KR870002951Y1 - Pump - Google Patents

Abstract

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Description

Circular water pump

1 is an exploded perspective view of the present invention.

Figure 2 is a longitudinal cross-sectional view of the coupled state of the present invention.

(A) (b) and (c) of FIG. 3 are sectional views taken along the line A-A 'of FIG.

The present invention relates to a circular water pump so that the sliding disk installed on the eccentric shaft, which is attached to the rotating shaft connected to the motor shaft, can be sucked and discharged by the operation of changing only the inclination while moving the sliding disc to the left and right.

Conventional centrifugal pumps were formed by forming the blades on a rotating disk, but this had to be a problem because a high speed motor must be used because the rotating disk can rotate at a high speed so that water can be sucked. There were defects such as a decrease in the discharge pressure due to the defect and the vortex of the suction, resulting in a decrease in efficiency.

The present invention was devised to solve the above-mentioned defects in the related art, and the sliding disc is rotated once by rotating the rotation disc by the eccentric shaft so that both sides of the main body are always opposed to each other. As the slope changes, the left and right movements are performed so that water is sucked and discharged at the same time.

By this operation, the present invention can eliminate the generation of noise when pumping water, and by using the suction of water by changing the slope of the sliding disk, it is possible to use a high speed as well as a low speed motor, and also to intake water without vortexing. By discharging and discharging, the suction can be discharged without a drop in discharge pressure caused by vortex as in the related art, thereby increasing pumping efficiency, which will be described in detail with reference to the accompanying drawings. In the water pump main body 5 in which the suction hole 1 and the discharge hole 2 were formed, the arc surface 3, 3 'and the fan-shaped inner chamber 4 were formed in the inner surface of the main body 5, and the main body 5 was Insertion grooves 6, 6 'are formed in the inner upper side, and are integral with the spherical body 11 built on the needle bearings 10, 10' of the circumference of the eccentric shaft 9, which is fixed to the rotary shaft 8 After the incision groove 13 is formed in the sliding disc 12 formed with the groove, the sliding rod 14 having the packing grooves 14 'and 14 "formed at the top is inserted into the incision groove 13, and a fan shape is provided. The diaphragm 7 is inserted between the insertion seed grooves 15 of the sliding rod 14, and both sides of the diaphragm 7 are inserted into the insertion grooves 6 and 6 ', respectively. '17, 17 'is the packing inserted into the groove of the inner surface (3) (3') of the main body (5), 18 is the packing wound around the outer periphery of the sliding disc 12, 19 is the key, 20, 20 'is the suction The suction and discharge tubes 21 and 21 ', which are connected to the ball 1 and the discharge hole 2, indicate the motor and its axis.

The present invention configured as described above connects one end of the rotating shaft 8 to the shaft 21 'of the motor 21, and then, when the motor 21 is operated, the rotating shaft 8 is rotated. Since 9) is fixedly arranged on the rotary shaft 8 as a key 19, the eccentric shaft 9 also rotates along with the rotation of the rotary shaft 8, and a spherical shape is formed on the needle bearings 10, 10 '. The body 11 does not move along the rotational fluctuation of the inclined surface of the eccentric shaft 9 but moves in a zigzag shape. The outer circumferential surface of the spherical body 11 is an arc surface 3, 3 ′ of the body 5. Suction from the suction hole (1) to the fan-shaped inner chamber (4) by sliding the position on the arc surface (3) (3 ') without departing from the range of the packing (17) (17') fitted in the There is no phenomenon of leaking water, the sliding disk 12 formed integrally with the spherical body 11 to move the position while moving in a zigzag position is the position of the spherical body 11 According to the movement state, the inclination of the sliding disk 12 is changed in a state in which the wall surfaces of the fan-shaped inner chamber 4 of the main body 5 are always in contact with each other, and the cutout groove of the sliding disk 12 13) the sliding rod 14 is pivotally inserted, and the insertion seed groove 15 of the sliding rod 14 is in the state which clamped the fan-shaped plate 7 in the airtight state, and at the time of 1 rotation of the rotating shaft 8 '. The inclination fluctuation period of the sliding disc 12 causes the sliding rod 14 to reciprocate once along the fan-shaped plate 7.

Referring to FIG. 3 (a), the upper side of the sliding disc 12 includes the main body (a) of FIG. 5) The state close to the side wall surface of the discharge hole 2 of the fan-shaped inner chamber 4, and the bottom side is close to the opposite lower wall surface, wherein the water sucked from the suction hole 1 is discharged. Discharged to

Sliding disc 12 in a state in which the eccentric shaft 9 which rotates with the rotating shaft 8 which continues in such a state moves the spherical body 11 along the arc surface 3, 3 'in a zigzag shape. Is in a state where the inclination fluctuates from the solid line position to the position indicated by the dashed-dotted line (Fig. 3 (a)), wherein the upper portion of the sliding disc 12 adjacent to the suction hole 1 is the suction hole 1 The suction phenomenon occurs when the space in front of the suction hole (1) is suddenly increased so that the water is sucked into the fan-shaped inner chamber (4) through the suction hole (1). The space area is in a relatively reduced state.

In the state as described above, the fan-shaped inner chamber 4 between the suction hole 1 side and the discharge hole 2 side and the sliding disc 12 is closed by the fan plate 7, and the lower part is closed to each other. In the interlocking state, as the space area in front of the suction hole 1 is increased, the space area of the discharge hole 2 is reduced so that the water sucked through the suction hole 1 is discharged. It will be discharged to.

By the way, in the rotation of the rotary shaft 5, when the rotary shaft 8 is rotated by about 180 degrees, the sliding rod 14 pivotally inserted into the cutting groove 13 of the sliding disc 12 is a suction hole ( 1) and the state of the sliding disk 12 in the state of moving from the tip (left end in the drawing) to the opposite end (right end in the drawing) on the fan-shaped plate 7 on the discharge hole 2 side (see also FIG. 3 (b)). In the operation of changing only the inclination, water is sucked and discharged while increasing and decreasing the space areas of the suction hole 1 side and the discharge hole 2 side, and the rotation shaft 8 is 270 ° as shown in FIG. In the rotated state, the upper side of the sliding disc 12 moves to the suction and discharge holes 1 and 2, so that previously sucked water is discharged to the discharge hole 2, and the rotating shaft 8 is 360. When it rotates, the sliding rod 14 moved to the tip of the fan-shaped plate 7, and the sliding disk 12 returned to the same as the solid line in FIG. That is, the same operation, that is, the sliding disk 12 is to continue the operation of sucking and discharging water while continuously repeating the operation to move the fan plate 7 to the left and right and the operation of changing the slope.

Then, the water suctioned between the suction, discharge holes (1), (2) and the sliding disc (12) by packing the outer peripheral edge of the sliding disc (12) 18 in close contact with the main surface of the fan-shaped inner chamber (4) Since it is configured not to leak to the other side, there is no phenomenon that the suction force and the earth output are weakened, and the suction disk 12 moves to the left and right, and at the same time, the operation of changing only the inclination does not cause noise by inhaling and discharging water. It is a very practical and useful design because it can be used without regard to high speed motors.

Claims (1)

In the amniotic fluid main body 5 in which the suction hole 1 and the discharge hole 2 are formed, the arc surface 3 and 3 'and the fan-shaped inner chamber in which the packings 17 and 17' are fitted on the inner surface of the main body 5 are formed. (4), insert grooves (6) and (6 ') formed on the inner side of the main body (5), and needle bearings (10) and (10') of the eccentric shaft (9) circumferentially constricted to the rotating shaft (8). The incision groove 13 is formed in the sliding disc 12 formed integrally with the spherical body 11 arranged in the above, and then the sliding rod 14 having the packing grooves 14 ′ and 14 ″ formed on the upper end thereof. Insert into the incision groove (13), the fan-shaped diaphragm (7) is sandwiched between the insertion seed groove (15) of the sliding rod 14, but both sides of the diaphragm (7) to fit into each of the insertion groove (6) (6 ') And a packing (18) inserted into an outer periphery of the sliding disc (12).