KR101187012B1 - Gearbox testing apparatus having a chamber and testing method using the same - Google Patents

Abstract

PURPOSE: A device for inspecting a transmission with a chamber and an inspecting method using the same are provided to perform a performance test while continuously cooling a transmission to be inspected at predetermined temperature, thereby obtaining a rapid and exact test result with respect to the transmission to be inspected in a given cooling condition. CONSTITUTION: A device for inspecting a transmission with a chamber comprises a connection unit and a chamber(10). The connection unit is connected to a transmission to be detachable. The chamber is closed the transmission connected to the connection unit from outside. The transmission comprises a first end part, a first shaft, a second end part, and a second shaft. The first end part is projected in one end surface of the transmission while having steps. The first shaft is projected in the first end part. The second end part is projected in the other end surface of the transmission while having steps. The second shaft is projected in the second end part.

Description

Gearbox test apparatus including chamber and test method using same {Gearbox Testing Apparatus having a Chamber and Testing Method using the Same}

The present invention relates to a transmission test apparatus including a chamber and a test method using the same, and more particularly, a transmission test apparatus including a chamber for allowing a test to be performed while maintaining a transmission to be tested at a low temperature and a test method using the same It is about.

In general, a transmission such as a speed reducer or a reducer used in various driving apparatuses such as a vehicle or a generator may include a gear box in which a plurality of gears are arranged. Such transmission should satisfy the test results by performing the required performance test according to various conditions, that is, ensuring the stability of the transmission durability and accurate torque transmission characteristics before actual use.

For this purpose, the required performance test for the transmission is performed by forcibly applying torque and torque to the transmission to be tested (hereinafter, referred to as 'transmission under test') by using a motor, for example, by connecting a motor to an input of a transmission under test. The speed of the transmission is increased or decreased, and a performance test of the transmission is performed while applying torque to the transmission under test using a separate motor or torque generating device.

In addition, in consideration of various environments in which the transmission under test will be put in actual use, the test items may include performing a performance test by cooling the transmission under test to a predetermined temperature. To this end, conventionally, the transmission under test is removed from the test apparatus, placed in a low temperature chamber, cooled to a predetermined temperature, and the cooled transmission is then mounted on the test apparatus to perform a performance test.

However, since the low temperature chamber is installed in a separate space from the test apparatus, in this way, the transmission under test has to be removed and removed from the test apparatus and the low temperature chamber. Furthermore, the low temperature chamber is cooled and tested in the low temperature chamber. There is a problem that the transmission under test cannot be accurately tested at a predetermined set temperature because the temperature changes even while moving to the apparatus.

According to one or more exemplary embodiments of the present inventive concept, the transmission under test is removed to cool the transmission under test to remove the hassle of moving between the test apparatus and the low temperature chamber and the temperature of the transmission under test during the transfer. A transmission test apparatus is provided to solve the problem of changing.

According to an exemplary embodiment of the present invention, a test apparatus for testing a transmission under test, comprising: a connecting portion detachably connected to the transmission under test; And a chamber for sealing the transmission under test connected to the connection unit from the outside. The apparatus for testing a transmission under test may be provided.

According to an exemplary embodiment of the inventive concept, a test method for testing a transmission under test, comprising: mounting the transmission under test to the test apparatus; Setting the transmission under test to a predetermined temperature; And testing the transmission under test in a state of maintaining the predetermined temperature. A test transmission test method may be provided.

According to one or more exemplary embodiments of the present inventive concept, it is possible to eliminate the trouble of having to detach the transmission under test several times and to solve the problem that the cooled test transmission changes in temperature during the removal process.

In addition, the performance test can be carried out while the transmission under test is continuously cooled to a predetermined temperature, so that a more accurate and faster test result can be obtained for the transmission under test at a given cooling condition.

1 illustrates a transmission testing apparatus according to an exemplary embodiment of the inventive concept.
2 is an exploded perspective view of a low temperature chamber according to an exemplary embodiment of the inventive concept;
3 is a perspective view of the low temperature chamber of FIG.
4 is a side cross-sectional view of the low temperature chamber of FIG. 2, and
Fig. 5 is a flow chart illustrating the steps of testing a transmission under test in a test apparatus including a low temperature chamber in accordance with an exemplary embodiment of the inventive concept.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features, and advantages of the present invention will become more readily apparent from the following description of preferred embodiments with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Rather, the embodiments disclosed herein are provided so that the disclosure can be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. In this specification, when an element is referred to as being on another element, it means that it can be formed directly on the other element, or a third element may be placed therebetween.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. As used in the specification, 'comprises' and / or 'comprising' does not exclude the presence or addition of one or more other components in addition to the components mentioned.

As used herein, the 'transmission under test' refers to an object under test by the test apparatus of the present invention, and means any one of a transmission or a gearbox of various forms and functions such as a speed reducer and a speed reducer.

As used herein, the term "low temperature chamber" refers to one embodiment of the present invention and does not limit the use of the chamber. In some embodiments, a 'high temperature chamber' may be used in which the temperature of the transmission under test is set to be higher than the ambient temperature. In this specification, the low temperature chamber and the high temperature chamber may be referred to as 'chamber' in order not to distinguish between them. .

In this specification, the expression 'connected' with one component to another component means not only a direct connection between the components, but also includes an indirect connection through another third component. For example, the expression 'the shaft of the transmission under test is connected to the shaft of the torque meter' means that the shaft of the transmission under test is directly connected with the shaft of the torque meter and at least one other component between the transmission under test and the torque meter. This includes all cases that are indirectly connected through.

Hereinafter, the present invention will be described in detail with reference to the drawings. In describing the following specific embodiments, various specific details are set forth in order to explain and understand the invention in more detail. However, those skilled in the art can understand that the present invention can be used without these various specific details. In some instances, it should be noted that portions of the invention that are well known in the description of the invention and are not significantly related to the invention do not describe confusion in describing the invention.

1 is a diagram illustrating a transmission test apparatus according to an exemplary embodiment of the inventive concept.

In one embodiment, the transmission test apparatus comprises a jig 3, a motor 4, 14, a torque meter 5, a coupling 6, a gearbox 11 and a low temperature on the bed 7 forming the bottom. A transmission 10 (transmission under test) 1, which is a test object, is positioned on the jig 3.

The jig 3 serves as a support for supporting the transmission 1 to be tested and is installed at a predetermined position of the bed 7. As shown, the surface of the bed 7 is formed in the slot (T slot 8) at a predetermined interval horizontally and vertically, the lower end of the jig (3) is coupled to the slot (8) to be installed in the bed (7) Can be. According to a specific embodiment, the number, shape, installation position, etc. of the jig 3 can be changed as much as possible.

In the illustrated embodiment, the motors 4 and 14 are installed one each at the left and right ends of the test apparatus. The motor 4 installed at the left end of the figure serves to apply torque or rotational force to the transmission 1 under test in order to test the transmission 1 under test. The motor 14 installed at the right end of the figure operates together with the gearbox 11 to serve to load the transmission 1 under test. At this time, the gearbox 11 may be a transmission of the same structure as the transmission 1 to be tested 1 or a transmission of another form or structure may be used. For example, when the speed reducer as the transmission 1 under test is to be tested, the speed increaser may be selected as the gearbox 11.

The torque meter 5 serves to measure the torque applied to the transmission 1 under test, and the coupling 6 is located between the transmission 1 under test and the gearbox 11 and extends from the transmission under test. It plays a role to connect the driven drive shaft (shaft). Like the jig 3, the motor 4, the torque meter 5, and the coupling 6 are all coupled to and secured to the bed 7 via the T slot 8 to form a component of the test apparatus.

With the components of the test apparatus arranged in this way, the transmission under test 1 is installed in the jig 3 to be in a testable state. In the illustrated embodiment, the shaft extending from one end of the transmission 1 under test is connected to the shaft on the torque meter 5 side, and the shaft on the other end of the transmission 1 under test is coupled with the shaft on the coupling 6 side. By being connected, one linear drive path is formed from one motor 4 to the other motor 14 of the test apparatus. At this time, the shaft of the torque meter 5 side and the coupling 6 side are respectively connected to the shaft of the transmission 1 under test, and thus serve as a connection part for connection with the transmission under test.

The test apparatus shown in accordance with one embodiment of the present invention further includes a low temperature chamber 10. The low temperature chamber 10 surrounds the transmission 1 under test and seals it from the outside, and serves to cool the transmission 1 under a predetermined temperature. As shown, the low temperature chamber 10 seals the transmission 1 under test and the jig 3 supporting it from the outside.

By the configuration of the test apparatus as described above, the hassle of removing the transmission 1 under test from the test apparatus for cooling and moving to a separate low temperature chamber is eliminated, and the transmission 1 under test is replaced with the low temperature chamber 10. The performance test can be performed while maintaining the temperature within a predetermined set temperature, which can have the effect of shortening the test accuracy and the test period.

Meanwhile, the arrangement of each component of the test apparatus such as the jig 3, the motors 4 and 14, the torque meter 5, the coupling 6, and the like shown in FIG. 1 is one embodiment for explaining the low temperature chamber of the present invention. For example, the arrangement order or connection form of each component of the test apparatus may be changed according to various embodiments, and other components may be additionally installed.

Referring now to Figure 2 will be described with respect to the low temperature chamber 10 according to an embodiment of the present invention. Fig. 2 is an exploded perspective view of a low temperature chamber in accordance with one exemplary embodiment of the inventive concept.

Referring to FIG. 2, the low temperature chamber 10 includes a chamber body 20, a left side plate 31, and a right side plate 33, and the chamber body 20 includes a top plate 21 and a front plate 25. ), And a back plate 27. Here, 'left', 'right', 'top', 'front', and 'back' refer to the left, right, top, front, and back of the main body 20 respectively based on the figure shown in FIG. define.

In an embodiment, the top plate 21, the front plate 25, the back plate 27, and the side plates 31 and 33 constituting the chamber may have a material or a shape that is different depending on a plate shape or an embodiment of a metal material. Can be. Insulating material may be attached to the outer surface or the inside of each plate 21, 25, 27, 31, 33 for thermal insulation, respectively.

In the illustrated embodiment, the top plate 21, the front plate 25, and the back plate 27 constituting the chamber body 20 may be a structure in which the whole is integrally formed, and each plate 21, 25, 27 may be separately manufactured and combined by a predetermined fastening means such as a bolt to form the main body 20. In addition, as illustrated, any one or both of the front plate 25 and the rear plate 27 may include a display window 26 so that a user can look into the chamber.

Since the shaft of the transmission under test 1 must pass through the left side plate 31 and the right side plate 33, each side plate 31, 33 has a through hole 35 through which the shaft can pass. In order to facilitate the installation of the transmission 1 under test, the side plates 31 and 33 are each composed of two plates separated across the through hole 35.

That is, the left side plate 31 may be composed of two plates 31a and 31b which may be separated in the horizontal direction across the through hole 35, and when the two plates 31a and 31b are combined, a circular through A sphere 35 is formed. One end of the transmission 1 under test is fitted through the through hole 35, and the one end comes into contact with the inner circumferential surface of the through hole 35.

Similar to the left side plate 31, the right side plate 33 is composed of two plates 33a and 33b which can be separated in the transverse direction across the through hole 35, and the two plates 33a and 33b are coupled to each other. When the circular through hole 35 is formed. The other end of the transmission under test is fitted into this through hole 35 and comes into contact with the inner circumferential surface of the through hole 35.

Also in the illustrated embodiment, each of the left side plate 31 and the right side plate 33 has an adapter surrounding the end of the transmission under test between the through hole 35 and the end of the transmission under test 1. (39). The adapter 39 serves to close and seal the gap between the end diameter of the transmission 1 under test and the diameter of the through-hole 35 of the side plate when a gap occurs therebetween. In this case, even when testing two or more types of transmissions having different end diameters, only the adapter 39 corresponding to the end diameter of the transmission needs to be replaced, and the side plate can be used as it is. The adapter 39 attached to the through hole 35 surrounds both ends of the transmission under test, respectively, so that the inside of the left side plate 31 and the right side plate 33, that is, the inside of the low temperature chamber can be sealed from the outside. have.

The configuration of the chamber body 20 and the side plates 31 and 33 as described above may be modified in any way according to the embodiment. For example, the top plate 21, the front plate 25, and the back plate 27 may be separately installed. In addition, in the illustrated embodiment, the side plates 31 and 33 are configured to be separated in the direction crossing the through hole 35 (ie, in the horizontal direction), but in an alternative embodiment, the side plates 31 and 33 may be configured to be separated in the vertical direction and diagonally. It can also be configured to separate in the direction.

Meanwhile, although not shown in FIG. 2, the low temperature chamber further includes a lower plate constituting a lower part of the chamber to seal the chamber from the outside, which will be described later with reference to FIG. 4. In addition, the low temperature chamber may further include a temperature control device for controlling the temperature inside the chamber, which will be described later with reference to FIG. 4.

3 is a perspective view of a low temperature chamber according to an exemplary embodiment of the inventive concept, and FIG. 4 is a side cross-sectional view of the low temperature chamber. 3 and 4, first, a contact portion between the end portion of the transmission 1 under test and the side plates 31 and 33 will be described in detail.

As shown in the figure, both sides of the transmission 1 under test are provided with end portions protruding with steps, and the shaft of the transmission 1 extends from this end 9 and extends. In the low temperature chamber according to an embodiment of the present invention, the end 9 of the transmission 1 under test is fitted into the through holes 35 of the side plates 31 and 33 of the low temperature chamber, By contacting, the side plates 31 and 33 and the transmission under test 1 are attached. At this time, if a gap occurs due to the difference between the diameter of the end 9 of the transmission 1 under test and the diameter of the through hole 35, the gap is removed by inserting the adapter 39 therebetween, thereby eliminating the side plate ( The through holes 35 of 31 and 33 and the end 9 of the transmission 1 to be tested are securely attached so that they can be sealed without passing through air.

On the other hand, as described above, the driving path is formed by connecting the shaft 2 protruding from both ends 9 of the transmission under test to the torque meter 5 side shaft and the coupling 6 side shaft of the test apparatus. .

In order to seal the inside of the low temperature chamber 10 from the outside, the chamber 10 further includes a bottom plate 41. In one embodiment, the lower plate 41 may be formed by stacking the heat insulating material 42 and the metal plate 43, and may be installed in the bed 7 by being fixed to the T slot 8 by fastening means.

The low temperature chamber 10 according to an embodiment of the present invention may further include a temperature controller for controlling the internal temperature of the chamber. In one embodiment, the temperature control device may include a temperature sensor 55, a temperature controller 57, and a refrigerant supply device 59.

The temperature sensor 55 serves as a sensor for sensing a temperature inside the chamber. In the figure, the temperature sensor 55 is shown as located on the inner surface of the top plate 21, but the installation position is freely changeable. In addition, a separate temperature sensor for directly measuring the temperature of the transmission 1 under test may be attached to the surface of the transmission 1 under test.

The temperature controller 57 may receive the temperature signal measured by the temperature sensor 55 and transmit a control signal of the refrigerant supply amount to the refrigerant supply device 59 based on the temperature signal.

The coolant supply device 59 supplies a coolant into the chamber. The coolant supply device 59 supplies coolant to the inside of the chamber through an inlet port 51 provided on the inner surface of the upper plate 21, and the air in the chamber is discharged through the outlet port 53. The refrigerant supply unit 59 again.

According to the temperature control device as described above, the temperature sensor 55 detects the temperature inside the chamber, the temperature signal detected from the temperature sensor 55 is transmitted to the temperature controller 57, the temperature controller 57 is Based on this temperature signal, a control signal for controlling the supply amount of the refrigerant to be supplied into the chamber is generated and transmitted to the refrigerant supply device 59, and the refrigerant supply device 59 supplies a predetermined amount of refrigerant into the chamber according to the control signal. Can be supplied.

Fig. 5 is a flow chart illustrating the steps of testing a transmission under test in a test apparatus including a low temperature chamber in accordance with an exemplary embodiment of the inventive concept.

Referring to Fig. 5, first, the transmission 1 to be tested is fixed to the jig 3 to be mounted on the test apparatus (step S501). Then, if various performance tests are performed on the transmission under test, and the transmission under test needs to be tested at a low temperature, the transmission under test 1 can be cooled to a predetermined set temperature without being removed (step 1). S507), the transmission under test is tested in the state of maintaining this predetermined temperature (step S509).

At this time, the step of cooling to the predetermined temperature is to set the temperature of the transmission 1 under test to a predetermined temperature by installing a chamber 10 which seals the transmission 1 under test from the outside and cooling the inside of the chamber. can do.

That is, the chamber body 20 including the upper plate 21, the front plate 25, and the rear plate 27 is installed in the test apparatus to cover the upper, front, and rear surfaces of the transmission 1 under test (step) S503), and then attach the left side plate 31 and the right side plate 33 to the side surfaces of the chamber body 20 at step S505, respectively, to seal the transmission under test from the outside air, and then operate the temperature controller. To cool the inside of the chamber.

While the present invention has been described with reference to the particular embodiments and drawings, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. This is possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

1: transmission under test 3: jig
4, 14: motor 5: torque meter
6: coupling 7: bed
10: chamber 20: chamber body
21: Top plate 25: Front plate
27: rear panel 31, 33: side panel
35: through-hole 39: adapter
41: lower plate 42: heat insulating material
43: metal plate 51: inlet
53: outlet 55: temperature sensor
57: temperature controller 59: refrigerant supply device

Claims (14)

In the test apparatus for testing the transmission under test,
A connection portion detachably connected to the transmission to be tested; And
A chamber for sealing the transmission under test connected to the connection portion from the outside;
The transmission under test,
A first end protruding with a step on one end surface of the transmission under test;
A first shaft protruding from and extending from the first end;
A second end protruding with a step on the other end face of the transmission under test; And
And a second shaft protruding from and extending from the second end portion.
And the connection part has a first connection part connected to the first shaft of the transmission under test and a second connection part connected to the second shaft of the transmission under test. The method of claim 1,
The test apparatus further includes a bed supporting a transmission under test connected to the connection portion,
And the chamber seals the transmission under test supported by the bed. delete The method of claim 1,
And the chamber is in contact with the first end and the second end of the transmission under test to seal the transmission under test from the outside. The method of claim 4, wherein the chamber,
A chamber body;
A first side plate having a first through hole contacted with the first end by fitting the first end of the transmission under test and engaged with one side of the chamber body;
A second side plate having a second through hole contacted with the second end by fitting the second end of the transmission under test and engaged with the other side of the chamber body; And
And a lower plate forming a lower portion of the chamber. The method of claim 5, wherein
The first side plate includes a first adapter surrounding the first end between the first through hole and the first end of the transmission under test,
And the second side plate includes a second adapter that surrounds the second end between the second through hole and the second end of the transmission to be tested. The method of claim 5, wherein
The first side plate consists of two plates that can be separated across the first through hole,
And the second side plate comprises two plates that can be separated across the second through hole. The method of claim 5, wherein
The test apparatus further comprises a temperature control device for controlling the temperature inside the chamber,
The chamber main body is a transmission test apparatus including an inlet for introducing a refrigerant into the chamber and an outlet for discharging the air in the chamber to the outside of the chamber. The method of claim 8, wherein the temperature control device,
A temperature sensor for sensing a temperature inside the chamber;
A refrigerant supply device supplying a refrigerant to the inlet; And
And a temperature controller receiving a temperature signal from the temperature sensor and transmitting a control signal of a refrigerant supply amount to the refrigerant supply device. The transmission test apparatus according to claim 5, wherein the bottom plate of the chamber is formed by stacking a heat insulating material and a metal plate. In a test method for testing a transmission under test using a transmission test apparatus including a low temperature chamber,
Sealing the transmission under test installed in a bed of the transmission test apparatus, wherein the low temperature chamber is sealed from the outside;
Setting, by the low temperature chamber, the inside of the low temperature chamber to a predetermined temperature; And
And testing the transmission test apparatus by applying torque or rotational force to the transmission under test in a state where the inside of the low temperature chamber is maintained at the predetermined temperature. The method of claim 11,
And the display window is installed in the low temperature chamber so that the inside of the chamber can be viewed. 13. The method of claim 12,
The low temperature chamber,
A chamber body covering the transmission to be tested at an upper side, a front side, and a rear side; And
And a left side plate and a right side plate respectively attached to the side surfaces of the chamber body. The method of claim 13,
The low temperature chamber includes a temperature control device,
The temperature control device is a transmission test method, characterized in that for sensing the temperature inside the low temperature chamber, based on the detected temperature to control the amount of refrigerant to be supplied into the chamber.

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