KR200400969Y1 - Tandem type a swash plate hydraulic pump - Google Patents

Abstract

The object of the present invention is to provide a tampon swash plate hydraulic pump that drives another pump by connecting a gear unit to each drive shaft while two swash plate hydraulic pumps are connected in series.

The present invention for achieving the above object is a housing, a rotatable drive shaft inside the housing, a cylinder block rotatably integrated with the drive shaft and the piston is mounted on the cylinder, coupled to one surface of the housing and the cylinder block First and second hydraulic pump including a fixing member for fixing; A spline coupling connecting the drive shafts of the first and second pumps in series; A swash plate hydraulic pump comprising an intermediate block fixed between the first and second hydraulic pumps to guide oil into and out of the oil by an operation of the first and second hydraulic pumps, wherein the driving shaft and the cylinder block are rotatable. A fixed member which is supported and opened to one side, a drive gear disposed in the fixed member and coupled to the drive shaft, a rotating gear that is engaged with one side of the drive gear to transmit rotational force, and is rotated by being engaged with the rotating gear A gear block including a driven gear, a pump driven by the rotational force of the driven gear, and a pivot part coupled to the open fixing member to support the rotation of the rotating gear, and a fixed block for fixing the third pump. It consists of.

Description

Tandem type swash plate hydraulic pump {TANDEM TYPE A SWASH PLATE HYDRAULIC PUMP}

The present invention relates to a tandem swash plate type hydraulic pump, and more particularly, to a tandem type swash plate type hydraulic pump in which two swash plate type hydraulic pumps are connected to each drive shaft in series with the swash plate type hydraulic pumps connected in series. It is about.

In general, swash plate type hydraulic pump is widely used as a hydraulic supply source in construction machinery, etc. A pump unit in which two swash plate type hydraulic pumps are united is used. There is a pump. In the parallel swash plate type hydraulic pump, the gear system for connecting the driving shafts of the two pumps increases in size, torque loss occurs due to stirring of the gears, thermal balance becomes worse, and the width of the pump unit in the direction perpendicular to the shaft is increased. There are drawbacks such as enlargement.

In addition, although the length is increased in the axial direction in the tandem type swash plate hydraulic pump, the drive shafts of the two pumps can be interlocked via the spline coupling, so that the interlock mechanism can be simplified and compact, and the torque loss is small. It is widely applied in that it has advantages.

Japanese Patent Application Laid-Open No. 54-21803 shown in Figs. 3 and 4 has a tandem type swash plate type hydraulic pump by connecting an expansion hydraulic pump in series with an input side and an opposite side of one swash plate type hydraulic pump. In the case of adding one or more hydraulic pumps to the both sides, the gearbox 101 including three gears is installed on the input side and both sides thereof are driven from the drive gear 103 which is integrally rotated with the drive shaft 102 to which the driving force is input. The driving force is input to one or a plurality of expansion hydraulic pumps via the gears 104 and 105.

When one or a plurality of hydraulic pumps are added to the tambour-type swash plate type hydraulic pump, three expansion hydraulic pumps 107, 108, and 109 are connected in series with the input side and the opposite side, and the tandem type swash plate type is connected to these expansion hydraulic pumps 107, 108, and 109. The driving force is input to the driving shaft of the hydraulic pump 100.

However, first, as the need to transmit driving force to the tamdom swash plate type hydraulic pump increases the volume of the gearbox and the gear case of the gearbox, and the pump unit increases in size by the axial length of the gearbox. There are problems in that the production cost is expensive, the weight becomes heavy, and the torque loss due to the agitation of the large gear is large and heat is generated to decrease the efficiency.

Second, the axial length of the pump unit is increased in order to connect a plurality of expansion hydraulic pumps in series to the tandem swash plate type hydraulic pump, which is a disadvantage that the layout is poor when installing construction machinery.

The present invention for solving the above problems is to provide a tamdom-type swash plate hydraulic pump to drive another pump by connecting a gear to each drive shaft in a state in which two swash plate hydraulic pumps are connected in series.

The present invention for achieving the above object includes a housing, a drive shaft rotatable inside the housing, a cylinder block rotatably integrated with the drive shaft and a piston mounted to the cylinder, and a fixing member coupled to one surface of the housing. First and second pumps; A spline coupling connecting the drive shafts of the first and second pumps in series; In the swash plate type hydraulic pump which is fixed between the first and second pumps and consists of an intermediate block for inducing and discharging oil by the operation of the first and second pumps, one side of the fixing member is opened, and the fixing is performed. A drive gear coupled to the drive shaft disposed inside the member, a rotation gear engaged with the drive gear to transmit rotational force, a gear part including a driven gear engaged with the rotation gear, and a rotational force of the driven gear; It is composed of a third pump driven by the, and the fixed block which is coupled to the open fixed member and the pivoting gear is pivotally formed to support the third pump.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail as follows.

1 is a cross-sectional view showing a swash plate hydraulic pump according to the present invention, Figure 2 is a cross-sectional view showing another embodiment of the swash plate hydraulic pump according to the present invention.

As illustrated in FIG. 1, a swash plate hydraulic pump installed in a construction machine or the like includes a first pump 10 having a driving shaft 11 connected to an engine output side at one side thereof, and a driving shaft 11 of the first pump 10. The second pump 30 is provided with a drive shaft 11 is connected to the drive.

The drive shafts 11 and 31 of the first and second pumps 10 and 31 are arranged on the same line, and one end thereof is rotatably coupled by the spline coupling 50.

The intermediate block 40 is coupled between the first and second pumps 10 and 30, and the bearing 13 supporting the drive shaft 11 at both sides of the spline coupling 50 is formed inside the intermediate block 40. ) Is interposed.

In addition, suction ports 42 communicating with the suction ports 41 are formed at both sides of the intermediate block 40, and mutually independent discharge ports 44 communicating with the discharge ports 43 are formed.

The first pump 10 is installed in the housing 12, the inside of the housing, the drive shaft 11 is rotatable by the bearing 13 on one side and the cylinder which is integrally rotated with the drive shaft 11 A block 14 and a plurality of cylinders 15 are formed in the cylinder block 14, and the cylinder 15 is mounted with a piston 16, and a shoe connected to a head of the plurality of pistons 16. 17 is provided and is in sliding contact with the swash plate 18 fixed to the housing 12.

When the drive shaft 11 and the cylinder block 14 are rotated, the plurality of pistons 16 reciprocate in the axial direction in the cylinder 15, and oil sucked from the suction port 42 and the suction port 41. The piston 16 is pressurized in the cylinder 15 and discharged from the discharge port 44 via the discharge port 43.

Subsequently, a fixing member 19 which fixes the swash plate 18 to one side of the housing 12 and fixes the bearing 13 to the drive shaft 11 to be rotatable therein is coupled thereto.

The fixing member 19 is open at one side and has a space portion 20 therein, and a gear portion 70 is rotatably installed at the drive shaft 11 of the space portion 20.

The gear unit 70 includes a drive gear 71 coupled to a drive shaft, a rotation gear 72 and a driven gear 73 that transmit rotational force of the drive gear.

The rotating gear 72 is rotatably coupled to the pivot portion 61 of the fixed block 60, which will be described later.

The driven gear 73 meshes with the rotation gear 72 and is coupled to the third pump 62.

Meanwhile, a fixing block 60 supporting the third pump 62 is installed at one side of the fixing member 19.

The fixed block 60 fixes the pivot 61 inserted into the space 20 of the fixing member 19, and is rotated by the driven gear 73 to transfer the driving force to the third pump 62. ).

Since the first pump 10 and the second pump 30 have the same structure, they will be omitted.

The first and second pumps 10 and 30 are coupled to a gear part 70 for transmitting power to the space part 20 of the fixing member 19, and drive gears to the drive shafts 11 and 31. A coupling gear 71 is coupled to the pivoting portion 61 of the fixed block 60 and is engaged with the driving gear 71 to be driven, and a rotation gear 72 is provided to the rotation gear 72. An interlocking driven gear 73 is connected, and consists of a third pump 62 driven by the rotational force of the driven gear 73.

As such, the gear unit 70 is coupled to each of the driving shafts 11 and 31 to drive the plurality of third pumps 62 by the gear unit 70.

In other words, the third pump 62 may be driven in both directions of the first and second pumps 10 and 30 by the driving shafts 11 and 31 to solve the conventional problem, and have a compact structure as a whole. .

As shown in FIG. 2, duplicated contents are omitted from the contents described with reference to FIG. 1, and the present invention pivotally supports the drive shaft 11 and the cylinder block 14 and is open to both sides of the fixing member 19. And a drive gear 71 coupled to the drive shaft 11 disposed inside the fixing member 19, a rotation gear 72 meshed with both sides of the drive gear 71 to transmit rotational force, and A gear part 70 including a driven gear 73 rotated in engagement with the rotation gear 72, a third pump 62 driven by the rotational force of the driven gear 73, and the open fixing member ( It is coupled to the 19 and the pivot portion 61 is formed to support the rotation of the rotating gear 72 is formed of a fixed block 60 for fixing the third pump (62).

Both sides of the fixing member 19 is open and the fixing block 60 is coupled to both sides of the opening.

As described above, third pumps 62 are installed at both sides of the first and second pumps 10 and 30 so that the driving force is transmitted by the driving shafts 11 and 31 on one side of the first and second pumps 10 and 30.

Accordingly, the present invention allows the drive shafts of the two swash plate hydraulic pumps to be driven by spline coupling, and the rotational force of the drive shafts drives the other pumps installed on both sides of the swash plate hydraulic pump, thus conventionally in the longitudinal direction. The long installed structure is improved to reduce the overall volume, thereby preventing the installation.

In addition, it is possible to expand another pump by connecting to the drive shafts of the first and second pumps, which has a convenient effect when the plurality of pumps are added.

1 is a cross-sectional view showing a tamdom-type swash plate hydraulic pump according to the present invention,

Figure 2 is a cross-sectional view showing another embodiment of a tamdem-type swash plate hydraulic pump according to the present invention;

3 is a cross-sectional plan view of a part of a tandem swash plate hydraulic pump equipped with a gearbox of a conventional tandem swash plate hydraulic pump;

Figure 4 is a plan view showing a tandem type swash plate hydraulic pump and an expanded pump unit according to the prior art.

Explanation of symbols on the main parts of the drawings

10: first pump 30: second pump

40: intermediate block 50: spline coupling

60: Fixed block `61: Pivot part

62: third pump 70: gear unit

71: drive gear 72: rotating gear

73: driven gear

Claims (2)

First and second pumps including a housing, a drive shaft rotatable in the housing, a cylinder block rotatably integrated with the drive shaft, and a piston mounted to the cylinder, and a fixing member coupled to one surface of the housing; A spline coupling connecting the drive shafts of the first and second pumps in series; In the swash plate-type hydraulic pump is fixed between the first and second pumps and made of an intermediate block for inducing oil into and out by the operation of the first and second pumps, One side of the fixed member is opened, a drive gear coupled to the drive shaft disposed inside the fixed member, a rotation gear meshed with the drive gear to transmit a rotational force, and a driven gear meshed with the rotation gear As a fixed block which includes a gear part, a third pump driven by the rotational force of the driven gear, and the open fixed member, the pivot gear is pivotally formed to pivot, and supports the third pump. Tamdam-type swash plate hydraulic pump, characterized in that configured. First and second pumps including a housing, a drive shaft rotatable in the housing, a cylinder block rotatably integrated with the drive shaft, and a piston mounted to the cylinder, and a fixing member coupled to one surface of the housing; A spline coupling connecting the drive shafts of the first and second pumps in series; In the swash plate-type hydraulic pump is fixed between the first and second pumps and made of an intermediate block for inducing oil into and out by the operation of the first and second pumps, Both sides of the fixing member are opened, a drive gear coupled to the drive shaft disposed inside the fixing member, a plurality of rotation gears meshed with the drive gears to transmit rotational force, and driven driven by engagement with the rotation gears. A gear part including a gear, a third pump driven by the rotational force of the driven gear, and a fixed part coupled to the open fixing member so that the rotation gear pivots, and fixes the third pump. Tamdam-type swash plate hydraulic pump, characterized in that consisting of blocks.