CN203685737U - Automatic reversing slide valve - Google Patents

Abstract

The utility model discloses an automatic reversing slide valve. The automatic reversing slide valve comprises a valve element, a valve body, a first end cover and a second end cover. The outer wall of the valve element is provided with a first annular boss and a second annular boss, and the first annular boss and the second annular boss are sequentially distributed from the first end cover to the second end cover; the inner wall of the valve body is provided with a third boss. The wall of the valve body is provided with an oil inlet P, a first work oil port A and a second work oil port B; the first end cover is provided with a first oil return port T1; the second end cover is provided with a second oil return port T2. The first end cover is provided with a first radial channel, and a first throttling needle valve is arranged in the first radial channel; the second end cover is provided with a second radial channel, and a second throttling needle valve is arranged inside the second radial channel. The automatic reversing slide valve has the advantages that the pressure difference between the second work oil port and the first work oil port pushes the valve element to conduct reciprocating motion leftwards and rightwards, continuous reversing of a work oil line is achieved, and therefore a hydraulic cylinder is driven to conduct continuous reciprocating motion. The automatic reversing slide valve has the advantages of being simple in structure and low in cost.

Description

Automatic reverse guiding valve

Technical field

The utility model relates to a kind of automatic reverse guiding valve, relates in particular to a kind of for controlling the continuous reciprocating automatic reverse guiding valve of oil hydraulic cylinder.

Background technique

In practical engineering application, often need to constant hydraulic driving power be provided or realize the required function of equipment by this motion by the continuous to-and-fro motion of oil hydraulic cylinder.

Selector valve commutates by oil circuit control, drives oil hydraulic cylinder to-and-fro motion.Prior art adopts solenoid directional control valve or reversing rotary valve to realize commutation, and the former needs calutron to drive spool to move, and the latter needs motor-driven valve core to rotate.Extra device for driving valve body causes the complex structure of selector valve, and cost is high, but also can increase the complexity of whole system.

Model utility content

The technical problem that the utility model solves is the automatic reverse guiding valve that provides a kind of, to overcome the part or all of defect of prior art.

The technical problem that the utility model solves realizes by the following technical solutions:

The utility model automatic reverse guiding valve comprises valve body, spool, the first end cap and the second end cap; Spool is positioned at valve body, is provided with the first annular boss and the second annular boss on the outer wall of spool, and the first annular boss and the second annular boss are arranged to the direction of the second end cap successively along the first end cap; Be provided with the 3rd annular boss at the inwall of valve body, the wall of valve body is provided with filler opening, the first actuator port and the second actuator port; Be provided with the first hole in the inner side of the first end cap, the inner side of the second end cap is provided with the second hole; Be covered with the first radial passage at first end, first throttle needle-valve is installed in the first radial passage, first end is covered with the first return opening being communicated with the first radial passage, and form restriction between the first return opening and first throttle needle-valve, the second end cap is provided with the second radial passage, the second Throttle needle valve is installed in the second radial passage, and the second end cap is provided with the second return opening being communicated with the second radial passage, and forms restriction between the second return opening and the second Throttle needle valve; First end is covered with the first circular groove being communicated with the first radial passage, and the second end cap is provided with the second circular groove being communicated with the second radial passage;

When the pressure of the second actuator port p ₂ while meeting formula (1), spool moves to the direction at the first end cap place along the axial passage of valve body, in the time that spool moves to the second annular boss and contacts with the 3rd annular boss, filler opening is not all communicated with the first actuator port and the second actuator port, and the first actuator port is not communicated with the first return opening and the second actuator port is not communicated with the second return opening; In the time that spool continues move and be inserted into the first hole to the direction at the first end cap place, filler opening can be communicated with the first actuator port, and the second actuator port is communicated with the second return opening;

When the pressure of the first actuator port p ₁ while meeting formula (2), spool moves to the direction at the second end cap place along the axial passage of valve body, in the time that spool moves to the first annular boss and contacts with the 3rd annular boss, filler opening is not all communicated with the first actuator port and the second actuator port, and the first actuator port is not communicated with the first return opening and the second actuator port is not communicated with the second return opening; In the time that spool continues move and be inserted into the second hole to the direction at the second end cap place, filler opening can be communicated with the second actuator port, and the first actuator port is communicated with the first return opening;

（1）

（2）

In above-mentioned formula, p ₁ be the pressure of the first actuator port, p ₂ be the pressure of the second actuator port, d ₁ for the diameter of spool, d ₂ be the external diameter of the first annular boss and the second annular boss, the external diameter of the first annular boss and the second annular boss equates.

Further, the first radial passage described in the utility model adopts and is threaded with first throttle needle-valve, and the second radial passage adopts and is threaded with the second Throttle needle valve.

Compared with prior art, the beneficial effects of the utility model are:

(1) utilize the pressure differential spool of reversing slide valve inside to move along the axial passage of valve body, realize the Automatic continuous commutation of oil hydraulic cylinder, without the extra device for driving valve body such as electromagnet or motor, have simple in structure, reliable performance, the feature that cost is low.(2) by regulating Throttle needle valve, the back pressure of hydraulic system oil circuit can be set, realize different oil hydraulic cylinder reciprocating frequency, regulation range is large, meets different operating mode demands.(3) radial passage and Throttle needle valve adopt and are threaded, and pressure regulation is simple to operation.

Accompanying drawing explanation

Fig. 1 is longitudinal section, the center sectional view of the utility model automatic reverse guiding valve;

Fig. 2 is the three-dimensional structure schematic diagram of spool;

Fig. 3 is the left actuator port H of the utility model automatic reverse guiding valve at its first actuator port A and oil hydraulic cylinder ₁be communicated with, and the right actuator port H of the second actuator port B and oil hydraulic cylinder ₂when connection, work schematic diagram when oil inlet P is communicated with the first actuator port A;

Fig. 4 is the work schematic diagram of the utility model automatic reverse guiding valve in the time that oil inlet P is communicated with the second actuator port B;

In figure, 1-spool; 2-valve body; 3-the first end cap; 4-the second end cap; 5-the first annular boss; 6-the second annular boss; 7-the 3rd annular boss; 8-the first circular groove; 9-the second circular groove; 10-the first hole; 11-the second hole; 12-the first radial passage; 13-the second radial passage; 14-first throttle needle-valve; 15-the second Throttle needle valve; The cylinder barrel of 16-oil hydraulic cylinder; 17-the first spacing hole; 18-the second spacing hole; The left end cap of 19-oil hydraulic cylinder; The right end cap of 20-oil hydraulic cylinder; 21-the first one-way valve; 22-the second one-way valve; H ₁the left actuator port of-oil hydraulic cylinder; H ₂the right actuator port of-oil hydraulic cylinder; P-filler opening; A-the first actuator port; B-the second actuator port; T ₁the-the first return opening; T ₂the-the second return opening; d ₁the diameter of-spool; d ₂the external diameter of the-the first annular boss and the second annular boss.

Embodiment

Further set forth the utility model below in conjunction with accompanying drawing.

As depicted in figs. 1 and 2, the utility model automatic reverse guiding valve mainly comprises spool 1, valve body 2, the first end cap 3, the second end cap 4.Wherein, spool 1 is positioned at valve body 2 and can moves around and change the working state of selector valve with this along the axial passage of valve body 2.The outer wall of spool 1 is provided with the first annular boss 5 and the second annular boss 6, the first annular boss 5 and the second annular boss 6 and arranges successively to the direction of the second end cap 4 along the first end cap 3; Be provided with the 3rd boss 7 at the inwall of valve body 2.On on the wall of valve body 1, be provided with oil inlet P, the first actuator port A and the second actuator port B.On the first end cap 3, be provided with the first circular groove 8, the first radial passage 12 and the first oil return inlet T ₁, and be provided with 10, the first holes 10, the first hole in the inner side of the first end cap 3 be blind hole.On the second end cap 4, be provided with the second circular groove 9, the second radial passage 13 and the second oil return inlet T ₂, and be provided with 11, the second holes 11, the second hole in the inner side of the second end cap 4 be blind hole.The first circular groove 8 is communicated with the first radial passage 12, and the second circular groove 9 is communicated with the second radial passage 13; The first radial passage 12 and the first oil return inlet T ₁be communicated with the second radial passage 13 and the second oil return inlet T ₂be communicated with.

As shown in Figure 1, in the first radial passage 12, first throttle needle-valve 14 is installed, in the first oil return inlet T ₁and form restriction between first throttle needle-valve 14, in the time that oil inlet P is communicated with the second actuator port B, by adjusting first throttle needle-valve 14 in the first 12Zhong position, radial passage, can change first throttle needle-valve 14 and the first oil return inlet T ₁between the aperture of restriction that forms, thereby regulate the back pressure of oil circuit.Second section stream needle-valve 15 is housed in the second radial passage 13, in the second oil return inlet T ₂with second form restriction between Throttle needle valve 15, in the time that oil inlet P is communicated with the first actuator port A, by adjusting the second Throttle needle valve 15 in the first 13Zhong position, radial passage, can change the second Throttle needle valve 15 and the second oil return inlet T ₂between the aperture of restriction that forms, thereby regulate the back pressure of oil circuit.

While using the utility model automatic reverse guiding valve, as shown in Figure 3 and Figure 4, by the left actuator port H of the first actuator port A of the utility model automatic reverse guiding valve and oil hydraulic cylinder ₁be communicated with the right actuator port H of the second actuator port B and oil hydraulic cylinder ₂be communicated with.

In the utility model automatic reverse guiding valve working procedure, when the pressure of the second actuator port (B) p ₂ while meeting formula (1), spool 1 moves to the direction at the first end cap 3 places along the axial passage of valve body 2.

（1）

In formula (1), p ₁ be the pressure of the first actuator port, p ₂ be the pressure of the second actuator port, d ₁for the diameter of spool, d ₂ be the external diameter of the first annular boss and the second annular boss, the external diameter of the first annular boss and the second annular boss equates.

In the time that spool 1 moves to the second annular boss 6 and contacts with the 3rd annular boss 7, oil inlet P is not all communicated with the first actuator port A and the second actuator port B, the first actuator port A and the first oil return inlet T ₁be not communicated with and the second actuator port B and the second oil return inlet T ₂be not communicated with; Spool continues to move and be inserted in the first hole 10 to the direction at the first end cap 3 places, and in the time that oil inlet P is communicated with the first actuator port A, the second actuator port B is while and the second oil return inlet T also ₂be communicated with (as shown in Figure 3).

The hydraulic oil that oil hydraulic pump provides from oil inlet P via the first actuator port A of the utility model reversing slide valve, the left actuator port H of oil hydraulic cylinder ₁enter the left chamber of oil hydraulic cylinder with the first spacing hole 17 of oil hydraulic cylinder, now, the cylinder barrel 16 of oil hydraulic cylinder is to left movement, and the hydraulic oil in the right chamber of oil hydraulic cylinder flows out from the second spacing hole 18 of oil hydraulic cylinder, through the right actuator port H of oil hydraulic cylinder ₂, the second actuator port B of the utility model reversing slide valve, the second oil return inlet T ₂flow back to fuel tank.Due to the second Throttle needle valve 15 and the second oil return inlet T ₂between the restriction that forms make oil circuit produce back pressure, make keeping oil inlet P to be communicated with the first actuator port A and the second actuator port B and the second oil return inlet T ₂under the state being communicated with, spool 1 can be inserted into the bottom in the first hole 10, makes spool stop motion.

In the time that the cylinder barrel 16 of oil hydraulic cylinder moves to the second spacing hole 18 left and covered completely by the right end cap 20 of oil hydraulic cylinder, the right chamber of oil hydraulic cylinder is sealed completely, cylinder barrel 16 stop motions of oil hydraulic cylinder.Now oil hydraulic pump continues fuel feeding, and the pressure of the first actuator port A raises, when the pressure of the first actuator port A p ₁ while meeting formula (2), spool 1 moves to the direction at the second end cap 4 places along the axial passage of valve body 2.

（2）

In formula (2), p ₁ be the pressure of the first actuator port, p ₂ be the pressure of the second actuator port, d ₁for the diameter of spool, d ₂ be the external diameter of the first annular boss and the second annular boss, the external diameter of the first annular boss and the second annular boss equates.

When spool 1 moves until the first annular boss 5 while contacting with the 3rd annular boss 7, oil inlet P is not communicated with the first actuator port A and oil inlet P is not communicated with the second actuator port B, the first actuator port A and the first oil return inlet T ₁be not communicated with and the second actuator port B and the second oil return inlet T ₂be not communicated with, now the threshold state (as shown in Figure 1) of the utility model reversing slide valve in commutation.Spool 1 continues to move and be inserted into the second hole 11 to the direction at the second end cap 4 places, when oil inlet P is communicated with the second actuator port B, and the first actuator port A and the first oil return inlet T ₁when connection, the utility model reversing slide valve completes commutation work.

As shown in Figure 4, be inserted at spool 1 behind the second hole 11 of the second end cap 4, in the time that oil inlet P is communicated with the second actuator port B, the first actuator port A also with the first oil return inlet T ₁be communicated with.Now, the hydraulic oil that oil hydraulic pump provides enters the utility model reversing slide valve from oil inlet P, through the right actuator port H of the second actuator port B, oil hydraulic cylinder ₂enter the right chamber of oil hydraulic cylinder with the second spacing hole 18, now, the cylinder barrel 16 of oil hydraulic cylinder moves from left to right, and the hydraulic oil in the left chamber of oil hydraulic cylinder flows out from the first spacing hole 17, through the left actuator port H of oil hydraulic cylinder ₁, the utility model reversing slide valve the first actuator port A from the first oil return inlet T ₁flow back to fuel tank.Due to first throttle needle-valve 14 and the first oil return inlet T ₁between the restriction that forms make oil circuit produce back pressure, make keeping oil inlet P to be communicated with the second actuator port B and the first actuator port A and the second oil return inlet T ₁under the state being communicated with, spool 1 can be inserted into the bottom in the second hole 11, makes spool stop motion.

In the time that Barrel of Hydraulic Cylinders 16 moves right the first spacing hole 17 and covered completely by the left end cap 19 of oil hydraulic cylinder, the left chamber of oil hydraulic cylinder is sealed completely, cylinder barrel 16 stop motions of oil hydraulic cylinder.Now oil hydraulic pump continues fuel feeding, and the pressure of the second actuator port B raises, when the pressure of the second actuator port B p ₂ while meeting formula (1), spool 1 moves to the direction at the first end cap 3 places along the axial passage of valve body 2.

（1）

In formula (1), p ₁ be the pressure of the first actuator port, p ₂ be the pressure of the second actuator port, d ₁for the diameter of spool, d ₂ be the external diameter of the first annular boss and the second annular boss, the external diameter of the first annular boss and the second annular boss equates.

When moving valve core 1, until the second annular boss 6 while contacting with the 3rd annular boss 7, oil inlet P is not communicated with the first actuator port A and oil inlet P is not communicated with the second actuator port B, the first actuator port A and the first oil return inlet T ₁be not communicated with and the second actuator port B and the second oil return inlet T ₂be not communicated with, now the threshold state (as shown in Figure 1) of the utility model reversing slide valve in commutation.In the time that spool 1 continues move and be inserted into the first hole 10 to the direction at the first end cap 3 places, oil inlet P is communicated with the first actuator port A, and the second actuator port B and the first oil return inlet T ₂be communicated with, reversing slide valve completes commutation work, and now the working state of reversing slide valve as shown in Figure 3.

As fully visible, the utility model reversing slide valve can drive the continuous to-and-fro motion of oil hydraulic cylinder.In commutation process, utilize the pressure reduction of the pressure initiation at spool 1 left and right two ends to replace electromagnetic actuator device to drive spool to move left and right, realize the continuous commutation of working oil path, thereby drive the continuous to-and-fro motion of oil hydraulic cylinder.

It should be noted that, if the first radial passage 12 adopts and is threaded with first throttle needle-valve 14, the second radial passage 13 adopts and is threaded with the second Throttle needle valve 15, can carry out manual tune to the back pressure of oil circuit.

The content of this specification embodiment statement is enumerating of the way of realization to model utility design just; protection domain of the present utility model should not be regarded as being confined to above embodiment, conceives and should be involved in those skilled in the art the equivalent technologies mode that can think deeply according to the utility model.

Claims (2)

1. an automatic reverse guiding valve, is characterized in that: comprise valve body (2), spool (1), the first end cap (3) and the second end cap (4); Spool (1) is positioned at valve body (2), on the outer wall of spool, be provided with the first annular boss (5) and the second annular boss (6), the first annular boss (5) and the second annular boss (6) are arranged to the direction of the second end cap (4) successively along the first end cap (3); Be provided with the 3rd annular boss (7) at the inwall of valve body (2), the wall of valve body (2) is provided with filler opening (P), the first actuator port (A) and the second actuator port (B); Be provided with the first hole (10) in the inner side of the first end cap (3), the inner side of the second end cap (4) is provided with the second hole (11); Be provided with the first radial passage (12) at the first end cap (3), first throttle needle-valve (14) is installed in the first radial passage (12), first end is covered with the first return opening (T being communicated with the first radial passage (12) ₁), and at the first return opening (T ₁) and first throttle needle-valve (14) between form restriction, the second end cap (4) is provided with the second radial passage (13), the second Throttle needle valve (15) is installed in the second radial passage (13), and the second end cap is provided with the second return opening (T being communicated with the second radial passage (13) ₂), and at the second return opening (T ₂) and the second Throttle needle valve (15) between form restriction; The first end cap (3) is provided with the first circular groove (8) being communicated with the first radial passage (12), and the second end cap (4) is provided with the second circular groove (9) being communicated with the second radial passage (13);

When the pressure P of the second actuator port (B) ₂while meeting formula (1), spool moves to the direction at the first end cap (3) place along the axial passage of valve body (2), in the time that spool moves to the second annular boss (6) and contacts with the 3rd annular boss (7), filler opening (P) is not all communicated with the first actuator port (A) and the second actuator port (B), the first actuator port (A) and the first return opening (T ₁) be not communicated with and the second actuator port (B) and the second return opening (T ₂) be not communicated with; In the time that spool continues to move and be inserted into the first hole (10) to the direction at the first end cap (3) place, filler opening (P) can be communicated with the first actuator port (A), and the second actuator port (B) and the second return opening (T ₂) be communicated with;

When the pressure P of the first actuator port (A) ₁while meeting formula (2), spool moves to the direction at the second end cap (4) place along the axial passage of valve body (2), in the time that spool moves to the first annular boss (5) and contacts with the 3rd annular boss (7), filler opening (P) is not all communicated with the first actuator port (A) and the second actuator port (B), the first actuator port (A) and the first return opening (T ₁) be not communicated with and the second actuator port (B) and the second return opening (T ₂) be not communicated with; In the time that spool continues to move and be inserted into the second hole (11) to the direction at the second end cap (4) place, filler opening (P) can be communicated with the second actuator port (B), and the first actuator port (A) and the first return opening (T ₁) be communicated with;

（1）

（2）

In above-mentioned formula, P ₁be the pressure of the first actuator port, P ₂be the pressure of the second actuator port, d ₁for the diameter of spool, d ₂be the external diameter of the first annular boss and the second annular boss, the external diameter of the first annular boss and the second annular boss equates.

2. automatic reverse guiding valve according to claim 1, is characterized in that: the first radial passage (12) adopt and are threaded with first throttle needle-valve (14), and the second radial passage (13) adopt and are threaded with the second Throttle needle valve (15).

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