intake Since the outlet side water passage is equipped with an orifice capable of sucking air, the cleaning liquid mixed with a large number of bubbles flows into the cooling passage and the cooling pipe when flowing through the cylindrical water passage with a very simple structure. However, in addition to the cleaning effect of the cleaning liquid, the attached scales and the like can be effectively removed by contact with the bubbles.
[0053]
【The invention's effect】
The cooling pipe jet cleaning unit of the present invention is Provided horizontally A cylindrical water channel through which the cleaning liquid flows; A nozzle inserted into the cylindrical water channel, a cylindrical water channel on the outlet side provided in the horizontal direction having a smaller diameter than the water channel provided on the outlet side of the nozzle, and a direction perpendicular to the cylindrical water channel on the outlet side A cylindrical air intake portion that is provided on the outside and introduces air from the outside, and communicates with the air intake portion Since the outlet side water passage is equipped with an orifice capable of sucking air, the cleaning liquid mixed with a large number of bubbles flows into the cooling passage and the cooling pipe when flowing through the cylindrical water passage with a very simple structure. However, in addition to the cleaning effect of the cleaning liquid, the attached scales and the like can be effectively removed by contact with the bubbles.
[0054]
The cooling pipe jet cleaning unit is connected to a magnet unit in which a plurality of ring-shaped magnets are stacked to form a cylindrical water channel, and a cleaning liquid flows through the magnet water channel to the cooling pipe jet cleaning unit. Since it flows in, the cleaning liquid that has passed through the magnet by the magnet when passing through the magnet unit can more efficiently remove rust generated in the cooling path and cooling pipe due to its magnetic effect. In addition, it has a compact structure.
[0055]
The cooling pipe is connected to a filter unit with a magnet in which a filter having a filter element mounted therein and a magnet unit in which a plurality of ring-shaped magnets are stacked, and the filter is inserted inside the magnet unit. A jet cleaning unit is connected, and when the cleaning liquid permeates and flows out of the filter element, the magnet flows through the magnet unit and flows into the cooling pipe jet cleaning unit. The cleaning liquid that has passed through it can more effectively remove rust generated in the cooling path and cooling piping due to its magnetic effect, and furthermore, it has a compact structure that can also remove the scale in the cleaning liquid by the filter. Yes.
[0056]
In addition, since a plurality of the orifices are provided in the cylindrical direction or the circumferential direction of the water channel, the size of bubbles can be substantially the same, the number of contamination can be increased, and the scale removal effect can be further improved.
[0057]
In addition, since the orifice is inclined in the water flow direction of the water channel and is directed outward with respect to the water flow direction, bubbles can be spirally mixed into the flow of the cleaning liquid, thereby improving the cleaning effect. it can.
[0058]
Further, the orifice communicates with a compressor that press-fits air into the orifice, and bubbles are forcibly mixed into the cleaning liquid flowing in the water channel by the compressor, so that the state of mixing of bubbles can be changed, and the cleaning effect is improved. Can be.
[0059]
In addition, the cooling pipe jet cleaning unit is attached to the outlet side of the storage tank provided in the cooling pipe cleaning device, so it is possible to more efficiently remove rust generated in the cooling path and cooling pipe due to the magnetic effect, Moreover, since bubbles are mixed in many cleaning solutions, in addition to the cleaning effect of the cleaning solution, attached scales can be effectively removed by contact with the bubbles, improving the function of the cooling pipe cleaning device. Can do.
[0060]
Further, since the cooling cleaning jet cleaning unit is mounted on the outlet side of the cooling device provided in the cooling pipe purifying device, it prevents rust generation and scale adhesion, and also prevents the mold from being operated by the magnetic effect. Rust generated in the cooling path can be removed more efficiently. In addition, since many bubbles are mixed in the cleaning liquid, in addition to the cleaning effect of the cleaning liquid, the attached scales can be effectively removed by contact with the bubbles, so the mold is maintained in an accurate state. Thus, the function of the cooling pipe purification device can be improved.
[Brief description of the drawings]
FIG. 1 is a side view of a cooling pipe jet cleaning unit according to the present invention, in which a magnet unit is integrally attached.
FIG. 2 is a side view of a cooling pipe jet cleaning unit according to the present invention in which a filter unit with a magnet is integrally attached.
FIG. 3 shows another embodiment of the present invention, and shows a side configuration diagram of a cooling cleaning jet cleaning unit. FIG. 3A shows a side view of the configuration of the first embodiment of the jet cleaning unit for cooling piping according to the present invention, and FIG. 3B shows the configuration of the jet cleaning unit for cooling piping according to the present invention. The side surface block diagram of 2 Example is shown.
FIG. 4 is a block diagram when a cooling pipe jet cleaning unit according to the present invention is attached to a cooling pipe cleaning apparatus.
FIG. 5 is a block diagram when the cooling pipe jet cleaning unit according to the present invention is attached to the cooling pipe purification apparatus.
FIG. 6 is a block diagram for explaining a cooling pipe cleaning apparatus of a conventional apparatus.
[Explanation of symbols]
1 Cooling pipe cleaning device
2,102 Storage tank
4, 30, 104, 204 filters
10, 60, 70 Jet cleaning unit for cooling piping
14 nozzles
11A, 17B, 24, 64, 74
12, 62, 72 Air intake section
13, 63, 73 Air intake path
15, 65, 75 Orifice
20, 50 Magnet unit
21, 51 Ring-shaped magnet
32 filter elements
40 Filter unit with magnet
61, 71 Flowing water pipe section
76 Annular air intake
90 mold
91 Cooling path
106,206 Compressor
201 Cooling device

Claims (4)

A cylindrical water passage for circulating the cleaning liquid, a nozzle which is inserted into the cylindrical waterway, a cylindrical water passage of the small diameter of the exit side of the water passage provided at the outlet side of the nozzle, the outlet side of the cylindrical A cooling pipe comprising an air intake portion that is provided in a direction perpendicular to the water channel and introduces air from the outside, and an orifice that communicates with the air intake portion and can suck air into the water channel on the outlet side Jet cleaning unit. Connected to a magnet unit in which a plurality of ring-shaped magnets are stacked and a cylindrical water channel having the same diameter as the cylindrical water channel is formed at the center, and cleaning liquid flows through the cylindrical water channel of the magnet and is used for cooling piping The cooling pipe jet cleaning unit according to claim 1, wherein the jet cleaning unit flows into the jet cleaning unit. It is composed of a filter having a filter element mounted therein and a magnet unit in which a plurality of ring-shaped magnets are stacked to form a cylindrical hollow portion , and the filter is inserted into the hollow portion of the magnet unit. 2. The cooling pipe according to claim 1, wherein the cooling pipe is connected to a filter unit with a magnet and flows into the cooling pipe jet cleaning unit through the magnetism of the magnet unit when the cleaning liquid permeates and flows out of the filter element. Jet cleaning unit. The orifice claim 1, wherein the through cylindrical air intake portion is passed through the compressor and the communication of injecting air into said orifice, forcibly mixing bubbles in the cleaning liquid flowing through the water channel by the compressor A jet cleaning unit for cooling piping as described in 1.

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