CN204476449U - A kind of binary channels kilolitre level high flow directional control valve - Google Patents

Abstract

The utility model belongs to hydraulic pressure system of hydraulic support control reversal valve, is specifically related to a kind of binary channels kilolitre level high flow directional control valve, solves the problem that existing structure of reversing valve is not suitable for high pressure kilolitre level large discharge operating mode.Valve inner is provided with the bilaterally symmetric feed flow main channel to spool feed flow, and one end, bilateral feed flow main channel is connected by auxiliary flow and is connected with feed flow high-voltage tube, and valve inner arranges and is also provided with bilaterally symmetric back flow channel.Feed liquor spool left end is provided with hydro-cushion end face and hydraulic control end face, and valve body and liquid return valve jacket inside are also corresponding is provided with hydro-cushion oil circuit and hydraulic control oil circuit.The utility model overcomes the angular force that traditional reversal valve causes because flow field is asymmetric, avoids not card hysteresis phenomenon, wear phenomenon and the Problem of Failure that occur during kilolitre level high flow directional control valve return; Reduce the contact stress of spool and sealing surface of seat; Overcome the unstability of traditional cone valve; Reduce the pressure loss.

Description

A kind of binary channels kilolitre level high flow directional control valve

Technical field

The utility model belongs to hydraulic pressure system of hydraulic support control reversal valve, is specifically related to a kind of binary channels kilolitre level high flow directional control valve.

Background technology

At present, along with the increase of coal seam thickness, to the corresponding increase of the demand of high working face hydraulic support, oil cylinder increases thick, existing DN12 and DN20 reversal valve flow is less, and must bring the slow-moving problem of support, high-pressure high-flow hydraulic component becomes a developing direction thereupon.Current user market is strong to support kilolitre level reversal valve demand, but equal not this product both at home and abroad at present.The Problems existing of existing DN12 and DN20 reversal valve: 1, valve inner all adopts the one-sided feed flow of single channel.Shortcoming is: this structure can cause the asymmetric and pressure imbalance in valve core inside flow field, forces feed liquor spool to produce angular force.Low discharge valve core size is little, and angular force is also little, if but kilolitre level reversal valve still adopts this structure, and because spool size increases, angular force will significantly raise, and during spool commutation, frictional force increases.The phenomenon thereupon brought is exactly: spool hysteresis phenomenon, and namely spool return slowly or can not return; Spool and sealing part abrasion aggravation are accelerated.2, existing reversal valve valve seat all adopts high-strength engineering plastic, spool in off position time, hydraulic coupling and spring force by feed liquor spool tightly be pressed on valve seat, along with the increase of reversal valve flow, spool each several part size also can increase, and the axial compression of bearing feed liquor spool at identical system pressure lower valve base will significantly increase, and plastic seat intensity is difficult to meet the demands, sealing surface is deformation failure very easily, and metal valve seat surface sealing effectiveness is undesirable.3, feed liquor spool all adopts taper valve core.Taper valve core shortcoming is: operationally easily produce unstability, and the complexity due to in-flow cone valve hydraulic power makes this unstability can aggravate when kilolitre level large discharge.4, feed liquor spool and valve seat are linear sealing or small size conical surface seal.Shortcoming is: bearing area is little, if kilolitre level reversal valve still adopts this seal form, it bears hydraulic coupling too greatly, easily causes sealing pair to damage distortion.

For solving the problem, a kind of new structure reversal valve is proposed.

Summary of the invention

The utility model is not suitable for the problem of high pressure kilolitre level large discharge operating mode in order to solve existing structure of reversing valve, provide a kind of binary channels kilolitre level high flow directional control valve.

The utility model adopts following technical scheme to realize:

Binary channels kilolitre level high flow directional control valve, comprise valve body, valve pocket, spool, valve seat and return spring, valve inner is provided with the bilaterally symmetric feed flow main channel P to spool feed flow, one end, bilateral feed flow main channel is connected by auxiliary flow and is connected with feed flow high-voltage tube, valve inner arranges and is also provided with bilaterally symmetric back flow channel O, and bilateral back flow channel one end is communicated with by auxiliary flow.

Described valve pocket comprises feed liquor valve pocket and liquid return valve jacket, described spool comprises feed liquor spool and back fluid spool, feed liquor spool is inserted in liquid valve pocket, back fluid spool inserts in liquid return valve jacket, described valve seat is loaded between feed liquor valve pocket and liquid return valve jacket, described return spring is placed on feed liquor spool, and liquid feed valve puts the inlet having symmetry and is communicated with bilateral feed flow main channel respectively, liquid return valve jacket has symmetrical liquid return hole and is communicated with bilateral back flow channel respectively.

Feed liquor spool left end is divided into hydro-cushion part A ₁with hydraulic control part A ₂, the cylinder left side on feed liquor spool cylinder table rank is hydro-cushion part A ₁, the end face of periphery, feed liquor spool cylinder table rank is hydraulic control part A ₂, hydro-cushion part A ₁with hydraulic control part A ₂between sealed by seal, hydro-cushion part A ₁the space that the cylindrical groove face at face, liquid return valve jacket center and groove left side are enclosed forms hydro-cushion chamber, and hydro-cushion chamber connects feed flow main channel P, hydraulic control part A by balance oil circuit ₂the space that the inner cylinder face of face, back fluid spool, the external cylindrical surface of liquid return valve jacket annular projection and annular projection end face surround together forms hydraulic control chamber, and hydraulic control chamber is connected with pilot valve working hole by oil circuit control.

Feed liquor spool adopts vertical plane sealing.

For traditional single channel reversal valve, liquid stream enters annular region annular region (as Fig. 2) from single channel, due to the smooth effect of liquid stream streamline, major part liquid stream enters on the left of annular region, and the less flow velocity of liquid stream entered along right side is low, from hydromechanical Bernoulli equation, annular region right atrial pressure is higher than left pressure, spool face pressure distribution also presents asymmetric distribution thereupon, thus makes spool bear larger radial imbalance force, and simulation study also demonstrates this conclusion.Adopt the symmetrical feed liquor of binary channels, on the left of annular region, two strands of liquid streams meet, pressure increase, and right atrial pressure also rises, but due to the little speed of flow little, ascensional range is little, and such left and right sides pressure differential reduces, and spool radial imbalance force reduces.And the liquid level of crossing of binary channels and annular region amasss large, the pressure loss of valve is little.The utility model overcomes the angular force that traditional reversal valve causes because flow field is asymmetric, avoid not card hysteresis phenomenon and the wear phenomenon that occur during kilolitre level high flow directional control valve return, and the crossing liquid level of binary channels and annular region is long-pending large, reversal valve has the less pressure loss; The utility model arranges hydro-cushion chamber to spool control chamber end, and solve kilolitre level high flow directional control valve valve seat when closing and bear the problem of the large yielding inefficacy of axial force, described reversal valve can bear larger flow and pressure; Spool is guiding valve, overcomes the unstability of traditional cone valve, and the sealing means of spool and valve seat is flat seal, increases sealing contact surface and amasss, reduce the contact stress of sealing surface.System pressure routine is 31.5MPa, reversal valve opening pressure is designed to 10MPa-15MPa and is advisable, according to equilibrium principle, hydro-cushion part and hydraulic control area ratio should be designed to A ₁/ A ₂between=1.4 ~ 2.7.

The utility model hinge structure has following beneficial effect: negotiability is large, special applicable hydraulic support kilolitre level large-flow hydraulic system; Reversal valve is when resetting without hysteresis phenomenon, and flexible movements are reliable without not blocking; Start-stop performance is stablized, dead-beat; Solve kilolitre level high flow directional control valve valve seat due to the stressed Problem of Failure caused too greatly; Greatly, sealing contact stress is little, long service life for feed liquor spool and valve base sealing area; Overall suffered hydraulic power is little; Binary channels valve body, the area of passage making feed pathway crossing with annular region increases, and flow resistance reduces, and the pressure loss is low to moderate 4.5MPa, far below existing can not more than the standard of 7MPa, more energy-conservation.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model,

Fig. 2 is the B-B sectional drawing of Fig. 1,

In figure: 1, valve body, 2, feed liquor valve pocket, 3, valve seat, 4, back fluid spool, 5, liquid return valve jacket, 6, feed liquor spool, 7, return spring, 8, metal collar, 9, seal, 10, seal, 11, screw plug, 12, auxiliary flow, 13, annular region, 14, connect high tension terminal, 15 go to working end.

Detailed description of the invention

As Fig. 1, a kind of binary channels kilolitre level high flow directional control valve, comprises valve body 1, feed liquor valve pocket 2, valve seat 3, back fluid spool 4, liquid return valve jacket 5, feed liquor spool 6, return spring 7, metal collar 8, sealing ring 9,10, screw plug 11.Valve inner is provided with the bilaterally symmetric feed flow main channel P to spool feed flow, one end, bilateral feed flow main channel is connected by auxiliary flow and is connected with feed flow high-voltage tube, valve inner is also provided with bilaterally symmetric back flow channel O, and bilateral back flow channel one end is communicated with by auxiliary flow.Symmetric double passage, reduces spool radial imbalance force, solves the commutation braking problems of high flow directional control valve and deflection wear problem.

Described valve pocket comprises feed liquor valve pocket 2 and liquid return valve jacket 5, and described spool comprises feed liquor spool 6 and back fluid spool 4, and feed liquor spool 6 inserts in feed liquor valve pocket 2, and back fluid spool 4 inserts in liquid return valve jacket 5.Described valve seat 3 is loaded between feed liquor valve pocket 2 and liquid return valve jacket 5, described return spring 7 is placed on feed liquor spool 6, feed liquor valve pocket 2 has symmetrical inlet to be communicated with bilateral feed flow main channel respectively, liquid return valve jacket has symmetrical liquid return hole and be communicated with bilateral back flow channel respectively.

Balance oil circuit and control loop is provided with between valve body and liquid return valve jacket.Feed liquor spool 2 left end is provided with cylinder step, liquid return valve jacket central axial direction is provided with annular projection, feed liquor spool left end cylinder step insert liquid return valve jacket annular projection center cylindrical groove in, and have gap between liquid return valve jacket annular projection part external cylindrical surface and back fluid spool.Like this, feed liquor spool 6 left end is divided into hydro-cushion part A ₁with hydraulic control part A ₂, the cylinder left side of feed liquor spool 6 cylinder step is hydro-cushion part A ₁, the end face of feed liquor spool 6 cylinder step periphery is hydraulic control part A ₂, hydro-cushion part A ₁with hydraulic control part A ₂between sealed by seal 10, hydro-cushion part A ₁the space that the cylindrical groove face at face, liquid return valve jacket 5 center and groove left side are enclosed forms hydro-cushion chamber, and hydro-cushion chamber connects feed flow main channel P, hydraulic control part A by balance oil circuit ₂the space that the inner cylinder face of face, back fluid spool 4, the external cylindrical surface of liquid return valve jacket 5 annular projection and annular projection end face surround together forms hydraulic control chamber, and hydraulic control chamber is connected with pilot valve working hole by oil circuit control.

Specifically, be provided with auxiliary oil channel e, d in liquid return valve jacket 5 inside, in valve body 1, be provided with auxiliary oil channel a, b, c, and c and d relies on the guiding gutter in liquid return valve jacket 5 surface perimeter direction to realize being communicated with.Such auxiliary oil channel a, b, c, d, e just constitute balance oil circuit, the high pressure liquid of main liquid feeding channel P are passed through equilibrium oil pass to hydro-cushion part A ₁, such feed liquor spool 6 in off position time valve seat 3 bear feed liquor spool 6 pressure just reduce P × A ₁, sealing surface of seat contact stress significantly reduces.

Electromagnetic priority valve (not shown) is installed on above valve body as a conglomerate, the liquid return valve jacket 5 that liquid return valve jacket 5 is corresponding with the contact surface of back fluid spool 4 and valve body 1 have auxiliary oil way g and f, f and g forms oil circuit control, and oil circuit control is connected with pilot valve.Pilot valve work liquid outlet and the oil circuit control f on valve body rely on flat seal to realize being communicated with.When electromagnetic priority valve open start working time, pilot valve controls liquid and first promotes back fluid spool 4 through oil circuit control and move to right and close liquid return hole O, controls liquid and acts on hydraulic control part A ₂on area, when hydraulic control power rises to the opening pressure of feed liquor spool 6, feed liquor spool moves to right unlatching.

Valve seat polyetheretherketonematerials materials is processed, and has very high intensity, has again certain elasticity, has good sealing, and spool makes plane sealing type guiding valve, so just can ensure the flat seal mode of valve seat and feed liquor spool.When spool is not opened, feed liquor spool is tightly pressed in valve seat planes by spring force and hydraulic coupling, realizes flat seal, and contact area is large, and contact stress is little.Feed liquor spool adopts sliding valve structure, and vertical plane seals, and valve port hydraulic power is simple, and spool work is relatively stable.Reversal valve opens rear feed liquor direction diametrically, avoids the axial liquid powertrain components produced because liquid stream washes away the conical surface, axial liquid power is reduced.

Valve inner is provided with Bilateral Symmetry main channel P to spool feed flow, the screw plug shutoff of side, bilateral main channel, opposite side is connected by auxiliary flow, by the screw plug shutoff of auxiliary flow termination, valve body feed liquor high-pressure mouth is communicated with described auxiliary flow simultaneously, after feed liquor spool is opened, high pressure liquid stream flows into annular region along bilateral main channel symmetry, ensure that annular region Pressure Field along the circumferential direction distributes symmetrically and evenly, spool face hydraulic coupling is also along the circumferential direction uniformly distributed, and spool can not produce when return that hydraulic pressure does not block, hysteresis phenomenon and wear phenomenon.The setting of bilateral back flow channel O is consistent with the set-up mode of bilateral feed pathway.

Claims (5)

1. a binary channels kilolitre level high flow directional control valve, comprise valve body (1), valve pocket, spool, valve seat (3) and return spring (7), it is characterized in that valve inner is provided with the bilaterally symmetric feed flow main channel (P) to spool feed flow, one end, bilateral feed flow main channel is connected by auxiliary flow and is connected with feed flow high-voltage tube, valve inner is also provided with bilaterally symmetric back flow channel (O), and bilateral back flow channel one end is communicated with by auxiliary flow.

2. a kind of binary channels kilolitre level high flow directional control valve according to claim 1, it is characterized in that described valve pocket comprises feed liquor valve pocket (2) and liquid return valve jacket (5), described spool comprises feed liquor spool (6) and back fluid spool (4), feed liquor spool (6) inserts in feed liquor valve pocket (2), back fluid spool (4) inserts in liquid return valve jacket (5), described valve seat (3) is loaded between feed liquor valve pocket (2) and liquid return valve jacket (5), described return spring (7) is placed on feed liquor spool (6), feed liquor valve pocket (2) has symmetrical inlet to be communicated with bilateral feed flow main channel respectively, liquid return valve jacket has symmetrical liquid return hole to be communicated with bilateral back flow channel respectively.

3. a kind of binary channels kilolitre level high flow directional control valve according to claim 2, is characterized in that being provided with balance oil circuit and control loop between valve body (1) and liquid return valve jacket (5).

4. a kind of binary channels kilolitre level high flow directional control valve according to claim 3, it is characterized in that feed liquor spool (6) left end is provided with cylinder step, liquid return valve jacket (5) central axial direction is provided with annular projection, feed liquor spool (6) left end cylinder step inserts in the cylindrical groove at liquid return valve jacket (5) annular projection center, and have gap between the inner cylinder face of the external cylindrical surface of liquid return valve jacket (5) annular projection and back fluid spool (4) annular projection

Feed liquor spool (6) left end is divided into hydro-cushion part (A ₁) and hydraulic control part (A ₂), the cylinder left side of feed liquor spool (6) cylinder step is hydro-cushion part (A ₁), the end face of feed liquor spool (6) cylinder step periphery is hydraulic control part (A ₂), hydro-cushion part (A ₁) and hydraulic control part (A ₂) between sealed by seal (10), hydro-cushion part (A ₁) face, the cylindrical groove face at liquid return valve jacket (5) center and the groove left side space of enclosing forms hydro-cushion chamber, hydro-cushion chamber connects feed flow main channel (P), hydraulic control part (A by balance oil circuit ₂) space that surrounds together of face, the inner cylinder face of back fluid spool (4), the external cylindrical surface of liquid return valve jacket (5) annular projection and annular projection end face forms hydraulic control chamber, hydraulic control chamber is connected with pilot valve working hole by oil circuit control.

5. a kind of binary channels kilolitre level high flow directional control valve according to Claims 2 or 3 or 4, is characterized in that feed liquor spool adopts vertical plane sealing.