KR101604209B1 - Cover for pump and pump module having the same - Google Patents

Abstract

Provided in the present invention is a cover for a pump. The cover for a pump is configured to cover a part of a pump installed in a tank to discharge a liquid stored in the tank to the outside. The cover for a pump is equipped with an accommodating groove to accommodate a part of the pump which comprises a terminal of the pump at a side and is coupled to the surface of a flange which is installed at the surface inside the tank for the pump to be installed. Corrosion of a pump terminal by a urea water solution can be prevented.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cover for a pump,

The present invention relates to a pump cover and a pump module having the same.

Generally, the exhaust system of a diesel engine is an exhaust gas aftertreatment apparatus such as Selective Catalyst Reduction (SCR), Diesel Oxidation Catalyst (DOC), Catalyzed Particulate Filter (CPE) and the like in order to reduce nitrogen oxides (NOx) .

Among these, an exhaust gas after-treatment apparatus (hereinafter referred to as "SCR apparatus") to which SCR is applied functions to reduce a nitrogen oxide in the exhaust gas to nitrogen and oxygen by injecting a reducing agent such as urea aqueous solution into the exhaust pipe .

That is, when the reducing agent is injected into the exhaust pipe of the SCR apparatus, the reducing agent is converted into ammonia (NH ₃ ) by the heat of the exhaust gas, and nitrogen oxide as a catalytic reaction of nitrogen oxide and ammonia in the exhaust gas by the SCR catalyst It can be reduced to nitrogen gas (N ₂ ) and water (H ₂ O).

In order to spray the urea aqueous solution into the exhaust pipe through the SCR device, a urea aqueous solution supply system is required to supply the urea aqueous solution to the SCR device.

The urea aqueous solution supplying system basically comprises an element tank for storing an aqueous urea solution and a pump module for supplying the urea aqueous solution to the SCR device.

In the prior art, the terminals of the pump could contact the aqueous urea solution and corrode. In addition, when the pump terminal was exposed to the outside of the flange, it could be brought into contact with the aqueous solution of urea water, which is strongly basic.

One embodiment of the present invention is to provide a pump cover capable of stably injecting a strong basic urea water aqueous solution into the injector and preventing the pump terminal from being corroded by urea aqueous solution, and a pump module having the pump cover.

In addition, one embodiment of the present invention is to provide a pump cover that can couple a pump and a heater to a flange, thereby fixing the pump and the heater inside the tank.

According to an aspect of the present invention, there is provided a liquid supply system including: a tank formed to cover a part of a pump installed in a tank for discharging liquid stored in a tank to the outside of the tank; A cover member having a receiving groove formed to cover an upper portion of the pump including the terminal of the pump; A terminal guide portion formed at an outer side of the cover member and extending from a terminal of the pump, the connection terminal being formed at one side of the cover member; and the cover member is fixed to the inside of the tank A cover for a pump including a coupling portion for coupling on one surface of a flange provided on one surface.

At this time, a terminal of the pump is formed on the upper surface of the upper end of the pump, and the connection terminal may be formed such that one end is connected to the terminal of the pump and the other end extends in the lower direction of the pump.

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The pump has a first diameter at an upper end side where the terminal of the pump is formed is smaller than a second diameter at a central portion of the pump and the receiving groove of the cover member has a first diameter at the upper end of the pump, So that the inner diameter of the protrusion can be stepped.

At this time, the receiving groove of the cover member may be provided with a first sealing member and a second sealing member corresponding to the first diameter and the second diameter, respectively.

At this time, a plurality of holes may be formed on one side of the cover member.

At this time, the connection terminal located at the terminal guide portion may be bent twice in a C-shape to extend to the flange side.

The terminal guide unit may further include a relief sensor coupled to one end of the terminal guide unit.

At this time, the terminal guide portion may have a protruding portion protruding to the flange side at the other end portion, and a plug may be formed at the end portion side of the protruding portion.

At this time, the sealing member may include a third sealing member formed on an outer circumferential surface of the protrusion.

At this time, the connection terminal may be overmolded to cover the outer surface.

According to another aspect of the present invention, there is provided a pump for a liquid pump, comprising: a pump installed inside the tank to discharge liquid stored in the tank to the outside of the tank; a flange coupled to one side of the tank to couple the pump to the tank; A cover for the above-mentioned pump coupled to the outside of the pump to couple the heater with the flange, and a cover for the pump, the cover for the pump, and the heater, which are coupled to the flange so as to surround the heater And a filter for filtering the liquid supplied to the pump.

At this time, the tank is a urea water storage tank, and the flange can be disposed on the lower surface of the tank.

The cover for a pump according to an embodiment of the present invention includes a cover member to cover a terminal of the pump to protect the terminal of the pump from the urea aqueous solution.

The pump cover according to an embodiment of the present invention may be coupled to the outside of the pump to couple the heater to the flange, thereby fixing the heater inside the tank.

The cover for a pump according to an embodiment of the present invention may have a plurality of holes formed therein to reduce the volume of the urea aqueous solution frozen in a low temperature condition,

The cover for a pump according to an embodiment of the present invention may include a relief sensor to prevent the pump from being damaged by controlling the pressure to prevent the internal pressure from rising sharply.

The pump module according to an embodiment of the present invention can stably inject aqueous solution of strong basic urea into the injector.

The pump cover and the pump module having the pump cover according to an embodiment of the present invention may include a sealing member to seal the urea aqueous solution so that the urea aqueous solution is not penetrated.

1 is a perspective view showing a pump module equipped with a pump cover according to an embodiment of the present invention installed inside a tank.
2 is a perspective view showing a pump module equipped with a pump cover according to an embodiment of the present invention.
FIG. 3 is a cross-sectional view of AA of FIG. 2 and arrows represent the flow of liquid.
4 is a perspective view illustrating an exploded view of a pump module equipped with a pump cover according to an embodiment of the present invention.
5 is a perspective view showing a cover for a pump according to an embodiment of the present invention.
6 is a bottom view of a pump cover according to an embodiment of the present invention.
7 is a perspective view illustrating a connection terminal of a pump cover according to an embodiment of the present invention.
8 is a perspective view showing that the cover for a pump according to an embodiment of the present invention is coupled to a pump and a heater.
9 is a cross-sectional view illustrating a pump cover according to an embodiment of the present invention coupled to a pump and a heater.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art to which the present invention pertains. The present invention may be embodied in many different forms and is not limited to the embodiments described herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

In this specification, the terms "comprises" or "having" and the like refer to the presence of stated features, integers, steps, operations, elements, components, or combinations thereof, But do not preclude the presence or addition of one or more other features, integers, steps, operations, components, parts, or combinations thereof. Also, where a section such as a layer, a film, an area, a plate, or the like is referred to as being "on" another section, it includes not only the case where it is "directly on" another part but also the case where there is another part in between. On the contrary, where a section such as a layer, a film, an area, a plate, etc. is referred to as being "under" another section, this includes not only the case where the section is "directly underneath"

Hereinafter, a pump cover and a pump module having the pump cover according to an embodiment of the present invention will be described in detail with reference to the drawings.

1 is a perspective view showing a pump module equipped with a pump cover according to an embodiment of the present invention installed inside a tank. 2 is a perspective view showing a pump module equipped with a pump cover according to an embodiment of the present invention. FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2, and arrows represent the flow of liquid. 4 is a perspective view illustrating an exploded view of a pump module equipped with a pump cover according to an embodiment of the present invention.

1 to 4, a pump module 3 to which a pump cover 1 according to an embodiment of the present invention is mounted includes a pump 9, a flange 27, a heater 19, (1) and a filter (15).

At this time, the pump module 3 is installed in the tank 7 in which the liquid is stored, and the liquid can be stably pumped to an injector (not shown) installed outside the tank.

The pump module 3 also performs the function of the temperature, level and filter of the liquid stored in the tank 7 and prevents the pump terminal 14 from being in contact with the liquid, including the pump cover 1, .

1 to 4, in an embodiment of the present invention, the liquid stored inside the storage tank 7 may be the urea aqueous solution 5 used as a reducing agent. Thus, the storage tank 7 may be a urea water storage tank.

At this time, the urea aqueous solution (5) is colorless, odorless, nontoxic, nonflammable, strongly basic (PH10 or more) and mixed in water at a ratio of 32.5%.

The pump module 3 is installed inside the tank 7 in which the urea aqueous solution 5 is stored, and can pump the aqueous solution of strongly basic urea into the injector (not shown) stably installed outside the tank.

Referring to FIG. 3, in one embodiment of the present invention, the pump 9 is installed inside the tank 7 and pumps the urea aqueous solution 5 stored in the tank 7 to the outside of the tank.

3, the pump 9 may be formed on the lower surface of the pump adjacent to the suction pipe 12 and the first discharge pipe 11. The urea aqueous solution 5 is sucked into the pump through the suction pipe 12 formed on the lower side of the pump 9 and discharged to the outside of the pump through the first discharge pipe 11.

Since the suction pipe 12 of the pump 9 and the first discharge pipe 11 are provided adjacent to each other, the urea aqueous solution 5 sucked through the suction pipe 12 does not pass through a motor (not shown) And can be discharged through the first discharge pipe 11 to protect the motor.

A plurality of first inflow ports 21 are formed on the lower side of the heater 19 and a plurality of first inflow ports 21 are connected to the suction pipe 12 of the pump.

In one embodiment of the present invention, the heater 19 may be positioned on the flange 27 to surround the lower side of the pump 9.

On the other hand, the freezing point of the strongly basic aqueous urea solution 5 is -11.5 degrees Celsius, and the volume at the freezing point is expanded by 11%. At this time, the heater 19 can transmit heat to the pump 9 to prevent the aqueous urea solution 5 from being frozen.

Referring to FIG. 3, in one embodiment of the present invention, a cover 1 for a pump is provided for coupling the heater 19 and the pump 9.

At this time, the pump cover 1 is coupled to the outside of the pump 9 so that the heater 19 can be coupled to the flange 27, thereby fixing the heater 19 to the inside of the tank 7.

4, the filter 15 may be disposed so as to surround the pump 9, the cover 1 for the pump, and the heater 19. At this time, the filter 15 may be coupled to the flange 27, and a plurality of filter media 17 may be disposed on the outer surface of the filter.

3, the filter 15 filters the urea aqueous solution 5 stored in the tank 7 through the filter medium 17 and supplies the filtered water to the pump 9. [

Referring to FIGS. 2 to 4, the flange 27 may be installed on a lower surface of the tank 7, as shown in FIG. 2, on the inner surface of the tank 7, and may block a hole (not shown) formed in the lower portion of the tank. The flange 27 may be disposed on the lower surface of the storage tank 7.

2 and 4, the pump 9, the heater 19, the filter 15 and the cover 1 for the pump are installed on one surface of the flange 27, for example, ). ≪ / RTI > The flange 27 may also be coupled to one side of the tank to couple the pump 9 to the tank 7.

2 and 3, the flange 27 may be a circular plate having a circular section and protruding in a downward direction of the circular plate, but the present invention is not limited thereto. The flange 27 may be a resin injection molded product formed by injection molding with a resin.

4, the flange 27 has a first mounting groove 29, a second mounting groove 31 and a third mounting groove 33 formed on the upper surface thereof and a connection pipe 35 is formed in the second mounting groove. . The flange 27 may be provided with a second discharge pipe 37 connected to the connection pipe 35 on the lower side.

At this time, the second mounting groove 31 of the flange 27 may be formed on the upper surface of the flange. At least a part of the first discharge pipe 11 formed on the lower side of the pump 9 may be accommodated in the second mounting groove 31. Therefore, at least a part of the first discharge pipe 11 can be heated by the heater 19. [

4, the heater 19 may include a heating member 23 for generating heat on one side and a first plug 25 for supplying electric energy to the heating member. Also, although not shown, a first receptacle may be formed in the first mounting groove 29 of the flange 27.

3 and 4, the second discharge pipe 37 is formed on the lower side of the flange 27 so as to discharge the urea aqueous solution 5 to the outside of the flange 27. At this time, the heater 19 may be formed such that one end thereof can heat a part of the second discharge pipe 37.

The second inlet 37a of the second discharge pipe 37 is connected to the connection pipe 35 and the discharge port 37b of the second discharge pipe is extended in the horizontal direction to be exposed to the outside of the flange 27 .

The flange 27 may have a connection pipe 35 connecting the first discharge pipe 11 and the second discharge pipe 37 to the inner surface of the second mounting groove 31. At this time, the discharge pipe 39 may be installed in the vertical direction in the connection pipe 35.

The discharge pipe 39 may be formed in a linear shape and may be coupled to the first discharge pipe 11 of the pump 9.

Referring to FIG. 3, a pressure sensor 41 may be mounted on the second inlet 37a at one end of the second outlet pipe 37, for example. The pressure sensor 41 real-time feedback controls the pressure of the urea aqueous solution 5 by comparing the current actual pressure and the target pressure.

The first discharge pipe 11, the second discharge pipe 37, the connecting pipe 35 and the discharge pipe 39 are formed in a circular cross-section so that the urea water solution 5 can flow But are not limited to, tubular form.

5 is a perspective view showing a cover for a pump according to an embodiment of the present invention. 6 is a bottom view of a pump cover according to an embodiment of the present invention. 7 is a perspective view illustrating a connection terminal of a pump cover according to an embodiment of the present invention.

5 and 6, a cover 1 for a pump according to an embodiment of the present invention includes a pump housing 9 for accommodating a part of a pump including a terminal 14 of a pump 9, And a groove 51 may be provided.

Accordingly, the cover 1 for the pump according to the embodiment of the present invention covers the terminal 14 of the pump 9 to prevent the terminal from coming into contact with the urea aqueous solution 5 and corroding it.

The pump cover 1 may be coupled to one surface of the flange 27 provided on the inner surface of the tank 7 so that the pump 9 is installed. The pump 9 and the heater 19 can be installed on the upper surface of the flange 27 to be fixed inside the tank 7.

Referring to FIG. 5, the cover 1 for a pump according to an embodiment of the present invention may include a cover member 50, a terminal guide portion 70, and a coupling portion 90. The pump cover 1 according to the embodiment of the present invention covers the terminal 14 of the pump 9 including the cover member 50 to prevent the urea aqueous solution 5 from penetrating into the terminal of the pump. can do.

5 and 6, the cover member 50 may be formed in a cylindrical shape so as to cover at least a part of the pump 9, but any shape can be used as long as it can cover a part of the cylindrical pump 9 ≪ / RTI >

Referring to FIG. 6, the cover member 50 may be formed with the receiving groove 51 recessed inward. At this time, the upper part of the pump 9 is accommodated in the receiving groove 51, and the cover member 50 can cover the upper part of the pump.

8 is a perspective view showing that the cover for a pump according to an embodiment of the present invention is coupled to a pump and a heater.

8, the terminal 14 of the pump 9 may be formed on the upper surface of the upper end portion of the pump 9. As shown in Fig. Three terminal holes 13 may be formed on the upper surface of the pump 9 at regular intervals. In addition, a terminal 14 of the pump 9 to be supplied with power may be disposed inside the three terminal holes 13.

At this time, the pump 9 can be composed of a three-phase power supply terminal, so that a more stable and strong current can be supplied to the pump.

On the other hand, the pump 9 may have a shape in which the upper end and the central part of the pump are coupled with two cylinders having different diameters. At this time, the upper end side of the pump in which the terminal 14 of the pump 9 is formed may have a cylindrical shape having a first diameter D1.

The central portion of the pump 9 may have a cylindrical shape having a second diameter D2. At this time, the first diameter D1 may be smaller than the second diameter D2.

The pump cover 1 according to an embodiment of the present invention can effectively prevent the urea aqueous solution 5 from flowing into the pump terminal 14 and prevent the pump terminal from being corroded.

6 and 8, the receiving groove 51 of the cover member 50 is formed so as to correspond to the first diameter D1 of the upper end portion of the pump 9 and the second diameter D2 of the pump central portion. It can be formed in a stepped manner.

Thus, in one embodiment of the present invention, the pump 9 and the cover member 50 can be coupled to seal through the fit.

9 is a cross-sectional view illustrating a pump cover according to an embodiment of the present invention coupled to a pump and a heater.

9, a first sealing member 53 and a second sealing member 55 corresponding to the first diameter D1 and the second diameter D2 are formed in the receiving groove 51 of the cover member 50, Can be installed.

Referring to FIG. 5, a plurality of holes 52 may be formed at an intermediate portion of the cover member 50 at one side of the cover member 50, for example.

At this time, when the urea aqueous solution 5 is expanded in volume from the bottom due to icing, the plurality of holes 52 excessively deforms on the upper portion of the pump 9, and the force received at that time may be reduced.

Referring to FIG. 5, a terminal guide portion 70 may be formed on the outer side of the cover member 50. The terminal guide portion 70 may have a connection terminal 71 therein to protect the connection terminal 71.

At this time, the terminal guide portion 70 may have an 'r' shape, but any shape may be used as long as the connection terminal 71 to which the terminal 14 is connected is positioned inside and the connection terminal can be sealed.

5, the terminal guide portion 70 may have a protrusion 75 protruding toward the flange 27 at the other end thereof. A second plug 77 may be formed on the end of the protrusion 75.

Referring to FIG. 4, the third mounting groove 33 may be recessed so that the protrusion 75 is inserted into the upper surface of the flange 27. A second receptacle (not shown) may be formed at the center of the third mounting groove 33 to be coupled to the second plug 77.

The third sealing member 79 is formed on the outer circumferential surface of the protrusion 75 so that the second plug 77 and the second socket can be sealed when the protrusion is inserted into the third mounting groove 33.

7, the connection terminal 71 may be connected to the terminal 14 of the pump 9 and bent in a C-shape twice to extend toward the flange 27 side. At this time, the connection terminal 71 may be three in number corresponding to the three-phase power terminal of the pump 9.

One end of the connection terminal 71 may be connected to the terminal 14 of the pump 9 and the other end may extend downward of the pump. Further, the connection terminal 71 may be molded so as to cover the outer surface.

At this time, the outer surface of the connection terminal 71 may be molded with a plastic material such as a resin material. The terminal guide portion 70 and the cover member 50 can be injection-molded by inserting the molded connection terminal 71 into a mold.

Referring to FIG. 5, a relief sensor 73 may be coupled to one end of the terminal guide unit 70. At this time, the relief sensor 73 can prevent the damage of the pump by adjusting the pressure to prevent the internal pressure of the pump 9 from rising sharply.

8 and 9, an outlet 9a may be formed in the upper center portion of the pump 9 to allow liquid to flow. At this time, one end of the outflow pipe 81 may be inserted into the outlet 9a and the other end may be connected to the relief sensor 73.

A fourth sealing member 83 may be provided on the outer circumferential surface of the outflow pipe 81 to prevent the urea aqueous solution 5 from penetrating the terminal 14.

4, the cover 1 for a pump according to an embodiment of the present invention may include a coupling portion 90 for coupling the cover member 50 to the flange 27. As shown in FIG.

The engaging portion 90 may be formed at one side of the cover member 50 to engage the cover member 50 with the flange 27. [ At this time, the engaging portion 90 may be composed of the engaging jaw 91 and the engaging portion 93 to which the engaging jaw is inserted.

The latching jaw 91 is formed on the upper surface of the flange 27 and protrudes toward the pump 9. At this time, the end side of the latching jaw can be formed in an outward direction.

The cover member 50 may include a latching portion 93 formed with a latching hole 93a so that the latching jig 91 can be inserted and coupled.

At this time, the engaging portion 90 may have any shape as long as the cover member 50 can be coupled to the flange 27.

The first sealing member 53, the second sealing member 55, the third sealing member 79 and the fourth sealing member 83 are formed in such a manner that the elliptic water solution 5 covers the pump cover, It can be sealed so as not to penetrate the pump module 3 equipped with the same.

At this time, the first sealing member 53, the second sealing member, the third sealing member 79, and the fourth sealing member 83 may have a predetermined thickness and may have a predetermined thickness, for example, a fluorine sealing cone material Of O-ring.

The cover for the pump according to the embodiment of the present invention covers and covers the pump terminal, so that the pump terminal can prevent corrosion due to the urea aqueous solution.

The pump module according to an embodiment of the present invention can stably inject aqueous solution of strong basic urea into the injector.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1: Cover for pump 3: Pump module
5: urea water solution 7: tank
9: pump 9a: outlet
11: first discharge pipe 12: suction pipe
13: Terminal hole 14: Terminal
15: filter 17: filter medium
19: heater 21: first inlet
23: Heating member 25: First plug
27: flange 29: first mounting groove
31: second mounting groove 33: third mounting groove
35: Connector 37: Second outlet
37a: second inlet 37b: outlet
39: Discharge tube 41: Pressure sensor
50: cover member 51: receiving groove
52: hole 53: first sealing member
55: second sealing member 70: terminal guide portion
71: connection terminal 73: relief sensor
75: protrusion 77: second plug
79: third sealing member 81: outlet pipe
83: fourth sealing member 90:
91: engaging jaw 93:
93a:

Claims (13)

A pump cover formed to cover a part of the pump installed inside the tank to discharge the liquid stored in the tank to the outside of the tank,
A cover member formed in a cylindrical shape so as to cover at least a part of the pump and having a receiving groove formed at one side thereof to cover an upper portion of the pump including the terminal of the pump;
A terminal guide portion formed on an outer side of the cover member and having a connection terminal extending and connected to a terminal of the pump,
And a coupling portion formed at one side of the cover member and coupling the cover member to one surface of a flange provided on one surface of the tank so that the pump is installed. delete The method according to claim 1,
A terminal of the pump is formed on the upper surface of the upper end of the pump,
Wherein the connection terminal is formed such that one end thereof is connected to the terminal of the pump and the other end is formed to extend in the lower direction of the pump. The method of claim 3,
Wherein the first diameter of the upper end of the pump is smaller than the second diameter of the center of the pump,
Wherein the receiving groove of the cover member is stepped inside so as to correspond to a first diameter of the pump upper end portion and a second diameter of the pump central portion. 5. The method of claim 4,
And the first sealing member and the second sealing member corresponding to the first diameter and the second diameter are provided in the receiving groove of the cover member. The method according to claim 1,
And a plurality of holes are formed on one side of the cover member. The method of claim 3,
Wherein the connection terminal located on the terminal guide portion is bent twice in a C-shape to extend to the flange side. The method according to claim 1,
And a relief sensor coupled to one end of the terminal guide portion. 9. The method of claim 8,
Wherein the terminal guide portion has a protruding portion protruding to the flange side at the other end portion, and a plug is formed at an end portion side of the protruding portion. 10. The method of claim 9,
And a third sealing member formed on an outer peripheral surface of the projection. The method according to claim 1,
Wherein the connection terminal is overmolded to cover the outer surface. A pump installed in the tank to discharge the liquid stored in the tank to the outside of the tank;
A flange coupled to one side of the tank for coupling the pump to the tank;
A heater positioned on the flange to surround a lower side of the pump;
A cover for a pump according to any one of claims 1 to 11, coupled to the outside of the pump to couple the heater with the flange; And
And a filter coupled to the flange so as to surround the pump, the cover for the pump, and the heater and for filtering the liquid supplied to the pump. 13. The method of claim 12,
The tank is a urea water storage tank,
Wherein the flange is disposed on a lower surface of the tank.

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