KR200157039Y1 - Shock absorber of turn table - Google Patents

Abstract

The present invention changes the rotational kinetic energy of the rotating body to the linear kinetic energy at the front end of the shock absorber before the shock is directly transmitted to the shock absorber when the tanner is stopped. It relates to a shock absorbing device of a rotating body that can be provided to the shock absorber rod portion is not easily damaged by imparting to the continuity without stopping the production and assembly line, the stop of the rotating body (T) provided with a stopper (1) And a fixing bracket (4) having a sliding rod (3) which is shot by a coil spring (2) in a vertical line during the rotational movement of the stopper (1) attached to the lower end of the rotating body (T). It is installed and the support rod 5 is installed at the tip of the sliding rod 3 so as to face the rod 7 of the shock absorber 6 at the rear end of the support 5 in a straight line to be fixed by the shock absorbing unit 8. .

Description

Shock Absorber of Turntable

The present invention changes the rotational kinetic energy of the rotating body to the linear kinetic energy at the front end of the shock absorber before the shock is directly transmitted to the shock absorber when the tanner is stopped. It relates to a shock absorbing device of a rotating body that can be given to the continuity of the work without stopping the production and assembly line is not easily broken by the transmission of the shock absorber rod.

In general, the shock absorber that is used in a variety of equipment is applied to the rotating body, as shown in Figure 2 is used in the work line for stopping and buffering the rotating body

In the conventional apparatus for stopping and buffering a rotating body, as shown in FIG. 3, a stopper 22 installed at a lower end of the rotating body 21 performs a rotating motion, and rotational kinetic energy of the rotating body 21 is reduced. Directly transmitted to the rod 24 of the shock absorbing device 23 fixed by the fixing bracket 25 at the lower end to absorb the shock to stop and buffer the rotating body 21.

In the conventional shock absorber, since the stopper 22 having the rotational kinetic energy strikes the tip of the rod 24 directly, the fatigue degree until the energy received from the rod 24 is transferred to the shock absorber 23 is obtained. The cumulative damage cycle of the rod 24 is shortened, and replacement time is required due to the breakage of the rod 24. Thus, the stoppage of the work line and the efficient management of the workforce are impossible, resulting in an increase in the cost of the product. This situation contains a problem.

Therefore, the present invention has been devised for the purpose of improving the above-mentioned conventional problems. The rotational kinetic energy of the rotating body is changed to linear kinetic energy and transferred to the rod of the shock absorber, thereby eliminating the fatigue by removing the fatigue of the rod. To provide a shock absorber of the rotating body that can act more smoothly and stop and cushioning.

In order to prevent the stopper installed at the lower end of the rotating body from being directly transmitted to the rod part of the shock absorber in order to provide the shock absorbing device of the rotating body, the rotating body to change the rotational kinetic energy of the rotating body to linear kinetic energy. At the bottom of the rod, a fixed bracket having a sliding rod sliding by a separate coil spring is installed at the end of the rod of the shock absorber fixed by the fixed bracket, so that the stopper of the rotating body transfers rotational kinetic energy to the sliding rod and buffers it first. It is to provide a shock absorbing device that allows the linear kinetic energy to be secondarily transferred to the rod of the shock absorber to allow smooth stopping and buffering.

1 is a structural conceptual diagram showing an operating state of the present invention

2 is an operation conceptual view of the shock absorber

3 is a structural conceptual diagram showing an operating state of a conventional shock absorbing device;

<Description of the symbols for the main parts of the drawings>

(1): Stopper (2): Coil Spring

(3): Sliding rod (4): Fixed bracket

(5): Support (6): shock absorber

(7): Rod (8): Shock Absorbing Unit

(T): rotating body

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

Figure 1 is a structural conceptual view showing the operating state of the present invention, it shows the operation to be transmitted to the rod of the shock absorber by converting the rotational kinetic energy of the rotating body into linear kinetic energy through a sliding rod installed on the sliding bracket.

In stopping and buffering the rotating body (T) with the stopper (1), the coil spring (2) in the vertical line during the rotational movement of the stopper (1) attached to the lower end of the rotating body (T) A fixed bracket 4 having a sliding rod 3 to be installed is installed, and a support 5 is installed at the front end of the sliding rod 3 so that the rod 7 of the shock absorber 6 is disposed at a straight rear end of the support 5. It is installed so as to be opposed to the structure and fixed by the shock absorbing unit (8).

The present invention, as described above, is a shock absorbing device of a rotating body which is widely used in a work line for assembling and producing automobiles, electronic products, and various industrial devices. When stopping and buffering the rotating body T, it protrudes at the bottom of the rotating body T. When the stopper 1 is rotated and comes into contact with the sliding rod 3, the sliding rod 3 retreats to the rear end while being primarily buffered by the coil spring 2 installed on the outer circumference of the sliding rod 3. Perform linear motion.

At this time, the support 5 installed at the rear end of the sliding rod 3 converts and transfers the linear kinetic energy to the rod 7 of the shock absorber 6 and finally stops and buffers the motion of the energy in the shock absorber 6. The rotating body T is stopped.

And the sliding rod (3) is returned to its original position by the elastic force of the coil spring (2) between the outer peripheral edge of the sliding rod (3) and the fixing bracket (4) when the stop of the rotating body (T) is finished To return and wait for the next task.

Therefore, the present invention uses a shock absorber, so the protruding rod part of the shock absorber transmits only linear kinetic energy, so that fatigue strength is not accumulated, and thus the work line is stopped because the replacement time of the rod due to breakage of the rod is not wasted. It is possible to improve work efficiency and reduce product cost by continuity of work.

Claims (1)

In stopping and buffering the rotating body (T) with the stopper (1), the coil spring (2) in the vertical line during the rotational movement of the stopper (1) attached to the lower end of the rotating body (T) A fixed bracket 4 having a sliding rod 3 is installed, and a support 4 is installed at the front end of the sliding rod 3 so that the rod 6 of the shock absorber 5 is disposed at a straight rear end of the support 4. Shock Absorber (Turn Table) of the rotating body (Turn Table), characterized in that the installation is opposed to and fixed with a shock absorbing unit (7).