KR200355153Y1 - Dry ice feeder for dry ice washer - Google Patents

Abstract

The present invention relates to a dry ice scrubber that cleans various machinery and facilities by spraying particles of dry ice at high speed by compressed air. The present invention provides a better supply of dry ice fillets contained in a hopper to the spray gun side. will be.

To this end, the rotatable body 54 is rotatably installed directly below the hopper 52 in which the dry ice fillet 51 is contained, so that the dry ice fillet in the hopper moves through the air hose 57b in accordance with the rotation of the rotatable body. In the dry ice supply apparatus of the dry ice washer configured to be projected by the spray gun 61, the hemispherical recess groove 56 parallel to the outer peripheral surface of the rotor 54 along the central axis 55 of the rotor is left, A plurality of right-sided openings are formed, and in the housing 53 in which the rotor 54 is installed, a through hole 58 to which the air hoses 57a and 57b are connected in parallel with the central axis 55 of the rotor is formed. On the central portion of the through hole 58, any one of the concave grooves 56 formed in the rotating body 54 is formed to form a receiving groove 59 forming a circle.

Description

Dry ice feeder of dry ice scrubber {omitted}

The present invention relates to a dry ice scrubber that cleans various machinery and facilities by spraying the dry ice particles at high speed by compressed air, and more specifically, to dry the dry ice particles contained in the hopper to the spray gun side. It relates to a dry ice supply device for a dry ice washer that can be supplied.

In general, contamination of general machinery, parts, materials, structures, etc., causes the function and life of the product to be degraded. Therefore, the outside of them must be cleaned. This cleaning technique is a method of maintaining the reliability of the product by cleaning the source of contamination. As a basic and comprehensive technology related to all industries, it is recognized as one of the important factors of industrial productivity.

However, with the development of the industry, environmental pollution is also a problem of survival, and the Montreal Protocol, which decided specific regulatory measures based on the empty treaty for the protection of the ozone layer, was required in September 1987. Adopted on the 16th, Korea has banned the use of ethane and freon, which has been used for a long time in the cleaning field since 1996.

Therefore, at present, the blast method of removing contaminants on the surface by projecting sand, steel balls, ceramic balls, etc. at high speed is generally used for cleaning general apparatus instruments and structures.

This method not only has excellent cleaning power of contaminants but also has a great effect on prolonging the life of the product, and thus is widely used for cleaning machinery and structures.

However, such a blasting method has been pointed out that the problem of environmental pollution by the pollutants remaining in the medium can not be reused after the cleaning is completed.

In addition, there is a problem that cannot use the blast cleaning method for ultra-precision products such as semiconductors, printers, and the like, there is an urgent need to develop a cleaning device and peripheral device suitable for the production of precision parts while coping with environmental regulations.

As a method for this, a cleaning method using dry ice has been proposed. The cleaning method using dry ice is a method of projecting a small fillet of dry ice at high speed to impinge on the surface of the product. Alternatively, the removal of contaminants is useful, and the dry ice fillet projected onto the surface of the product is vaporized and disappears.

Since the generation of the centrifugal force for projecting the dry ice fillet is controlled by the DC motor, it is possible to accurately control the speed of the rotating body, thereby completely finishing the work without damaging the surface to be cleaned.

That is, when the rotating body rotates, 25,000 dry ice fillets per second fly at a speed of 330 m / sec and collide with the surface to remove contaminants on the surface of the product, and the dry ice fillet after removing the contaminants continues to sublimate. Is generated, the gas is generated from the surface and has the same effect as floating in the air without a bearing on its own. Accordingly, the dry ice fillet is accelerated with little frictional loss in the process of supplying the dry ice fillet. Projected toward the surface to remove contaminants accumulated on the surface.

1 is an exploded perspective view showing an embodiment of a conventional apparatus, which is supported in a case and has a frame plate 2 having a discharge hole 2a drilled in an up and down direction, and is fixed to an upper portion of the frame plate 2 and left. The guide plate 3 having the guide groove 3a in the right direction and the guide groove 3a of the guide plate 3 are placed together with the pad 4a and slidable in the horizontal direction by the cylinder 4b. , A sliding rod 4 having three inlet holes 4c drilled downward, and a wide upper portion and a narrower lower portion, and having an outlet 5a at the lower end thereof, the left and right inlet holes of the slide rod 4 ( The hopper 5 connected to 4c, one end thereof is connected to the discharge hole 2a of the frame plate 2 through the inlet hole 4c of the sliding rod 4, and the other end thereof is connected to the compressor 6a. A compressed air hose 6 connected to blow compressed air, and one end thereof is connected to a lower portion of the discharge hole 2a of the frame plate 2 and the other end thereof. It consists of the injection hose (7) connected to the four cases.

Therefore, when the dry ice fillet contained in the hopper 5 coincides with the inlet hole 4c of the sliding rod 4 through the outlet port 5a, it naturally falls. In this state, the cylinder 4b and the compressor 6a are driven. When the slide rod 4 is reciprocated left and right, and coincides with the discharge hole 2a, dry ice impinges on the surface of the object to be cleaned through the injection hose 7 by the high pressure air injected from the compressor 6a. To give.

However, such a conventional device has a problem that the cleaning speed of the contaminant is deteriorated since the amount of dry ice sprayed by the moving speed of the sliding bar 4 is almost constant.

Therefore, a device for solving the above problems has been developed and registered as Utility Model No. 193,778.

Figure 2 is a schematic view showing another embodiment of the conventional device and Figure 3 is a perspective view showing the structure of the rotating plate in another embodiment of the conventional device and Figure 4 is a longitudinal sectional view of Figure 3, installed in a case and dry ice fillet The upper portion is formed to be wide to form a lower portion and the lower portion is formed narrowly, and at the lower end thereof, a hopper 20 having an outlet 21 and rotatably installed below the outlet 21 of the hopper 20 It is connected to the rotary plate 30 of the disc-shaped and the supply groove 31 of the rotating plate 30 to form a supply groove 31 for receiving the dry ice fillet discharged from the outlet 21 at regular intervals It consists of the air hose 40 which discharges the dry ice fillet which falls from the supply groove 31 to the compressed air of the compressor 41. As shown in FIG.

Accordingly, when the rotational force of the motor is transmitted to the rotating plate 30, the dry ice fillet is discharged from the outlet 21 of the hopper 20 and filled in the supply groove 31 formed on the outer circumferential surface while the rotating plate 30 is rotated.

As such, the dry ice fillet filled in the supply groove 31 falls when positioned in the air hose 40. At this time, when the compressed air is sprayed from the compressor 41, the dry ice fillet is spun at high speed through the spray gun 42. It is sprayed and hits the surface of the object to be cleaned, so that the foreign matter layer on the surface is rapidly frozen by cryogenic freezing and comes off cleanly.

However, in such a device, a disk-shaped rotary plate 30 having a plurality of supply grooves 31 formed on an outer circumferential surface thereof is installed below the outlet 21 of the hopper 20 to rotate dry ice fillets by air hoses. By allowing the transfer to 40, it has the advantage of controlling the injection amount of the dry ice fillet by adjusting the speed of the rotating plate 30, the supply groove formed on the outer peripheral surface of the rotating plate is formed in the pocket form as shown in Figure 3 and compressed The air hose through which the air passes is located at right angles to the axis of the rotating plate, so even if the supply groove filled with the dry ice fillet reaches the point where the air hose is installed by the rotation of the rotating plate, the dry ice fillet contained in the supply groove falls freely to the air hose side. It is a fatal defect that is frequently stuck to the supply groove instead of being fixed.

That is, the dry ice fillet in the supply groove of the rotating plate should drop to the air hose side due to the pressure difference of the air acting on the air hose, but if the dry ice fillet is stuck in the supply groove, the supply groove coincides with the air hose. Even though the dry ice fillet in the supply groove is located in the supply groove rather than being discharged to the air hose side, a problem inevitably requires the use of a high capacity compressor in order to force the discharge.

In addition, the size of the feed groove formed in the rotating plate is small in order to project a large amount of dry ice fillet had to rotate the rotating plate faster.

The present invention has been made to solve such a conventional problem, by improving the structure of the housing and the rotating body in which the rotating body is installed forced all of the dry ice fillet contained in the yaw groove formed on the outer peripheral surface of the rotating body through the air hose Its purpose is to allow it to be discharged.

Another object of the present invention is to allow a large amount of dry ice fillet to be projected through the spray gun through the air hose while rotating the rotating body slowly.

According to a form of the present invention for achieving the above object, by installing a rotatable body directly below the hopper in which the dry ice fillet is contained, the dry ice fillet in the hopper is sprayed through the air hose as the rotor rotates In the dry ice supply apparatus of the dry ice washer configured to project, a plurality of hemispherical recess grooves parallel to the outer circumferential surface of the rotating body along the central axis of the rotating body are formed so that left and right sides are opened, and the rotating body is installed in the housing where the rotating body is installed. The through-hole is formed to be connected to the air hose in parallel with the central axis of the dry ice scrubber, characterized in that the receiving groove is formed on the center of the through hole is formed by matching any one of the recess groove formed in the rotating body A dry ice feeder is provided.

1 is an exploded perspective view showing an embodiment of a conventional device

Figure 2 is a block diagram showing another embodiment of the conventional device

Figure 3 is a perspective view showing the structure of the rotating plate in another embodiment of the conventional device

4 is a longitudinal cross-sectional view of FIG.

5 is a structural diagram showing an apparatus of the present invention

6 is a cross-sectional view taken along the line A-A of FIG.

7 is a perspective view showing a rotating plate of the present invention

8 is a longitudinal cross-sectional view of FIG.

Explanation of symbols for the main parts of the drawings

51: Dry Ice Fillet 52: Hopper

53 housing 54 rotating body

56: recessed groove 57a, 57b: air hose

58: through hole 59: receiving groove

60: compressor 61: spray gun

Hereinafter, with reference to Figures 5 to 8 showing the present invention as an embodiment in more detail as follows.

Figure 5 is a structural diagram showing the device of the present invention, Figure 6 is a cross-sectional view taken along line A-A of Figure 5, Figure 7 is a perspective view showing a rotating plate of the present invention, the present invention is a hopper 52 containing a dry ice fillet 51 The housing 53 is installed directly under the head), and a rotor 54 that rotates by the rotational force of the driving means (motor or pneumatic) is installed inside the housing 53.

As shown in FIGS. 7 and 8, a plurality of hemispherical recessed grooves 56 parallel along the central axis 55 of the rotating body are continuously formed on the outer circumferential surface of the rotating body 54 such that the left and right sides are opened. The housing 53 in which the rotating body is installed is formed with a through hole 58 to which the air hose 57a is connected in parallel with the central axis 55 of the rotating body. The rotating body is formed on the center of the through hole 58. Any one of the concave grooves 56 formed in the 54 is formed with a receiving groove 59 forming a circle.

In addition, an air hose 57a for supplying the compressed air generated by the compressor 60 to the inside of the housing 53 is connected to the inlet side of the through hole 58 formed in the housing 53, and the through hole 58 is connected. Another air hose 57b to which the spray gun 61 is connected is connected to the discharge side of the pump.

Referring to the operation of the present invention configured as described above are as follows.

First, when a certain amount of dry ice fillet 51 is filled in the hopper 52, the dry ice fillet is freely dropped downward by its own weight so as to be filled in any one recessed groove 56 formed on the outer circumferential surface of the rotating body 54. do.

In this state, when the rotational force of the driving means is transmitted to the rotating body 54 and the rotating body 54 rotates, the dry ice fillet 51 in the skin 52 is formed in the recessed groove 56 formed on the outer circumferential surface of the rotating body 54. ) Will be filled continuously.

As such, the compressed air generated by the compressor 60 in the process of rotating the dry ice fillet 51 in the hopper 52 continuously filled in the concave groove 56 by the rotation of the rotor 54 is an air hose ( One of the recessed grooves 56 in which the dry ice fillet 51 is filled is supplied to the through hole 58 formed in parallel with the central axis 55 of the rotating body 54 on one side of the housing 53 through 57a). When the receiving groove 59 formed in the housing 53 is reached, that is, when the position of the through hole 58 formed in the housing 53 is reached, the dry ice fillet 51 filled in the concave groove 56 is subjected to air pressure. By spraying through the discharge side through-hole and the air hose 57b to the injection gun 61, the impact on the surface of the object to be cleaned, the foreign matter layer on the surface of the surface by cryogenic freezing to come off to clean.

In the process of performing the above-described operation, the recess groove 56 formed on the outer circumferential surface of the rotating body 54 forms a conduit in a straight line with the through hole 58 formed in the housing 53 as shown in FIG. 8. Since the same effect is observed, even if the dry ice fillet 51 is stuck on the inlet groove 56, it is completely separated from the inlet groove 56 by the air pressure acting as the through hole 58 and is transferred to the air hose 57b. Will be.

As described above, the present invention has an indentation groove having left and right openings formed on the outer circumferential surface of the rotating body, and a through hole for matching the indentation groove is formed in the housing so that any one indentation groove filled with dry ice fillet matches the through hole. When the air pressure is applied through the air hose in the closed state, the dry ice fillet contained in the indentation groove is forcibly discharged by the air pressure, so even if the dry ice fillet is stuck in the indentation groove, the dry ice fillet remains in the inlet groove. Will be prevented.

In addition, the grooves formed in the rotating body are open to the left and right, so that the size is much larger than the conventional supply groove, it is possible to supply a larger amount of dry ice fillet to the spray gun side without increasing the number of rotation of the rotating body. You also get the effect.

Claims (1)

In the dry ice supply device of the dry ice scrubber configured to rotatably install a rotating body directly below the hopper containing the dry ice fillet so that the dry ice fillet in the hopper is projected to the spray gun through the air hose in accordance with the rotation of the rotating body A plurality of hemispherical recessed grooves are formed on the outer circumferential surface of the rotating body along the central axis of the rotating body so that the left and right sides are opened, and the housing where the rotating body is installed is connected to the air hose in parallel with the central axis of the rotating body. To form a dry ice cleaning device, characterized in that formed on the center of the through-hole of any one of the concave groove formed in the rotating body is formed in the receiving groove forming a circle.