KR102195349B1 - Screw pump - Google Patents

Abstract

The present invention relates to a screw pump which comprises: a drive motor; a case which has an accommodation space inside, and a fluid inlet and a fluid outlet, which are formed to communicate with the accommodation space, and which is engaged with a housing of the drive motor; a first screw placed in the accommodation space of the case, whose one end in an axial direction is engaged with a drive shaft of the drive motor to rotate; a second screw placed in the accommodation space of the case to be joined with the first screw to rotate, whose one end in an axial direction is supported by the case; and a thrust key which is engaged with the case and supports the other end in an axial direction of the first screw and the other end in an axial direction of the second screw. Accordingly, the screw pump provides a simplified structure for supporting the screws to have only a few components and facilitates manufacture to reduce manufacturing time and manufacturing costs.

Description

Screw pump {Screw pump}

The present invention relates to a screw pump for pumping fluid by rotation of a screw.

The screw pump is a pump that pumps fluid from a low pressure side to a high pressure side by a male screw that is rotated by being coupled to a drive shaft of a motor and a female screw that is rotated by meshing with it.

In such a screw pump, the screws are provided inside the case, and the case must be coupled so that the screws can rotate smoothly while supporting an axial load acting on the screw by the pressure of the fluid being pumped.

Here, in the conventional screw pump, one side of the case in which the screws are provided is coupled to the housing of the motor so that one end of the screws is supported in the housing, and a cover formed with an inlet hole through which fluid can flow into the other side of the case is coupled. The other end is supported by a cover or a friction plate coupled to the cover.

However, since such a conventional screw pump has a large number of components, such as a housing of a motor, a case for accommodating screws, and a cover coupled to the case, the structure of the components is complex, and a separate structure and assembly process for coupling are required. Accordingly, there is a disadvantage of increasing the manufacturing time and manufacturing cost of the screw pump.

JP 2016-075176 A (2016.05.12)

The present invention has been conceived to solve the above-described problems, and an object of the present invention is to provide a screw pump having a small number of constituent parts and easy manufacturing by simplifying a structure for supporting the screws of the screw pump.

The screw pump of the present invention for achieving the above object includes a drive motor; A case having an accommodation space formed therein, a fluid inlet and a fluid outlet communicating with the accommodation space, and coupled to the housing of the drive motor; A first screw provided in the receiving space of the case and having an axial end coupled to the drive shaft of the drive motor to rotate; A second screw provided in the receiving space of the case, rotated in engagement with the first screw, and has an axial end supported by the case; And a thrust key coupled to the case and supporting the other axial end of the first screw and the other axial end of the second screw. It can be made including.

In addition, at one end of the case, a drive shaft support part for supporting a radial direction of the drive shaft by inserting a drive shaft of a drive motor and a second screw support part for supporting one end in the axial direction of the second screw may be formed.

In addition, the drive shaft support portion includes a ring portion into which the drive shaft of the drive motor is inserted; And a plurality of ribs extending radially outwardly from the ring part and connected to the sidewalls, but spaced apart from each other in the circumferential direction. The second screw support portion may be a support pin protruding from one of the plurality of ribs toward one end of the second screw.

In addition, a screw insertion hole may be formed at the other end of the case to communicate with the accommodation space and into which the first screw and the second screw are inserted.

In addition, the thrust key may radially penetrate through the key insertion hole and the screw insertion hole formed in the case, so that both ends of the thrust key may be coupled to the side wall of the case.

In addition, the cross-sectional area of the thrust key disposed in the screw insertion hole of the case may be formed to be smaller than the cross-sectional area of the screw insertion hole.

In addition, a space spaced apart between the ribs may be a fluid outlet of the case, and the screw insertion hole may be a fluid inlet of the case.

In addition, the drive motor may have a fluid flow path passing through the inside, a fluid inlet and a fluid discharge port communicating with the fluid flow path, and a fluid inlet of the drive motor and a fluid outlet of the case may be in communication.

In addition, the thrust key may be accommodated therein, coupled to the case, and may further include a lower cover in which the thrust key is coupled to the case and fixed by coupling with the case.

In addition, the lower cover has a stepped portion having an inner diameter smaller than the outer diameter of the case, a pair of seating grooves are formed in the stepped portion of the lower cover to be recessed from the upper surface to the lower side, and both ends of the thrust key It is inserted into a pair of seating grooves, so that both ends of the thrust key can be pinched vertically by the lower end of the case and the seating grooves of the lower cover.

In addition, the lower cover has a flow path formed therein, and a fluid inlet and outlet communicated with the flow path are formed, and the fluid outlet side of the lower cover is fitted and coupled to the fluid inlet side of the case, so that the flow path of the lower cover is It can communicate with the housing space of the case.

Since the screw pump of the present invention has a simple structure for supporting the screws, the number of constituent parts is small and manufacturing is easy, thereby reducing manufacturing time and manufacturing cost.

1 to 3 are an exploded perspective view and an assembled perspective view showing a screw pump according to an embodiment of the present invention.
4 is a perspective view showing a case of a screw pump according to an embodiment of the present invention.
5 is a front cross-sectional view showing a screw pump according to an embodiment of the present invention.
6 is a plan cross-sectional view showing a screw pump according to an embodiment of the present invention.
7 to 9 are an exploded perspective view, an assembled perspective view, and a front cross-sectional view showing a screw pump according to another embodiment of the present invention.

Hereinafter, the screw pump of the present invention having the above-described configuration will be described in detail with reference to the accompanying drawings.

1 to 3 are an exploded perspective view and an assembled perspective view showing a screw pump according to an embodiment of the present invention, Figure 4 is a perspective view showing a case of the screw pump according to an embodiment of the present invention, Figures 5 and 6 Is a front cross-sectional view and a plan cross-sectional view showing a screw pump according to an embodiment of the present invention.

As shown, the screw pump according to an embodiment of the present invention is largely composed of a drive motor 100, a case 200, a first screw 300, a second screw 400, and a thrust key 500. I can.

First, the drive motor 100 may be composed of a housing 110, a stator 120, a rotor 130, and an upper cover 140. The housing 110 is formed to have a hollow inside and open both ends of the upper and lower sides, so that the inside and the outside may be in the form of a tube in communication. The stator 120 is provided inside the housing 110 and coupled to and fixed to the inner wall surface of the housing 110, and the stator 120 may be formed in an empty shape so that the central portion penetrates both upper and lower sides. The rotor 130 may have a core portion inserted into the stator 120 and disposed to be spaced apart from the inner surface of the stator 120 by a predetermined distance, and the rotor 130 is inserted to penetrate up and down in the central portion of the core. The furnace drive shaft 131 may be coupled. In addition, the drive shaft 131 of the rotor 130 may extend in a form protruding upward from an upper end of the core, and may extend in a form protruding downward from a lower end of the core. The upper cover 140 may be coupled to the upper end of the housing 110 and configured such that the open upper end of the housing 110 is blocked by the upper cover 140. In addition, an upper end of the drive shaft 131 of the rotor 130 may be coupled to the upper cover 140 so as to be rotatable. In addition, the upper cover 140 may be provided with a fluid discharge port 141 penetrating the upper and lower sides, the upper cover 140 is equipped with a relief valve to the outside through the relief valve when the fluid pressure inside the housing 110 increases. It can be configured to drain the fluid.

The case 200 may be coupled to the open lower end of the housing 110 and may be configured such that the open lower end of the housing 110 is blocked by the case 200. In addition, the case 200 is composed of a side wall 210 in which an accommodation space 211 is formed therein by vertically penetrating the inside, a driving shaft support part 220 formed on the upper end of the side wall 210 and a second screw support part 230 Can be. At this time, the drive shaft support part 220 may be composed of a ring part 221 and a plurality of ribs 222, and the ring part 221 is formed in a ring shape or a cylindrical shape so that the lower end of the drive shaft 131 of the drive motor 100 It may be inserted through the ring portion 221. In addition, a plurality of ribs 222 may be extended radially outward from the ring portion 221 so that the ribs 222 may be connected to the sidewall 210, and the ribs 222 may be disposed to be spaced apart from each other along the circumferential direction. have. Thus, the spaced apart space between the ribs 222 may become the fluid outlet 223 of the case 200. In addition, in the case 200, a screw insertion hole 212 is formed at the lower end so that the first screw 300 and the second screw 400 may be inserted into the accommodation space 211 through the screw insertion hole 212. . At this time, the screw insertion hole 212 may be formed in a shape corresponding to the shape in which the first screw 300 and the second screw 400 are engaged, and the screw insertion hole 212 and the accommodation space 211 The cross-sectional shape may be formed identically. Thus, the screw insertion hole 212 may become a fluid inlet of the case 200. In addition, at the lower end of the case 200, a key insertion hole 213 is formed on the side wall, and the key insertion hole 213 is formed to penetrate the inner circumferential surface and the outer circumferential surface of the side wall 210, A key insertion hole 213 may be formed.

The first screw 300 may be a male screw in which a spiral protrusion protrudes along the outer circumferential surface of the rotation shaft. In addition, the first screw 300 may have an upper end coupled to the drive shaft 131 of the drive motor 100, and the first screw 300 and the drive shaft 131 are coupled to each other through a coupling 350, etc. The 131 and the first screw 300 may be configured to rotate together.

The second screw 400 may be a female screw in which a helical groove is concave along the outer circumferential surface of the rotation shaft, and the helical groove of the second screw 400 has a shape corresponding to the helical protrusion of the first screw 300. It may be formed so that the first screw 300 and the second screw 400 are engaged and rotated together. In addition, the second screw 400 has an upper end facing the second screw support unit 230 and is disposed close to or adjacent, so that the upper end of the second screw 400 is supported by the second screw support unit 230 in the axial direction. Can be.

The thrust key 500 has a rectangular cross section and may be formed in a rod shape that is longer than its thickness and width. And the thrust key 500 is coupled to the case 200 by passing through the inner space of the case 200 in which the key insertion holes 213 and the screw insertion holes 212 are formed in the side wall 210 of the case 200 Can be. That is, the thrust key 500 passes through the internal space communicated with the screw insertion hole 212 of the case 200, and both ends are inserted into the key insertion hole 213, and both ends are coupled to the case 200 in a fixed form. Can be. In addition, the thrust key 500 supports the lower end of the first screw 300 and the second screw 400 in the axial direction of the flat surface, so that the thrust key 500 is provided with the first screw 300 and the second screw. 400) may be placed close to or adjacent to the lower end. In addition, the cross-sectional area of the thrust key 500 disposed in the screw insertion hole 212 is formed smaller than the cross-sectional area of the screw insertion hole 212 of the case 200, and is sucked through the screw insertion hole 212, which is a fluid inlet. The fluid may flow toward the first screw 300 and the second screw 400 through between the thrust key 500 and the inner circumferential surface of the side wall 210.

At this time, the first screw 300 and the second screw 400 are coupled to each other at the lower side of the case 200, and the first screw 300 and the second screw 400 are formed in the case 200. After inserting the upper end of the first screw 300 to the drive shaft 131 of the drive motor 100 by inserting it into the receiving space 211 through the insertion hole 212, one from the outside of the case 200 After the thrust key 500 is inserted through the key insertion hole 213 of the case 200 and penetrates the inner space of the case 200, the thrust key 500 is inserted until the other key insertion hole 213 and the thrust key 500 ) May be fixed to the case 200.

Accordingly, the screw pump of the present invention supports the lower end so that the screws can easily rotate without falling out in the opposite direction in which the screws are inserted through a simple structure in which the screws are inserted into the case and then the thrust key is coupled to the case. You can do it. Thus, the screw pump of the present invention has a small number of constituent parts and is easy to manufacture, thereby reducing manufacturing time and manufacturing cost.

In addition, in the driving motor 100, the lower side of the stator 120 and the rotor 130 may be a fluid inlet through which the fluid flows, and between the stator 120 and the rotor 130, which are inside of the driving motor 100, The spaced apart space may become a fluid passage through which the fluid passes. In addition, in the case 200, the upper end of the case 200, which is a portion of the drive shaft support 220 in which the fluid outlet 223 is formed, is coupled to the fluid inlet side which is the lower end of the housing 110 of the drive motor 100, and the drive motor 100 The fluid inlet of the case 200 and the fluid outlet 223 of the case 200 may communicate with each other.

Thus, when the first screw 300 and the second screw 400 of the case 200 are rotated by the operation of the driving motor 100, the fluid flows through the screw insertion hole 212, which is the fluid inlet of the case 200. It is sucked and discharged to the fluid outlet 223 of the case 200, and the discharged fluid flows upward through the space between the stator 120 and the rotor 130 of the drive motor 100 to the upper cover 140. It may be discharged through the formed fluid discharge port 141. In addition, a fluid flow path including a fluid inlet and a fluid discharge port formed in the drive motor 100 may be variously formed, and a fluid flow path including a fluid inlet and a fluid outlet formed in the case 200 may be variously formed.

7 to 9 are an exploded perspective view, an assembled perspective view, and a front cross-sectional view showing a screw pump according to another embodiment of the present invention.

As shown, the screw pump according to another embodiment of the present invention is configured to further include a lower cover 600 in the configuration of the embodiment of the present invention described above, and the case 200 and the lower cover 600 ) By the combination of the thrust key 500 may be coupled to the case 200. That is, as in the above-described embodiment, a key insertion hole 213 is formed on the side wall of the lower end of the case 200, and the thrust key 500 is pressed into the key insertion hole 213 to insert the thrust key 500 into the case 200. ), rather than a method of directly fixing the lower cover 600 to the case 200 while the thrust key 500 is inserted into the lower cover 600, the case 200 and the lower cover 600 The thrust key 500 may be configured in a fixed manner.

In more detail, the case 200 may have, for example, a pair of locking protrusions 214 protruding from the outer circumferential surface of the lower end, and locking protrusions 214 may be formed on both sides in the radial direction.

The lower cover 600 may pass through the top and bottom to form a flow path therein, so that a lower end connected to the flow path becomes a fluid inlet, and an upper end connected to the flow path may be formed as a fluid outlet. In addition, the lower cover 600 may be formed in a stepped shape having an inner diameter of the lower side smaller than that of the upper side, and the lower cover 600 may have a stepped portion 610 having an inner diameter smaller than the outer diameter of the case 200. Thus, the fluid outlet side, which is the upper side of the lower cover 600, can be coupled to the fluid inlet side, which is the lower end of the case 200, and the flow path of the lower cover 600 is the receiving space 211 of the case 200. ) Can be communicated. In addition, on the upper side of the lower cover 600, a coupling hole 630 penetrating the outer and inner circumferential surfaces is formed at a position corresponding to the locking protrusion 214 of the case 200, and the locking protrusion 214 is formed in the coupling hole 630 ) By being inserted into and coupled, the lower cover 600 may be configured to be inserted into the case 200 so as not to fall out of the coupled direction.

Here, in the lower cover 600, a pair of seating grooves 620 may be formed concave from the upper surface of the stepped portion 610 to the lower side, and the length of the thrust key 500 in the pair of seating grooves 620 Both ends of the direction can be inserted. At this time, the receiving groove 620 is formed in a form in communication with the inner circumferential surface of the stepped portion 610 and the inside of the lower cover 600 toward the upper portion of the stepped portion 610, and the thrust key 500 ) Can be assembled so that both ends of the thrust key 500 are inserted into the receiving groove 620 by inserting from the upper side to the lower side. Thus, when the thrust key 500 is accommodated in the lower cover 600 and assembled, the lower cover 600 is inserted into the case 200 to be coupled, the thrust is achieved by the combination of the case 200 and the lower cover 600. The key 500 can be firmly fixed by being pinched in the recess 620 of the lower cover 600 and the lower end of the case 200 in the vertical direction, and in this state, the first screw 300 and the second screw ( The lower end of the 400) may be supported by the thrust key 500. In addition, a structure for assembling the thrust key 500 to the lower cover 600 may be formed in various ways. In addition, a concave groove is formed on the outer periphery of the lower end of the case 200 and a sealing member such as an O-ring is inserted into the groove so that the space between the case 200 and the lower cover 600 may be sealed by the sealing member. In addition, other configurations can be applied in the same manner as in the above-described embodiment of the present invention.

As described above, in the screw pump according to another embodiment of the present invention, it is easy to couple and fix the thrust key by inserting the thrust key into the lower cover and assembling the lower cover to the case, and the thrust key is firmly fixed. Accordingly, the durability of the screw pump can be improved.

The present invention is not limited to the above-described embodiments, and the scope of application thereof is diverse, as well as anyone with ordinary knowledge in the field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. Of course, various modifications are possible.

100: drive motor
110: housing 120: stator
130: rotor 131: drive shaft
140: upper cover 141: fluid discharge port
200: case
210: side wall 211: accommodation space
212: screw insertion hole (fluid inlet) 213: key insertion hole
214: stopping protrusion
220: drive shaft support 221: ring portion
222: rib 223: fluid outlet
230: second screw support (support pin)
300: first screw 350: coupling
400: second screw
500: thrust key
600: lower cover 610: step portion
620: set groove 630: coupling hole

Claims (11)

Drive motor;
A case having an accommodation space formed therein, a fluid inlet and a fluid outlet communicating with the accommodation space, and coupled to the housing of the drive motor;
A first screw provided in the receiving space of the case and having an axial end coupled to the drive shaft of the drive motor to rotate;
A second screw provided in the receiving space of the case, rotated in engagement with the first screw, and has an axial end supported by the case; And
A thrust key coupled to the case and supporting the other axial end of the first screw and the other axial end of the second screw; It is made including,
At one end of the case, a drive shaft support part for supporting the radial direction of the drive shaft by inserting a drive shaft of the drive motor and a second screw support part for supporting one end in the axial direction of the second screw are formed,
The drive shaft support part includes a ring part into which the drive shaft of the drive motor is inserted, and a plurality of ribs extending radially outward from the ring part and connected to a side wall but spaced apart in a circumferential direction,
The second screw support portion is a screw pump, characterized in that the support pin protruding from one of the plurality of ribs toward one end of the second screw.
Drive motor;
A case having an accommodation space formed therein, a fluid inlet and a fluid outlet communicating with the accommodation space, and coupled to the housing of the drive motor;
A first screw provided in the receiving space of the case and having an axial end coupled to the drive shaft of the drive motor to rotate;
A second screw provided in the receiving space of the case, rotated in engagement with the first screw, and has an axial end supported by the case; And
A thrust key coupled to the case and supporting the other axial end of the first screw and the other axial end of the second screw; It is made including,
At one end of the case, a drive shaft support part for supporting the radial direction of the drive shaft by inserting a drive shaft of the drive motor and a second screw support part for supporting one end in the axial direction of the second screw are formed,
A screw insertion hole is formed at the other end of the case to communicate with the accommodation space and into which the first screw and the second screw are inserted,
The thrust key radially penetrates the key insertion hole and the screw insertion hole formed in the case, and both ends of the thrust key are coupled to the side wall of the case.
The method of claim 2,
The drive shaft support portion includes a ring portion into which the drive shaft of the drive motor is inserted; And a plurality of ribs extending radially outwardly from the ring part and connected to the sidewalls, but spaced apart from each other in the circumferential direction. It is made including,
The second screw support portion is a screw pump, characterized in that the support pin protruding from one of the plurality of ribs toward one end of the second screw.
The method of claim 1,
A screw pump, characterized in that a screw insertion hole is formed at the other end of the case in communication with the accommodation space and into which the first screw and the second screw are inserted.
The method of claim 4,
The thrust key radially penetrates the key insertion hole and the screw insertion hole formed in the case, and both ends of the thrust key are coupled to the side wall of the case.
The method of claim 5,
Screw pump, characterized in that the cross-sectional area of the thrust key disposed in the screw insertion hole of the case is formed smaller than the cross-sectional area of the screw insertion hole.
The method of claim 3,
A screw pump, characterized in that the spaced apart space between the ribs is a fluid outlet of the case, and the screw insertion hole is a fluid inlet of the case.
The method of claim 1,
The drive motor has a fluid flow path passing through the inside, and a fluid inlet and a fluid discharge port communicated with the fluid flow path are formed,
The screw pump, characterized in that the fluid inlet of the drive motor and the fluid outlet of the case communicate with each other.
The method of claim 1,
The thrust key is accommodated inside and coupled to the case,
The screw pump further comprises a lower cover fixed by coupling a thrust key to the case by coupling with the case.
The method of claim 9,
The lower cover has a stepped portion having an inner diameter smaller than the outer diameter of the case, and a pair of seating grooves are formed in the stepped portion of the lower cover to be concave from the upper surface to the lower side,
The thrust key is a screw pump, characterized in that both ends are inserted into the pair of seating grooves, and both ends of the thrust key are pinched vertically by the lower end of the case and the seating grooves of the lower cover.
The method of claim 9,
The lower cover has a flow path formed therein, and a fluid inlet and an outlet communicating with the flow path are formed,
The fluid outlet side of the lower cover is fitted and coupled to the fluid inlet side of the case, so that the flow path of the lower cover communicates with the receiving space of the case.

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