KR101088172B1 - A direction lever - automatic suspension of construction equipment - Google Patents

Abstract

The present invention relates to a self-locking direction lever of construction equipment, the insertion portion coupled to the construction equipment to the lower side and the coupling portion positioned to the upper side of the insertion portion and forming a protruding jaw on both sides, the handle is coupled to the coupling portion The coupling groove is formed to be coupled to both sides, the coupling groove on one side of the handle is formed before and after, the first groove and the second groove and the intermediate groove which can be located in the neutral and the other side coupling groove fixed portion formed with the intermediate groove And, the insertion portion is formed in the coupling groove and the fixing portion and the fixing groove is coupled to the shaft formed with a Hall sensor for detecting the movement of the handle.

The present invention is formed by the number of grooves along the traveling direction on one side of the fixing portion, and by forming only one groove that can be caught in the middle on the other side, when the user rotates the handle to move the construction equipment or cargo The handle is easily rotated by a plurality of grooves formed at one side of the fixing part to move the construction equipment or cargo, and the user's operation is inexperienced and unconsciously rotates the handle so that the handle moves two steps at a time. Hanging the middle groove formed on the other side of the government has the advantage of preventing the malfunction of the construction equipment or cargo by preventing the handle from moving two steps at a time.

 Direction lever, auto latch, switch, sensor

Description

A direction lever-automatic suspension of construction equipment

The present invention relates to an automatic latching direction lever of construction equipment, and more specifically, installed in construction equipment such as forklifts or excavators to move an object loaded in construction equipment or construction equipment up, one left, right, before and after In order to prevent the direction lever from moving two steps at a time, when the driver operates the direction lever used for the purpose, the coupling groove on one side forms the number of grooves according to the movement stage to adjust the movement stage of the handle and the coupling groove on the other side. The present invention relates to a self-locking direction lever of construction equipment for installing a single groove to prevent the direction lever from suddenly moving more than one step due to its own weight or immature operation of a driver.

The direction lever used in the general construction equipment is installed in the construction equipment and used to move the construction equipment or the object loaded on the construction equipment up, down, left, right, front and back. Afterwards, the construction equipment or the object is rotated to move. At this time, the coupling grooves formed on both sides of the fixing part to which the handle is coupled are formed with the same number of grooves according to the moving direction to select the moving direction of the construction equipment and cargo. The jaw coupled to the groove is formed on both sides of the handle, and when the driver rotates the handle, the jaw formed on the handle is coupled to the groove on one side formed in the coupling groove so that the hall sensor and the magnet formed on the fixing portion and the handle rotate. As a result, construction equipment or objects were moved according to the operator's operation.

However, as described above, the grooves formed in the coupling grooves formed on both sides of the fixing part are formed in the same number on both sides, and when the driver rotates the handle to move the construction equipment or cargo, A jaw formed on both sides of the handle is caught by the formed groove, and the jaw of the handle is not fixed to the groove that the driver moves in the direction intended by the driver due to the immature operation of the driver or the force that the handle tries to move. While being fixed, there was a problem that the construction equipment or cargo is moved in a different direction than the driver's intention.

The self-locking direction lever of the inventors of the construction equipment is inserted into the construction unit to the lower side and the coupling portion is positioned to the upper side of the insertion portion and formed with a protruding jaw on both sides, so that the handle is coupled to both sides coupled to the coupling portion A coupling groove is formed, but the coupling groove on one side of the handle is formed before and after, the first groove and the second groove and the intermediate groove which can be located in the neutral and the other side of the coupling groove is formed in the fixing groove formed in the intermediate groove, the insertion It is formed in the inner portion of the coupling portion and the fixing portion and consists of a fixing groove is coupled to the shaft formed with a Hall sensor for detecting the movement of the handle.

As described above, the present invention forms a number of grooves along the traveling direction on one side of the fixing part, and forms only one groove on the other side, so that the user moves the construction equipment or cargo. When the handle is rotated, the handle is easily rotated by a plurality of grooves formed on one side of the fixing part to move the construction equipment or cargo. When trying to move it is caught in the intermediate groove formed on the other side of the fixing portion has the advantage that the handle can not move two steps at a time to prevent the malfunction of construction equipment or cargo.

In addition, the first and second grooves formed in the fixing part may be formed on only one side, thereby reducing the time and work process for manufacturing the fixing part.

In addition, by rotating the handle by one step as described above, by preventing the construction equipment or cargo from rotating in the other direction by the user's mistake, it is possible to prevent damage or casualties caused by the mistake of directional control of the construction equipment or cargo. There is an advantage.

Looking at the configuration of the automatic latching direction lever of the construction equipment of the present invention for achieving the above object as follows.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

First, the self-locking direction lever 10 of the construction equipment of the present invention is positioned to the upper side of the insertion portion 11 and the insertion portion 11 is coupled to the construction equipment to the lower side as shown in Figs. Coupling portion 13 formed on both sides protruding jaw 12 and the coupling groove 14 is formed to be coupled to the coupling portion 13 so that the handle (s) is coupled to both sides, the coupling groove 14a of one side The first groove 15a, the second groove 15b, and the intermediate groove 15c, which may be positioned at the neutral position before and after the handle s, are formed, and the intermediate groove 15c is disposed at the other side of the coupling groove 14b. Shaft formed with a fixed portion 15, the inner portion of the insertion portion 11, the coupling portion 13 and the fixing portion 15 and the Hall sensor (h) for detecting the movement of the handle (s) is formed 16 is composed of a fixing groove 17 is coupled.

Here, the locking jaw (s1) formed on the engaging groove 14 of the fixing portion 15 when the locking jaw (s1) is formed on both sides of the handle (s) to rotate the handle (s). The first and second grooves 15a and 15b or the intermediate grooves 15c can be caught so that the driver can move the construction equipment or cargo in the desired direction.

Further, the fixing groove 17 further includes a fixing jaw 17a to fix the position of the hall sensor h formed on the shaft 16, or the hall sensor h and the shaft 16 are fixed. It is preferable to prevent the breakage of the hall sensor (h) and the shaft (16) by not inserting more than the depth.

In addition, a plurality of grooves (not shown) are further formed in the coupling groove 14a formed at one side of the fixing part 15 in addition to the first groove 15a, the second groove 15b, and the intermediate groove 15c. You may.

Looking at the operation according to a preferred embodiment of the present invention having the configuration as described above are as follows.

First, the shaft 16 having the hall sensor h is coupled to a fixing groove 17 formed inwardly of the insertion part 11, the coupling part 13, and the fixing part 15 to forklift the shaft 16. Or electronic control devices (not shown in the drawings) that are typically installed in construction equipment such as excavators.

Here, the insertion portion 11 is inserted into the case of the electronic control device and the coupling portion 13 is brought into close contact with the case (not shown in the figure).

Then, the handle s is coupled to the coupling grooves 14 formed on both sides of the fixing part 15.

Here, the engaging jaw (s1) formed on the handle (s) is coupled to the intermediate groove (15c) of the coupling groove 14 formed on both sides of the fixing portion (15).

In addition, the first groove 15a and the second groove 15b are formed at the left and right sides of the coupling groove 14a formed at the fixing part 15 with respect to the intermediate groove 15c. Only the intermediate groove 15c is formed in the coupling groove 14b.

In addition, the intermediate groove 15c formed on one side of the coupling groove 14 and the intermediate groove 15c formed on the other side are formed to face each other, so that the handle s is easily coupled and fixed to the coupling groove 14. do.

In addition, it is obvious that a magnet (not shown) is attached to the handle s so that the rotation of the handle s can be detected by the hall sensor h.

On the other hand, after the automatic latching direction lever of the construction equipment is coupled to the construction equipment, such as a forklift or an excavator, the user moves the handle (s) to the first groove (15a) or to move the cargo loaded on the construction equipment or the construction equipment. When rotated in the direction of the second groove (15b), the engaging jaw (s1) formed in the handle (s) is coupled to the first groove (15a) or the second groove (15b) by the user's operation handle (s) Hall sensor (h) formed on the shaft 16 detects the movement of the magnet formed in the construction equipment or cargo is moved according to the user's purpose.

Here, when rotating the handle (s) as shown in a and b of Figure 2, the locking jaw (s1) formed on both sides of the handle (s) is a locking groove 14a of one side of the fixing portion 15 Position of the first groove 15a or the second groove 15b in which construction equipment is caught by the locking jaw S1 of the handle s should be located in the first groove 15a or the second groove 15b formed in the first groove 15a or the second groove 15b. While moving according to, but only the intermediate groove (15c) is formed in the locking groove (14b) of the other side of the fixing portion 15, the locking step (s1) formed in the handle (s) is out of the intermediate groove (15c) In order for the user to artificially exert a force on the handle (s) more than a certain force, but because the handle (s) is rotated, the handle (s) is not easily moved due to its own weight or inexperienced operation of the user.

For example, the locking jaw s1 of the handle s is initially located in the intermediate groove 15c of the fixing part 15 so that the user can move the handle s to the first groove to move the construction equipment or cargo. When rotating in the direction of (15a) (forward), the locking step (s1) of the handle (s) in the intermediate groove (15c) formed in the coupling groove (14a) on one side of the fixing portion 15 is the first groove (15a) It is coupled to the first groove (15a) while rotating in the direction.

At the same time, the locking jaw s1 of the handle s located in the intermediate groove 15c formed in the coupling groove 14b on the other side of the fixing part 15 should be out of the intermediate groove 15c. Since only the intermediate groove 15c is formed in the defect groove 14b, the locking jaw s1 of the handle s does not easily escape from the intermediate groove 15c, so that the user rotates the handle s in a desired direction. In order to apply a force more than a predetermined force to the handle (s), but the handle (s) is out of the intermediate groove (15c) formed in the coupling groove (14b) of the other side.

In addition, the user to move the construction equipment or cargo in the direction of the first groove (15a) (forward) and to place the handle (s) in the intermediate groove (15c) to stop the construction equipment, the user's mistake or Since the handle s may move in the direction of the second groove 15b (reverse) without any limitation by the weight of s), the handle s coupled to the locking groove 14b on the other side of the fixing portion 15. Does not move in the direction of the first groove 15a to the second groove 15b, but is caught by the intermediate groove 15c.

As such, when the user moves the construction equipment or cargo, when the handle (s) rotates in the fixing unit 15, it is possible to control the movement of the construction equipment and cargo by not moving two steps at a time.

In addition, although only the first groove 15a, the second groove 15b, and the intermediate groove 15c are illustrated in the coupling groove 14a formed at one side of the fixing part 15, the first groove 15a and the second groove 15c are shown. In addition to the groove 15b and the intermediate groove 15c, a plurality of grooves may be further formed according to a user's purpose.

For example, in the present invention, the forward and the reverse are set as basic, but generally it refers to the formation of a plurality of grooves, such as the number of gears installed in an automobile.

By controlling the rotation of the handle (s) as described above to control the movement of the construction equipment or cargo, it is possible to prevent damage to the construction equipment or cargo and prevent casualties.

1 is a cross-sectional view showing the self-locking direction lever of the construction equipment of the present invention.

Figure 2a is a use state showing one side of the automatic latching direction lever of the construction equipment.

2 b is a use state showing the other side of the automatic latching direction lever of the construction equipment.

* Description of the symbols for the main parts of the drawings *

11 insertion portion 12 protruding jaw

13 coupling portion 14: coupling groove

15: fixing portion 15a: first groove

15b: 2nd groove 15c: intermediate groove

16: shaft 17: fixing groove

17a: fixed jaw s: handle

s1: Jamming h: Hall sensor

10: Automatic latching direction lever of construction equipment

Claims (4)

It is coupled to the coupling portion 13 and the coupling portion 13 which is positioned to the upper side of the insertion portion 11 and the insertion portion 11 which is coupled to the construction equipment to the lower side and the protruding jaw 12 on both sides, Coupling groove 14 is formed so that the handle (s) formed with a magnet is coupled to both sides, the first groove (15a) that the handle (s) can be located before, after, neutral in one coupling groove (14a) The second groove 15b and the intermediate groove 15c are formed, and the intermediate groove 15c is formed in the coupling groove 14b on the other side, and the intermediate groove 15c and the other side of the coupling groove 14a on the one side are formed. The intermediate groove 15c formed in the coupling groove 14b is formed inside the fixing part 15 formed to face each other, the insertion part 11, the coupling part 13, and the fixing part 15, and formed with a magnet. Automatic locking direction lever of the construction equipment, characterized in that consisting of the fixing groove 17 is coupled to the shaft 16, the hall sensor (h) is formed to detect the movement of the handle (s). 2. The automatic latching direction lever of construction equipment according to claim 1, wherein a locking step (s1) is formed at both sides of the handle (s). The method of claim 1, wherein the engaging groove (14a) formed on one side of the fixing portion (15) is a self-locking direction lever of the construction equipment, characterized in that a plurality of grooves are further formed. 2. The automatic latching direction lever of construction equipment according to claim 1, wherein the fixing groove (17) is further provided with a fixing jaw (17a).

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