RU207820U1 - BODY LIFTING MECHANISM - Google Patents

Abstract

The utility model relates to the construction of a body lifting mechanism, which can be used in vehicles adapted for freight transport, as well as in vehicles adapted for collecting garbage. The technical result achieved by the utility model consists in increasing the rigidity of the body lifting mechanism. The mechanism for lifting the body (3) of the vehicle, containing the first and second levers, one ends of which are pivotally connected to each other, while the other ends of these levers are pivotally connected to the frame (1) of the vehicle and the body (2), respectively, and the hydraulic cylinders ( 17) for lifting and lowering the body, pivotally connected to the frame (1) of the vehicle, the rods of which are pivotally connected to the second lever between its ends, while: - the sleeves of the hydraulic cylinders are pivotally mounted on the same axis with the end of the first lever connected to the frame (1) vehicle; in this case, the levers are made prefabricated, consisting of a set of parallel levers; moreover, the distance between the levers of the assembled levers is selected from the condition of the possibility of positioning the sleeves of the hydraulic cylinders (17) between the said levers during the operation of the mechanism.

Description

The technical field to which the utility model belongs.

This utility model relates to vehicles with devices to facilitate loading, unloading and stowage of goods, in particular to the structure of the body lifting mechanism, which can be used in vehicles adapted for freight transport, as well as in vehicles adapted for collecting garbage. ...

State of the art

A device for lateral stabilization of the body of a dump vehicle during rear unloading is known, which is a hydraulic system containing two stabilizing hydraulic cylinders, a three-position four-way valve, bypass valves and a roll sensor. The stabilizing hydraulic cylinders with their bodies rest on the side members of the vehicle frame, and a composite body lifting axis is hingedly built into the ends of the hydraulic cylinders rods, consisting of axle shafts and a pipe, with the possibility of changing the length in the process of stabilizing the vehicle body (patent RU 2679758 C1, class B60P 1/16 , B62D 24/00, B60P 1/32, publ. 12.02.2019).

The main disadvantage of this design is the use of a special system for attaching the body to the vehicle frame, which allows the body to stabilize in a plane perpendicular to it. At the same time, the body lifting mechanism itself is made in the form of a single telescopic hydraulic cylinder, which reduces the rigidity and stability of the body in the raised position.

Known is a control device for a vehicle with a tipper body, wherein the tipper body is connected to the rear frame by means of a hinge mounted on the rear part of the rear frame. The dump truck is equipped with two hydraulic rotary cylinders, the first ends of which are connected to the rear frame and the second ends are connected to the tipper body. Rotary cylinders are installed on both sides of the central longitudinal axis of the dump truck (patent RU 2467894 C2, class B60P 1/04, publ. 27.11.2012).

The disadvantages of this design are large dimensions and insufficient rigidity and stability of the body in the raised position.

Known hydraulic lifting mechanism of a land vehicle containing a frame, a subframe with a bracket and an axis, a body pivotally mounted on 2 axes of the subframe, and telescopic hydraulic cylinders. In the rear part of the body base there are longitudinal guides with body travel stops, rollers located in the longitudinal guides are installed on the axle, body position clamps are mounted inside the axle, the upper parts of the main hydraulic cylinders are fixed on the shaft installed in the supports of the middle part of the subframe. Each of them contains hydraulic cylinders with a double-acting piston and with grippers, an intermediate hydraulic cylinder and a central hydraulic cylinder with a piston and a head, which is pivotally mounted on an axle fixed in the bracket of the front part of the body; actions (patent RU 2514416 C1, class B60P 1/30, B60P 1/16, publ. 04/27/2014).

The disadvantages of this design are large dimensions, a complex design, consisting of several composite hydraulic cylinders and swing mechanisms, as well as insufficient rigidity and stability of the body in the raised position.

The closest analogue is a lift for raising or lowering a truck body onto a truck frame and back, containing:

a stand located on and extending upwardly from the upper surface of the truck frame for attaching the lift to the truck frame;

a first lever arm having a first end connected to said base through a first hinge and having a second end connected to a first end of a second lever arm via a second hinge, said second lever arm having a second end pivotally connected to the dumping platform frame via a third hinge;

a retractable and retractable hydraulic cylinder connected by the first end to said first end of the first lever arm through a fourth hinge, wherein said fourth hinge is located at a location remote from said first hinge, and said retractable and retractable cylinder is connected by its second end to a second lever arm through a fifth hinge , said fifth joint is located on said second arm of the lever between said second joint and said third joint (US patent 8313150 B2, class B60P 1/04, publ. 20.11.2012).

The disadvantages of this design are a complex structure, characterized by a complex design of the lever arms, and attachment to the car frame using a special stand, which has several axes to secure the first lever arm and the hydraulic cylinder, as well as insufficient rigidity and stability of the body in the raised position.

Utility model disclosure

The technical problem solved by this utility model is to simplify the design of the body lifting mechanism and reduce the possibility of body roll in the raised position, increasing the stability of the body in the raised position during unloading.

The technical result achieved by this utility model is to increase the rigidity of the body lifting mechanism.

The above technical result is achieved due to the fact that the mechanism for lifting the vehicle body, containing the first and second levers, one ends of which are pivotally connected to each other, while the other ends of these levers are pivotally connected to the vehicle frame and body, respectively, and hydraulic cylinders for lifting and lowering the body, pivotally connected to the vehicle frame, the rods of which are pivotally connected to the second lever between its ends, while:

- sleeves of hydraulic cylinders are pivotally mounted on the same axis with the end of the first lever connected to the vehicle frame; wherein

- levers are made prefabricated, consisting of a set of parallel levers; moreover

- the distance between the levers of the assembled levers is selected from the condition of the possibility of positioning the sleeves of the hydraulic cylinders between the said levers during the operation of the mechanism.

The end of the first arm can be pivotally connected to the vehicle frame via a vehicle subframe.

The levers of the set of levers of the first lever can be rigidly interconnected.

The levers of the set of levers of the second lever can be rigidly interconnected.

Bushings may be fitted between the arms of the arm set of the first arm.

Bushings may be fitted between the arms of the second arm set of arms.

Brief Description of Drawings

The utility model is illustrated by drawings, in which:

FIG. 1 - General view of the vehicle frame with the assembly of the body lifting mechanism;

FIG. 2 - Right view of the car frame with the body lifting mechanism assembly;

FIG. 3 - General view of the body lifting mechanism;

FIG. 4 - General view of the first lever assembly;

FIG. 5 - General view of the lever of the first lever;

FIG. 6 - General view of the second lever assembly;

FIG. 7 - General view of the lever of the second lever.

Implementation of the utility model

As shown in FIG. 1, 2, the body lifting mechanism (3) is connected to the frame (1) of the vehicle and the body (2) of the vehicle. The body lifting mechanism (3) is connected to the vehicle frame (1) by means of an axle (6) installed in the corresponding axial holes (11) of the set of levers of the second lever. The body lifting mechanism (3) is connected to the vehicle body (2) by means of an axle (9) installed in the corresponding axial holes (15) of the set of levers of the first lever.

As shown in FIG. 3, the body lifting mechanism (3) consists of pivotally connected first lever (4), second lever (5) and hydraulic cylinders (17), while the first (4) and second (5) levers are prefabricated, consisting of a set of parallel levers ... The first arm (4) has a first and a second end, while the first arm (4) is pivotally connected with the first end to the vehicle frame (1), and the second end is pivotally connected to the second arm (5). The second lever (5) has an axis of rotation located between the first and second ends of the second lever (5), while the second lever (5) is pivotally connected with the first end to the vehicle body, and the second end is pivotally connected to the first lever (4). The hydraulic cylinders (17) have rods and sleeves, while the hydraulic cylinder rods are pivotally connected to the axis of rotation of the second lever (5), and the hydraulic cylinder sleeves are pivotally connected to the first end of the first lever (4) and the vehicle frame (1).

As shown in FIG. 4, 5, the second lever (5) consists of a set of interconnected parallel levers (10), each of which is made with at least three axial holes (13, 14, 15) intended for connection with the first lever (4), hydraulic cylinders (17) and body (2) of the vehicle, respectively. Levers (10) of the second lever (5) can be made with holes to reduce the weight of the part. The levers (10) of the second lever can be rigidly connected to each other, in particular by means of connecting plates. Stiffeners and bushings can be installed between the levers (10) of the second lever (5) to avoid the possibility of displacement of the ribs relative to each other.

As shown in FIG. 6, 7, the first lever (4) consists of a set of interconnected parallel levers (16), each of which is made with at least two axial holes (11, 12) intended for connection with the second lever (5), as well as hydraulic cylinders (17) and vehicle frame (1), respectively. Levers 5 (16) of the first lever (4) can be made with holes to reduce the weight of the part. Levers (16) of the first lever (4) can be rigidly connected to each other, in particular by means of connecting plates. Stiffening ribs and bushings can be installed between the levers (16) of the first lever (4) to avoid the possibility of displacement of the ribs relative to each other.

The use of plates, stiffeners and bushings improves the lateral stability of the body.

The implementation of the first (4) and second (5) levers as prefabricated of interconnected levers makes it possible to increase the rigidity of the body lifting mechanism.

The levers are pivotally connected to each other by means of an axis (7) installed in the corresponding axial holes (13) of the levers (10) of the second lever (5) and holes (12) of the levers (16) of the first lever (4). The hydraulic cylinders are pivotally connected to the second lever by means of an axis (8) installed in the corresponding holes (14) of the levers (10) of the second lever (5). The hydraulic cylinders are also pivotally connected to the first lever (4) by means of an axis (6) installed in the corresponding holes (11) of the levers (16) of the first lever (4).

The axle (6) can be attached to the frame (1) of the vehicle by means of a body mounted on the frame (1) or a subframe. The axle (9) can be attached to the vehicle body (2) by means of a body installed on the vehicle body (2). The axles can be fixed in the body by means of retainers that are attached to the body.

The device works as follows

The work of the mechanism for lifting the body of the vehicle includes 2 modes: lifting the body and lowering the body.

The body is lifted by hydraulic cylinders. When the body is raised, the hydraulic cylinder rod acts on the axis of rotation of the second lever, which begins to move from the initial horizontal position, acting with the first shoulder on the vehicle body, bringing it to the raised position. In this case, the first lever also begins to move from a horizontal position to a vertical one, acting with its second arm on the second arm of the second lever.

The lowering of the body is also carried out by the operation of the hydraulic cylinders, repeating the lifting mode of the body in the reverse order.

Claims (10)

1. The mechanism for lifting the vehicle body, containing the first and second levers, one ends of which are pivotally connected to each other, while the other ends of these levers are pivotally connected to the vehicle frame and the body, respectively, and hydraulic cylinders for lifting and lowering the body, pivotally connected with the vehicle frame, the rods of which are pivotally connected to the second lever between its ends, characterized in that: - sleeves of hydraulic cylinders are pivotally mounted on the same axis with the end of the first lever connected to the vehicle frame; wherein - levers are made prefabricated, consisting of a set of parallel levers; moreover - the distance between the levers of the assembled levers is selected from the condition of the possibility of positioning the sleeves of the hydraulic cylinders between the said levers during the operation of the mechanism. 2. The mechanism of claim. 1, characterized in that the end of the first lever is pivotally connected to the vehicle frame through the vehicle subframe. 3. The mechanism of claim. 1, characterized in that the levers of the set of levers of the first lever are rigidly connected to each other. 4. The mechanism of claim. 1, characterized in that the levers of the set of levers of the second lever are rigidly connected to each other. 5. The mechanism according to claim 1, characterized in that bushings are installed between the levers of the set of levers of the first lever. 6. The mechanism according to claim 1, characterized in that bushings are installed between the levers of the set of levers of the second lever.

Images