KR101557924B1 - Pipe press fitting device for oil pump control unit - Google Patents

Abstract

The present invention relates to a pipe press fitting device for an oil pump controller. According to an conventional technique, an only press fitting work using a linear pipe is allowed such that the linear pipe is bent to have a C-shape and an S-shape after being pressed and fitted, thereby causing a problem such a generation of a crack due to an impact exerted to a pressed part of the linear pipe when the liner pipe is bent. To solve this problem, according to the present invention, a curved pipe with a C-shape and a curved pipe with an S-shape are pressed and fitted to be coupled to a housing of the oil pump controller. The curved pipes undergone a bending process are pressed on an accurate position of the housing at an accurate angle to be fittingly coupled to the housing. Specifically, the pipe press-fitting device comprises a main body (100) placed on an upper part of a table (110) including a moving means and including an upper fitting plate (120) and a lower fixing plate (130) arranged and spaced from each other. The upper fixing plate (120) is coupled to a driving part (10) including a hydraulic cylinder (11) and a proximity sensor (12). The lower fixing plate (130) has a structure allowing a first jig part (20) and a second jig part (30) to be alternatively assembled thereto. The first jig part (20) includes a fixing plate (131) where a coupling groove (132) is formed thereon to induce the curved pipe (a) with the C-shape to be pressed in. The second jig part (30) induces the curved pipe (b) with the S-shape to be pressed in.

Description

Technical Field [0001] The present invention relates to a pipe press fitting device for an oil pump controller,

The present invention relates to a pipe press-fitting apparatus for an oil pump controller, and more particularly to a pipe press-fitting apparatus for an oil pump controller, which is coupled to a housing of an oil pump control unit (OPU) for controlling the amount of current supplied to an oil pump for a hybrid vehicle, Since the conventional press-fitting apparatus is configured to press-fit only the 'C' self-bending tube and the 'S' self-bending tube to be used, Problems such as cracking due to an impact applied to the press-in portion are frequently encountered. Therefore, the present invention significantly improves such a problem and presses in the housing at a correct position and angle by using a bending- To a pipe press-fitting device for an oil pump controller.

Recently, with the rapid development of environmentally friendly automobile technology, the penetration rate of hybrid vehicles is increasing. Hybrid vehicles are equipped with an internal combustion engine that uses fuel as a power source and a motor that uses a high voltage of the battery as a power source so that each power source is operated in an optimal state according to the driving situation, To the next generation.

Generally, a hybrid vehicle is provided with an electric oil pump for supplying hydraulic pressure required for operation of an engine clutch and an automatic transmission, and the operation thereof is controlled by a network-connected oil pump controller (OPU).

A conventional oil pump controller is configured such that an electronic circuit board is provided therein and is shielded by a housing. A plurality of pipes used as cooling water transfer passages for cooling the controller are coupled to the side of the housing. The cooling water transfer pipe is provided in the form of a bend due to the structural characteristics of the interior of the vehicle in which the oil pump controller is installed. In order to prevent the cooling water transferred at high speed and high pressure from flowing out, tighter binding between the housing and the pipe is required. It is required to develop a technique for precisely and efficiently performing press-fitting of a pipe coupled to a housing of an oil pump controller such as a hydraulic pump.

On the other hand, a conventionally known registration utility model publication No. 20-1997-0003403 discloses a jig for press fitting an oil level gauge pipe of an automobile. Specifically, a jig body having a guide body for press-fitting the oil level gauge pipe into the oil pump is constructed so that the pipe is press-fitted accurately at an angle along the bent shape of the oil level gauge pipe. Japanese Patent Application Laid-Open No. 10-2001-0046211 discloses a jig for assembling a heater pipe having a pipe accommodating portion and a locker for assembling an inlet heater pipe and an outlet heater pipe connecting a heater core of an automobile and an engine, .

The above-mentioned prior arts are related to a pipe-fitting device in which the pipes are combined, that is, the pipe-press-fitting device which is individually adapted to the characteristics of the oil level gauge pipe or the heater pipe. It is possible to expect the effect that the workability is improved compared to the manual work in the press-fitting process. However, the technology of the press-fitting device is more importantly, the improvement of the productivity by ensuring the precision to meet the technical performance required for the device is the most important and the prior art.

Accordingly, it is noted that the present invention relates to a technical idea of a pipe press-fitting device for an oil pump controller for efficiently and precisely press-fitting a pipe coupled to an oil pump controller among a large number of parts mounted on an automobile.

Registered utility model publication No. 20-1997-0003403 Oil level gauge of automobile Jig for press fitting of pipe. Registered Patent Publication No. 10-2001-0046211 Jig for assembling heater pipe.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the related art, and it is an object of the present invention to provide an oil pump for a hybrid vehicle, which is connected to a housing of an oil pump controller (OPU) And a driving unit for controlling the pressing operation according to a set value of a jig and a load for controlling an accurate position and angle when the 'S' self-bending tube is pressed into the housing.

Therefore, since the conventional press-fitting apparatus is capable of only press-fitting operation using a straight pipe, the pipe is configured to bend the pipe into a 'C' or 'S' shape after press-fitting, thereby causing a problem in that an impact is applied to the press- The present invention significantly improves this, and by press-fitting the pipe into the housing at an accurate position and angle by using a pipe in a bent state, a precise press-fitting process is performed without any error, so that the pipe can be tightly fastened to the housing It is an object of the present invention to provide a pipe press-fitting device for an oil pump controller.

According to an aspect of the present invention, there is provided a pipe press fitting apparatus for an oil pump controller,

And a main body 100 which is mounted on a table 110 provided with a moving means and is composed of an upper fixed plate 120 and a lower fixed plate 130 which are vertically spaced apart from each other, The lower fixing plate 130 is provided with a fixing plate 131 having a fastening groove 132 formed therein and a driving unit 10 composed of a C-shaped bending unit 11 and a proximity sensor 12, A first jig part (20) for inducing indentation; And a second jig (30) for guiding the pressurization of the 'S' self-bending tube (b).

The first and second jig portions 20 and 30 are connected to the support plates 22 and 32 on which the pair of rods 23 and 33 are installed and the upper ends of the rods 23 and 33 The pressure plates 21 and 31 are connected to the pressing shafts of the hydraulic cylinders 11 and are connected to the pressure plates 21 and 31 so as to face the supporting plates 22 and 32, And is configured to be vertically moved along the rods 23 and 33.

The C-shaped curved tube receiving portion 24 for receiving the 'C' curved tube a is coupled to the pressing plate 21 of the first jig 20 and the supporting plate 22 , A first housing fixing plate 25 for fixing the housing c is vertically installed and presses the 'C' curved tube 'a' into one side of the housing c during the pressing operation of the hydraulic cylinder 11 And,

The C-curved tube receiving portion 24 has a C-shaped bending receiving groove 24a formed at a bending angle of the C-shaped bending tube a and a C-shaped bending tube 24a for preventing the C- And a receiving member 24b is provided to receive the 'C' curved tube a.

The S-shaped curved tube receiving portion 34 for receiving the 'S' curved tube b is coupled to the pressing plate 31 of the second jig 30. The supporting plate 32 of the second jig 30 , A second housing fixing plate 35 for fixing the housing c is vertically installed to press the S curved tube b into one side of the housing c when the hydraulic cylinder 11 is pressed And,

The S-curved tube receiving portion 34 is formed with an S-shaped bending receiving groove 34a formed to receive the lower bent portion of the S-shaped bending tube b and an S-shaped bending receiving groove 34b And a self-bending tube receiving member 34b is provided to receive the lower bent portion of the 'S' self-bending tube b.

The pressure plate 31 of the second jig 30 is further provided with an S-shaped tube fixing groove 37 for fixing the upper end of the S-shaped tube b, (b) to increase the pressure transmitting force,

The second housing fixing plate 35 is formed on the support plate 32 of the second jig 30 at an angle? Corresponding to the coupling slope of the 'c' As shown in FIG.

Meanwhile, the first and second jig portions 20 and 30 are provided with load cells 26 and 36 so as to detect the load value during the pressing operation.

According to the present invention having the above-described structure, when the 'C' self-bending tube and the 'S' self-bending tube coupled to the housing of the oil pump controller (OPU) are pressed, the bending tube is stably received, There is an effect of providing a pipe press-fitting device for an oil pump controller which presses the pipe to be precisely fitted without any unevenness in the position and angle of engagement.

Therefore, since the conventional press-fitting apparatus is capable of only press-fitting operation using a straight tube, the pipe is bent to 'C' or 'S' after press-fitting, so that an impact is applied to the press- So that the pipe can be more tightly coupled to the housing to meet the technical performance required of the housing of the oil pump controller.

In addition, the accuracy of the press-fitting process can be greatly improved, and workability can be improved and productivity can be increased.

1 is a perspective view showing a pipe press-fitting device for an oil pump controller according to the present invention.
FIG. 2 is a perspective view explaining the press-fitting device of FIG. 1 according to the present invention. FIG.
3 is a perspective view explaining the first jig part of the present invention.
FIGS. 4 to 6 are explanatory views illustrating a press-fitting operation of a 'C' bending tube of a pipe press-fitting device for an oil pump controller according to the present invention.
7 is a perspective view showing a pipe press-fitting device for an oil pump controller to which a second jig portion of the present invention is coupled.
8 is a perspective view explaining the press-fitting device of FIG. 7 according to the present invention.
FIGS. 9 to 10 are explanatory views showing a press-fitting operation of an 'S' self-bending tube of a pipe press-fitting device for an oil pump controller according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following description is given as an example for illustrating the principle of the present invention, and the present invention is not limited to the embodiments but can be implemented in various different forms. And throughout the specification, like reference numerals designate like elements.

FIG. 1 is a perspective view showing a pipe press-fitting device for an oil pump controller according to the present invention, FIG. 2 is a perspective view explaining the press-fitting device of FIG. 1 according to the present invention, And FIGS. 4 to 6 are explanatory views showing a press-fitting operation of the 'C' bending tube of the pipe press-fitting device for an oil pump controller according to the present invention.

7 is a perspective view showing a pipe press-fitting device for an oil pump controller to which the second jig part of the present invention is coupled, FIG. 8 is a perspective view explaining the press-fitting device of FIG. 7 according to the present invention, 10 is a use state diagram showing an embodiment in which the 'S' bending of the pipe press-fitting device for the oil pump controller according to the present invention is pressed.

[0001] The present invention relates to a pipe press-fitting device for an oil pump controller, and more particularly to a pipe press-fitting device for an oil pump controller, which is connected to a housing of an oil pump control unit (OPU) for controlling the amount of current supplied to an oil pump for a hybrid vehicle, Since the conventional press-fitting device is constructed so as to be capable of only press-fitting using a straight pipe, and to bend the pipe into a 'C' or 'S' shape after press-fitting, The present invention significantly improves the above problems. Therefore, the present invention provides an oil pump control system for controlling the oil pump to be tightly coupled to the housing by press- It is noted that the present invention relates to an apparatus for pressurizing pipes.

1 and 7, the pipe press fitting apparatus for an oil pump controller according to the embodiment of the present invention includes a main body 100 composed of an upper fixed plate 120 and a lower fixed plate 130, A driving unit 10 including a hydraulic cylinder 11 and a proximity sensor 12 is coupled to the upper fixing plate 120 and a C-shaped bending unit a or an S-shaped bending unit and the first and second jig parts 20 and 20 for inducing the press-fitting of the first and second jig parts b and b, respectively.

As shown in FIG. 2 and FIG. 8, the main body 100 is mounted on an upper portion of a table 110 provided with a moving means, so that the main body 100 can be easily installed and moved. The first and second jig members 20 and 30 are coupled to the upper and lower fixing plates 120 and 130 by forming a ' The most effective pressing action is performed in the vertical direction when the 'C' curved tube 'a' or the 'S' curved tube b is press-fitted into the housing c of the housing c.

The hydraulic cylinder 11 of the driving unit 10 is installed and used normally, and the proximity sensor 12 equipped with the probe when the pressure shaft is vertically moved is configured to detect the vertical moving distance of the pressing axis. The pressing force of the hydraulic cylinder 11 can be controlled according to the load value sensed by the load cells 26 and 36 to be described later.

The lower fixing plate 130 is provided with a fixing plate 131 having a fastening groove 132 for facilitating the replacement of the first and second jig portions 20 and 30. The press fitting apparatus of the present invention is characterized in that the pressing process of the 'C' curved tube 'a' and the 'S' curved tube b, which are the moving passages of the cooling water coupled to the oil pump controller, are performed by the first and second jig portions 20 and 20, The first jig portion 20 and the second jig portion 30 are fixed to the coupling groove 132 in a one-stop manner only by replacing the first jig portion 30 and the second jig portion 30, So that the replacement operation can be performed more easily.

The first and second jig portions 20 and 30 include support plates 22 and 32 on which a pair of rods 23 and 33 are installed, 31, which are disposed so as to face each other with respect to the axis of rotation of the hydraulic cylinder (11, 22, 32), and the pressure plates (21, 31) Therefore, when the hydraulic cylinder 11 is pressed, the pressure plates 21 and 31 are vertically moved along the rods 23 and 33 from the upper end.

3 to 4, the first jig 20 is engaged with the main body 100 in the press-fitting process of the 'C' curved tube 'a' to induce accurate press-fitting. The C-shaped bellows receiving portion 24 for receiving the C-shaped bending tube a is coupled to the pressing plate 21 of the first jig portion 20, And a first housing fixing plate 25 for fixing the housing c of the pump controller is vertically installed. Therefore, when the hydraulic cylinder 11 is pressed, the C-curved tube receiving portion 24 is vertically downwardly moved so that the 'C' curved tube 'a' passes through the 'C' curved tube a formed on one side of the housing c And is press-fitted into the inlet.

The C-shaped bending tube receiving portion 24 is provided with a C-shaped bending receiving groove 24a formed at a bending angle of the C-shaped bending tube a so that the C-shaped bending tube a is received in the groove, And the C-shaped cage receiving member 24b is interposed and tightly received to prevent the disengagement of the 'C' self-bending tube a. After the C-shaped bending tube a is inserted into the housing c, the C-shaped bending tube receiving member 24b is separated from the C-shaped bending tube receiving groove 24a, and then the hydraulic cylinder 11 is depressurized It is possible to separate easily by upward vertical movement of the C-shaped bobbin receiving part 24.

9, the second jig 30 is coupled to the main body 100 in the press-fitting process of the 'S' self-bending tube b to induce accurate press-fitting. An S-shaped bellows receiving portion 34 for receiving the S-shaped bending tube b is coupled to the pressing plate 31 of the second jig 30. The supporting plate 32 of the second jig 30 is connected to an oil And a second housing fixing plate 35 for fixing the housing c of the pump controller is vertically installed. Therefore, when the hydraulic cylinder 11 is pressed, the S-curved tube receiving portion 34 is vertically downwardly moved so that the 'S' curved tube b is inserted into the 'S' tube b formed on one side of the housing c, Lt; / RTI >

The S-curved tube receiving portion 34 is provided with an S-shaped bending receiving groove 34a formed to receive the lower bent portion of the S-shaped bending tube b so that the S-shaped bending tube b can be received And the S-curved tube receiving member 34b is interposed and tightly received so as to prevent the disengagement of the accommodated 'S' self-bending tube b. In addition, the pressure plate 31 of the second jig 30 is further provided with an S-shaped bending fixing groove 37 for fixing the upper end of the 'S' bending tube b, So that the pressure transmitting force is increased at both ends of the pressure-

After the press-fitting process is completed, the S-shaped bobbin receiving member 34b is separated from the S-shaped bobbin receiving groove 34a, and then the hydraulic cylinder 11 is depressurized So that it is possible to separate easily by upward vertical movement of the S-curved tube receiving portion 34. [

As can be seen from the enlarged view of FIG. 8, the 'S' self-bending tube 'b' is different from the 'C' self-bending tube a, The self-bending tube b is coupled with the housing c at a predetermined inclination?, And the second housing fixing plate 35 is fixed to the housing c so that the pressing process can be performed at the correct angle? Corresponding to the inclination? Are arranged diagonally on the support plate (32) of the second jig (30) by the angle (?).

Load cells 26 and 36 are provided in the first and second jig portions 20 and 30 to sense a load value required for press-fitting in a press operation. Normally, the load cells 26, 36, which are referred to as load sensors, are made up of sensors for measuring the load. When a necessary load is set by the user, the load is measured at the time of pressing operation so that operation is performed according to the set value.

Accordingly, the load cells 26 and 36 are coupled to the pressure plate 31 of the first and second jig portions 20 and 30 to measure and detect the load when the hydraulic cylinder 11 is pressed, The proximity sensor 12 of the driving unit 10 senses the pressing position in the housing c of the 'S' curved tube 'b' and the 'C' curved tube 'a', and the load cells 26 and 36 ' The accurate indenting process through the first and second jig portions 20 and 30 by sensing the pressure required to press the S 'curved tube' b 'and the' C 'curved tube a into the housing c .

5 to 6 showing an embodiment of indenting the 'C' curved tube 'a' and the 'S' curved tube b using the pipe press fitting device for an oil pump controller according to the present invention having the above- Referring to FIG. 10, it is as follows.

5 to 6, the 'C' curved tube 'a' is received in the C-curved tube receiving portion 24 and the housing c is received in the first housing fixing plate 25 and then the first jig 20 is engaged with the lower fixing plate 130 of the main body 100. [

The pressure plate 21 of the first jig 20 coupled to the pressure axis of the hydraulic cylinder 11 is vertically moved downward and the pressure plate 21 is moved downward, And the 'C' curved tube 'a' is press-fitted into the inlet of one side of the housing 'c'.

10, the lower bent portion of the 'S' curved tube b is received in the S-shaped tube receiving portion 34 by using the second jig 30 and the upper end of the 'S' Is fixed to the S-shaped bobbin fixing groove 37 so that the pressure is transmitted across the entire 'S' bending tube b, and after the housing c is fixed to the second housing fixing plate 35, (30) to the lower fixing plate (130) of the main body (100).

The pressure plate 31 of the second jig 30 coupled to the pressure axis of the hydraulic cylinder 11 is vertically moved downward and the pressure plate 31 is moved downward, And the 'S' curved tube b is press-fitted into the inlet of one side of the housing c. At this time, the second housing fixing plate 35 to which the housing c is fixed is fixed on the supporting plate 32 of the second jig 30 in a direction corresponding to the coupling slope of the 'S' curved tube b with the housing c And the 'S' self-bending tube (b) is pressed into the housing (c) at the above angle.

Therefore, in the press-fitting process of the 'C' self-bending tube 'a' and the 'S' self-bending tube b coupled to the housing c of the oil pump controller and used as the moving passage of the cooling water, A first jig portion 20 for guiding the pressurization of the 'C' bending portion a and a second jig portion b for guiding the pressurization of the 'S' bending portion b into the main body 100 of the pipe- Through the exchange coupling of the part 30, precise position and pressure control is achieved in the practice of the indenting process to ensure tight coupling.

Particularly, since the conventional press fitting device eliminates the problems such as the occurrence of cracks due to the impact applied on the press-in portion at the time of bending, which is a fatal problem in the method of performing the bending after the linear tube press-fitting, the tightening force between the housing and the pipe is secured .

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 embodiments, but, on the contrary, It should be clarified. Therefore, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

100: main body 110: table
120: upper fixing plate 130: lower fixing plate
131: fastening plate 132: fastening groove
10: driving part 11: hydraulic cylinder
12: Proximity sensor 13: Hydro booster
a: 'C' curve b: 'S' curve
c: housing
20: first jig 30: second jig
21, 31: pressure plate 22, 32:
23, 33: load 26, 36: load cell
24: C-shaped bobbin receiving portion 24a: C-shaped bobbin receiving groove
24b: C-curved tube housing member 25: first housing fixing plate
34: S-shaped tube receiving portion 34a: S-shaped tube receiving groove
34b: S-curved tube accommodating member 35: second housing fixing plate
37: S groove fixing groove

Claims (9)

delete delete And a main body 100 which is seated on a table 110 provided with a moving means and is composed of an upper fixing plate 120 and a lower fixing plate 130 which are vertically spaced from each other, The lower fixing plate 130 is provided with a fixing plate 131 having a fastening groove 132 formed therein and a driving unit 10 composed of a C-shaped bending unit 11 and a proximity sensor 12, A first jig part (20) for inducing indentation; And a second jig (30) for guiding the pressurization of the 'S' self-bending tube (b), wherein the first jig (20) and the second jig (30) And the pressure plates 21 and 31 which are coupled to the upper ends of the rods 23 and 33 and are disposed so as to face each other with the support plates 22 and 32 And the press plates 21 and 31 are coupled to the pressurizing shafts of the hydraulic cylinders 11 and are vertically moved along the rods 23 and 33 during the pressurizing operation of the hydraulic cylinders 11 As a result,
The C-shaped bellows receiving portion 24 for receiving the 'C' curved tube a is coupled to the pressing plate 21 of the first jig portion 20, and the supporting plate 22 of the first jig portion 20 A first housing fixing plate 25 for fixing the housing c is vertically installed and presses the 'C' curved tube 'a' into one side of the housing c during the pressing operation of the hydraulic cylinder 11 Pipe press fitting for an oil pump controller characterized.
The method of claim 3,
The C-curved tube receiving portion 24 has a C-shaped bending receiving groove 24a formed at a bending angle of the C-shaped bending tube a and a C-shaped bending tube 24a for preventing the C- And a receiving member (24b) is provided to receive the 'C' curved pipe (a).
The method of claim 3,
An S-shaped bobbin receiving portion 34 for receiving an S-shaped bending tube b is coupled to the pressing plate 31 of the second jig 30 and a supporting plate 32 of the second jig 30 And a second housing fixing plate 35 for fixing the housing c is vertically installed and presses the 'S' curved tube b into one side of the housing c during the pressing operation of the hydraulic cylinder 11 Pipe press fitting for an oil pump controller characterized.
6. The method of claim 5,
The S-curved tube receiving portion 34 is formed with an S-shaped bending receiving groove 34a formed to receive the lower bent portion of the S-shaped bending tube b and an S-shaped bending receiving groove 34b And a self-bending tube accommodating member (34b) is provided to receive a lower bent portion of the 'S' self-bending tube (b).
6. The method of claim 5,
The pressure plate 31 of the second jig 30 is further provided with an S-shaped bending fixture groove 37 for fixing the upper end of the 'S' bending tube b, To increase the pressure transmission force to the oil pump controller.
6. The method of claim 5,
The second housing fixing plate 35 is arranged to be obliquely arranged on the support plate 32 of the second jig 30 at an angle a corresponding to the coupling gradient of the housing c and the S curved tube b And the pipe-press-fitting device for an oil pump controller.
The method of claim 3,
Wherein the first jig (20) and the second jig (30) are provided with load cells (26, 36) to detect a load value during a pressurizing operation.

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