JPH0714184U - Discharge valve mechanism of plunger pump - Google Patents

Abstract

(57) [Abstract] [Purpose] The holding force of the bias spring of the discharge ball valve of the plunger pump against the valve ball is increased, and the valve opening stroke of the ball is stabilized, and the ball stability in the valve open state The purpose is to improve. [Structure] A valve ball 1 of a discharge valve 17 is attached to one end of a C-shaped leaf spring 21 fitted to the outer circumference of a small diameter portion of a cylinder sleeve 13.
A ball holding hole 21a having a diameter smaller than the diameter of 7b is provided, and the valve ball is fitted into the ball holding hole to hold the valve ball by one end of the C-shaped leaf spring. A discharge valve mechanism of a plunger pump configured to urge 17b in a valve closing direction so that a gap d between the outer circumference of the small diameter portion of the cylinder sleeve and the inner surface of the cylinder bore of the cylinder block is smaller than the diameter D of the valve ball.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a discharge ball valve of a plunger pump, and is particularly effective when used for a discharge valve of a small plunger pump, and the ball of the discharge valve is not held by a special holding mechanism. Since the positioning can be performed and the maximum lift of the ball can be regulated by the inner surface of the cylinder block, the mechanism of the discharge ball valve can be simplified and the manufacturing cost can be reduced. It stabilizes, improves its durability and reduces noise.

[0002]

[Prior art]

 A small plunger pump having a mechanism shown in FIG. 5 is conventionally known (Japanese Utility Model Laid-Open No. 58-175174). In this type, a cylinder sleeve 3 is fitted in a cylinder bore 2 of a cylinder block 1, a plunger 5 is fitted in a cylinder bore 4 of the cylinder sleeve 3, and a suction ball valve is formed by an axial valve seat 6a and a valve ball 6b of the cylinder sleeve 3. 6, the coil ball 6c interposed between the valve ball 6b and the tip of the plunger 5 urges the valve ball 6b in the valve closing direction. Further, the radial ball seat 7a of the cylinder block 1 and the valve ball 7b constitute a discharge ball valve 7, and for the coil spring 7c interposed between the spring retainer 8 screwed into the discharge port and the valve ball 7b. The valve ball 7b is urged toward the valve closing direction. The valve balls (balls) 6b and 7b of the suction ball valve 6 and the discharge ball valve 7 are both held by the tips of the coil springs 6c and 7c. It is pushed away from the seat to open the valve, and reciprocates between the open position and the closed position. When the valve is open, the ball is held only by the tip of the coil spring, which is extremely unstable, and its stroke fluctuates depending on the pressure difference between the inside and outside of the ball and the discharge amount. Is unstable, and this remains a problem to be improved. Further, since the biasing spring of the discharge ball valve is the coil spring 7c and the length of the discharge port must be equal to or longer than the length of this spring, the cylinder block 1 may become thicker than necessary. Inevitable.

[0003]

[Problems to be solved by the device]

 The present invention aims to solve the above-mentioned problems of the prior art, and for that purpose, the holding force of the discharge ball valve with respect to the ball by the biasing spring is increased, and the maximum lift of the ball is mechanically restricted. A ball holding mechanism should be devised so as to stabilize the valve opening stroke and further improve the stability of the ball in the valve opened state by using the above regulation force as the holding force for the ball in the valve opened state. Is the task.

[0004]

[Means for Solving the Problems]

 The measures taken to solve the above problems are composed of the following elements (a) to (d). (A) The large diameter part of the cylinder sleeve is fitted into the cylinder bore of the cylinder block, and (b) the discharge valve is constituted by the radial discharge valve seat and valve ball provided on the outer circumference of the small diameter part of the cylinder sleeve. C) A ball holding hole having a diameter smaller than the diameter of the valve ball is provided at one end of the C-shaped leaf spring fitted to the outer circumference of the small diameter portion of the cylinder sleeve, and the ball ball is fitted into the ball holding hole to fit the ball holding hole. The valve ball is held by one end of the C-shaped leaf spring and is urged in the valve closing direction. (D) The gap between the outer circumference of the small diameter portion of the cylinder sleeve and the inner surface of the cylinder bore of the cylinder block should be smaller than the diameter of the valve ball. I made it smaller.

[0005]

[Work]

 Since the diameter of the valve ball is larger than the ball holding hole of the C-shaped leaf spring, and the valve ball is biased by the leaf spring, it is fixed by one end of the C-shaped plate spring through the ball holding hole. The maximum stroke of the valve ball is restricted by the inner surface of the cylinder bore of the cylinder block, because the ball diameter is larger than the gap between the outer circumference of the small diameter part of the cylinder sleeve and the inner surface of the cylinder bore of the cylinder block. . Therefore, since the valve ball is securely held in a predetermined position by the regulation by the ball holding hole of the leaf spring and the regulation by the inner surface of the cylinder bore of the cylinder block, the urging force of the C-shaped leaf spring can be reduced. It is possible to reduce the fluctuation of the stroke of the valve ball due to the difference in pressure between the inside and outside and the amount of discharge. The valve ball is held by the ball holding hole of the C-shaped leaf spring, that is, not by the holding force of the C-shaped leaf spring alone, but by the holding force of the C-shaped leaf spring and the regulation by the inner surface of the cylinder bore of the cylinder block. , It is not necessary to lock the C-shaped leaf spring on the outer circumference of the cylinder sleeve. Therefore, by simply fitting the C-shaped leaf spring to the outer circumference of the small diameter portion of the cylinder sleeve by its elastic force, it is possible to sufficiently secure the necessary holding force for the valve ball by the C-shaped leaf spring. Furthermore, since it is not necessary to immobilize the C-shaped leaf spring to the small diameter portion of the cylinder sleeve, a locking mechanism for that is not required, and when the C-shaped leaf spring is assembled to the small diameter portion of the cylinder sleeve. No work is required to lock the C-shaped leaf spring to the small diameter portion of the cylinder sleeve. Therefore, the structure of the C-shaped leaf spring is simple, its manufacture is easy, the outer peripheral surface of the small diameter portion of the cylinder sleeve is simply processed, and the assembling work of the C-shaped leaf spring to the small diameter portion of the cylinder sleeve is also easy. It is simple and therefore can significantly reduce the manufacturing cost of the discharge valve of the plunger pump.

[0006]

【Example】

 Next, an embodiment of the present invention will be described with reference to the drawings. A cylinder sleeve 13 is fitted in the cylinder bore 2 of the cylinder block, and a plunger 5 is fitted in the cylinder bore 14 of the cylinder sleeve 13. The outer diameter of the large diameter portion 13a of the cylinder sleeve 13 is substantially equal to the inner diameter of the cylinder bore 2 of the cylinder block 1, and the fitting surface thereof is sealed by the seal ring 13b. The small diameter portion 13c of the cylinder sleeve 13 is provided with a radial valve seat 17a, and the valve seat 17a and the valve ball 17b constitute a discharge valve 17. A ball holding hole 21a having a diameter smaller than that of the valve ball 17b is provided at one end of a C-shaped leaf spring 21 for urging the valve ball 17b in the valve closing direction, and the valve ball 17b is fitted into the ball holding hole 21a so as to fit the cylinder sleeve. The C-shaped leaf spring 21 is simply fitted in the shallow annular groove of the small diameter portion 13c. The C-shaped leaf spring 21 is lightly held by the small-diameter portion 13c of the cylinder sleeve 13 by its own elastic force with respect to the small-diameter portion 13c, and the valve ball 17b is held in the ball holding hole 21a of the C-shaped leaf spring 21. Therefore, the valve ball 17b is lightly held in place by the C-shaped leaf spring 21. Since the diameter D of the valve ball 17b is larger than the gap d between the outer peripheral surface of the small diameter portion 13c of the cylinder sleeve and the inner surface of the cylinder bore 2 of the cylinder block, the valve ball is pushed up by the discharge pressure and hits the inner surface of the cylinder bore 2. The valve ball 17b does not laterally separate from the valve seat when it comes into contact (see FIG. 3). Therefore, the valve ball is stably held at a predetermined position by the regulation by the inner surface of the cylinder bore 2 and the light holding force by the C-shaped leaf spring 21. When the discharge pressure decreases, the valve ball 17b surely seats on the valve seat 17a and closes the valve seat 17a. The outer diameter of the small diameter portion 13c of the cylinder sleeve 13 in this embodiment is 14.5 mm, the diameter D of the valve ball is 3 mm, and the gap d between the outer circumference of the small diameter portion of the cylinder sleeve and the inner surface of the cylinder bore of the cylinder block is 2 mm. As is clear from the dimensions of the above embodiment, the plunger pump of this embodiment is extremely small, and the present invention is particularly effective for such a small plunger pump. However, it is also effective when applied to a medium-sized plunger pump.

[0007]

[Effect]

 As is clear from the above description, the present invention has the following unique effects. That is, since it is not necessary to immobilize the C-shaped leaf spring to the small diameter portion of the cylinder sleeve, a locking mechanism for this need not be required, and when the C-shaped leaf spring is assembled to the small diameter portion of the cylinder sleeve. No work is required to mechanically lock the C-shaped leaf spring to the cylinder sleeve. Therefore, the structure of the C-shaped leaf spring is simple, its manufacture is easy, the outer peripheral surface of the small diameter portion of the cylinder sleeve is simply processed, and the assembling work of the C-shaped leaf spring to the small diameter portion of the cylinder sleeve is also easy. Due to its simplicity, the manufacturing costs associated with the discharge valve of the plunger pump can be significantly reduced. Also, since the maximum stroke of the valve ball is restricted by the inner surface of the cylinder bore of the cylinder block, the urging force in the valve closing direction against the ball is reduced, which increases the opening degree of the discharge valve when the discharge amount is small. (The coil spring or leaf spring is used as the biasing spring to hold the valve ball by itself, and in the case where the maximum lift of the valve ball is regulated by that spring force, the biasing spring does not apply in the closed state. Since the force must be increased to some extent, it is unavoidable that the opening degree of the discharge valve becomes small when the discharge pressure is low) .Therefore, the stroke of the valve ball may fluctuate due to the difference between the internal and external pressure differences and the discharge amount. It is small, its operation is stable, and the pressure loss due to the discharge valve when the discharge amount is small can be reduced.

[Brief description of drawings]

FIG. 1 is a sectional view of an embodiment of the present invention.

FIG. 2 is a sectional view taken along line AA of FIG.

FIG. 3 is a cross-sectional view taken along the line AA showing the opened state of the discharge valve.

FIG. 4 is a perspective view of a C-shaped leaf spring.

FIG. 5 is a cross-sectional view of a conventional example.

[Explanation of symbols]

Cylinder block 2 Cylinder bore (of cylinder block) 3, 13 ... Cylinder sleeve 4, 14 ...・ ・ ・ ・ Cylinder bore 5 (of cylinder sleeve) ・ ・ ・ ・ ・ ・ ・ Plunger 6 ・ ・ ・ ・ ・ ・ ・ ・ ・ ・ ・ Suction valve ball 6a ・ ・ ・ ・ ・ ・ Shaft Directional valve seats 6b, 7b, 17b ... Valve balls 6c, 7c ... Coil spring 7 ... Discharge ball valve 7a ...・ Radial valve seat 8 ・ ・ ・ ・ ・ ・ ・ ・ Spring retainer 13a ・ ・ ・ ・ ・ ・ ・ Large diameter part 13c ・ ・ ・ ・ ・ ・ ・ Small diameter part 17 ・ ・ ・ ・ ・Discharge valve 17a Discharge valve seat 21 C-shaped leaf spring 21a Gap between ... ball holding hole D ········· internal cylindrical surface of the small-diameter outer periphery and the cylinder block with a diameter d ········· cylinder sleeve valve ball

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI technical display area F04B 1/053

Claims (1)

[Scope of utility model registration request] 1. A plunger pump in which a cylinder sleeve is fitted in a cylinder bore of a cylinder block, and a plunger is fitted in the cylinder bore of the cylinder sleeve. A discharge valve is formed by a radial discharge valve seat and a valve ball provided on the outer circumference of the small diameter portion of the cylinder sleeve, and one end of a C-shaped leaf spring fitted on the outer circumference of the small diameter portion of the cylinder sleeve has a diameter larger than that of the valve ball. A ball holding hole having a small diameter is provided, and the valve ball is fitted into the ball holding hole so that one end of the C-shaped leaf spring holds the valve ball and the C-shaped leaf spring urges the valve ball in the closing direction. The clearance between the outer circumference of the small diameter portion of the cylinder sleeve and the inner surface of the cylinder bore of the cylinder block. Discharge valve mechanism of the small and the plunger pump than the diameter of the ball.