KR101498016B1 - Apparatus for suction of centrifugation type - Google Patents

Abstract

The present invention relates to a centrifugation type inhaling apparatus comprising a centrifugation separation member which can receive and separate at least one mixture of liquid, gas or solid and discharge the separated gas from the mixture to a first gas discharging path; an inhaling member whose upper surface is opened and which has a first movable path and a first inhaling path on the outer circumference to be mutually connected to the first gas discharging path; and a vacuum pump which comprises a main body, a lower plate, an inhaling fan and an inhaling member wherein the lower plate is connected to the main body; has a second gas inhaling path on one side and one part to be connected to an opened upper surface of the inhaling member so that the second gas inhaling path is mutually connected to the inside of the inhaling member; has a second gas discharging path on the other side; and discharges inhaled gas from the second gas inhaling path to the second gas discharging path by rotating the inhaling fan.

Description

[0001] APPARATUS FOR SUCTION OF CENTRIFUGATION TYPE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a suction device, more particularly, to a centrifugal suction device that sucks and separates a mixture of liquid, gas, and solid through centrifugal separation and minimizes exhaust noise when exhausting the separated gas to the outside .

A centrifugal suction device refers to a device that sucks a mixture of liquid, gas, and solid, and separates each inhaled mixture by centrifugal force by rotation. In addition, the centrifugal suction device exhausts gas separated from the mixture to the outside. Such a centrifugal suction device is mainly used for separation operations such as filtration, dehydration, concentration, dust collection, analysis, quantification, and purification. The centrifugal suction type centrifugal suction device is used in various fields such as medical field and environment field.

Centrifugal aspiration devices used in dentistry in the medical field include solid and air-like gases such as liquids (water, saliva, mucus, blood), dental treatment materials It is mainly used to separate each of the mixtures. In the centrifugal suction apparatus in which the mixture is separated, the gas separated from the mixture is sucked into the suction fan provided in the vacuum pump, and then the sucked gas is discharged to the outside.

In general, the centrifugal suction device suffers excessive noise, which is generated during suction of the gas separated from the mixture into the suction fan. Further, there is a problem that exhaust noise generated in the process of discharging the gas sucked into the suction fan to the outside is excessively generated.

Background Art [0002] Conventional centrifugal suction devices include the "suction machine" of Korean Patent Publication No. 2009-0007348.

The centrifugal suction device according to the present invention is intended to solve the following problems.

First, the object of the present invention is to minimize suction noise generated in the process of separating a mixture of liquid, gas, powder, and solid by centrifugal separation and suctioning the separated gas into the suction fan.

Second, the object of the present invention is to minimize the exhaust noise generated in the process of sucking the gas separated from the mixture into the suction fan and discharging the sucked gas to the outside.

The solution of the present invention is not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

A centrifugal suction device according to the present invention for solving the above-mentioned problems includes a centrifugal separator for separating and introducing a mixture of at least one of liquid, gas, and solid, and separating the separated gas from the mixture into a first gas discharge passage Member.

In addition, it is also possible to provide a suction member which forms a first gas flow path in the state that the upper surface is opened and has a first gas suction path on the outer surface thereof, and which connects the first gas discharge path and the first gas suction path .

One end of the lower plate is engaged with the open upper surface of the suction member so that the second gas suction path communicates with the inside of the suction member, And a vacuum pump which forms a second gas discharge passage in another section of the lower plate and discharges the gas sucked through the second gas suction passage to the second gas discharge passage by rotation of the suction fan provided therein.

The third gas suction passage is connected to the second gas discharge passage so that the third gas suction passage is connected to the second gas discharge passage. And a discharge member for discharging the gas sucked through the third gas suction path to the outside through the third gas discharge path.

The centrifugal suction device according to the present invention has the following effects.

First, a suction member is provided which is connected to a centrifugal separator for separating at least one of a liquid, a gas powder, and a solid and discharging the separated gas. The suction member includes a first sound absorbing member, And the gas passed through the suction member flows into the vacuum pump so that the mixture of liquid, gas and solid is separated by centrifugal separation and suction noise generated in the process of suctioning the separated gas into the suction fan is minimized have.

Secondly, the gas separated from the centrifugal separator passes through the suction member to be sucked first, then flows into the vacuum pump, and the gas discharged from the vacuum pump flows into the discharge member to be sucked secondarily and then discharged to the outside, It is possible to minimize the exhaust noise generated in the process of sucking the separated gas into the suction fan and discharging the sucked gas to the outside.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 is a view for explaining a centrifugal suction device according to the present invention.
2 and 3 are views for explaining a suction member of the centrifugal suction device according to the present invention.
4 to 6 are views for explaining a vacuum pump of the centrifugal suction device according to the present invention.
7 and 8 are views for explaining a discharge member of the centrifugal suction device according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings. In the present invention, the mixture means a mixture of at least one of solid, liquid or gas. Solids in a mixture can include solid materials such as those generated in homes and industrial sites. Particulate matter generated at home and industrial sites includes, for example, household and industrial waste.

In addition, solids include solid matter generated at medical sites. For example, solid refers to materials for dental treatment (dental floss, resin, etc.), dental calculus, bone and the like. The liquid in the mixture means a washing liquid, a sewage, a wastewater, an oral saliva, a blood, a washing liquid, etc. generated in a medical field, a home and an industrial field. The gas in the mixture is meant to include air generated in a medical field, a home, and an industrial field.

The centrifugal suction device according to the present invention allows separation of the mixture into gas, liquid, powder and solid by centrifugal separation. Therefore, it can be used in various places such as home, industrial field and medical field where separation of the mixture is required. When a centrifugal suction device according to the present invention is used in a home or an industrial field, it is possible to suck garbage mixed with various substances and separate each material.

In the present invention, the centrifuge member 110 can be used in various fields. In this specification, the centrifugal suction device according to the present invention is used as a dental appliance. In addition, the centrifugal suction device according to the present invention is a centrifugal suction device in which a gas channel corresponds to a side channeling blower formed along the outer wall of the discharge member. Here, the side channeling blower is a technical term that can be easily understood by a person skilled in the art in the suction device.

1 is a view for explaining a centrifugal suction device according to the present invention. As shown in FIG. 1, the centrifugal suction device according to the present invention separates and mixes any one or more of liquid, gas, or solid, and discharges the gas separated from the mixture to the first gas discharge passage 112 (Not shown).

In addition, the first gas-moving path 122 is formed in the inner surface of the first gas-discharging path 112 and the first gas-discharging path 121 is formed on the outer surface of the first gas- And a suction member 120 to be connected to the second suction passage 121 in a communicating manner.

A second gas suction passage 133 is formed in one section of the lower plate 132 and a section of the lower plate 132 is opened to open the suction member 120. The main body 131 and the lower plate 132 are coupled to each other, The second gas suction passage 133 communicates with the inside of the suction member 120 and the second gas discharge passage 134 is formed in the other section of the lower plate 132, And a vacuum pump 130 for discharging the gas sucked through the second gas suction path 133 by rotation of the suction fan 135 to the second gas discharge path 134.

The third gas suction path 141 is formed in one section of the upper part of the vacuum pump 130 so that the third gas suction path 141 is communicated with the second gas discharge path 134 A third gas discharge passage 142 is formed in the upper portion of the upper portion and an exhaust member for discharging the gas sucked through the third gas suction passage 141 to the outside through the third gas discharge passage 142, (140).

As shown, the centrifugal member 110 introduces a mixture of at least one of liquid, gas, and solid into the mixture inlet 111. Further, the introduced mixture is separated by centrifugation, and the separated gas is discharged to the first gas discharge path 112. Further, at least one of the separated solid or liquid is discharged to the foreign matter discharge path (113).

The centrifugal separator 110 has a rotary fan (not shown) therein. The rotary fan is coupled to the rotary shaft 136a of the motor 136 included in the vacuum pump 130. [ The rotary fan of the centrifugal separator 110 is rotated by the rotation of the rotary shaft 136a in the vacuum pump 130. [ The centrifugal member 110 sucks the above-described mixture through the mixture inlet path 111. [

The centrifugal separator 110 separates the sucked mixture by centrifugal force and discharges it to the outside. At least one of the liquid or solid separated from the mixture is discharged to the outside through the foreign matter discharge path (113). Further, the gas separated from the mixture is discharged to the outside through the first gas discharge path (112). The gas discharged through the first gas discharge path (112) is sucked into the suction member (120).

The first gas discharge passage 112 of the centrifugal separator 110 is engaged with the first gas suction passage 121 of the suction member 120. [ The first gas exhaust path (112) and the first gas suction path (121) are coupled by fitting. The present invention is not limited to this, and the first gas discharge path 112 and the first gas suction path 121 may be combined using various methods.

The suction member 120 has the same shape as a bending pipe and is coupled to the first gas discharge path 112 of the centrifugal member 110 and connected to the lower plate 132 of the vacuum pump 130 do. The suction member 120 is as shown in Fig.

2 and 3 are views illustrating the suction member 120 of the centrifugal suction device according to the present invention. The suction member 120 forms a first gas moving path 122 therein. And communicates with the first gas passage (122) of the suction member (120). The suction member 120 is formed to be bent so that the first gas-moving path 122 therein is bent.

1 and 2, the upper surface of the suction member 120 is opened and the upper surface of the suction member 120 is coupled to the lower plate 132 of the vacuum pump 130. As shown in FIG. The open upper surface of the suction member 120 is engaged with and covered with the lower plate 131. In addition, one section of the opened upper surface is connected to the second gas suction path 133 provided in the lower plate 132 so as to communicate with the second gas suction path 133.

The suction member 120 is coupled to the lower plate 132 by bolts and nuts as shown in Fig. The present invention is not limited to this, and the suction member 120 may be coupled to the lower plate 132 by fitting or the like. 3 shows a state in which the suction member 120 and the centrifugal member 100 are coupled to the lower portion of the lower plate 132 of the vacuum pump 130 in a state where the suction member 120 and the centrifugal separator 100 are engaged. Fig. 3 shows the lower part of the lower plate 132 shown in Fig.

The lower plate 132 has a shape corresponding to the shape of the upper surface of the suction member 120 in one section for coupling the suction member 120 and the lower plate 132. [

The suction member 120 sucks the gas discharged from the first gas discharge path 112 of the centrifugal separator 110 into the first gas suction path 121 and discharges the gas discharged from the second gas suction path 121 provided in the lower plate 132, (133). Noise is generated by movement of the gas during the suction and discharge of the gas. The suction member 120 includes a first sound absorbing member 123 on the inner surface thereof to reduce the aforementioned noise.

The first sound absorbing member 123 is provided along the first gas passage 122. Therefore, the suction member 120 may be provided on all three inner surfaces, and may be provided on two inner surfaces facing each other.

The first gas suction passage 121 of the suction member 120 extends outward and is fitted to the first gas discharge passage 112 of the centrifugal separator 110. The first gas suction path 121 of the suction member 120 is formed in a cylindrical shape. The first gas suction path 121 is fitted to the first gas discharge path 112, and the shape of the first gas suction path 121 is not limited to any one. The shape and size of the first gas intake passage 121 and the like will correspond to the shape and size of the first gas discharge passage 112 and the like.

The shape of the upper surface opened in the suction member 120 corresponds to the shape of one section of the lower plate 132 of the vacuum pump 130. [ One section of the lower plate 132 of the vacuum pump 130 indicates a section in which the second gas suction path 133 is formed.

4 to 6 are views for explaining a vacuum pump of the centrifugal suction device according to the present invention. As shown in FIGS. 1 and 4 to 6, the vacuum pump 130 is coupled to the main body 131 and the lower plate 132. A suction fan 135 is provided in a space formed by the engagement of the main body 131 and the lower plate 132. The vacuum pump 130 includes a motor 136 having a rotation shaft 136a passing through the main body 131, the suction fan 135 and the lower plate 132.

The vacuum pump 130 has a rotary shaft 136a of the motor 136 extending downward to penetrate through the suction fan 135 and the lower plate 132 and to be coupled with the centrifugal member 110, And the centrifugal separator (110).

As shown in FIG. 1, the body 131 of the vacuum pump 130 is bent downward and the bent edge portion is engaged with the lower plate 132. One section of the lower plate 132 has a shape corresponding to the open top surface of the suction member 120, as shown in FIG. A second gas suction path 133 communicating with the first gas moving path 122 of the suction member 120 is formed in a section corresponding to the opened upper surface of the suction member 120.

The vacuum pump 130 includes a second gas discharge path 134 through which the gas sucked through the second gas suction path 133 provided in the lower plate 132 is discharged. The gas sucked through the second gas suction path 133 moves in the inner space formed by the engagement of the main body 131 and the lower plate 132 and is discharged to the second gas discharge path 134. The suction of the gas discharged through the first gas discharge passage 112 of the centrifugal separator 110 through the suction member 120 and the suction to the second gas suction passage 133 is performed by the suction fan (135).

The suction fan 135 rotating by the motor 136 of the vacuum pump 130 generates a suction force and the gas moved in the space between the suction fan 135 and the lower plate 132 passes through the second gas discharge path 134 As shown in FIG. The gas moves along the second gas moving path 139 shown in FIG. 5 and is discharged to the second gas discharge path 134.

The second gas passage (139) formed in the lower plate (132) of the vacuum pump (130) has a downwardly curved annular shape. The second gas-moving path 139 has a shape corresponding to the shape of the suction fan 135, and the shape of the suction fan 135 is an annular shape having the blades 138. The second gas-moving passage 139 is recessed to the bottom and the gas passing through the suction member 120 is moved through the second gas-moving passage 139 and the wing 138 of the suction fan 135 moves, To provide a space for movement.

3 to 6, the second gas suction path 133 formed in the lower plate 132 of the vacuum pump 130 has a polygonal shape. The second gas suction path 133 is formed to extend upward to have a height and to have a shape of a vertically downward glow. Upper or upper, as used herein, refers to the direction in which the motor 136 is shown relative to FIG. 1, and the lower or lower direction refers to the direction in which the discharge member 140 is shown relative to FIG.

The second gas discharge passage 134 formed in the lower plate 132 of the vacuum pump 130 is formed in a polygonal shape. The present invention is not limited to this, and various shapes of the second gas suction path 133 and the second gas discharge path 134 may be realized. The lower plate 132 of the vacuum pump 130 includes a ring-shaped second gas-moving passage 139 having a semi-spherical shape in longitudinal section.

The suction fan 135 in the vacuum pump 130 is as shown in FIG. The suction fan 135 of the vacuum pump 130 has a plurality of vanes 138 radially formed at positions corresponding to the second gas passage 139 formed in the lower plate 132. The wings 138 of the suction fan 135 are positioned in the space of the second gas moving path 139 formed in the lower plate 132 as described above.

Accordingly, as the suction fan 135 rotates, the gas can be moved to the discharge member 140 after passing through the suction member 120, along the second gas passage passage 139, and the like. The gas exhausted to the second gas discharge passage 134 by the vacuum pump 130 moves to the third gas suction passage 141 of the discharge member 140, And is discharged to the outside through the gas discharge path (143).

7 and 8 are views for explaining a discharge member of the centrifugal suction device according to the present invention. 7 and 8, the discharge member 140 is connected to the third gas discharge passage 134 formed in the lower plate 132 of the vacuum pump 130 in a section of the upper portion, And has an intake passage 141. In addition, the discharge member 140 has a fourth gas discharge path 142 communicating with the third gas suction path 141 at another portion of the upper part.

The third gas suction path 141 and the fourth gas discharge path 142 communicate with each other through the third gas moving path 143 shown in Fig. The discharge member 140 is shaped like a square pipe. The discharge member 140 forms a third gas passage 143 along the inner wall of the discharge member 140 so that the third gas suction passage 141 and the fourth gas discharge passage 142 communicate with each other.

The discharge member 140 further includes a second sound absorbing member 144 in the gas passage that communicates the third gas suction path 141 and the fourth gas discharge path 142. The second sound absorbing member 144 is provided on the inner side surface of the first sound absorbing member 123 and may be formed of various materials.

The gas discharged from the first gas discharge passage 112 of the centrifugal separator 110 is sucked into the suction member 120 through the first gas suction passage 121 of the suction member 120. The gas sucked into the suction member 120 moves along the first gas passage 122 and is sucked into the vacuum pump 130 through the second gas suction path 133 formed in the lower plate 132.

The gas sucked into the vacuum pump 130 moves through the second gas moving path 139 provided in the lower plate 132 of the vacuum pump 130 and is discharged to the third gas discharging path 134. The gas discharged from the third gas discharge passage 134 is sucked into the discharge member 140 through the third gas suction passage 141 of the discharge member 140. The gas sucked into the discharge member 140 moves through the third gas moving path 143 and is discharged to the outside through the fourth gas discharging path 142.

The upper portion of the discharge member 140 is coupled to the lower plate 132 of the vacuum pump 130 together with the centrifugal member 110 and the suction member 120. The joints are joined by bolds and nuts. In the present invention, bonding can be carried out in various ways. The centrifugal member 110 and the suction member 120 are disposed in the central portion of the discharge member 140 when the upper portion of the discharge member 140 is engaged with the lower plate 132 of the vacuum pump 130. [ The centrifugal member 110 and the suction member 120 are disposed at the central portion of the discharge member 140 because the discharge member 140 is formed in the shape of a square pipe.

As described above, the centrifugal suction device according to the present invention includes a suction member 120 (not shown) connected to the centrifugal separator 110 for separating a mixture of liquid, gas, or solid and discharging the separated gas, And a first sound absorbing member 123 is included in the suction member 120 and is formed to be bent so that the gas that has passed through the suction member 120 flows into the vacuum pump 130, Can be separated by centrifugal separation, and suction noise generated during the suction of the separated gas into the suction fan can be minimized.

The gas separated from the centrifugal separator 110 passes through the suction member 120 and is firstly absorbed and then flows into the vacuum pump 130. The gas discharged from the vacuum pump 130 is discharged to the discharge member 140, So that the exhaust noise generated in the process of sucking the gas separated from the mixture into the suction fan and discharging the sucked gas to the outside can be minimized.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It will be understood that variations and specific embodiments which may occur to those skilled in the art are included within the scope of the present invention.

110: centrifugal separator 111: mixture inlet
112: first gas discharge path 113: foreign matter discharge path
120: suction member 121: first gas suction path
122: first gas moving path 123: first sound absorbing member
130: Vacuum pump 131: Body
132: lower plate 133: second gas suction path
134: Second gas exhaust path 135: Suction fan
136: motor 136a:
138: wing 139: second gas moving path
140: exhaust member 141: third gas suction path
142: third gas discharge passage 143: third gas passage
144: second sound absorbing member

Claims (14)

A centrifugal member for separating and introducing a mixture of at least one of liquid, gas and solid, and discharging the separated gas from the mixture to the first gas discharge path; A suction member which forms a first gas flow path in an opened state with the upper surface thereof opened and has a first gas suction path on an outer surface thereof and which connects the first gas discharge path and the first gas suction path in communication; The main body and the lower plate are coupled and the second gas suction passage is formed in one section of the lower plate and the one section of the lower plate is engaged with the open upper surface of the suction member so that the second gas suction passage is communicated with the inside of the suction member A vacuum pump which forms a second gas exhaust passage in another section of the lower plate and discharges the gas sucked through the second gas suction passage to the second gas discharge passage by the rotation of the suction fan provided therein; And a third gas suction path provided in a lower portion of the vacuum pump and connected to the third gas suction path so as to communicate with the second gas discharge path, And a discharge member for discharging the gas sucked through the third gas suction path to the outside through the third gas discharge path,
Wherein the vacuum pump has a rotation axis of the motor extending downward to penetrate through the suction fan and the lower plate and coupled with the centrifugal member to transmit rotational force to the suction fan and the centrifugal separator. The method according to claim 1,
Wherein the first gas suction path of the suction member and the first gas flow path formed therein communicate with each other. The method according to claim 1,
Wherein the suction member is formed to be bent so that the first gas-moving path therein is bent. The method according to claim 1,
Wherein the suction member further comprises a first sound-absorbing member on an inner surface thereof. The method according to claim 1,
Wherein the first gas suction path of the suction member extends to the outside and is fitted to the first gas discharge path of the centrifugal member. The method according to claim 1,
Wherein the shape of the upper surface opened in the suction member corresponds to the shape of one section of the lower plate formed with the second gas suction path. delete The method according to claim 1,
Wherein the second gas suction path formed on the lower plate of the vacuum pump is formed in a polygonal shape. 9. The method of claim 8,
Wherein the second gas suction path extends upward and has a height and has a shape of a vertically downward light. The method according to claim 1,
Wherein the second gas discharge passage formed in the lower plate of the vacuum pump is formed in a polygonal shape. The method according to claim 1,
Wherein the lower plate of the vacuum pump forms a ring-shaped second gas-moving passage having a semi-spherical shape in longitudinal section. 12. The method of claim 11,
Wherein the suction fan of the vacuum pump is provided with a plurality of vanes radially at positions corresponding to the second gas passage formed in the lower plate. The method according to claim 1,
Wherein the discharge member forms a third gas passage along the inner wall, and the third gas suction passage and the fourth gas discharge passage communicate with each other. 13. The method of claim 12,
Wherein the discharge member further comprises a second sound-absorbing member in a gas-moving path communicating the third gas-suction path and the fourth gas-discharge path.

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