KR100409183B1 - a hydraulic circuit for a double-scissors type car lift - Google Patents

Abstract

The present invention is provided with an X-shaped folding frame is installed on the top of the pair of floor frames opposed to each other, a support plate is installed on the upper portion of each X-shaped folding frame, the double X sear is provided with an auxiliary X-shaped folding frame and the auxiliary support plate in the center A hydraulic drive circuit of a double scissor type car lift that can drive a hydraulic cylinder for raising and lowering each support plate in a type car lift. In a conventional hydraulic drive circuit, a simple manual on / off valve is provided in the filling flow path. When it is installed, it is necessary to replenish the oil leaked from the piston upper space of the first auxiliary support plate hydraulic cylinder and the lower space of the second auxiliary support plate hydraulic cylinder, and the connecting flow path between the first auxiliary support plate hydraulic cylinder and the second auxiliary support plate hydraulic cylinder. There was an inconvenience to manually operate the manual shut-off valve every time, the filling passage 20 The solenoid valve 21 is installed, and the piston upper space V1 of the first auxiliary support plate hydraulic cylinder 16 and the piston lower space V2 of the second auxiliary support plate hydraulic cylinder 17 are connected to the connection flow path 18. According to the present invention characterized in that the pressure switch 22 is installed to open and close the solenoid valve 21 in accordance with the pressure of the oil filled in the connection passage 18, the first auxiliary support plate hydraulic cylinder 16 Piston upper space (V1) and the lower passage (V2) of the second auxiliary support plate hydraulic cylinder 17, and the connection flow path between the first auxiliary support plate hydraulic cylinder (16) and the second auxiliary support plate hydraulic cylinder (17) 18) When the oil leaks and the pressure is lowered, the solenoid valve 21 of the filling flow path 20 is automatically opened through the pressure switch 22, so that insufficient oil can be easily filled. Reduce manpower and costs And, it is possible quantity can always accurately maintains a horizontal state of the auxiliary base plate it is possible to obtain the effects of being able to greatly improve the marketability of the double Caesar-type lift car.

Description

{A hydraulic circuit for a double-scissors type car lift}

The present invention relates to a car lift to easily maintain each part of the lower part of the vehicle, including wheels by lifting the car to a certain height from the ground, and more specifically, X-shaped folding frame on the pair of floor frames installed oppositely Is installed, and a supporting plate is installed on the upper part of each X-shaped folding frame, and a hydraulic cylinder which can lift and lower each supporting plate in the double scissor type car lift provided with an auxiliary X-shaped folding frame and an auxiliary supporting plate in the center of each supporting plate. The present invention relates to a hydraulic drive circuit of a double scissor type car lift that enables driving.

In the double scissor type car lift according to the present invention, an X-shaped folding frame 32 is installed on a pair of floor frames 31 facing each other as shown in FIGS. 2 to 4, and each X-shaped folding frame 32 is provided. The supporting plate 33 is installed on the upper portion of the supporting plate 33, and the auxiliary X-shaped folding frame 34 and the auxiliary supporting plate 35 have a form in which the double scissor type carlift 30 is formed. In this case, each supporting plate 33 and each auxiliary supporting plate 35 is usually raised and lowered by the respective hydraulic cylinders 14, 15, 16, and 17.

On the other hand, the hydraulic drive circuit for driving each hydraulic cylinder of the double scissor type car lift is provided with a support plate driver and an auxiliary support plate driver in the hydraulic pump, a pair of support plate hydraulic cylinders connected in parallel to the support plate driver, It is mainly used to have a form in which the pair of auxiliary support plate hydraulic cylinders are connected in series.

The auxiliary support plate hydraulic cylinder connected in series in the hydraulic drive circuit corresponds to the piston upper space of the first auxiliary support plate hydraulic cylinder and the piston lower space of the second auxiliary support plate hydraulic cylinder, and the piston lower space of the first auxiliary support plate hydraulic cylinder. When the fluid is supplied and the piston of the first auxiliary support plate hydraulic cylinder is raised, the area of the second auxiliary support plate hydraulic cylinder piston lower space is increased as the area of the first auxiliary support plate hydraulic cylinder piston is reduced, thereby increasing the area of the second auxiliary support plate. Since the pistons of the hydraulic cylinder are raised, the rising amount of both pistons is the same, so that each of the auxiliary supporting plates is raised in a horizontal state, and the fluid in the piston lower space of the first auxiliary supporting plate hydraulic cylinder is discharged to When the piston of the cylinder is lowered, the first auxiliary support plate hydraulic chamber As the area of the second auxiliary support plate hydraulic cylinder decreases as the area of the piston upper space is further increased, the piston of the second auxiliary support plate hydraulic cylinder is lowered, so that the lowering amounts of both pistons become equal, so that each auxiliary support plate is horizontal. It will descend while holding it.

In such a hydraulic drive circuit, oil leaks from the piston upper space of the first auxiliary support plate hydraulic cylinder, the lower space of the second auxiliary support plate hydraulic cylinder, and the connecting flow path between the first auxiliary support plate hydraulic cylinder and the second auxiliary support plate hydraulic cylinder. If the piston lifting amount of the first auxiliary supporting plate hydraulic cylinder and the piston lifting amount of the second auxiliary supporting plate hydraulic cylinder will be different accordingly, the lifting amount of each auxiliary supporting plate will be changed so that each auxiliary supporting plate is not raised and lowered. To prevent oil from filling in the piston upper space of the first auxiliary support plate hydraulic cylinder and the lower space of the second auxiliary support plate hydraulic cylinder, and the connecting flow path between the first auxiliary support plate hydraulic cylinder and the second auxiliary support plate hydraulic cylinder. To support the leaked oil at the same time Thereby providing a flow path between the filling of the oil feed passage and the connection flow path cylinder.

However, in the conventional hydraulic drive circuit, since a simple manual on-off valve is installed in the filling passage, the piston upper space of the first auxiliary support plate hydraulic cylinder, the lower space of the second auxiliary support plate hydraulic cylinder, and the first auxiliary support plate hydraulic cylinder and the first 2 Whenever the oil leaked out from the connecting flow path between the auxiliary supporting plate hydraulic cylinders, it was inconvenient to operate the manual shut-off valve artificially.

The present invention has been made in view of the above-mentioned deficiency of the conventional double-sized car type hydraulic drive circuit, the object is the piston upper space of the first auxiliary support plate hydraulic cylinder and the lower space of the second auxiliary support plate hydraulic cylinder, And it is to provide a hydraulic drive circuit of the double scissor type car lift to make it easier to replenish the leaked oil in the connecting flow path between the first auxiliary support plate hydraulic cylinder and the second auxiliary support plate hydraulic cylinder.

1 is a circuit diagram of one embodiment of the present invention.

Fig. 2 is a perspective view of a double scissor type car lift according to the present invention.

3 is a plan view of the double double sear type lift

4 is a side view of the double doubler type lift

<Description of Symbols for Main Parts of Drawings>

10: hydraulic drive circuit 11: hydraulic pump

12: support plate driving unit 13: auxiliary support plate driving unit

14, 15: support plate hydraulic cylinder 16, 17: auxiliary support plate hydraulic cylinder

18: connection euro 19: supply euro

20: filling passage 21: solenoid valve

21a: emergency opening and closing knob 22: pressure switch

23: manual switch

The present invention is to provide a solenoid valve in the filling channel in order to achieve the above object, the piston upper space of the first auxiliary support plate hydraulic cylinder and the lower space of the second auxiliary support plate hydraulic cylinder, and the first auxiliary support plate hydraulic cylinder in the connection flow path And a pressure switch for opening and closing the solenoid valve in accordance with the pressure of the oil filled in the connection flow path between the hydraulic cylinder and the second auxiliary support plate. More detailed description is as follows.

That is, Figure 1 shows a circuit diagram of an embodiment of the present invention, the present invention is provided with a support plate driving unit 12 and the auxiliary support plate driving unit 13 in the hydraulic pump 11, the support plate driving unit 12 The pair of support plate hydraulic cylinders 14 and 15 are connected in parallel, and the auxiliary support plate drive unit 13 of the piston upper space V1 of the first support plate hydraulic cylinder 16 and the second support plate hydraulic cylinder 17 are connected. A pair of auxiliary supporting plate hydraulic cylinders 16 and 17 in which the piston lower space V2 corresponds to each other is connected in series, while between the first auxiliary supporting plate hydraulic cylinder 16 and the second auxiliary supporting plate hydraulic cylinder 17 In constructing the hydraulic drive circuit 10 of the double scissor type car lift in which the filling flow path 20 is provided between the connection flow path 18 and the oil supply flow path 19 of the first auxiliary support plate hydraulic cylinder 16, The solenoid valve 21 is installed in the filling passage 20, and the first auxiliary support is provided to the connection passage 18. The solenoid valve 21 according to the pressure of the oil filled in the piston upper space V1 of the needle plate hydraulic cylinder 16, the piston lower space V2 of the second auxiliary support plate hydraulic cylinder 17, and the connection flow path 18. By installing a pressure switch 22 to open and close the.

In the illustrated embodiment, the piston upper space V1 of the first auxiliary support plate hydraulic cylinder 16 and the piston lower space V2 of the second auxiliary support plate hydraulic cylinder 17 at the time of power failure at one side of the solenoid valve 21, In addition, an emergency opening and closing knob 21a for discharging the oil filled in the connection passage 18 is provided, and a manual opening for opening and closing the solenoid valve 21 is installed in a control panel (not shown). The switch 23 has a form connected to the solenoid valve 21.

Reference numerals 14a, 15a, 16a, 17a in the reference numerals are pistons.

In the present invention configured as described above, the piston upper space V1 of the first auxiliary support plate hydraulic cylinder 16 and the piston lower space V2 of the second auxiliary support plate hydraulic cylinder 17 and the connection flow path 18 are fixed. If the oil filled at a pressure (for example, 10 Kg / cm 2) leaks and the pressure drops below a certain pressure (for example, 5 Kg / cm 2), the solenoid valve 21 is opened through the pressure switch 22. The auxiliary supporting plate hydraulic cylinder oil supply passage 19 and the filling passage 20 can supply the amount of oil insufficient to the connecting passage 18.

In the above, the oil pressure of the piston upper space V1 of the first auxiliary support plate hydraulic cylinder 16 and the piston lower space V2 of the second auxiliary support plate hydraulic cylinder 17 and the connecting flow path 18 is supplied to the oil. When the constant pressure (for example, 10Kg / ㎠) is recovered, the solenoid valve 21 is closed again.

On the other hand, in the present invention, when the vehicle is lifted by the auxiliary support plate is a power failure, the normal operation of the hydraulic pump 11 and the solenoid valve 21, the emergency opening and closing knob 21a provided on one side of the solenoid valve 21 When the solenoid valve 21 is opened, the piston upper space V1 of the first auxiliary support plate hydraulic cylinder 16, the piston lower space V2 of the second auxiliary support plate hydraulic cylinder 17, and the connecting flow path 18 are shown. It is possible to discharge the oil filled in the) to be able to lower the piston 17a of the second auxiliary support plate hydraulic cylinder 17 and the auxiliary support plate interlocked with it.

In addition, in the present invention, the solenoid valve 21 is also opened and closed through the manual switch 23 installed in the control panel so that the piston upper space V1 and the second auxiliary support plate hydraulic cylinder 17 of the first auxiliary support plate hydraulic cylinder 16 are opened. It is possible to replenish the oil leaked from the piston lower space (V2) of, and the connecting flow path (18).

As described above, the present invention provides a connection passage 18 and a first auxiliary support plate hydraulic cylinder oil supply passage connecting the first auxiliary support plate hydraulic cylinder 16 and the second auxiliary support plate hydraulic cylinder 17 connected in series thereto. The solenoid valve 21 is installed in the filling flow path 20 provided between 19 and the lower portion of the piston upper space V1 of the first auxiliary support plate hydraulic cylinder 16 and the second auxiliary support plate hydraulic cylinder 17. And a pressure switch 22 installed in the connection channel 18 to open and close the solenoid valve 21 according to the pressure of the oil filled in the space V2 and the connection channel 18. According to the present invention, the piston upper space (V1) of the first auxiliary support plate hydraulic cylinder 16, the lower space (V2) of the second auxiliary support plate hydraulic cylinder 17, and the first auxiliary support plate hydraulic cylinder (16) and To the connecting flow path 18 between the second auxiliary support plate hydraulic cylinder 17. When the oil leaks and the pressure is lowered, the solenoid valve 21 of the filling flow path 20 is automatically opened through the pressure switch 22, so that insufficient oil can be easily filled. It is possible to reduce the cost and cost, and it is possible to maintain the horizontal state of both subsidiary support plates accurately at all times, thereby improving the merchandise of the double scissor type car lift.

Claims (3)

A support plate driving unit 12 and an auxiliary support plate driving unit 13 are provided in the hydraulic pump 11, and a pair of support plate hydraulic cylinders 14 and 15 are connected in parallel to the support plate driving unit 12, and the auxiliary support plate driving unit 13 is provided. A pair of auxiliary support plate hydraulic cylinders 16, in which the piston upper space V1 of the first auxiliary support plate hydraulic cylinder 16 and the piston lower space V2 of the second auxiliary support plate hydraulic cylinder 17 correspond to each other, While the 17 is connected in series, the oil supply passage 19 of the first auxiliary support plate hydraulic cylinder 16 and the first auxiliary support plate hydraulic cylinder 16 between the first auxiliary support plate hydraulic cylinder 16 and the second auxiliary support plate hydraulic cylinder 17 is connected. In the filling passage 20 is provided between the (1), the solenoid valve 21 is provided in the filling passage (20), and the piston upper space of the first auxiliary support plate hydraulic cylinder (16) in the connecting passage (18) (V1) and the piston lower space (V2) of the second auxiliary support plate hydraulic cylinder (17) and the connection flow path (18) A hydraulic drive circuit of a double scissor type car lift, characterized in that a pressure switch (22) is provided to open and close the solenoid valve (21) in accordance with the pressure of the transmitted oil. The piston upper space V1 of the first auxiliary support plate hydraulic cylinder 16 and the piston lower space V2 of the second auxiliary support plate hydraulic cylinder 17 according to claim 1, wherein at one side of the solenoid valve 21 at the time of power failure. And an emergency opening and closing knob (21a) for discharging the oil filled in the connection flow path (18). The hydraulic drive circuit according to claim 1 or 2, wherein a manual switch (23) for opening and closing the solenoid valve (21) manually is connected to the solenoid valve (21). .