KR101157128B1 - Water pump apparatus for controlling pump and engine with tandem connection - Google Patents

Abstract

The invention disclosed in the pumping pump device is installed on the road surface of rivers, rivers and reservoirs and has a direct structure of the engine and the pump for use as a pumping facility,
A shaft having a stepped structure formed between a fixed flange formed at one front end and both front ends, and a power transmission shaft having the fixed flange directly connected to the movable plate of the engine; A pump having an impeller installed inside the pump housing and an inlet pipe and a discharge pipe respectively formed at one side of the pump housing, wherein the impeller is coupled to the other end of the power transmission shaft and pumped by the power of the engine; A base frame installed on a road surface to support the engine and the pump; It includes a shaft support portion for supporting one side of the shaft portion, the outer side of the shaft protection unit is fixed to the base frame; includes, the load of the power transmission shaft is supported by the shaft protection unit, the power transmission shaft The shock is absorbed and dispersed during the flow or shaking due to the load of the impeller directly connected to the structure, so it is structurally simple, so there is an advantage of low power loss and stable pumping operation.

Description

Pumping pump unit with direct connection structure of engine and pump {WATER PUMP APPARATUS FOR CONTROLLING PUMP AND ENGINE WITH TANDEM CONNECTION}

The present invention relates to a pumping pump device having a direct connection structure between an engine and a pump. More specifically, the pump is operated by an engine power of an internal combustion engine in a river or a reservoir so that power transmission can be performed stably with a large capacity pumping operation. It relates to a pump pump device in which the impeller of the shaft and the pump is improved to a simple direct assembly assembly.

Various pumping pumps are used for pumping work that can quickly dispose of large amounts of water in the construction of civil works or intake projects for water management of rivers, rivers or reservoirs. Such pumps are used as efficient means for draining construction, industrial drainage, agricultural irrigation, water supply and aquaculture drainage districts.

In the conventional pumping pump device, the pumping pump device may use a pulley power transmission method in which the pump pump is connected to the pump's impeller through a pulley on the output shaft of the engine in terms of power transmission efficiency for controlling the pump output by the engine power of the internal combustion engine. However, because the pump output is unstable, a power transmission method (hereinafter referred to as a rotation gear power transmission method) in which the impeller of the pump is connected to a power transmission shaft inscribed in a rotary gear designed to improve the stability of the pump output is more widely used. It is used.

As an example of the above-described pump for pumping pump of the rotary gear power transmission method, a pump driving device for rotating the impeller of the pump using the power of an internal combustion engine is well known. This device connects the power transmission shaft and the impeller of the pump to receive power transmission from the rotary gear attached to the output rotation shaft of the internal combustion engine, and installs a lubrication device separately on the impeller housing cover between the power transmission shaft and the impeller. In order to improve the durability of the water pump by eliminating the frictional heat generated at.

However, in the conventional pumping pump device described above, the power of the engine reaches the movable shaft of the impeller coupled at a considerable distance from the engine only through the power transmission shaft of the rotary gear and the lubrication device. The shaking or flow occurs, if there is a problem that the power transmission shaft is broken.

In addition, mechanical seals and packing parts of the impeller housing cover and the lubrication device intervene on the power transmission path from the engine to the impeller, which is not only structurally complicated but also causes damage to the seals and packing parts during long-term friction exposure. There is this.

The present invention has been made in order to solve the above-mentioned problems, and a direct structure of an engine and a pump capable of stably performing a pumping operation by fixing and reducing a swing or flow of a power transmission shaft and an impeller on a power transmission path of an engine is provided. It is an object to provide a pump pump device provided.

It is another object of the present invention to provide a pumping pump device having a direct connection structure of an engine and a pump that can stably perform a large amount of pumping operation by maintaining a tight coupling between a power transmission shaft of an engine and a movable part of an impeller. .

In order to achieve the above object, the water pump apparatus according to the present invention,

In the pumping pump device installed on the road surface of rivers, rivers and reservoirs and having a direct connection structure between the engine and the pump for use as a pumping facility,

A shaft having a stepped structure formed between a fixed flange formed at one front end and both front ends, and a power transmission shaft having the fixed flange directly connected to the movable plate of the engine;

A pump having an impeller installed inside the pump housing and an inlet pipe and a discharge pipe respectively formed at one side of the pump housing, wherein the impeller is coupled to the other end of the power transmission shaft and pumped by the power of the engine;

A base frame installed on a road surface to support the engine and the pump;

A shaft protection unit having a shaft support portion supporting one side of the shaft portion therein and having an outer side fixed to the base frame; And

And a shock absorbing member disposed between the shaft protection unit and the base frame to cushion shock generated by the shaft protection unit.

And a pump pump device having a direct connection structure between the engine and the pump, wherein the shaft protection unit is installed to support the power transmission shaft between the engine and the pump.

According to an embodiment of the present invention, the impeller is fixed to the other end of the power transmission shaft by a key coupling to provide a pump pump device having a direct connection structure between the engine and the pump.

In addition, the shock absorbing member is fixed between the pedestal fixed to the base frame and the support flange portion installed on one side of the shaft protection unit, the direct connection structure of the engine and the pump to disperse the shock generated in the shaft protection unit Provided is a pump pump device provided.

In addition, a packing seal is further provided on one side of the pump housing or the shaft support to provide a pump pump device having a direct connection of the engine and the pump to maintain the airtight.

In addition, the movable plate of the engine comprises a flywheel to provide a pump pump device having a direct connection structure between the engine and the pump.

Pump pump device having a direct connection structure between the engine and the pump according to the present invention, the load of the power transmission shaft is supported by the shaft protection unit, the shock is absorbed during the flow or shaking due to the load of the impeller directly connected to the power transmission shaft And since it is structurally simple by being distributed, there is an advantage that the power loss is small and the pumping operation can be stably performed.

In addition, pump pump device having a direct connection structure between the engine and the pump according to the present invention pumping a large capacity by operating the impeller integrally with the power transmission shaft while maintaining the fastening force to the movable plate or the fixed flange side of the engine at the front end of the power transmission shaft The operation can be performed stably.

1 is a schematic view showing an assembled state of a pump pump device having a direct connection structure of the engine and the pump according to an embodiment of the present invention,
2 is a partial cross-sectional view illustrating a power transmission structure transmitted from the power transmission shaft of an engine to an impeller of a pump according to an embodiment of the present invention;
Figure 3 is an exploded perspective view of a pump pump device having a direct connection structure of the engine and the pump according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described a pump pump having a direct connection structure of the engine and the pump according to an embodiment of the present invention.

Prior to describing an embodiment of the present invention, reference numeral 1 denotes an engine, 4 a pump, 7 a movable plate, 8 a power transmission shaft, 9 a pump housing, 10 an impeller, 14 an shock absorbing member, and 17 a shaft. The housing of the protection unit, 18 is the side plate of the pump housing, 19 is the housing cover of the shaft protection unit, 20 is the shaft protection unit, 22 is the seal seal, 23 and 24 are the schematic representations of the fastening members.

Pump pump device having a direct connection structure of the engine and the pump according to the present invention can prevent the shaking or flow of the power transmission shaft and the impeller on the power transmission path of the engine,

In the pumping pump device installed on the road surface (E) of rivers, rivers and reservoirs and having a direct connection structure of the engine (1) and the pump (4) for use as a pumping facility,

A fixed flange 5 formed at one end portion and a shaft portion 6 having a stepped structure formed between both end portions, wherein the fixed flange 5 is directly connected to the movable plate 7 of the engine 1. Transmission shaft 8;

An impeller 10 installed in the pump housing 9 and an inlet pipe 11 and an outlet pipe 12 formed on one side of the pump housing 9, respectively, wherein the impeller 10 is the power transmission shaft. A pump (4) coupled to the other front end of the pump (8) for pumping and driving by the power of the engine (1);

A base frame (15) installed on the road surface (E) for supporting the engine (1) and the pump (4);

A shaft protection unit (20) having a shaft support portion (13) supporting one side of the shaft portion (6) therein, the outer side of which is fixed to the base frame (15); And

A shock absorbing member (14) installed between the shaft protection unit (20) and the base frame (15) and cushioning the shock generated by the shaft protection unit (20).

The shaft protection unit 20 is coupled to support the power transmission shaft 8 between the engine 1 and the pump 4.

The stepped structure of the power transmission shaft 8 has a concentric shaft with the fixed flange 5 and is formed to a smaller diameter away from the fixed flange 5 along the longitudinal direction of the shaft portion 6. The central side of the impeller 10 has a shaft coupling portion 10b having a key groove 10a and a female screw.

In the embodiment of the present invention, the shock absorbing member 14 absorbs and disperses the shock transmitted to the base frame 15 through the housing 17 of the shaft protection unit 20, and rubber. It is preferably formed of an elastic support including a soft metal material and fixed by bolting.

The key 8a is coupled adjacent to the screw portion 8b formed at the distal end of the power transmission shaft 8, and the impeller 10 is connected to the other end of the power transmission shaft 8 by the key 8a. The key is fixed to the coupling, the screw portion (8b) is coupled to the fixing member (8c) including a bolt to prevent the separation of the impeller (10).

When assembling the impeller 10 to the other end of the power transmission shaft 8, the screw portion (8b) of the power transmission shaft (8) is fitted so as to project out of the shaft coupling portion (10b) of the impeller (10). Installed. The shaft coupling portion 10b of the impeller 10 is fixed by a fixing member 8c including a nut fastened to the screw portion 8b together with the coupling of the key 8a.

Accordingly, the pump pump device having a direct connection structure between the engine and the pump according to the present invention has a low power loss because the power transmission shaft 8 and the impeller 10 are compactly coupled to the power transmission shaft-impeller direct structure. In the flow of the impeller 10 is reduced, the pumping operation is performed stably.

In addition, the impeller 10 and its shaft coupling portion 10b are fixed to a longitudinal force toward the fixed flange 5 side of the power transmission shaft 8 so as to rotate integrally with the power transmission shaft 8. It is rotated integrally with the power transmission shaft (8). Accordingly, stable pumping operation is possible even when a high speed rotation or a large load is required.

Meanwhile, referring to FIG. 1, a radiator or a cooler may be installed on the front side of the engine 1 as a cooling unit 3 for cooling on the front side of the engine 1, and a fuel tank 2 may be provided on the upper part of the engine 1. ) May be attached to a fixing frame extending from the base frame 15.

Pump pump device having a direct connection structure between the engine and the pump according to the present invention is a power transmission shaft in which the power of the engine (1) is fixed to the movable plate (7) during rotation operation of the engine (1) as an internal combustion engine ( It is delivered to the impeller 10 coupled to the key through the fixing flange (5) of the 8, the water flowing into the pump housing (9) through the water inlet pipe 11 by the rotation of the impeller (10) Discharged through (12).

At this time, the load applied to the power transmission shaft 8 is transmitted to the shaft protection unit 20 and the shock absorbing member 14 through the shaft support 13, the shock absorbing member 14 is a transmission load It is transmitted to the base frame 15 while absorbing and dispersing through the elastic force of the main body.

Therefore, when the impeller 10 is rotated at a high speed, flow is suppressed by supporting the load applied to the power transmission shaft 8 even when a pumping load is applied.

Meanwhile, the shock absorbing member 14 may be fixed between the support 21 fixed to the base frame 15 and the support flange 16 installed at one side of the shaft protection unit 20. The support flange portion 16 protrudes on both sides of the housing 17 of the shaft protection unit 20, and transmits and distributes the shock generated by the shaft protection unit 20 to the shock absorbing member 14. Let's do it. The support flange 16, the shock absorbing member 14, and the pedestal 21 may be fixed to each other by a fixing member including a bolt.

A packing seal 22 may be further installed at one side of the pump housing 9 or the shaft support part 13, and the packing seal 22 may be a housing of the pump housing 9 or the shaft protection unit 20. (17) maintain confidentiality. In some cases, the packing seal 22 may be installed between the side plate 18 of the pump housing 9 and the side of the housing 17 of the shaft protection unit 20 opposite thereto.

In some cases, when the housing cover 19 is separately configured in the housing 17 of the shaft protection unit 20, the housing cover 19 is opposed to the side plate 18 of the pump housing 9. It may have a structure, wherein the shaft support 13 may be configured in the shaft coupling hole (19a) formed adjacent to the center of the housing cover (19).

The movable plate 7 of the engine 1 includes a structure corresponding to the fixed flange 5 of the power transmission shaft 8, and enlarges the power transmission length of the engine 1 and the pump 4. It is preferable to comprise a flywheel in the range which does not. This means that the movable plate 7 of the engine 1 can be configured as a charging structure embedded in the engine 1.

Pump pump device having a direct connection structure of the engine and the pump according to the present invention can be variously modified by those skilled in the art without departing from the scope of the claims defined in the claims, the present invention The technical protection scope of the above is not limited to the above specific preferred embodiment.

1: engine
4: pump
7: movable plate
8: power transmission shaft
9: pump housing
10 impeller
14: shock absorbing member
15: base frame
17: housing of the shaft protection unit
18: side plate of pump housing
19: housing cover of shaft protection unit
20: shaft protection unit
21: pedestal

Claims (5)

In the pumping pump device installed on the road surface of rivers, rivers and reservoirs and having a direct connection structure between the engine and the pump for use as a pumping facility,
A shaft having a stepped structure formed between a fixed flange formed at one front end and both front ends, and a power transmission shaft having the fixed flange directly connected to the movable plate of the engine;
A pump having an impeller installed inside the pump housing and an inlet pipe and a discharge pipe respectively formed at one side of the pump housing, wherein the impeller is coupled to the other end of the power transmission shaft and pumped by the power of the engine;
A base frame installed on a road surface to support the engine and the pump;
A housing, a support flange portion protruding from both sides of the housing, a housing cover formed to face the side plate of the pump housing, and a shaft support portion supporting one side of the shaft portion therein, and an outer side of the support flange portion; A shaft protection unit fixed to the base frame; And
And a shock absorbing member installed between the shaft protection unit and the base frame to cushion shock generated by the shaft protection unit.
The shaft is fixed between the pedestal fixed to the base frame and the support flange portion provided on one side of the shaft protection unit so that the shaft protection unit supports the power transmission shaft between the engine and the pump, the shaft Pump pump device having a direct connection structure of the engine and the pump, characterized in that to distribute the impact generated in the protection unit.
The method of claim 1,
Pump pump device having a direct connection structure of the engine and the pump, characterized in that the impeller is fixed to the other end of the power transmission shaft by the key coupling.
delete The method of claim 2,
Pump pump device having a direct connection structure of the engine and the pump, characterized in that the packing seal is further installed on one side of the pump housing or the shaft support to maintain the airtight.
The method of claim 1,
Pump pump device having a direct connection structure of the engine and the pump, characterized in that the movable plate of the engine comprises a flywheel.

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