KR20220001152U - Dust collector system - Google Patents

Abstract

The present invention relates to a dust collector system, in which a plurality of sub hoses are installed on the ceiling, brackets having spray nozzles on both sides of the sub hose are installed at equal intervals, and a pumping operation is installed at the end of the sub hose. With the installation configuration, water supplied to the sub-hose due to the operation of the pump is sprayed into the room through the spray nozzle, so that it is possible not only to remove dust generated in the room, but also to prevent the room temperature from rising, Since water is sprayed into the room through the spray nozzle, it is possible to prevent the drying of the room in advance, thereby maximally preventing fire and respiratory diseases from occurring to workers working indoors, and between the sub-hose and the bracket. By installing and configuring a rotating means located at Since it is not necessary to install the sub-hose and spray nozzle of formed so that the regulator groove is provided inside the supply unit, and a bypass pipe for supplying water to an adjacent rotating means is coupled to the sub hose with a branch bracket, and the water pressure of the water supplied from the pump toward the end of the sub hose This was done to prevent it from being lowered as much as possible.

Description

Dust collector system { Dust collector system }

The present invention relates to a dust collector system, and more particularly, a plurality of sub hoses made of a soft material are installed on the ceiling, and brackets having spray nozzles on both sides of the lower part are installed at equal intervals in the sub hose, and pumping operation The pump is installed at the end of the sub-hose, and water supplied to the sub-hose is sprayed into the room through the spray nozzle due to the operation of the pump. While being able to prevent the rise of water, it is possible to prevent the drying of the room in advance because water is sprayed into the room through the spray nozzle, thereby maximally preventing the occurrence of fires and respiratory diseases to workers working indoors. and a rotating means positioned between the sub-hose and the bracket is installed, and the bracket provided with the spray nozzles on both sides is rotated by the rotating means, so that water sprayed through the spray nozzle by the rotating bracket It relates to a dust collector system that allows a large number of sub hoses and spray nozzles to be installed on the ceiling to be widely sprayed in this room, thereby reducing installation cost and significantly reducing installation time.

In general, dust collectors are designed to remove dust and other substances generated indoors.

A conventional dust collector includes a suction pipe for sucking dust, dust, and these substances generated indoors, a filtration filter for filtering dust, dust and foreign substances introduced through the suction pipe, and air removed by the filtration filter to the outside. It consists of a discharge/supply pipe that discharges to the room or supplies it back to the room.

However, the problem of the conventional dust collector is that indoor air is sucked in order to remove dust, dust and other substances generated in the room, and the sucked air is filtered. There was a problem that it was not easy to remove this material.

Therefore, since a large number of dust collectors need to be installed to fit the indoor area, there is a problem in that it is difficult to easily install the dust collectors in a place where an installation space for the dust collectors is not secured.

In addition, since the indoor air is sucked and filtered to remove dust, dust and other substances, there is a problem in that the indoor air cannot be dried or the temperature cannot be prevented from rising.

Therefore, in dry weather, a fire or the like may occur due to static electricity or small sparks generated during work, or in hot summer, a separate air conditioner must be operated.

◈ Prior art literature ◈

Korean Patent Registration No. 10-1347720

Therefore, the present invention to solve the above problem is to install a plurality of sub hoses on the ceiling, to install the brackets provided with spray nozzles on both lower sides of the sub hose at equal intervals, and to install a pumping operation of the sub hose. By installing at the end, water supplied to the sub-hose is sprayed into the room through the spray nozzle due to the operation of the pump, so it is possible to not only remove dust, etc. generated in the room but also prevent the room temperature from rising. While there is, it is possible to prevent the drying of the room in advance because water is sprayed into the room through the spray nozzle, thereby maximally preventing fire and respiratory diseases from occurring to workers working indoors, and the sub hose and By installing and configuring a rotating means located between the brackets, the brackets having spray nozzles installed on both lower sides are rotated by the rotation means, so that the water sprayed through the spray nozzles by the rotating brackets is widely sprayed into the room. Since it is not necessary to install a large number of sub hoses and spray nozzles on the ceiling, the installation cost of the dust collector can be reduced and the installation time can be significantly reduced. It is formed to be stepped so that the regulator groove is provided inside the supply unit, and the bypass pipe for supplying water to the adjacent rotating means is coupled with a branch bracket on the sub hose, so that it is supplied from the pump toward the end of the sub hose. An object of the present invention is to provide a dust collector system capable of maximally preventing the water pressure from being lowered.

The present invention for achieving the above object,

a sub hose installed at equal intervals on the ceiling;

a pump for supplying water to the sub-hose while pumping;

A spray means installed at equal intervals in the sub-hose so as to spray the water supplied through the pump into the room; and

The spray means,

a bracket 30 provided with hose connection parts at both ends and having a through-hole formed in the center;

a nozzle coupling hole formed on both sides of the lower portion of the bracket to communicate with the through hole;

It is characterized in that it consists of a spray nozzle coupled to the nozzle coupling hole to spray water supplied to the bracket to the outside.

According to the present invention, a plurality of sub hoses are installed on the ceiling, brackets provided with spray nozzles on both sides of the sub hose are installed at equal intervals, and a pump operated by pumping is installed at the end of the sub hose, and the As the water supplied to the sub-hose is sprayed into the room through the spray nozzle due to the operation of the pump, it is possible to not only remove dust generated in the room, but also to prevent the indoor temperature from rising. .

In addition, since water is sprayed into the room through the spray nozzle, it can be expected to prevent the drying of the room in advance, thereby maximally preventing the occurrence of fire and respiratory diseases to workers working indoors.

And by installing and configuring a rotating means positioned between the sub-hose and the bracket, the brackets provided with the spray nozzles on both sides of the lower part are rotated by the rotation means, so that water sprayed through the spray nozzles by the rotating brackets enters the room. Since it is not necessary to install a large number of sub hoses and spray nozzles on the ceiling by spraying widely, it is possible to expect the effect of significantly reducing the installation time while reducing the installation cost of the dust collector.

In addition, a supply part having a supply hole is formed at one side of the housing constituting the rotation means such that a regulator groove is provided inside the supply part, and a bypass pipe for supplying water to an adjacent rotation means is provided as the sub-hose. It can be expected to have an effect of maximally preventing the water pressure of the water supplied from the pump from lowering toward the end of the sub-hose by combining it with a branch bracket on the top.

1 is a view showing a state in which the dust collector system of the present invention is installed.
Figure 2 is a partial enlarged view showing the spray means of the present invention.
Figure 3 is a view showing a bracket of the spray means of the present invention.
Figure 4 is a view showing another embodiment of the bracket of the spray means of the present invention.
5 is a view showing another embodiment of the dust collector system of the present invention.
Figure 6 is a partial enlarged plan view of another embodiment of the dust collector system of the present invention.
7 is a partial enlarged cross-sectional view showing a rotating means of another embodiment of the present invention is a dust collector system.
Figure 7 is an operating state diagram showing an operating state of the rotating means of another embodiment of the dust collector system of the present invention.
8 is a perspective view showing a bracket of another embodiment of the dust collector system of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying FIGS. 1 to 8 .

According to the drawings, the present invention is

And sub hoses installed at equal intervals on the ceiling (C);

a pump 300 for supplying water to the sub-hose while pumping;

It consists of a; spray means 20 installed at equal intervals in the sub-hose to spray the water supplied through the pump 300 into the room; and

The spray means 20,

a bracket 30 provided with hose connection portions 42 at both ends and having a through hole 41 formed in the center;

a nozzle coupling hole 50 formed on both sides of the lower portion of the bracket 30 to communicate with the through hole 41;

A spray nozzle 70 coupled to the nozzle coupling hole 50 to spray water supplied to the bracket 30 to the outside; characterized in that it is composed of a.

The present invention relates to a dust collector in which Figure 1 and rkz supply water to the ceiling (C) and spray it at the same time to remove dust, dust and foreign substances generated in the field, such as a factory.

The dust collector includes a plurality of sub hoses 10 installed at equal intervals on the ceiling, a plurality of spray means 20 installed at equal intervals on the sub hose 10, and the spray means ( 20) through the pump 300 for supplying water to the sub-hose 20 so as to inject water into a room such as a factory.

Although not shown in the drawing, the sub hose 20 is installed on the ceiling using a separate installation bracket.

The sub-hose 10 installed on the ceiling C is formed by double-injecting a resin made of a thin thread or the like inside a tube made of a silicone material.

The spray means 20 includes a bracket 30 installed at equal intervals on the sub hose 10 as shown in FIG. 1 , and a hose fixing part 60 capable of coupling the bracket 30 to the sub hose 10 . consist of

The hose fixing part 60 for coupling the bracket 30 to the sub hose 10 is a general technique and a description thereof will be omitted.

As shown in FIG. 3 (a), the bracket 30 forms a cube-shaped bracket body 40 and a hose connection part 42 on both sides of the bracket body 40 stepwise.

A fixing groove 43 is formed on the outer peripheral surface of the hose connection part 42 so that the sub hose 10 can be firmly coupled to the hose connection part 42 using the hose fixing part 60 .

A through hole 41 is formed in the bracket 30 so that water supplied from the pump 300 is supplied to an adjacent bracket 30 , and a nozzle coupling hole 50 communicating with the through hole 41 is formed in the bracket. (30) is formed on both sides of the lower part.

At this time, as shown in FIG. 4 , the nozzle coupling hole 50 may be formed in the lower central portion of the bracket body 40 to communicate with the through hole 41 , and in the present invention, the two nozzle coupling holes 50 are provided in the bracket body. Formed on both lower sides of (40) will be described as an example.

The spray nozzle 70 is coupled to the nozzle coupling hole 50 formed in the bracket body 40 as shown in FIG. 3(c).

Therefore, when water is supplied to the sub hose 10 by the pumping operation of the pump 300, it flows into the inside of the bracket body 40 constituting the spray means 20 coupled to the sub hose 10, and , the water introduced into the bracket body 40 is sprayed into the room where the sub-hose 10 is installed on the ceiling C through the spray nozzle 70 as shown in FIG. 1 , and dust, dust and material can be removed.

Meanwhile, FIGS. 5 to 9 show another embodiment of the dust collector, and the same reference numerals are denoted with respect to the same components, and descriptions of overlapping reference numerals will be omitted.

Another embodiment of the present invention is,

A rotation means 100 for rotating the bracket 30 using the water supplied to the sub hose is further installed between the sub hose and the bracket 30,

The rotation means 100,

a housing 110 having an installation groove 110 formed therein;

It is formed on one surface of the housing 110 so that the sub-hose is connected, and the supply part 121 provided with the supply hole 122 communicating with the installation groove 111 is formed stepwise, so that the regulator groove 123 is provided therein. The first hose coupling portion 120 and;

a second hose coupling part 130 formed on the other surface of the housing 100 to correspond to the first hose coupling part 120 and provided with a discharge hole 131 communicating with the installation groove 111;

a rotation shaft 170 formed in a hollow shape vertically formed inside the installation groove 111;

A plurality of outlet holes 181 for discharging water flowing into the interior of the housing 110 through the supply hole 122 to the outside are provided, and at the end of the rotating shaft 170 to protrude from the lower end of the housing 110 . a coupling shaft 180 extending and formed;

The rotary blade 160 is radially formed on the outer circumferential surface, and the rotary body 150 is coupled to the outer circumferential surface of the rotary shaft 170 so that the rotary shaft 170 is rotated by the water pressure of water supplied through the supply hole 122;

A shaft coupling portion 190 protruding from the upper surface of the bracket body 40 so that the bracket 30 is coupled to the lower outer circumferential surface of the coupling shaft 180;

Couple the 'T'-shaped branch bracket 200 to the sub-hose with the rotation means 100 as the center,

By connecting the branch bracket 200 to supply the water filled in the regulator groove 123 to the adjacent rotating means 100, a bypass pipe 210 that prevents the water pressure from being lowered is coupled to the branch bracket 200 It is characterized in that it is composed.

A branch pipe 140 communicating with the supply hole 122 is formed in the housing 110,

The branch pipe 140 is

a first branch pipe 141 for supplying water to the rotating body 150;

A second branch pipe 142 for supplying water to the coupling shaft 180; characterized in that it is composed of.

In another embodiment of the present invention, the rotation means 100 is further installed between the sub-hose 10 and the bracket 10, and is coupled to the sub-hose 10 by the water pressure generated by the pumping operation of the pump 300. The bracket 30 is rotated so that the water sprayed through the spray nozzle 70 is sprayed away from the room, so that a small number of sub hoses 10 and spray means 40 can be installed.

According to the present invention, as shown in FIG. 8 (b), the bracket 30 in which the spray nozzle 70 is coupled to the lower both sides of the bracket 30 is coupled to the rotating means 100 and sprayed through the spray nozzle 70. Since the water is sprayed while being rotated by the rotation means 100, it is sprayed widely in the room.

The rotating means 100 includes a housing 110 installed at equal intervals on the sub-hose 10 , a rotating body 150 rotatably installed inside the housing 110 , and a rotating body 150 . It is composed of a shaft coupling portion 190, which is formed to protrude in communication with the through hole 41 on the upper surface of the bracket body 40 so as to rotate in the rotational direction.

A first hose coupling part having an installation groove 111 formed inside the housing 110 and a supply hole 122 capable of supplying water into the installation groove 111 on one surface of the housing 110 . 120 , and a second hose coupling part 130 provided with a discharge hole 130 to correspond to the first hose coupling part 120 is formed on the other surface of the housing 110 .

At this time, the partition wall 112 is formed in the installation groove 111 , and the water which rotates the rotating body 150 by the partition wall 112 is discharged through the discharge hole 131 provided in the second hose coupling part 130 . It is supplied to the rotating means 100 coupled to the adjacent sub-hose 10 through the.

A bearing is coupled to the installation groove 111 to pass through the rotation shaft 170 formed in a hollow shape, and an outlet hole 181 is provided at the lower end of the rotation shaft 170 to connect the coupling shaft 180 formed along the outer circumferential surface to the housing 110 . It is formed to protrude from the lower central part of the

A bracket 30 is coupled to the outer circumferential surface of the coupling part 180,

In the upper center of the bracket body 40 so that the bracket 30 is coupled to the outer circumferential surface of the coupling part 180, a shaft coupling part 190 communicating with the through hole 41 is formed to protrude as shown in FIG. 7(b). do.

In this way, the rotating shaft 170 to which the bracket 40 is coupled is coupled to the rotating body 150 in which the rotating blades 160 are radially formed on the outer circumferential surface as shown in FIG. 7 .

The supply hole 122 is provided with a first branch pipe 141 for supplying water to the rotating body 150 and a second branch pipe 142 for supplying water to the outlet hole 181 . (140) is combined.

Accordingly, the water supplied through the branch pipe 140 is supplied to the rotating body 150 through the first branch pipe 141 , and is supplied to the lower part of the installation groove 111 through the second branch pipe 142 , , the water supplied to the lower portion of the installation groove 111 is supplied to the inside of the bracket 30 through the outlet hole 181 provided in the coupling shaft 180 .

At this time, the stoppers 250 are coupled to both ends of the bracket 30 as shown in FIG. 9 to prevent water flowing in through the through hole 41 from flowing out to both ends of the bracket 30 .

Meanwhile, the first hose coupling part 120 forms the supply part 121 provided with the supply hole 122 in a stepped manner to form a regulator groove 123 in the supply part 121 .

By forming the regulator groove 123 in the supply part 121 , the amount of water supplied to the inside of the housing 110 through the sub-hose 10 is prevented from being supplied to the installation groove 111 as it is.

And the bypass pipe 210 connecting the sub hoses 10 formed on both sides with the rotation means 100 as the center is combined using the branch bracket 200 formed in a 'T' shape, and the bypass pipe The water remaining in the regulator groove 123 through 210 is supplied to the neighboring rotation means 100 .

The operating state of another embodiment of the present invention configured as described above will be described as follows.

First, high-pressure water is supplied to the sub-hose (C) installed on the ceiling (C) due to the pumping operation of the pump (300).

The high-pressure water supplied to the sub-hose C is supplied to the installation groove 111 provided in the housing 110 through the supply hole 122 provided in the first hose coupling part 120 while being supplied to the rotating shaft ( 150) rotates the rotating body 150 in the right direction in the drawing.

As the rotating body 150 rotates, the water supplied to the lower inner side of the installation groove 111 through the second branch pipe 142 constituting the branch pipe 140 coupled to the supply hole 122 is The outlet hole 181 provided on the outer circumferential surface of the coupling shaft 180 extending under the rotation shaft 170 is supplied to the inside of the open bracket 40, and the water supplied to the inside of the bracket 40 is a spray nozzle. It is sprayed through (70).

On the other hand, the water flowing into the housing 110 is not supplied to the installation groove 111 by the regulator groove 123 provided inside the supply unit 121 formed in a step, but is not supplied to the inside of the sub hose 10 . to remain in

The water remaining inside the sub hose 10 by the regulator groove 123 is supplied to the adjacent sub hose 10 through the bypass pipe 210 coupled due to the separation bracket 200 .

Accordingly, it is possible to maximally prevent the water pressure of the water supplied to the rotation means 100 coupled to the sub-hose 10 away from the pump 300 from being lowered.

As described above, the bracket 30 provided with the spray nozzle 70 coupled to the sub-hose 10 installed on the ceiling C rotates by the rotating means 100_ while pumping water supplied through the pump 300 into the room. Since it is sprayed, it is sprayed over a large indoor area, and because of this, it is not necessary to install a large number of sub hoses 10 and spray means 20, so the effect of reducing the installation cost and time of the dust collector is expected. it can be

10: sub hose, 20: spray means,
30: bracket, 40: bracket body,
41: through hole, 42: hose connection,
50: nozzle coupling hole, 60: hose fixing part,
70: spray nozzle, 100: rotation means,
110: housing, 111: installation groove,
120: a first hose coupling part, 121: a supply part,
122: supply hole, 123: regulator groove,
130: second hose coupling portion, 131: discharge hole,
140: branch pipe, 141: first branch pipe;
142: second branch pipe, 150: rotating body,
160: rotary blade, 170: rotary shaft,
180: coupling shaft, 181: outlet hole,
190: shaft coupling, 200: branch bracket,
210: bypass tube, C; ceiling,

Claims (3)

And sub hoses installed at equal intervals on the ceiling (C);
a pump 300 for supplying water to the sub-hose while pumping;
It consists of a; spray means 20 installed at equal intervals in the sub-hose to spray the water supplied through the pump 300 into the room;
The spray means 20,
a bracket 30 provided with hose connection portions 42 at both ends and having a through hole 41 formed in the center;
a nozzle coupling hole 50 formed on both sides of the lower portion of the bracket 30 to communicate with the through hole 41;
A dust collector system comprising: a spray nozzle (70) coupled to the nozzle coupling hole (50) and spraying water supplied to the bracket (30) to the outside.
.
The method according to claim 1,
A rotating means 100 for rotating the bracket 30 using water supplied to the sub hose is further installed between the sub hose and the bracket 30,
The rotation means 100,
a housing 110 having an installation groove 110 formed therein;
It is formed on one surface of the housing 110 so that the sub-hose is connected, and the supply part 121 provided with the supply hole 122 communicating with the installation groove 111 is formed stepwise, so that the regulator groove 123 is provided therein. The first hose coupling portion 120 and;
a second hose coupling part 130 formed on the other surface of the housing 100 to correspond to the first hose coupling part 120 and having a discharge hole 131 communicating with the installation groove 111;
a rotation shaft 170 formed in a hollow shape vertically formed inside the installation groove 111;
A plurality of outlet holes 181 for discharging water flowing into the housing 110 through the supply hole 122 to the outside are provided, and at the end of the rotating shaft 170 to protrude from the lower end of the housing 110 . a coupling shaft 180 extending and formed;
The rotary blade 160 is radially formed on the outer circumferential surface, and the rotary body 150 is coupled to the outer circumferential surface of the rotary shaft 170 so that the rotary shaft 170 is rotated by the hydraulic pressure of water supplied through the supply hole 122;
A shaft coupling portion 190 protruding from the upper surface of the bracket body 40 so that the bracket 30 is coupled to the lower outer circumferential surface of the coupling shaft 180; and
Couple the 'T'-shaped branch bracket 200 to the sub-hose with the rotation means 100 as the center,
By connecting the branch bracket 200 to supply the water filled in the regulator groove 123 to the adjacent rotating means 100, a bypass pipe 210 that prevents a decrease in water pressure is coupled to the branch bracket 200 A dust collector system comprising:
3. The method of claim 2,
A branch pipe 140 communicating with the supply hole 122 is formed in the housing 110,
The branch pipe 140 is
a first branch pipe 141 for supplying water to the rotating body 150;
A dust collector system comprising: a second branch pipe (142) for supplying water to the coupling shaft (180).

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