CN219262810U - Heat radiation structure of hydraulic oil tank of baler - Google Patents

Abstract

The utility model relates to a heat radiation structure of a hydraulic oil tank of a baler, and belongs to the technical field of agricultural machinery. The technical proposal is as follows: the high-speed fan comprises a hydraulic oil tank (1) of the press baler, a high-speed fan (2) and thin-wall seamless pipes (3), wherein a plurality of thin-wall seamless pipes (3) are arranged in the hydraulic oil tank (1) of the press baler in a penetrating way, and the thin-wall seamless pipes (3) are uniformly welded at intervals to form a honeycomb-shaped heat dissipation channel; one end of a plurality of thin-wall seamless pipes (3) is provided with a high-speed fan (2); the high-speed fan (2) is fixed on the box body of the hydraulic oil tank (1) of the baler. The beneficial effects of the utility model are as follows: the hydraulic oil tank of the baler can meet the heat dissipation requirement, improve the production efficiency and the environmental adaptability, reduce the volume of the oil tank, realize the light-weight design of the whole machine and reduce the manufacturing cost.

Description

Heat radiation structure of hydraulic oil tank of baler

Technical Field

The utility model relates to a heat radiation structure of a hydraulic oil tank of a baler, and belongs to the technical field of agricultural machinery.

Background

The heat sink is an important component of the hydraulic tank. In the working process of the baler, the continuous operation can lead to the increase of the oil temperature of a hydraulic oil way, the thinning of the viscosity of the oil, the pressure reduction of an oil pump, the failure of a normal working state, the reduction of the compression density of the bales and the reduction of the production efficiency. When the temperature of the region used in winter is lower than 0 ℃, the water cooling device is not suitable, and the mode of adding cooling fins is adopted, so that the volume of the hydraulic oil tank is increased, and the cost is increased.

Disclosure of Invention

The utility model aims to provide a heat dissipation structure of a hydraulic oil tank of a baler, which can meet the heat dissipation requirement of the hydraulic oil tank of the baler and solve the problems in the background art.

The technical scheme of the utility model is as follows:

a heat radiation structure of hydraulic oil tank of baler comprises hydraulic oil tank of baler, high-speed fan and thin-wall seamless pipe, wherein a plurality of thin-wall seamless pipes are arranged in hydraulic oil tank of baler in a penetrating way, a heat radiation channel is formed by combining the plurality of thin-wall seamless pipes, and one end of each thin-wall seamless pipe is provided with the high-speed fan.

Further, the thin-wall seamless tubes are regularly distributed, and the cross sections of the thin-wall seamless tubes form a honeycomb cross section.

Further, the thin-wall seamless tubes are welded together, and the cross-section outline of the thin-wall seamless tubes forms a regular polygon.

Further, the thin-wall seamless pipes are welded together, and the regular polygon formed by the outer contours of the sections of the thin-wall seamless pipes is a regular hexagon.

The hydraulic oil tank of the baler is a tank body structure formed by four side baffles, a top plate and a bottom plate, holes matched with heat dissipation channels formed by combining a plurality of thin-wall seamless pipes are respectively arranged on the two opposite side baffles, and two ends of the plurality of thin-wall seamless pipes are respectively welded in the holes of the two opposite side baffles.

The high-speed fan is fixed on a box body of a hydraulic oil tank of the baler.

The hydraulic oil tank of the baler is an oil tank commonly used in the field, and the number of the thin-wall seamless pipes and the wind speed and the wind quantity of the high-speed fan are determined according to the heat dissipation requirement of the hydraulic oil tank of the baler.

The beneficial effects of the utility model are as follows: the hydraulic oil tank of the baler can meet the heat dissipation requirement, improve the production efficiency and the environmental adaptability, reduce the volume of the oil tank, realize the light-weight design of the whole machine and reduce the manufacturing cost.

Drawings

FIG. 1 is a front view of the present utility model;

FIG. 2 is a side view of the present utility model;

FIG. 3 is a rear view of the present utility model;

in the figure: the hydraulic oil tank 1 of the baler, the high-speed fan 2, the thin-wall seamless pipe 3, the side baffle 4 and the hydraulic oil circuit 5.

Detailed Description

The utility model is further illustrated by way of example with reference to the accompanying drawings.

Referring to fig. 1-3, a heat dissipation structure of a hydraulic oil tank of a baler comprises a hydraulic oil tank 1 of the baler, a high-speed fan 2 and thin-wall seamless pipes 3, wherein a plurality of thin-wall seamless pipes 3 penetrating through the tank body of the hydraulic oil tank 1 of the baler are arranged in the hydraulic oil tank 1 of the baler, the plurality of thin-wall seamless pipes 3 are combined into a heat dissipation channel, and the high-speed fan 2 is arranged at one end of the plurality of thin-wall seamless pipes 3.

In this example, referring to fig. 1 to 3, the hydraulic baler tank 1 is a tank structure composed of four side dams 4, a top plate and a bottom plate, the four side dams 4, the top plate and the bottom plate are all ordinary steel plates, and the hydraulic baler tank 1 has a hydraulic oil passage 5.

A group of circular through holes are respectively punched on the two corresponding side baffles 4, and the high-speed fan 2 is arranged on one of the side baffles 4 and coincides with the adjacent group of circular through holes.

A plurality of thin-wall seamless tubes 3 are welded together at certain intervals in a regular distribution to form a group of thin-wall seamless tubes 3. The cross section of the group of thin-walled seamless tubes 3 forms a honeycomb cross section, the outer contour of which is regular hexagon. The two ends of the group of thin-wall seamless pipes 3 are respectively welded in a group of circular through holes on the corresponding side baffle plates 4, one end of the group of thin-wall seamless pipes 3 adjacent to the high-speed fan 2 is a honeycomb air inlet hole, the other end of the group of thin-wall seamless pipes is a honeycomb air outlet hole, wind generated by the high-speed fan 2 enters a heat dissipation channel from a honeycomb air inlet hole, and is discharged from the honeycomb air outlet hole to dissipate heat of a hydraulic oil tank of the baler.

The group of circular through holes consists of a plurality of circular through holes, the number of the group of circular through holes is the same as that of the group of thin-wall seamless tubes 3, and the end part of one thin-wall seamless tube 3 is welded with one circular through hole in a matching way.

The number of the thin-wall seamless pipes 3 and the wind speed and the wind quantity of the high-speed fan 2 are determined according to the size of a hydraulic oil tank of the baler and the heat dissipation requirement.

Claims (1)

1. The utility model provides a heat radiation structure of hydraulic tank of baler which characterized in that: the heat dissipation device comprises a hydraulic oil tank (1) of the press baler, a high-speed fan (2) and thin-wall seamless pipes (3), wherein a plurality of thin-wall seamless pipes (3) are arranged in the hydraulic oil tank (1) of the press baler in a penetrating way, the thin-wall seamless pipes (3) are welded together at certain intervals in a regular distribution manner to form a group of thin-wall seamless pipes (3), and a heat dissipation channel is formed by combining the thin-wall seamless pipes; the hydraulic oil tank (1) of the baler is a tank body structure formed by four side baffles (4), a top plate and a bottom plate, wherein the four side baffles (4), the top plate and the bottom plate are all common steel plates, and the hydraulic oil tank (1) of the baler is provided with a hydraulic oil circuit (5); a group of circular through holes are respectively punched on two corresponding side baffles (4), and the high-speed fan (2) is arranged on one side baffle (4) and coincides with the adjacent group of circular through holes; the group of circular through holes consists of a plurality of circular through holes, the number of the group of circular through holes is the same as that of the group of thin-wall seamless tubes (3), and the end part of one thin-wall seamless tube (3) is welded with one circular through hole in a matching way; the cross section of the group of thin-wall seamless pipes (3) forms a honeycomb cross section, the outline of the honeycomb cross section is regular hexagon, two ends of the group of thin-wall seamless pipes (3) are respectively welded in a group of round through holes on the corresponding side baffle plates (4), one end of the group of thin-wall seamless pipes (3) adjacent to the high-speed fan (2) is a honeycomb air inlet hole, the other end of the group of thin-wall seamless pipes is a honeycomb air outlet hole, wind generated by the high-speed fan (2) enters a heat dissipation channel from a honeycomb air inlet hole and is discharged from the honeycomb air outlet hole, and heat dissipation is carried out on a hydraulic oil tank of the baler.

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