KR20000066514A - Apparatus for adjusting tension of chain in escalator - Google Patents

Abstract

PURPOSE: A tension controller of an escalator chain is provided to make a worker check and adjust an escalator chain on the floor without entering an apparatus room, and to keep tension with a larger force than an elastic modulus of a spring. CONSTITUTION: A second connecting rod(23) stands vertically against a first connecting rod(21) to be supported elastically by a spring(25). A nut(27) coupled to the second connecting rod(23) is positioned to be touched by the hand of a worker on the floor. To check tension of an escalator chain, the worker operates on the floor by removing one of plural floors covering an apparatus room without entering. The spring(25) is adjusted in elasticity depending on tightness of the nut(27) to push up the second connecting rod(23). The spring(25) pulls a tension controller(10) through a link member(24) and the first connecting rod(21). Thus, the chain keeps tension regular.

Description

Tension control device of escalator chain {APPARATUS FOR ADJUSTING TENSION OF CHAIN IN ESCALATOR}

The present invention relates to a tension adjusting device of the chain for escalator for adjusting the tension of the chain moving the moving scaffold in the escalator or moving walkway, in particular, when the chain is excessively stretched or must be adjusted by repair, etc. To improve the device.

As is well known, an escalator is a mechanism for carrying passengers continuously between floors of a building, a chain (1) installed so as to be circulated on a caterpillar as shown in FIG. A plurality of moving scaffolding 2, which is moved while forming a staircase at regular intervals, railings 3 continuously installed on the left and right sides of the moving scaffolding 2, and this handrail 3 is the same as the moving scaffolding 2 A moving handle 4 circulating in the same direction as the speed, and a driving device for driving the chain using a motor (not shown) as a power source, so as to allow the passenger to hold the moving handle 4 and to the moving footrest 2. It is configured to lift and carry.

On the other hand, although not illustrated in the drawings, the mechanism of the moving walkway is also substantially the same as the mechanism structure and principle of the above-described escalator is to move the moving scaffold in the horizontal direction.

There are several floors (5) in the form of blocks that can be lifted on the escalator or moving walkway, and when the floor (5) is pulled out, the moving scaffolds (2) underneath change the direction of travel. The machine room 7 in which the chain support 6 is located is revealed. The chain 1 should be driven while maintaining an appropriate tension, but it is often difficult to maintain proper tension due to excessive load or gradual slack over wear and the like. If the tension of the chain 1 is not appropriate, it may cause noise and failure, and if the vehicle stops suddenly due to a failure during operation of the escalator, the risk of a safety accident is predicted. Therefore, in order to prevent failures and accidents, it is necessary to check and readjust the tension of the chain from time to time or periodically. To this end, the machine room 7 can maintain and adjust the tension of the chain and perform the function of detecting the tension change. The tension adjusting device 8 is provided.

In constructing the tension adjusting device 8, as shown in FIG. 2, the tension adjuster 10 and the connecting rod 11 on the side of the chain not penetrating through the fixed frame 9 in the horizontal direction are shown in the related art. The spring 12 and the spring bearing 13 around the connecting rod 11 on one side of the fixing frame 9 so as to maintain tension by pulling the tension adjuster 10 through the connecting rod 11. And the adjusting nut 14 is fastened on the connecting rod 11 to adjust the elasticity of the spring 12 while preventing the spring bearing 13 from being pushed, and also to detect the change in tension, the connecting rod (11) A sensing switch 16 is provided at the end and a sensing switch 16 for detecting a signal informing the strength and weakness of the tension in accordance with the movement of the sensor 15 has been provided. That is, the tension of the chain is maintained by the elasticity of the spring 12 is adjusted according to the fastening position of the adjustment nut 14 and the elasticity of the adjusted spring 12 pulls the tension adjuster 10 through the connecting rod 11. When the connecting rod 11 moves in the horizontal direction due to the change in the tension of the chain during operation, when the moving distance is out of a certain range, the detection switch 16 is interlocked by the detector 15 to detect a signal indicating this. It is to inform the immediate action of the risk.

However, in the conventional tension control device as described above, the machine room is narrow, but the position of the adjustment nut that can adjust the elasticity of the spring is located at the outside, that is, the position not reachable well on the floor, there is a problem to be solved as follows.

That is, in order to check or adjust the chain tension, as shown in FIG. 3, the worker should roll out the floor 5 and enter the narrow machine room 7 to work in an unstable posture. Therefore, it takes a lot of time, causing great inconvenience for passengers, such as stopping the escalator (or moving walk) for a long time, and because the worker is not visible from the outside, the worker in the machine room 7 is operating by not operating the escalator incorrectly. It is impossible to rule out fatal casualties, such as a collision accident.

In addition, in the conventional tension control device, since the elasticity of the spring is directly transmitted to the tension adjuster through the connecting rod, the adjustable tension adjustment value is limited to the maximum elasticity held by the spring. This is an uneconomical factor in the consumption of various springs with different modulus of elasticity to meet the required maximum tension, such as building height or passenger capacity.

Accordingly, an object of the present invention is to improve the maintenance and adjustment of the tension with a greater force than the elastic modulus of the spring, and the operator can easily check and adjust on the floor without entering the machine room to solve the above problems. The present invention provides a tension control device for an escalator (or moving walkway) chain.

1 is a cross-sectional view showing the interior of the machine room is installed tension control device of the escalator chain according to the prior art.

Figure 2 is a detailed side view showing the main part of the tension control device of the escalator chain according to the prior art.

Figure 3 is a cross-sectional view showing the inside of the machine room to explain the operation of checking and adjusting the tension with the tension adjusting device of the escalator chain according to the prior art.

Figure 4 is a cross-sectional view showing the inside of the machine room to which the tension control device of the escalator chain according to the present invention.

Figure 5 is a detailed side view showing the main part of the tension control device of the escalator chain according to the present invention.

Figure 6 is a cross-sectional view showing the inside of the machine room to explain the operation of checking and adjusting the tension with the tension control device of the escalator chain according to the present invention.

Explanation of symbols on the main parts of the drawings

1: Chain 2: Moving Scaffold

4: moving handle 5: floor

7: Machine room 10: Tension adjuster

21: first connection rod 23: second connection rod

24: link member 25: spring

26: spring support 27: adjusting nut

In order to achieve the above object, the present invention, in the conventional escalator or moving walk is provided with a connecting rod movable and connected to the tension adjuster of the chain in the horizontal direction as a first connecting rod and movable apart from the first connecting rod A link member which connects the second connecting rod and the first and second connecting rods to be interlocked by a pivoting movement is used, and the spring as described above on the second connecting rod and the adjusting nut for adjusting the elasticity of the spring and the sensing member By installing a tension change detection means such as a ruler and a sensing switch, it is configured to be transmitted to the tension adjuster through the link member and the first connection rod from the second connection rod acting the spring elasticity.

According to the present invention, even if the position of the first connecting rod horizontally connected to the tension adjuster of the chain is far from the outside of the machine room described above, the second connecting rod connected through the link member and the first connecting rod is damaged on the floor outside the machine room. Can be placed in reach. Therefore, in order to check and adjust the tension, it is possible to easily adjust from the outside by lifting only one of several floors covering the upper side without entering the machine room as in the prior art.

In addition, according to the present invention, by shortening the length of one end connected to the first connecting rod centered around the pivoted point of the both ends of the link member and the length of the other end connected to the second connecting rod, Like the principle, it can be applied to the first connecting rod with a force doubled by the ratio of the length of the spring acting on the second connecting rod.

Referring to the preferred embodiment of the tension control device of the escalator chain according to the present invention in detail as follows.

Figure 4 shows the inside of the machine room of the escalator to which the present invention is applied, Figure 5 is a detailed view of the tension control device of the improved escalator chain according to the present invention. In these drawings, the same reference numerals are given to the same members as those described above for convenience. In Fig. 4, reference numeral 1 is a chain, 2 is a plurality of moving scaffolds, 3 is a handrail, 4 is a moving handle, 5 is several floors, 6 is a chain support part, 7 is a machine room, 10 is a tension adjuster of a chain, and 20 Represents an improved tensioning device according to the invention.

According to the present invention, the improved tension adjusting device 20 has a first connecting rod 21 installed to be connected to and movable in a horizontal direction with the tension adjuster 10, as shown in FIG. 5, the first connecting rod 21. The second connecting rod 23 and the first and second connecting rods 21 and 23 which are movably penetrated in the vertical direction through the horizontal fixing frame 22 apart from each other and are pivotally supported, respectively. Spring 25 installed around the link member 24, the second connecting rod 23 on the fixed frame 22, its spring bearing 26, and the spring bearing 26, while preventing the spring bearing 26 from being pushed The adjusting nut 27 fastened to the threaded portion 23a formed on the connecting rod 23 to adjust the pressure, and a sensor 28 installed at the end of the second connecting rod 23 as a means for detecting a change in tension. As the sensor 28 moves, it is fixed by a detection switch 29 that detects a signal indicating strength and weakness of the tension.

Here, as shown in the figure, the second connecting rod 23 stands vertically upward with respect to the first connecting rod 21 and is installed to be elastically supported upward by the spring 25 to be fastened thereon. ) Was considered to be in a position where the hand can reach on the floor (5) as shown in FIG. That is, in order to check or adjust the tension, the operator does not have to enter the inside of the machine room 7, and works on the floor 5 with only one of several floors 5 covering the machine room 7 lifted out. It can be.

The elasticity of the spring 25 acts to push up the second connecting rod 23 upwardly by loosening and tightening the adjustment nut 27 as usual. The elasticity of the spring 25 acting on the second connecting rod 23 is pulled by the tension adjuster 10 through the link member 24 and the first connecting rod 21 and thereby the chain with a force corresponding to the elasticity Maintain tension.

The link member 24 is formed by pressing a steel plate in an 'L' shape, and has both ends 24a and 24b connected to the first and second connecting rods 21 and 23, respectively, and a portion therebetween is pivoted. It is supported by (24c), the length of one end portion (24a) connected to the first connecting rod 21 is short centered around the point supported by the pivot (24c) and the other end 24b connected to the second connecting rod (24b) ) Is long. That is, the spring acting on the second connecting rod 23 connected to the other end 24b in proportion as a principle of lever lever acting a moment proportional to the ratio of the length of both ends 24a and 24b through the link member 24. The force of (25) is largely applied to one end portion (24a) so that the tension adjuster (10) can be pulled with an increased force than that of the spring (25) through the first connecting rod (21) connected thereto. will be.

Therefore, it is possible to use a spring that has elasticity with a smaller absolute value than the tension required by the escalator chain, which means that only one type of spring can sufficiently maintain and adjust the required tension regardless of building height or passenger capacity. it means. Such a link member 24 may be applied as long as it has a lever function as a rigid body in any form such as a circle in addition to the 'L' type as illustrated in the drawing.

On the other hand, when the second connecting rod 23 moves in the vertical direction due to the change in the tension of the chain during the escalator running, the detection switch 29 is interlocked by the detector 28 when the moving distance is out of a certain range as usual. By doing so, a signal indicating this is detected and based on the detected signal, for example, an emergency alarm or the like can be notified of the danger.

Although the drawings and the above description are only examples of the escalator, the present invention is applied not only to an escalator but also to a chain of moving walks having substantially the same structure and principle, as well as to maintain, adjust, and sense tension of chains installed in various similar mechanical devices. Of course, it is applicable.

As described through the above embodiments, the present invention is to improve the tension control device such as an escalator chain so that it can be easily checked and adjusted from the outside. Therefore, according to the present invention, the safety of the operator can be fully ensured and the working time can be shortened, thereby minimizing the inconvenience of the passengers due to the suspension of the escalator.

In addition, according to the present invention, it is possible to use a relatively small modulus of spring as a spring for imparting the tension of the chain, as well as an economic advantage in facilities such as escalators by allowing one type of spring to be used regardless of building height or passenger capacity. It is effective to provide.

Claims (5)

In the tension control device of the escalator chain including a tension adjuster for maintaining the tension of the escalator chain is installed to circulate the endless track and to adjust the tension by pulling the tension adjuster in the horizontal direction, A first connecting rod movable and connected to the tension adjuster in a horizontal direction; A second connecting rod movable away from the first connecting rod, A spring having elasticity for imparting tension of the chain and installed to elastically support the second connection rod in one direction; An adjusting nut coupled to the second connecting rod to adjust elasticity of the spring; A link member having both ends connected to the first and second connecting rods, respectively, and a portion therebetween pivoted so that the elasticity of the spring acting on the second connecting rod is transmitted to the tension adjuster through the first connecting rod. Equipped with a tension control device of the escalator chain. The escalator chain of claim 1, wherein the length of the other end connected to the second connection rod is longer than the one end connected to the first connection rod with respect to the pivoted point of the both ends of the link member. Tension control device. According to claim 1, wherein the second connection rod is further provided with a fixed frame through which the fixed frame, and a spring bearing supported by the adjusting nut at a distance from the fixed frame, the spring is the fixed frame and the spring Tension control device of the escalator chain that is elastically supported between the receivers. The tension adjusting device of an escalator chain according to claim 1, further comprising a tension change detecting means for detecting a signal indicating a change in tension by detecting a movement of an end of the second connection rod. 6. The tension adjusting device of an escalator chain according to any one of claims 1 to 5, wherein said second connecting rod is erected in a vertically upward direction so as to be accessible from the outside.