KR20110063264A - A tension regulator with a pressure vessel applied to a timing belt - Google Patents

Abstract

PURPOSE: A tension adjustment device is provided to prevent a leakage of oil by forming a pressure container between a main body and a propulsion device. CONSTITUTION: A propulsion device(32) is installed in an inside of a main body(31). A containment device(33) is used for sealing the main body and delimiting the propulsion device within the main body. A pressure container(34) is arranged between the main body and the propulsion device. A first opening(312) is sealed by the containment device. An elastic member(321) is arranged in an inside of a moving space(343).

Description

A tensioning device having a pressure vessel applied to a timing belt

The present invention relates to a tension control device, and more particularly to a tension control device having a pressure vessel applied to the timing belt.

Referring to FIGS. 1 and 2, a conventional tension adjusting device 1 applied to a timing belt includes a body 11, a propelling device 12 disposed within the body 11, and A blocking device 13 is provided for sealing the propulsion device 12 and closing the body 11. Here, the main body 11 is formed in the main body 11 such that the sliding space 111 defined therein for filling the hydraulic oil 14 and the sliding space 111 communicates with the outside through the main body 11. Has an opening 112. Furthermore, the pushing device 12 includes an elastic member 121 extending into the sliding space 111 and a pushing member 122 extending in the sliding space 111 to be propelled by the elastic member 121. Has

2, the timing belt (not shown) is pushed by the tension adjusting device 1. That is, the propulsion member 122 is adapted such that a portion of the propulsion member 122 protruding outward from the containment device 13 exerts thrust on the timing belt at an appropriate pressure via a belt idler (not shown). It is driven by the elasticity of the elastic member 121. Thereafter, the pushing member 122 is driven by the belt idler so that the pushing member 122 properly resumes the operation for the next thrust. 121) to withdraw inward to engage.

However, the conventional tension control device 1 has the following disadvantages.

1. The manufacture of the body 11 of the tension control device 1 is generally associated with die casting forming means. However, diecast products have a lower density than alloys by other forming methods. In addition, small gaps are often formed in diecast products. In particular, when the body 11 is made of aluminum alloy, more small gaps will be formed. Here, due to these disadvantageous gaps, the hydraulic oil 14 sealed in the main body 11 leaks easily to the outside when the propulsion device 12 is operated or even in the absence of movement. Over time, due to the leakage of the hydraulic oil 14, the amount of oil is insufficient and the operation of the propulsion device 12 is not made correctly.

2. Leakage of the hydraulic oil 14 which causes the amount of oil to be insufficient cannot refill the hydraulic oil 14, thus shortening the life of the tension adjusting device 1. Therefore, this tension adjusting device 1 must be replaced regularly, otherwise the driving safety will be affected. Here, if the user wants to refill the hydraulic oil 14, the containment device 13 must be removed first. In order to seal the hydraulic oil 14 with the containment device 13, a specialized machine must be used for the operation. Clearly, these procedures and productions are complex and technically related. The average user cannot easily perform such an action on his own.

SUMMARY OF THE INVENTION An object of the present invention is to provide a tension control device having a pressure vessel applied to a timing belt, which can effectively prevent leakage of hydraulic oil in order to enhance safety in use.

The tension adjusting device having a pressure vessel applied to a timing belt according to the present invention includes a main body, a propulsion device installed inside the main body, and a containment device disposed to seal the main body and to define the propulsion device in the main body. Equipped. Here, the pressure vessel disposed between the body and the propulsion device has a moving space surrounded by the circumferential wall and the bottom wall. Moreover, the pressure vessel forms the second opening on the side opposite to the bottom wall so that the moving space can communicate with the outside via the second opening. Thereby, the propulsion device is set and moved in the moving space, and hydraulic oil fills the moving space. As a result, the pressure vessel effectively prevents the hydraulic oil from leaking out and ensures safety in use.

In this regard, a tensioning device having a pressure vessel applied to the claimed timing belt is provided with a body filled with hydraulic oil, a propulsion device installed in the body, and for sealing the body and defining the propulsion device in the body. And a containment device disposed. The main body has a sliding space in which one side communicates with the outside via a first opening defined by itself. The first opening is sealed by the containment device. The propulsion device has an elastic member and a propulsion member driven by the elastic member. A portion of the pushing member projects out of the containment device. In particular, a pressure vessel is mounted between the body and the propulsion device, the pressure vessel having a moving space surrounded by a circumferential wall and a bottom wall. The pressure vessel further defines a second opening on the opposite side of the bottom wall such that the moving space communicates with the outside via the second opening. The movement space filled with hydraulic oil is defined such that the propulsion device is received and moved therein.

Preferably, the bottom wall of the pressure vessel defines a filling hole that penetrates the body and communicates with the outside, and a sealing member is disposed in the filling hole for sealing.

Advantages of the invention over the prior art will become more apparent to those skilled in the art upon reading the following description with reference to the drawings.

The present invention achieves the object of the present invention by using a pressure vessel formed between the body and the propulsion device to prevent hydraulic oil from seeping out.

1 is a partial cross-sectional perspective view showing a conventional tension control device.
Figure 2 is a longitudinal sectional view showing a conventional tension control device in use.
3 is an exploded perspective view showing a first embodiment of the present invention.
4 is a longitudinal sectional view of the first embodiment of the present invention.
5 is a longitudinal sectional view showing a second embodiment of the present invention.

3 and 4 show a first embodiment of the present invention, wherein the tension adjusting device 3 is a body 31 and a propelling device 32 installed inside the body 31. And a blocking device 33 for sealing the body 31 and confining the propulsion device 32 in the body 31. Here, the main body 31 defines a sliding space 311 through which one side thereof communicates with the outside via the first opening 312 defined in the main body 31. Here, the first opening 312 may be sealed by the containment device 33.

The pressure vessel 34 disposed between the body 31 and the propulsion device 32 is a moving space 343 surrounded by a circumferential wall 341 and a bottom wall 342. Has Here, the pressure vessel 34 is preferably formed in a seamless state, for example, the circumferential wall 341 and the bottom wall 342 of the pressure vessel 34 are bent. It can be made by plastic or alloy plate. Alternatively, it is also possible to directly treat the alloy steel to form the pressure vessel 34. In this embodiment, the pressure vessel 34 is made of alloy steel and employs a direct processing shaping scheme. In addition, the pressure vessel 34 forms the second opening 344 on the side opposite the bottom wall 342 so that the moving space 343 can communicate with the outside via the second opening 344. . The moving space 343 is defined such that the propulsion device 32 can be received and moved therein, and the hydraulic oil 35 fills the moving space 343. In addition, the propulsion device 32 is provided with an elastic member 321 disposed inside the moving space 343 and a propulsion member 322 driven thereby. A portion of the pushing member 322 protrudes out of the containment device 33.

With reference to FIGS. 3 and 4, in the manufacture of the tension control device 3, the propulsion device 32 will be installed inside the pressure vessel 34. Thereafter, the moving space 343 will be filled with the hydraulic oil 35. Thus, the product is preferably completely manufactured by setting the pressure vessel 34 in the sliding space 311 of the main body 31 and sealing the second opening 344 by the containment device 33. . In addition, the pressure vessel 34 preferably employs a plastic material or an alloy material to allow bending. Alternatively, alloy steel material is processed directly to form the pressure vessel 34. Due to this, the pressure vessel 34 has a seamless shape. Here, in this embodiment, the pressure vessel 34 employs an alloy steel material that is directly processed to form its seamless shape. Therefore, due to the seamless pressure vessel 34 installed in the main body 31, the tension adjusting device 3 actually prevents the pressure oil 35 in the moving space 343 from leaking out. When not in operation, ie the propulsion member 322 stops thrust against the timing belt, the hydraulic oil 35 will be sealed by the pressure vessel 34 to reduce leakage. Even when the hydraulic oil 35 is compressed by the pushing member 322 and dispersed in the moving space 343 due to the increased pressure while the pushing member 322 performs its thrust operation, the The pressure oil 35 is preferably still retained in the moving space 343 of the seamless pressure vessel 34. Therefore, even when compressed, the hydraulic oil 35 does not escape from the gaps formed in the main body 31, thereby ensuring safety in use. The tension control device 3 also achieves a flexible operation.

Referring to Fig. 5, a second embodiment of the present invention is shown. The tension adjusting device 3 has components similar to those of the first embodiment. That is, the tension adjusting device 3 substantially includes the main body 31, the pushing device 32, the blocking device 33, and the pressure vessel 34. Connections and applications of the same components as those of the first embodiment are omitted here. Differently, the pressure vessel 34 of this embodiment further defines a filling hole 345 in its bottom wall 342 for communicating with the outside through the body 31. Here, the filling hole 345 is closed by the containment member 346. Thus, when there is not enough hydraulic oil 35 in the pressure vessel 34, the containment member 346 is removed in a timely manner so that the user can quickly refill the oil through the filling hole 345. It will thus ensure that the tensioning device 3 always maintains the proper amount of hydraulic oil 35.

While the embodiments of the present invention have been shown and described, it will be apparent to those skilled in the art that additional embodiments are possible without departing from the scope of the present invention.

3: tension adjusting device 31: main body
32: propulsion device 33: containment device
311: sliding space 312: first opening
322: pushing member 341: circumferential wall
342: bottom wall 343: moving space
344: second opening 346: containment member

Claims (2)

A tension control having a pressure vessel applied to a timing belt, the body including a hydraulic oil filled body, a propulsion device installed on the body, and a containment device for sealing the body and defining the propulsion device within the body. In the apparatus,
The main body has a sliding space, one side of which is in communication with the outside via a first opening defined by itself, the first opening being sealed by the containment device, and the propulsion device by the elastic member and the elastic member. A propulsion member driven, a portion of the propulsion member protruding out of the containment device,
The pressure vessel mounted between the main body and the propulsion device has a movement space surrounded by a circumferential wall and a bottom wall, the pressure vessel further forming a second opening on the opposite side of the bottom wall, thereby moving the movement. The space is in communication with the outside via the second opening, the moving space is defined so that the propulsion device is received and moved therein, and the moving space is filled with the hydraulic oil. . The method of claim 1,
The bottom wall defines a filling hole passing through the body and in communication with the outside, wherein a sealing member is disposed in the filling hole for sealing.

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