PL68305Y1 - Hydraulic toothed device - Google Patents

Abstract

The utility model concerns a hydraulic gear device used in power hydraulics in the construction of hydraulic gear machines, such as: gear pumps, hydraulic gear motors, hydraulic control blocks. The device consisting of a body with a main hole in which there is a set of gears in the form of two gears, with a suction hole and a discharge hole in the body, is characterized by the fact that the position of the main hole (2) with the set of gears (3, 4) is displaced relative to the axis (5) of the body (1) and thus forms a separate axis (5') of the gear set (3, 4).

Description

Pattern description

The subject of the utility model is a hydraulic gear device with external mesh, used in power hydraulics in the construction of hydraulic gear machines such as: gear pumps, hydraulic gear motors, hydraulic control blocks.

A gear pump with external meshing is known in the Polish patent application No. 404801, having a body in which a suction opening is made, connected through a working chamber in which gears with a discharge opening work, characterized by the fact that inside the body, symmetrically on both sides the discharge opening, along the working chamber, on a fragment or its entire circumference, along the entire width of the gears, there is a partition to compensate for the circumferential play, and the partition to compensate for the circumferential play is connected with the discharge opening through a channel and is equipped with a second channel. Another Polish patent application, P. 397540, discloses an external gear pump, used in particular in hydraulic and lubrication systems. The pump has, across the entire width of the gears, at their top part, seats in the form of slots with parallel walls, the lower part of which is widened and constitutes a longitudinal opening, and sealing elements with the widened lower part are slidably mounted in the seats. Another Polish patent application, P. 397539, discloses an external gear pump, used in particular in hydraulic and lubrication systems. The pump has two bays in the body symmetrically on both sides of the discharge opening, along the working chamber on at least a quarter of its circumference, two bays, with bays separated from the working chamber by flexible tongues. The next Polish patent application P. 398437 describes a gear pump with external meshing, used especially in hydraulic systems and lubrication systems, which has a body in which a suction hole is made connected through a working chamber in which gear wheels work with a discharge hole. In the body, symmetrically on both sides of the discharge opening, along the working chamber, on a fragment or the entire circumference, there are at least two additional high-pressure chambers, which are separated from the working chamber by flexible partitions.

The essence of the solution according to the utility model is a hydraulic gear device, which consists of a body with a main bore, in which there is a set of gears in the form of gears, with a suction opening and a discharge opening in the body, characterized by the position of the opening together with the gear set is displaced in relation to the axis of the body and thus forms the axis of the gear set.

Preferably, the position of the main hole is offset in the direction of the X axis.

Preferably, the position of the main hole is offset along the Y axis.

Preferably, the position of the main bore provides left or right rotation with respect to the axis of the gears and / or the axis of the body.

The solution according to the utility model is shown in more detail in its embodiments and in the drawings, in which Fig. 1 shows a view of the hydraulic gear device after changing the position of the main hole along the X axis, Fig. 2 shows a view of the hydraulic gear device after changing the position of the main hole along the Y axis. , Fig. 3 is a view of the hydraulic gear unit after the main bore is repositioned by rotation.

Example 1

Hydraulic gear device, which consists of a body 1 with a main bore 2, in which there is a set of gears in the form of a gear wheel 3 and 4, the body 1 has a suction opening 7 and a discharge opening 9 and is characterized in that the main bore 2 with the set of gears 3 and 4 is displaced in the direction of the X axis.

Example 2

Hydraulic gear device, which consists of a body 1 with a main bore 2, in which there is a set of gears in the form of a gear wheel 3 and 4, the body 1 has a suction opening 7 and a discharge opening 9 and is characterized in that the main bore 2 with the set of gears 3 and 4 is displaced in the direction of the Y axis.

Example 3

Hydraulic gear device, which consists of a body 1 with a main opening 2 in which there is a set of gears in the form of a gear wheel 3 and 4, the body 1 being

Claims (4)

a suction opening 7 and a discharge opening 9, and is characterized in that the position of the main bore 2 together with the set of gears 3 and 4 ensures a left or right rotation with respect to the axis 5 'and / or axis 5. The operating principle of the hydraulic gear device is that that the main opening 2 is made in the body 1. In the opening 2 there is a set of gears, which constitutes the main working unit of the hydraulic machine. The wheel assembly consists of two wheels with external meshing, which are a gear wheel 3 rotating around the center Ch and a gear wheel 4 rotating around the center 02. The axis of symmetry 5 divides the hydraulic machine into two zones, i.e. a pressure zone on the right side of axis 5 and the suction zone on the left side of this axle. The drive is transmitted to the machine from the outside to the gear wheel 3 in the form of the driving torque M. The rotation of the gear wheel 4 results from the engagement of its teeth with the teeth of the second gear wheel 3. The mutual rotation of the gear wheels 3 and 4 causes the working fluid to flow. The direction of this flow is marked with a brighter dashed line 6. The liquid flows into the hydraulic machine through the inlet 7 into the main hole 2, and then is transported in the interdental spaces 8 through gears 3 and 4 to the outlet 9. In the hydraulic machine, the mechanical energy changes to hydraulic fluid pressure energy or vice versa. The pressure 10 builds up in the opening 2 towards the outlet opening and acts on the body 1 through the surface of the main opening 2. The side of the pressure zone is stressed more from the side of the suction zone as a result of mechanical and hydraulic loads and due to the uneven distribution of these loads. As a result, the stress limit for a given material of the body 1 is exceeded in its delivery zone, while in its suction zone the stresses and deformations are much lower. The advantage of the solution according to the utility model is the possibility of obtaining higher operating pressures without increasing the weight of the body, and thus the weight of the entire hydraulic gear machine. The advantage of this solution is to obtain increased working pressure for hydraulic gear machines without increasing the dimensions and weight of the machine's body. In this way, a hydraulic gear device with an eccentrically arranged set of gears was obtained by changing the position of the main hole for this unit in the machine body. As a result of changing the position of the set of gears, the body of the hydraulic device was obtained, in which more material is located on the pressure zone side. As a result, the pressure zone of the body becomes more resistant. You can then increase the value of the working pressure for the hydraulic device without increasing the size and weight of its body. The operating pressure can be up to 35% higher after changing the position of the main hole. The introduction of the above modification to the housing also allows the use of e.g. plastic as a material for the construction of the housing assembly for hydraulic devices. Protective Claims 1. A hydraulic gear device which consists of a body with a main bore, in which there is a set of gears in the form of gears, with a suction bore and a discharge bore in the casing, characterized in that the position of the main bore (2 ) together with the set of gears (3) and (4) is displaced in relation to the axis (5) of the body (1) and thus forms the axis (5 ') of the set of gears (3) and (4). 2. A hydraulic device according to claim 1 3. The apparatus of claim 1, characterized in that the main opening (2) is shifted in the direction of the X axis. 3. A hydraulic device according to claim 1 3. The apparatus of claim 1, characterized in that the main hole (2) is shifted in the direction of the Y axis. 4. A hydraulic device according to claim 1 3. The apparatus as claimed in claim 1, characterized in that the position of the main hole (2) rotates to the left or right with respect to the axis (5 ') of the gears and / or the axis (5) of the body (1).