JP2010265813A - Bearing cooling structure of swash plate type oil machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a technology for effectively preventing a temperature rise in the periphery of both bearings, in a swash plate type oil machine for arranging the bearings on both ends of a hollow part in a case. <P>SOLUTION: This invention aims at the swash plate type oil machine for arranging the bearings 4 and 5 of a rotary shaft 1 on both ends of the hollow part 3 in the case 2. In such an oil machine, a through-hole 9 is formed in its axial direction in the rotary shaft 1, and its one end side opening 90 is arranged in a rotary shaft 1 end part becoming one bearing 4 side, and the other end side opening 91 is arranged on a rotary shaft 1 outer peripheral surface on the outside of the other bearing 5, respectively. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a bearing cooling structure for an oil machine such as a swash plate type hydraulic pump or a motor.

  A rotating shaft in an oil machine such as a swash plate type hydraulic pump or a motor is supported by a bearing at an arbitrary position in a state of being inserted through a hollow portion in the case. Although the position of the bearing varies depending on the oil machine, for example, as shown in FIG. 2, there is a form in which the bearings 40 and 50 are arranged at both ends of the hollow portion 30 in the case 20 (in addition, Patent Document 1 or the like).

JP-A-2004-44467, FIG. 1 and FIG.

  By the way, the hollow portion 30 in the case 20 of the swash plate type oil machine as described above is filled with hydraulic oil, and not only the rotating shaft 10 but also the devices around the shaft including the bearings 40 and 50 operate in a lubricous manner. Is possible. Further, the hydraulic oil appropriately flows in the hollow portion 30 by the operation of the rotary shaft 10 and the equipment around the shaft, thereby preventing a local temperature rise caused by the retention of the hydraulic oil.

  However, in the case where the bearings 40 and 50 are arranged at both ends of the hollow portion 30 as shown in FIG. 2, hydraulic oil flows only inside the bearings 40 and 50 as the ends. As a result, the temperature of the hydraulic oil staying there rises, and eventually the temperature around both bearings 40 and 50 rises locally.

  The present invention was devised in view of the above problems of the prior art, and in a swash plate type oil machine in which the bearings are arranged at both ends of the hollow portion in the case, a technique for effectively preventing the temperature rise around both bearings. Is to provide.

  For this reason, the bearing cooling structure for a swash plate type oil machine according to the present invention is a bearing cooling structure for a swash plate type oil machine in which the bearings of the rotary shaft are arranged at both ends of the hollow portion in the case. A through-hole is formed along the opening, and one end side opening is provided at the end of the rotating shaft on one bearing side, and the other end side opening is provided on the outer peripheral surface of the rotating shaft outside the other bearing. It is what.

  With the above configuration, in the present invention, the through-hole in the rotating shaft is formed across the outer sides of both bearings. For this reason, hydraulic oil flows into the through-holes from the outer sides of both bearings. Will do. In such a state, when the oil machine operates and the rotating shaft rotates, an opening on the other end side of the through hole is provided on the outer peripheral surface of the rotating shaft, so that it penetrates toward the opening by the centrifugal force of rotation. The hydraulic oil in the hole will flow. By this flow, the hydraulic oil that has flowed out of the opening flows into the hollow portion in the case through the clearance of the bearing on the other end side, while the hydraulic oil is sucked from the opening on the one end side of the through hole, Along with this, the hydraulic oil in the hollow part in the case flows into the outside of the bearing through the gap of the bearing on one end side. Thus, the through hole becomes an oil passage, and the hydraulic oil in both bearings also flows through the through hole by the flow generated by the centrifugal force in the oil passage.

  As described above, according to the present invention, the hydraulic oil in both bearings automatically circulates in the case with the operation of the oil machine, so the hydraulic oil in the bearing becomes hot. For this reason, it is possible to effectively prevent local high temperatures in both bearings.

It is explanatory drawing of the example of embodiment of this invention, and is sectional drawing of a swash plate type hydraulic pump. It is sectional drawing of the conventional swash plate type hydraulic pump.

  A specific embodiment according to the present invention will be described with reference to FIG. Of course, the present invention is not limited to the following embodiments.

  This embodiment is a specific example of a swash plate type hydraulic pump. As shown in the figure, the rotating shaft 1 is inserted into the hollow portion 3 in the pump case 2 and rotated by bearings 4 and 5 disposed at both ends of the hollow portion 3. It is supported freely. Also, a cylinder barrel 6, piston 7, swash plate 8, etc., which are the rotation mechanism of the rotary shaft 1, are arranged around the rotary shaft 1 of the hollow portion 3 in the pump case 2, and these are filled in the hollow portion 3 in the case 2 The operating oil is in a state in which the rotating shaft 1 and the bearings 4 and 5 can perform a lubricating operation.

  A through hole 9 is formed in the rotary shaft 1 along the axial direction thereof. One end side opening 90 of the through hole 9 is provided at the end of the rotary shaft 1. The other end side opening 91 is provided on the outer peripheral surface of the rotary shaft 1 outside the other side bearing 5. That is, the through hole 9 in the rotating shaft 1 is formed across the outer sides of the bearings 4 and 5. In the drawing, the opening 91 on the other end side is one, but a vertical hole 9a extending from the opening 91 may be passed through the outer peripheral surface on the opposite side and another opening may be provided there.

  With the above configuration, in this embodiment, hydraulic oil flows into the through-hole 9 from the outside of the two bearings 4 and 5. In such a state, the barrel 6 and the piston 7 operate. When the rotating shaft 1 rotates, the hydraulic oil flows out from the opening 91 on the other end side of the through hole 9 due to the centrifugal force of rotation, and further passes through the clearance of the bearing 5 on the other end side, and the hollow portion in the case 2 It flows to 3. On the other hand, hydraulic oil is sucked from the opening 90 on one end side of the through hole 9, and accordingly, the hydraulic oil in the hollow portion 3 in the case 2 flows into the bearing 4 on one end side. It will flow to 9. In this way, the through hole 9 becomes an oil passage, and the hydraulic oil in both the bearings 4 and 5 also flows through the through hole 9 due to the flow generated by the centrifugal force in the oil passage.

  Therefore, in this embodiment, the hydraulic oil in both bearings 4 and 5 automatically circulates in the case 2 as the rotary shaft 1 operates, so the hydraulic oil in the bearings 4 and 5 is hot. Therefore, it is possible to effectively prevent local high temperatures in the vicinity of both bearings 4 and 5.

  It is to be noted that the present invention is not limited to the above-described form as described above, and any form that satisfies the configuration of the scope of the claims naturally belongs to the technical scope even if the form is appropriately changed. It is.

  The present invention is a swash plate type oil machine, and can be applied to a structure in which bearings for supporting a rotating shaft are arranged at both ends of a hollow portion in a case.

1 Rotating shaft
2 cases
3 Hollow part
4,5 Bearing
9 Through hole
90 Opening at one end
91 Opening the other end

Claims (1)

  In a bearing cooling structure of a swash plate type oil machine in which bearings of a rotating shaft are disposed at both ends of a hollow portion in a case, a through hole is formed in the rotating shaft along the axial direction, and one end side opening is formed on one bearing. A bearing cooling structure for a swash plate type oil machine, characterized in that an opening on the other end side is provided at an end portion of the rotating shaft on the side and an outer peripheral surface of the rotating shaft outside the other bearing.

Images