JP3198554U - Structure of rotary cleaning gun - Google Patents

Abstract

A structure of a rotary cleaning gun with high safety is provided. In the structure of a rotary cleaning gun, an air inlet 11 is provided on one side of a grip 1, and the air inlet has a valve seat 12 above. The external high-pressure air introduced from the inlet is controlled by the lever 13. An air supply pipe 14 is connected to one side of the valve seat 12, and an injection pipe 2 and an air supply pipe 31 of the rotating device 3 are attached to one side of the air supply pipe by a contact portion 141. The connecting portion 312 on the other side of the air supply pipe extends into the accommodation space 20 of the injection pipe 2. A bearing 32 is attached to the connecting portion 312, and a connecting cover 33 is fitted on the outside of the rotating ring 322 of the bearing, and the rotating body 34 is attached. The rotating body is located at the tube port 201 portion on one side of the injection tube 2. The high-pressure air is sent to the air collecting chamber inside the rotator 34 and is jetted to the outside through the inclined jet holes 342. [Selection] Figure 2

Description

The present invention relates to a structure of a rotary cleaning gun, and particularly includes a grip to which an air supply pipe is connected, an injection pipe attached to one side of the air supply pipe, and a rotating device located in the injection pipe. The present invention relates to a structure of a rotary cleaning gun in which external high-pressure air is introduced from a grip, a rotating device rotates in an injection pipe, and gas is injected in a rotating manner toward the outside.

Due to advances in science and technology, people are demanding higher quality for clothing, dining, mobility and entertainment. With regard to movement, various automobiles, motorcycles, and the like have become people's means of transportation, and their numbers are increasing day by day. Cleaning work for various automobiles, motorcycles, etc. can also be performed automatically using an electric car wash machine, but the electric car wash machine only cleans the outside of the car body with the rotating brush. The part cannot be cleaned thoroughly. For this reason, many people wash their car bodies manually. However, after washing the vehicle body, it is necessary to wipe off the water remaining on the vehicle body with a dry rag, etc., so that the work is very time consuming and labor intensive.

In general, when performing a cleaning operation, the outside of the object is cleaned using water, such as a brush or a dust cloth. When performing washing work on vehicles, buildings, etc., strong water pressure is required, so water is sprayed with high water pressure by pressing the tip of the watering hose with your finger, and after washing the dirt with water, brush, Cleaning work is performed with a rag. For this reason, the cleaning operation takes time and labor, and a large amount of water is wasted. In order to solve this problem, by supplying high-pressure air to the cleaning gun, water can be jetted out to wash away dirt, and the time to use water can be controlled to prevent waste of water. A structure was devised. Please refer to FIG. FIG. 8 is a cross-sectional view showing the structure of a conventional cleaning gun. The cleaning gun A is composed of members such as a grip A1, a T-shaped tube A2, a liquid tank A3, and an injection tube member B. The injection pipe member B includes an injection pipe B1. A screwing base B11 is provided at one end of the injection pipe B1 and is screwed to the pressure air outlet end A4 of the cleaning gun A. The outer end of the injection tube B1 is open. A connector C1 at one end of the rotary tube C is screwed and fixed to a screw thread at the center of the pressure air outlet end A4 of the cleaning gun A. A weighted tube C2 is provided at an appropriate position outside the rotating tube C. In the rotary tube C, a pumping tube C3 is provided. The pumping pipe C3 extends to the T-shaped pipe A2 and reaches the liquid tank A3. An injection port C31 is provided in a portion floating in the air in the rotary tube C on the side of the pumping tube C3. The cleaning gun A takes in external high-pressure air from the grip A1 portion, sends it from the T-shaped tube A2 to the pressurized air outlet end A4, and finally enters the rotary tube C. The high-pressure air pumps up the water in the liquid tank A3 from the pumping pipe C3 due to the venturi effect at the injection port C31 portion of the rotary pipe C and the pumping pipe C3. Further, the pumped water is mixed with high-pressure air at the injection port C31, and then jetted while rotating to the outside from the injection port C31 of the pumping tube C3 to perform a cleaning operation. However, during the operation, the rotary tube C inside the cleaning gun A is driven by high-pressure air and rotates at a high speed inside the injection tube B1, so that friction is generated between the rotary tube C and the load tube C2 and the injection tube B1. If it is worn out and used for a long time, the connection position between the connector C1 of the rotary tube C and the pressurized air outlet end A4 may be broken. As a result, when the cleaning gun A is used, the rotary tube C is ruptured and blown out by the high-pressure air to the outside of the injection tube B1, which may cause an accident. For this reason, it has been desired to solve the drawbacks and problems in using the conventional cleaning gun.
As conventional high-pressure washing machines and washing nozzles, for example, those described in Patent Documents 1 to 3 are disclosed.

In view of the above-mentioned problems and disadvantages, the inventor of the present invention collected related materials, and devised the structure of the rotary cleaning gun of the present invention through many years of experience, many trial manufactures and improvements.

JP 2005-313008 A Japanese Patent Laid-Open No. 10-057844 Japanese Patent Laying-Open No. 2015-067376

The first object of the present invention is that an air inlet is provided on one side of the grip, a valve seat is connected to the grip, and external high-pressure air introduced from the air inlet is controlled by a lever of the valve seat. A supply pipe is connected to one side of the valve seat, and a contact screw hole on one side of the injection pipe is attached to the other side of the supply pipe by a contact bolt of the contact part. The male screw rod of the joint portion on one side of the air supply tube of the rotating device is attached to the female screw hole portion in the contact bolt of the contact portion, and the connecting portion on the other side of the air supply tube is accommodated in the injection tube It extends to the inside of the space, a bearing is attached to the connecting part, a connecting cover is fitted outside the rotating ring of the bearing, a rotating body is attached, and the rotating body is attached to the port portion on one side of the injection pipe. The high-pressure air that is located and introduced from the grip is sent from the air supply pipe to the air supply pipe, and then into the air collection chamber inside the rotor Type is to provide a structure of the rotary cleaning gun ejected from inclined ejection holes of the rotating body to the outside.
A second object of the present invention is that the rotating device includes an air supply pipe, a bearing attached to a connecting portion of the other side of the air supply pipe, a connection cover, and a rotating body, and one side of the air supply pipe The joint has a joint, and a male threaded rod is provided at the joint, screwed into the female threaded hole of the air supply pipe on one side of the grip, and connected to the other side of the air supply pipe A connecting rod having a small outer diameter protruding outside from the other side of the air supply tube, and a small outside diameter screwing rod protruding from one side of the connecting rod to the outside. The bearing rod is fitted into the joint rod, the bearing rotating ring is fitted into the engaging groove of the connecting cover, the connecting cover rotates together with the rotating ring, and an external screw is provided outside the connecting cover. Screwed into the inner screw hole on one side of the rotating body, the air collection chamber inside the rotating body The rotary body is provided with an inclined injection hole that is inclined to the outside in the direction of the side wall surface from the air collection chamber, and high-pressure air introduced from the air supply hole in the air supply pipe is placed in the air collection chamber of the rotary body. Provided is a structure of a rotary cleaning gun that enters, rotates a rotating body and a connecting cover together with a rotating ring of a bearing, and injects high-pressure air to the outside from an inclined injection hole on one side of a collection chamber of the rotating body. There is.
A third object of the present invention is to connect a water storage tank in which liquid (for example, water, cleaning agent, soapy water, water wax, etc.) is stored at the bottom of the air supply pipe, and pump the liquid in the water storage tank through the water supply pipe. It is taken and sent to the connecting pipe part, and the liquid drawn from the water supply pipe is sent to the outside by the connecting pipe provided with the water supply pipe inside, and the water supply pipe is fed from the connecting pipe part to the air supply hole of the air supply pipe, rotation The air supply tube of the apparatus is extended to the air supply hole and the air collecting chamber of the rotating body, and a through hole is provided in one side of the air collecting chamber of the rotating body in the direction of the outer end surface. When the high-pressure air is introduced from the air inlet by operating the lever of the valve seat portion, the high-pressure air is introduced into the air-feeding hole of the valve seat. From the inclined injection hole of the rotating body of the rotator to the outside. At the same time, high-pressure air is jetted to the outside through a gap formed between the through-hole portion of the rotating body and the end of one side of the water pipe, and gas and fog water are jetted simultaneously. At the same time, it is to provide a structure of a rotary cleaning gun in which high-pressure air is jetted against the fog water by the inclined jet holes located on the side of the through hole to make the fog water into a finer mist.

  The invention of claim 1 is a structure of a rotary cleaning gun provided with a grip and a rotating device, and an air inlet for introducing external high-pressure air is provided on one side of the grip. A valve seat having a lever is provided above, an air supply pipe is connected to one side of the valve seat, and the inside of the air supply pipe has an air supply hole communicating with the valve seat and the air inlet, On the side of the air supply pipe opposite to the valve seat, a contact portion is projected, and the rotating device is mounted on the contact portion and extends to the outside, and a connecting portion on the side of the air supply tube A connecting cover, a bearing, and a rotating body that are mounted on the inside of the air feeding pipe. An air feeding hole that penetrates the air feeding pipe is provided inside the air feeding pipe, and the outside of the bearing is driven and rotated by the rotating body. A connecting cover is fitted, and a rotating body having an inclined injection hole is attached to the outside of the connecting cover. The structure of the rotary washing gun, characterized in that the collecting air chamber opposite the supply hole of the air supply pipe is provided.

  In the invention of claim 2, a contact bolt projecting outward from one side portion of the air supply pipe is provided at a contact portion on one side of the air supply pipe of the grip, Is provided with a female screw hole located on one side of the air supply hole, and is in close contact with the contact side of one side of the injection pipe outside the contact bolt of the contact part. A packing ring is fitted, and a contact screw hole to be screwed to a contact bolt is provided on the contact side of one side portion of the injection tube, and a joint portion on one side portion of the air supply tube of the rotating device Is provided with a male screw rod that is screwed into the female screw hole portion, an injection pipe is attached to the contact portion of the grip, and a pair attached to the contact portion on one side of the injection tube. A contact side is provided, and an inside of the injection pipe is provided with an accommodation space through which the air supply pipe of the rotating device enters from the contact side to the other side. The accommodation space on the opposite side is provided with a pipe port that extends to the outside, and the injection pipe is a trumpet pipe, straight pipe or polygonal pipe body, and a connecting pipe is provided at the bottom of the air supply pipe The supply pipe is a T-shaped pipe. A water storage tank for storing liquid is connected to the bottom of the connection pipe, and a water supply pipe for pumping the liquid to the connection pipe portion is provided in the storage tank. A water supply pipe is provided in the pipe to send the liquid pumped up by the water supply pipe to the outside. The water supply pipe extends from the connecting pipe portion into the air supply hole of the air supply pipe, and on one side of the water supply pipe, the air supply pipe is provided. An end portion penetrating the outside of the air supply hole is provided, and a through hole through which an end portion of the one side portion of the water supply pipe is provided is provided on one side portion of the air collecting chamber of the rotating body of the rotating device. The through hole is located on the side of the inclined injection hole of the rotating body, and the inside of the rotating body has a concave air collecting chamber with one side penetrating to the outside. In the central position of the wall surface of the other side of the air collecting chamber, a through-hole penetrating to the outside is provided, and an inclined injection hole penetrating to the outside is provided on the side of the through-hole, The diameter of the through hole is larger than the outer diameter of the end portion on one side of the water pipe, and a gap through which gas passes is formed in the outside of the end portion of the one side portion of the water pipe. The structure of the rotary cleaning gun according to claim 1.

  According to the invention of claim 3, the connecting portion of the other side portion of the air supply tube of the rotating device includes a joining rod projecting outside from the other side portion of the air feeding tube, and a screw rod projecting outside from the outside of the joining rod. And a nut that prevents the bearing from being detached from the joining rod by being screwed to the screwing rod portion on the outside of the bearing. An engagement groove for engaging and fixing the rotating ring is provided inside the connection cover, an external screw is provided outside the engagement groove of the connection cover, and the other of the air collecting chambers of the rotating body is provided. The side portion is provided with an inner screw hole to be screwed to the outer screw portion, the outer diameter of the joining rod is smaller than the outer diameter of the air supply tube, and the outer diameter of the screwing rod is smaller than the outer diameter of the joining rod. The outer diameter of the nut is larger than the diameter of the shaft hole of the bearing. An air collecting chamber with a side portion penetrating to the outside is recessed, and an inner screw hole with a reduced hole diameter is provided on the other side portion penetrating the inside of the air collecting chamber. The rotary cleaning gun structure according to claim 1, wherein the wall surface is provided with an inclined injection hole which is inclined and penetrates to the outside.

  The rotary cleaning gun of the present invention has a combined structure of a rotating body, a bearing and a connecting cover, so that parts etc. are difficult to jump out of the accommodation space of the injection pipe, so the safety when using the cleaning gun is improved. Will not fall out and an accident will not occur, and the danger can be reduced.

It is a perspective view which shows the structure of the rotary cleaning gun of this invention. It is a disassembled perspective view which shows the structure of the rotary cleaning gun of this invention. It is a disassembled perspective view which shows the rotation apparatus of the structure of the rotary cleaning gun of this invention. It is a partial cross section figure which shows the structure of the rotary cleaning gun of this invention. It is an enlarged view which shows A part of FIG. It is a partial cross section figure which shows the state which mounted | wore the water storage tank with the structure of the rotary cleaning gun of this invention. It is an enlarged view which shows the B section of FIG. It is a partial sectional view showing a conventional cleaning gun.

DESCRIPTION OF EMBODIMENTS Embodiments showing the objects, features, and effects of the present invention will be described in detail with reference to the drawings.

  Please refer to FIG. FIG. 1 is a perspective view showing the structure of a rotary cleaning gun according to the present invention. FIG. 2 is an exploded perspective view showing the structure of the rotary cleaning gun of the present invention. FIG. 3 is an exploded perspective view showing a rotating device having a rotary cleaning gun structure according to the present invention. FIG. 4 is a partial cross-sectional view showing the structure of the rotary cleaning gun of the present invention. FIG. 5 is an enlarged view showing a portion A of FIG. As can be seen from FIGS. 1 to 5, the structure of the rotary cleaning gun of the present invention includes a grip 1, an injection pipe 2 and a rotating device 3.

An air inlet 11 is provided on one side of the bottom of the grip 1. Above the grip 1, a valve seat 12 that is operated and controlled by a lever 13 is provided, and external high-pressure air introduced from the air inlet 11 is controlled. An air supply pipe 14 is connected to the other side portion of the valve seat 12. An air supply hole 140 inside the air supply pipe 14 communicates with the valve seat 12 and the air inlet 11. A contact portion 141 is provided on one side of the air supply pipe 14 opposite to the valve seat 12. The contact portion 141 is provided with a contact bolt 1411 that protrudes to the outside from one side portion of the air supply pipe 14. A female screw hole 1412 is provided inside the contact bolt 1411 of the contact portion 141 on one side of the air supply hole 140.

A contact side 21 is provided on one side of the injection tube 2. A contact screw hole 211 is provided in the contact side 21. An accommodation space 20 penetrating the injection tube 2 is provided in the direction from the contact screw hole 211 on the contact side 21 to the inside of the injection tube 2. A pipe port 201 is provided on one side of the accommodation space 20.

The rotating device 3 includes an air supply pipe 31, a bearing 32, a connection cover 33, and a rotating body 34. The inside of the air supply pipe 31 has an air supply hole 310 that passes through the air supply pipe 31. A joint 311 is provided on one side outside the air supply pipe 31. The joint 311 is provided with a male screw rod 3111 that protrudes from one side of the air supply pipe 31 to the outside. A connecting portion 312 is provided on the other side portion of the air supply pipe 31 opposite to the joint portion 311. The connecting portion 312 includes a joining rod 3121 that protrudes to the outside from the other side portion of the air supply pipe 31, and a screw rod 3122 that protrudes to the outside from the other side portion of the joining rod 3121. By fitting the shaft hole 320 of the bearing 32 in the joining rod 3121 and screwing the nut 321 into the threaded rod 3122 portion, the bearing 32 can be prevented from falling off from the joint rod 3121 portion. The rotating ring 322 of the bearing 32 is fitted in the engaging groove 330 of the connection cover 33. An external screw 331 is provided outside the connection cover 33, and an internal screw hole 341 on one side of the rotating body 34 is screwed into the external screw 331 portion. The rotating body 34 is provided with an air collecting chamber 340 inwardly from the inner screw hole 341, and an inclined injection hole 342 that is inclined to the outside and is provided on the wall surface in one side direction from the air collecting chamber 340. It is done.

When assembling the above-mentioned members, a high-pressure air source provided outside is connected from the inlet 11 at the bottom of the grip 1 and is introduced from the inlet 11 by operating the lever 13 of the valve seat 12 portion of the grip 1. High pressure air is controlled. Next, the packing ring 1413 is fitted on the contact bolt 1411 portion of the contact portion 141 on one side of the air supply pipe 14 of the grip 1. Further, the contact screw hole 211 on the contact side 21 on one side of the injection tube 2 is screwed into the contact bolt 1411 portion of the contact portion 141. Further, the outer surface of the contact side 21 of the injection tube 2 is brought into contact with the packing ring 1413 to be tightly coupled. Thereby, the injection pipe 2 can be extended outside the contact portion 141 of the air supply pipe 14. Next, the male screw rod 3111 of the joint portion 311 on one side of the air supply tube 31 of the rotating device 3 is screwed into the female screw hole 1412 inside the contact portion 141 of the air supply tube 14. Further, the connecting portion 312 on the other side of the air feeding pipe 31 is extended to the tube port 201 portion on the other side of the accommodation space 20 of the injection pipe 2, and the rotating body 34 is mounted outside the connecting portion 312. Thereby, the air supply pipe 31 can be extended to the pipe opening 201 portion on one side of the accommodation space 20. With the above structure, the structure of the rotary cleaning gun according to the present invention including the grip 1, the injection tube 2, and the rotating device 3 is configured.

When using the rotary cleaning gun described above, the supply pipe 111 of the inlet 11 at the bottom of the grip 1 is connected to an external high-pressure air source (such as an air compressor), and the lever 13 on the valve seat 12 of the grip 1 is operated. Thus, external high-pressure air is introduced from the inlet 11 portion. High-pressure air enters the air supply hole 140 of the air supply pipe 14 from the air supply port 121 on one side of the valve seat 12, and is sent from the contact part 141 into the air supply hole 310 of the air supply pipe 31 of the rotating device 3. And enters the air collecting chamber 340 of the rotating body 34. As a result, the high-pressure air is injected to the outside from the inclined injection hole 342 on one side of the air collection chamber 340. At the same time, the rotating body 34 and the connecting cover 33 are driven by high-pressure air, rotate in the rotating ring 322 portion of the bearing 32, and remain or adhere to the surface of the object (vehicle body, building outer wall, window glass, etc.). It can be blown away without damaging dust.

The injection pipe 2 is connected to one side of the air supply pipe 14 of the grip 1. The injection tube 2 is a tube body such as a trumpet tube, a straight tube, or a polygonal tube.

  Please refer to FIG. 2, FIG. 3, FIG. 6 and FIG. FIG. 2 is an exploded perspective view showing the structure of the rotary cleaning gun of the present invention. FIG. 3 is an exploded perspective view showing a rotating device having a rotary cleaning gun structure according to the present invention. FIG. 6 is a partial cross-sectional view showing a state in which a water storage tank is attached to the structure of the rotary cleaning gun of the present invention. FIG. 7 is an enlarged view showing a portion B of FIG. As can be seen from FIGS. 2, 3, 6 and 7, the rotary cleaning gun of the present invention can be applied to spray fog water. When spraying fog water, a connecting pipe 142 is provided vertically at the bottom of the air supply pipe 14 on the other side of the grip 1, and the air supply pipe 14 becomes a T-shaped pipe branched in three directions. A water storage tank 1421 is connected to the bottom of the connecting pipe 142. A water supply pipe 1422 is provided inside the connecting pipe 142 and extends into the water storage tank 1421. A water supply pipe 1423 is connected to one side portion of the connecting pipe 142. The water supply pipe 1423 extends to the air supply hole 140 of the air supply pipe 14 and the air supply hole 310 of the air supply pipe 31 of the rotating device 3, and enters the air collecting chamber 340 of the rotating body 34. An end portion 1424 on one side of the water supply pipe 1423 is provided in a through hole 343 provided in the direction of the outer end surface 344 of one side of the air collecting chamber 340 of the rotating body 34. The hole diameter of the through hole 343 is larger than the outer diameter of the end portion 1424. A suitable gap is formed between the through hole 343 and the end 1424 on one side of the water supply pipe 1423. As a result, the high pressure air supply pipe 111 is connected to the air inlet 11 at the bottom of the grip 1, and an external air compressor is connected to the high pressure air supply pipe 111, and the valve seat 12 is controlled by the lever 13 of the grip 1 to enter the air. When the air introduced from the port 11 is sent out from the air supply port 121, the high pressure air enters the air supply hole 140 of the air supply tube 14 from the air supply port 121, and the air supply tube 31 of the rotating device 3 from the contact portion 141. Are sent into the air collecting chamber 340 of the rotator 34 through the air supply holes 310, and are injected from the inclined injection holes 342 to the outside. At the same time, the rotating body 34 is driven and rotated in the rotating ring 322 portion of the bearing 32, and the high-pressure air enters the connecting portion 312 on the other side of the air supply pipe 31 and the through hole 343 of the rotating body 34, and passes through. A venturi effect occurs at the hole 343 portion. Thereby, the liquid inside the water storage tank 1421 is pumped upward from the water supply pipe 1422 connected to the bottom of the connecting pipe 142. The liquid is introduced from the water supply pipe 1422 to the water supply pipe 1423 portion above the connecting pipe 142, and the end 1424 on one side of the water supply pipe 1423 penetrates into the through hole 343 of the rotating body 34. It injects outside from the part 1424 (refer FIG. 7). At the same time, the high-pressure air is formed between the through-hole 343 and the end portion 1424 in addition to the high-pressure air entering the air collection chamber 340 of the rotating body 34 and being injected outside through the inclined injection hole 342. The liquid sprayed to the outside from the gap and the liquid sprayed to the outside from the end portion 1424 can be atomized, and the fog water ejected from the end portion 1424 can be further refined. That is, by controlling the high pressure air introduced from the inlet 11 by operating the lever 13 of the valve seat 12 portion, the high pressure air enters the supply pipe 14 from the air supply hole 310 of the valve seat 12, A gap formed between the through hole 343 portion of the rotating body 34 and the end portion 1424 on one side of the water supply pipe 1423 in addition to being injected outside from the inclined injection hole 342 of the rotating body 34 of the rotating device 3. By injecting to the outside, gas and fog water can be injected. Further, the high-pressure air is further injected into the water atomized by the inclined injection hole 342 on the side of the through hole 343, so that the fog water can be further refined.

  In the cleaning gun described above, the rotating device 3 is attached to the contact bolt 1411 portion of the contact portion 141 of the air supply pipe 14 on the other side of the grip 1. The male screw rod 3111 of the air supply tube 31 of the rotating device 3 is screwed into the female screw hole 1412 of the contact portion 141. The bearing 32 is fitted to the connecting rod 3121 of the connecting portion 312 on the other side of the air supply pipe 31 and is screwed to the screwed rod 3122 by the nut 321. Since the outer diameter of the nut 321 is larger than the inner diameter of the shaft hole 320 of the bearing 32, the bearing 32 can be prevented from being detached from the joining rod 3121 by the nut 321. The rotating ring 322 of the bearing 32 is fitted in the engaging groove 330 of the connection cover 33. An inner screw hole 341 on one side of the rotating body 34 is screwed into the outer screw 331 portion of the connection cover 33. The air supply pipe 31 of the rotating device 3 is extended into the accommodation space 20 of the injection pipe 2, and only the rotating body 34 on the other side of the air supply pipe 31 rotates at the tube port 201 portion. When entering the 31 air supply holes 310, the air is sent into the air collecting chamber 340 of the rotator 34, and is injected to the outside from the inclined injection hole 342 portion of the rotator 34. At the same time, the rotating body 34 is driven and rotated by the rotating ring 322 of the bearing 32 together with the connection cover 33, and the high-pressure air sent from the air supply hole 310 is injected outside through the inclined injection hole 342, It is injected to the outside while being guided by the tube port 201 of the injection tube 2. Since the air supply pipe 31 does not rotate in the accommodation space 20 of the injection pipe 2, the air supply pipe 31 is prevented from being detached from the injection pipe 2 due to the centrifugal force of rotation, and the overall structural strength of the injection pipe 2 and the rotation device 3 is increased. Can be increased. If the end 1424 on one side of the water supply pipe 1423 is provided through the through hole 343 of the rotating body 34 of the rotating device 3, the liquid in the water storage tank 1421 is pumped by the water supply pipe 1423, and the water supply pipe Liquid is ejected from the end portion 1424 of 1423 to the through hole 343 portion of the rotating body 34 toward the outside. Further, since the high-pressure air is injected from the inclined injection hole 342 on the side of the through-hole 343, a strong injection action is provided, which assists in atomizing the liquid injected from the end portion 1424, and further supplies the fog water. Can be fine. Further, since the nut 321 is screwed and joined to the screw rod 3122 of the connecting portion 312 on the other side of the air supply pipe 31 of the rotating device 3, the bearing 32, the connecting cover 33, etc. are dropped from the connecting portion 312. Or difficult to separate. Further, when the inner threaded hole 341 on one side of the rotating body 34 is screwed to the outer screw 331 outside the connecting cover 33, the rotating body 34 and the connecting cover 33 are rotated outside the bearing 32. Since the screwing direction of the rotating body 34 and the connection cover 33 is opposite to the rotating direction of the rotating body 34, the rotating body 34 and the connecting cover 33 are not separated due to the centrifugal force. Thereby, when actually used, the combined structure of the rotating body 34, the bearing 32, and the connection cover 33 is unlikely to jump out from the inside of the accommodation space 20 of the injection pipe 2, so that the safety when using the cleaning gun is improved. , Parts can not fall off and an accident will not occur, and the risk can be reduced.

  The present invention provides a structure of a rotary cleaning gun, and an injection pipe and a rotating device are attached to a contact portion of an air supply pipe on the other side of the grip. The rotating device is located inside the accommodation space of the injection pipe. A bearing, a connecting cover, and a rotating body are attached to the connecting portion on the other side of the air supply pipe of the rotating device. The high pressure air introduced from the inlet can be controlled by operating the lever of the valve seat portion of the grip. The high-pressure air is sent from the air supply pipe to the air supply pipe of the rotating device, and is rotationally injected outside from the inclined injection hole of the rotating body portion on the other side of the air supply pipe. In addition, the air supply pipe of the rotating device is screwed to one side of the air supply pipe, the rotating body is attached to the other side of the air supply pipe, and the air supply pipe does not rotate in the accommodation space of the injection pipe. The jetting intensity can be increased. Further, a connecting pipe and a water storage tank can be provided at the bottom of the air supply pipe. As a result, the liquid in the water storage tank can be sent from the air supply hole of the air supply pipe to the rotating body portion on the other side of the air supply pipe of the rotating device, and gas and fog water can be injected at the same time. Can be fine.

The above description shows an embodiment of the present invention, and the above-mentioned embodiment does not limit the scope of the utility model registration request of the present invention, and substantially does not depart from the gist of the present invention. Changes and modifications to the equivalent configuration are included in the scope of the utility model registration request of the present invention.

As can be seen from the above description, the structure of the rotary cleaning gun according to the present invention can surely achieve the desired effect and purpose, and can be said to be a device with excellent practicality.

1 Grip 11 Air inlet 111 Air supply pipe 12 Valve seat 121 Air supply opening 13 Lever 14 Air supply pipe 140 Air supply hole 141 Contact part 1411 Contact bolt 1412 Female screw hole 1413 Packing ring 142 Connection pipe 1421 Water storage tank 1422 Water supply pipe 1423 Water pipe 1424 End part 2 Injection pipe 20 Accommodating space 201 Pipe port 21 Contact side 211 Contact screw hole 3 Rotating device 31 Air supply pipe 310 Air supply hole 311 Joining part 3111 Male screw rod 312 Connecting part 3121 Joining rod 3122 Screwing rod 32 Bearing 320 Shaft hole 321 Nut 322 Rotating ring 33 Connecting cover 330 Engaging groove 331 External screw 34 Rotating body 340 Air collection chamber 341 Internal screw hole 342 Inclined injection hole 343 Through hole 344 Outer end surface A Cleaning gun A1 Grip A2 T-shaped tube A3 Liquid tank A4 Mouth end B injection pipe member B1 injection pipe B11 screwing stand C rotary tube C1 connector C2 weighted pipe C3 pumping tube C31 injection port

Claims (3)

A structure of a rotary cleaning gun including a grip and a rotating device,
An air inlet for introducing external high-pressure air is provided on one side of the grip, and a valve seat having a lever is provided above the air inlet, and on one side of the valve seat The air supply pipe is connected, the inside of the air supply pipe has an air supply hole communicating with the valve seat and the inlet, and a side portion of the air supply pipe opposite to the valve seat is in contact with The part is convex,
The rotating device includes an air supply pipe that is attached to the contact portion and extends to the outside, a connection cover that is attached to a connecting portion of a side portion of the air supply pipe, a bearing, and a rotating body. An air supply hole penetrating the air supply pipe is provided inside the air supply pipe, and a connection cover that is driven and rotated by the rotating body is fitted outside the bearing, and outside the connection cover A rotary cleaning gun structure characterized in that a rotating body having an inclined injection hole is mounted, and a gas collecting chamber facing the air supply hole of the air supply pipe is provided inside the rotary body.   A contact bolt protruding outward from one side of the air supply pipe is provided at a contact part of one side of the air supply pipe of the grip, and in the contact bolt of the contact part, A female screw hole located on one side of the air supply hole is provided, and the outside of the contact bolt of the contact portion is in close contact with the contact side of the one side portion of the injection pipe. A packing ring is fitted, and a contact screw hole to be screwed to the contact bolt is provided on a contact side of one side portion of the injection tube, and one side portion of the air supply tube of the rotating device is provided. The joint portion is provided with a male screw rod that is screwed into the female screw hole portion, the jet pipe is attached to the grip contact portion, and one side portion of the jet pipe is provided with the A contact side to be mounted on the contact portion is provided, and the rotation of the injection pipe penetrates from the contact side to the other side portion in the inside of the injection pipe. A storage space into which the air supply pipe of the apparatus enters is provided, and a pipe opening extending outside is provided in the storage space on the opposite side to the contact side of the injection pipe. The injection pipe includes a trumpet pipe and a straight pipe. Alternatively, a multi-sided pipe body, a connecting pipe is provided at the bottom of the air supply pipe, the air supply pipe is a T-shaped pipe, and a reservoir for storing liquid at the bottom of the connecting pipe A tank is connected, a water supply pipe for pumping liquid to the connecting pipe portion is provided in the water storage tank, and a water supply pipe for sending the liquid pumped by the water supply pipe to the outside is provided in the connecting pipe, The water supply pipe extends from the connecting pipe portion into the air supply hole of the air supply pipe, and one side portion of the water supply pipe is provided with an end portion penetrating to the outside of the air supply hole of the air supply pipe. One side of the air collecting chamber of the rotating body is provided with an end of one side of the water pipe. The through hole is located on the side of the inclined injection hole of the rotator, and the air collecting chamber with one side penetrating to the outside is recessed in the rotator. A through hole penetrating to the outside is provided at a central position of the wall surface of the other side of the air collecting chamber, and an inclined injection hole penetrating to the outside is provided on a side of the through hole. The diameter of the through hole is larger than the outer diameter of the end of one side of the water pipe, and gas passes through the through hole portion outside the end of the one side of the water pipe. The structure of the rotary cleaning gun according to claim 1, wherein a gap is formed.   The connecting portion on the other side of the air supply pipe of the rotating device has a joining rod that protrudes outside from the other side of the air supply pipe, and a screw rod that protrudes outside from the outside of the joining rod. The joint rod is positioned by fitting a shaft hole of the bearing, and the outside of the bearing is screwed to the screw rod portion to prevent the bearing from being detached from the joint rod. An engaging groove for engaging and fixing the rotating ring is provided inside the connecting cover, and an external screw is provided outside the engaging groove of the connecting cover. The other side portion of the air collecting chamber is provided with an inner screw hole to be screwed to the outer screw portion, and the outer diameter of the joining rod is smaller than the outer diameter of the air supply pipe, The diameter is smaller than the outer diameter of the joining rod, and the outer diameter of the nut Is larger than the hole diameter of the shaft hole of the bearing, and the inside of the rotating body is provided with a concave air collecting chamber having one side penetrating to the outside, and the other side portion penetrating into the air collecting chamber. 2. An inner screw hole with a reduced hole diameter is provided, and a wall surface on one side of the air collecting chamber is provided with an inclined injection hole that is inclined and penetrates to the outside. Structure of the rotary cleaning gun described in 1.

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