CN201711035U - Filtering station for backward washing emulsion and hydraulic control reversing valve thereof - Google Patents

Abstract

The utility model discloses a filtering station for backward washing emulsion and a hydraulic control reversing valve thereof. The hydraulic control reversing valve comprises a valve body, a valve core, a control piston and a push rod, wherein a valve cavity is formed in the valve body, and the valve core is matched with the valve cavity in a sliding way, so that the valve core slides along the axes direction of the valve body; the control piston is matched with a control hydraulic cavity on the valve body in a sliding way; the control hydraulic cavity is divided into a first control hydraulic cavity and a second control hydraulic cavity; the first control hydraulic cavity is communicated with a control hydraulic opening of the valve body; the push rod which is arranged between the control piston and the valve core is extended along the axes direction of the valve body; and the push rod pushes the valve core to slide when the control piston slides relative to the valve body. The hydraulic control reversing valve has higher reliability, can meet the use requirement of the filtering station for backward washing the emulsion, is simple in structure and lower in manufacture cost, further can simplify a hydraulic route of the filtering station for backward washing the emulsion, reduces fault points, and is convenient to maintain the filtering station for backward washing the emulsion.

Description

Emulsion backwash filter station and pilot operated directional control valve thereof

Technical field

The utility model relates to a kind of hydraulic pressure of the colliery equipment and technology, relates in particular to emulsion backwash filter station and pilot operated directional control valve thereof that a kind of hydraulic pressure of the colliery equipment is used.

Background technology

Hydraulic support is one of very general hydraulic pressure of the colliery equipment of the application of coal in China industry.Hydraulic support is a medium with the emulsion generally, and controls by electrohydraulic control system.Along with productivity ratio, the security requirement of coal industry improves constantly, electrohydraulic control system is also had higher requirement.In order to satisfy to the electrohydraulic control system requirement, emulsion backwash filter station is set at present usually, utilize emulsion backwash filter station that emulsion is washed, to improve the cleannes of emulsion, improve the reliability of electrohydraulic control system.

Current, the structure of emulsion backwash filter station is very complicated, and for satisfying the control needs, the control section of emulsion backwash filter station comprises combination valve, and this combination valve is made up of a plurality of hydraulic control valves.Though combination valve can realize controlling the purpose on emulsion backwash filter station liquid road, but also make the control procedure of emulsion backwash filter station very complicated, this has not only reduced the reliability of emulsion backwash filter station, also increases manufacturing, the operation and maintenance cost of emulsion backwash filter station.Therefore, how to simplify the liquid line structure of emulsion backwash filter station, make things convenient for the control of emulsion backwash filter station to become the technical barrier that the art technology people need solve.

In addition, in the common hydraulic system, reversal valve generally comprises valve body and spool, spool is slidably mounted in the interior valve pocket of valve body, spool can slide in the valve pocket of valve body, and in different positions corresponding working connection hydraulic port is communicated with, and realizes the conversion of hydraulic oil oil circuit.Along with improving constantly of HYDRAULIC CONTROL SYSTEM automation and security requirement, the pilot operated directional control valve by guide's oil circuit control is by extensively in being applied in various hydraulic systems.

The operation principle of pilot operated directional control valve is: the control sap cavity is set between spool end and valve body, the control liquid mouth that is connected with the control sap cavity is set on valve body; By pilot-actuated valve the hydraulic fluid pressure of control liquid mouth is controlled, and then regulated the pressure of hydraulic oil in the control sap cavity, spool is slided to predetermined direction under the hydraulic oil effect of control sap cavity, realize control the pilot operated directional control valve state.

Current, though pilot operated directional control valve can realize changing the purpose of hydraulic circuit, have the following disadvantages:

The first, control liquid mouth causes its reliability to reduce to the direct effect of spool.

The second, the hydraulic port of working connection is a radial direction, and in reversal valve, the hydraulic port of working connection communicates by the path that is provided with on the spool; This structure makes the hydraulic oil resistance increase, and not only causes the hydraulic system operating lag, also causes hydraulic fluid temperature to raise and speeds up.

Therefore, the deficiency of existing pilot operated directional control valve existence makes hydraulic system be difficult to satisfy the needs of control emulsion backwash filter station.

The utility model content

For this reason, first purpose of the present utility model is, provides a kind of reliability higher hydraulic control hydraulic valve, and this pilot operated directional control valve can be applied in the emulsion backwash filter station, to simplify the liquid line structure of emulsion backwash filter station, make things convenient for the control of emulsion backwash filter station.

Providing on the basis of above-mentioned pilot operated directional control valve, second purpose of the present utility model is, a kind of emulsion backwash filter station that comprises above-mentioned pilot operated directional control valve is provided.

In order to realize above-mentioned first purpose, the pilot operated directional control valve of the emulsion backwash filter station that the utility model provides comprises valve body and spool, form valve pocket in the described valve body, described spool slidably cooperates with valve pocket, so that described spool slides on the valve axis direction, described valve body is provided with the working solution mouth, also comprises control piston and catch bar, and described valve body also forms the control sap cavity; Described control piston slidably cooperates with the control sap cavity, and will control sap cavity and be divided into the first control sap cavity and the second control sap cavity, and described first controls sap cavity communicates with the control liquid mouth of valve body; Described catch bar and extends in described valve axis direction between control piston and spool; When control piston slided with respect to valve body, control piston promoted spool by described catch bar and slides.

Optionally, described catch bar one end or fix with control piston, or fix with spool; Perhaps two ends are fixed with control piston and spool respectively.

Preferably, described valve body also has central dividing plate, and described central dividing plate is between control sap cavity and valve pocket, and described catch bar slidably cooperates with promotion closed hole on the central dividing plate.

Preferably, also be supported with the control back-moving spring between described control piston and the central dividing plate.

Optionally, described valve pocket comprises the work sap cavity and is positioned at the first through-flow chamber of work sap cavity one end, between the described work sap cavity and the first through-flow chamber first seal receptacle is set; The described first through-flow chamber communicates with first hydraulic port of valve body, and described work sap cavity communicates with the working solution mouth; Described spool slidably cooperates with the work sap cavity, when an end of described spool matches with first seal receptacle, cuts off the work sap cavity and the first through-flow chamber.

Optionally, described valve pocket comprises the second through-flow chamber that is positioned at the work sap cavity other end, between the described work sap cavity and the second through-flow chamber second seal receptacle is set, and described catch bar passes the second through-flow chamber and promotes the spool slip; The described second through-flow chamber communicates with valve body second hydraulic port; When one end of described spool matched with first seal receptacle, the work sap cavity communicated with the second through-flow chamber, when the other end of described spool matches with second seal receptacle, cut off the work sap cavity and the second through-flow chamber, and the work sap cavity communicates with the first through-flow chamber.

Preferably, also comprise Flexible Reset, described Flexible Reset is bearing on the inwall in the end of spool and the first through-flow chamber.

Optionally, described working solution mouth comprises first hole and second hole that communicates with work sap cavity end positions respectively.

Preferably, described spool two ends are the conical surface, and the face that described first seal receptacle and second seal receptacle match with spool is respectively the conical surface.

In order to realize above-mentioned second purpose, the emulsion backwash filter station that the utility model provides comprises that main fluid path and guide control the liquid road, also comprise above-mentioned any pilot operated directional control valve, described guide controls the liquid road and links to each other with control liquid mouth, and described main fluid path links to each other with the working solution mouth.

Compared with prior art, in the pilot operated directional control valve that the utility model provides, except that comprising valve body and spool, in valve body, also formed independent control sap cavity, also be provided with control piston in the control sap cavity, control piston will be controlled sap cavity and be divided into the first control sap cavity and the second control sap cavity.Promote spool by control piston and catch bar and in valve pocket, slide, realize the state conversion of pilot operated directional control valve, reach control the emulsion flow direction.Because the working solution in the control sap cavity does not directly contact with spool, thereby can avoid of the harmful effect of main fluid path working solution, and then can improve the reliability of pilot operated directional control valve, satisfy the control requirement of emulsion backwash filter station working solution in the control sap cavity.Compare with the combination valve in the prior art emulsion backwash filter station, this pilot operated directional control valve can also be simplified the liquid line structure of emulsion backwash filter station, the operation that makes things convenient for emulsion backwash filter station, maintenance, reduces the manufacturing cost and use cost of emulsion backwash filter station; Simultaneously, with the control of a pilot operated directional control valve realization to emulsion backwash filter station, the maintenance to emulsion backwash filter station is convenient in the trouble point that can reduce emulsion backwash filter station.

In further technical scheme, also has central dividing plate between described control sap cavity and the valve pocket, catch bar is slidably cooperated with central dividing plate, can isolate valve pocket and control sap cavity like this, avoid the working solution of main fluid path to act on the control piston, and then can reduce to drive control piston slip necessary forces, use the control working solution of lower pressure just can driven plunger to slide, adjust spool position, realize control main fluid path working solution flow direction.

In further technical scheme, also be supported with the control back-moving spring between described control piston and the central dividing plate.When control liquid mouth was connected with low pressure line, in the pilot operated directional control valve that this technical scheme provides, control piston can be under the control action of reset spring, self-return, thus can facilitate for the control of pilot operated directional control valve.

In further technical scheme, valve pocket comprises the work sap cavity and is positioned at the first through-flow chamber of work sap cavity one end.The first through-flow chamber is positioned at spool one end, and the pressure that the first through-flow chamber produces acts on the end face of spool.Different with the reversal valve in the existing common hydraulic system, the pressure that the first through-flow chamber produces acts on the end face of spool, can reduce the flow resistance of main fluid path on the one hand, improves the passage section of main fluid path; On the other hand, when working fluid pressure is higher in the first through-flow chamber, can utilizes working solution directly to promote spool and slide, accelerate the response speed of pilot operated directional control valve, satisfy the requirement of control emulsion backwash filter station working solution backwash.Equally, at the work sap cavity other end the second through-flow chamber is set and also can produces identical effect.

In further technical scheme, between the inwall in the end of spool and the first through-flow chamber, Flexible Reset is set; Can make pilot operated directional control valve like this when normality, keep predetermined state, convenient control emulsion backwash filter station.

Providing on the basis of above-mentioned pilot operated directional control valve, the emulsion backwash filter station that comprises this pilot operated directional control valve that provides also can produce corresponding technique effect.

Description of drawings

The valve body sectional structure schematic diagram of the pilot operated directional control valve that Fig. 1 provides for the utility model embodiment one;

The sectional structure schematic diagram of the pilot operated directional control valve that Fig. 2 provides for the utility model embodiment one, this figure shows a kind of state of pilot operated directional control valve simultaneously;

Fig. 3 is the structural representation of the another kind of state of the pilot operated directional control valve that provides of the utility model embodiment one;

Fig. 4 is the structural representation of the pilot operated directional control valve that provides of another embodiment of the utility model.

Among the figure: screw plug 1, control piston 21, catch bar 22, control back-moving spring 3, intermediate sleeve 4, central dividing plate 41, promotion closed hole 411, second seal receptacle 6, valve pocket 7, spool 8, first seal receptacle 9, back-moving spring 10, gland 11;

Control sap cavity 100, the first control sap cavity 110, the second control sap cavity 120, valve pocket 200, the first through-flow chamber 210, work sap cavity 220 and the second through-flow chamber 230;

Control liquid mouth K, working solution mouth A, the first hydraulic port P, the second hydraulic port T.

The specific embodiment

Below in conjunction with drawings and Examples the technical scheme that the utility model provides is further specified.

Please refer to Fig. 1, the valve body structure schematic diagram of the pilot operated directional control valve that Fig. 1 the utility model embodiment one provides.

In this example, valve body forms a core structure on the whole, and valve axis is O-O; For the ease of machined, valve body comprises four parts, and utilizes jackscrew that each several part is connected and fixed.As shown in the figure, valve body comprises screw plug 1, intermediate sleeve 4, valve pocket 7 and the gland 11 that order links to each other.With Fig. 1 is reference, and screw plug 1 right-hand member links to each other with the left end of intermediate sleeve 4, forms control sap cavity 100 between the central dividing plate 41 of intermediate sleeve 4 and the screw plug 1; Screw plug 1 is provided with and controls the control liquid mouth K that sap cavity 100 is connected, and central dividing plate 41 is provided with and promotes closed hole 411.

Valve pocket 7 two ends link to each other with the right-hand member of intermediate sleeve 4 and the left end of gland 11 respectively, and form valve pocket 200.Gland 11 is provided with first seal receptacle 9 with the junction of valve pocket 7, and the junction of intermediate sleeve 4 and valve pocket 7 is provided with second seal receptacle, 6, the first seal receptacles 9 and second seal receptacle 6 is divided into the first through-flow chamber 210, work sap cavity 220 and the second through-flow chamber 230 with valve pocket 200.Intermediate sleeve 4 circumferentially is provided with the second hydraulic port T that communicates with the second through-flow chamber 230; Gland 11 is provided with the first hydraulic port P that communicates with the first through-flow chamber 210, and the first hydraulic port P is located at gland 11 right sides; Part near valve pocket 7 right-hand members is provided with a plurality of first holes, part near left end is provided with a plurality of second holes, and first hole and second hole form working solution mouth A, in order to reduce the working solution resistance, when radially extend from outside to inside in first hole and second hole, tilt to direction of both ends.

It will be understood by those skilled in the art that and to form valve body according to the needs of reality processing by other concrete structures.In this example, screw plug 1 periphery is provided with screw thread, and screw thread is positioned at the right side of control liquid mouth, like this can be valve body is fixing in position by the screw thread of screw plug 1 periphery, and control liquid mouth K is communicated with guide's working solution road or other the suitable back work liquid roads be scheduled to.

Please refer to Fig. 2, this figure is the sectional structure schematic diagram of the pilot operated directional control valve that provides of the utility model embodiment one, and this figure shows a kind of state of pilot operated directional control valve simultaneously.

This pilot operated directional control valve comprises the valve body shown in Fig. 1, also comprises control piston 21, catch bar 22 and spool 8.

Control piston 21 is positioned at control sap cavity 100, and slidably cooperates with control sap cavity 100, and control piston 21 can be slided on valve axis O-O direction; Simultaneously, control piston 21 will be controlled sap cavity 100 and be divided into the first control sap cavity 110 and the second control sap cavity 120, and wherein, the first control sap cavity 110 keeps communicating with control liquid mouth K; Optionally in the technical scheme, the second control sap cavity 120 is partly linked to each other with the low-pressure end on working solution road or the storage of working solution, when avoiding control piston 21 to slide, the second control sap cavity, 120 internal pressures are excessive or form vacuum, make things convenient for the slip of control piston 21.With Fig. 2 is reference, and catch bar 22 left ends and control piston 21 are fixing, and the promotion closed hole 411 that right-hand member passes central dividing plate 41 stretches in the second through-flow chamber 230; Simultaneously, catch bar 22 slidably cooperates with the promotion closed hole 411 of central dividing plate 41, keeps the sealing between the second through-flow chamber 230 and the control sap cavity 100.At particular case, when enough high, also central dividing plate 41 can be saved, with simplified structure as control sap cavity 100 inner control working fluid pressures.

Spool 8 slidably cooperates with work sap cavity 220, and can slide between work sap cavity 220 two ends, when sliding into end positions, can also match with first seal receptacle 9 and second seal receptacle 6 respectively; In order to keep the sealing of spool 8 and corresponding seal receptacle, and make the spool 8 can automatic centering, in this example, first seal receptacle 9 and second seal receptacle 6 are respectively the conical surface with the face that spool 8 matches, and be corresponding, and spool 8 two ends also are the conical surface.It is corresponding with the left end of spool 8 that catch bar 22 right-hand members pass the second through-flow chamber 230.

The operation principle of above-mentioned pilot operated directional control valve is:

As shown in Figure 2, lower in control sap cavity 100 internal pressures, the first hydraulic port P links to each other with the high-pressure side of main fluid path, when the second hydraulic port T links to each other with the low-pressure end of main fluid path, spool 8 is moved to the left under the first through-flow chamber 210 working fluid pressure effects, and spool 8 promotes control piston 21 by catch bar 22 and is moved to the left; Until the left end of spool 8 matches with second seal receptacle 6, at this moment, spool 8 left ends and second seal receptacle 6 cooperate path between partition work the sap cavity 220 and second through-flow chamber 230, the first through-flow chamber 210 is communicated with the right-hand member maintenance of the sap cavity 220 of working; Shown in arrow among the figure, the working solution of main fluid path flows out from working solution mouth A by first hole on the first hydraulic port P, the first through-flow chamber 220 and right side.

As shown in Figure 3, this figure is the structural representation of the another kind of state of the pilot operated directional control valve that provides of the utility model embodiment one.When the pressure in first chamber 110 of control sap cavity 100 is higher than predetermined value, working solution in the control sap cavity 100 applies active force to control piston 21, control piston 21 and catch bar 22 are moved right, when catch bar 22 contacts with spool 8 end faces, overcome the pressure effect of working solution in the first through-flow chamber 210, spool 8 is moved right; Match with first seal receptacle 9 up to spool 8 right-hand members, at this moment, the path between matching relationship partition work the sap cavity 220 and second through-flow chamber 230, the second through-flow chamber 230 keeps being communicated with work sap cavity 220; Shown in arrow among the figure, the working solution in the equipment refluxes by working solution mouth A, work sap cavity 220 and the second through-flow chamber 230.

In the present embodiment, promote spool 8 by the control piston in the control sap cavity 100 21 and slide, realize the conversion of pilot operated directional control valve state, reach control the working solution flow direction at work sap cavity 220.Because the working solution in the control sap cavity 100 does not directly contact with spool 8, thereby can avoid of the harmful effect of main fluid path working solution to working solution in the control sap cavity 100, can improve the reliability of pilot operated directional control valve, satisfy the control requirement of emulsion backwash filter station.Compare with combination valve in the prior art emulsion backwash filter station, this pilot operated directional control valve can also be simplified the liquid line structure of emulsion backwash filter station, the operation that makes things convenient for emulsion backwash filter station, maintenance, reduces the manufacturing cost and use cost of emulsion backwash filter station; Simultaneously, with the control of a pilot operated directional control valve realization to emulsion backwash filter station, the maintenance of emulsion backwash filter station is convenient in the trouble point that can reduce emulsion backwash filter station.

Slide arbitrarily in work sap cavity 220 for fear of spool 8, in this example, also be provided with Flexible Reset 10, Flexible Reset 10 is bearing between the inwall in the right-hand member of spool 8 and the first through-flow chamber 210, in the motive force of active force that is not subjected to catch bar 22 or catch bar 22 hour, spool 8 remains on the left end of work sap cavity 220; When the first hydraulic port P was connected with the high-pressure side of main fluid path, this pilot operated directional control valve formed normally open valve.Art technology people is appreciated that Flexible Reset 10 is bearing between the inwall in the left end of spool 8 and the second through-flow chamber 230 that at this moment, when the first hydraulic port P pressure was low, spool 8 remained on the right-hand member of work sap cavity 220.

Equally, be free to slide in control sap cavity 100 for fear of control piston 21, also be supported with control back-moving spring 3 between control piston 21 and central dividing plate 41, control back-moving spring 3 can make control piston 21 remain on the left end of control sap cavity 110.

According to foregoing description, it will be understood by those skilled in the art that also the structure that valve pocket 200 and spool 8 can be set to common slide valve in the prior art; At this moment, be provided with control sap cavity 100 and control piston 21, and making control piston 21 can promote also can realize the purpose of this utility model under the situation that spool 8 slides.According to the actual needs of emulsion backwash filter station, can also be arranged on work sap cavity one end through-flow chamber is set, at this moment, this pilot operated directional control valve forms the 2/2-way valve, also can realize controlling working solution road break-make, and then the mobile purpose of control working solution.

Catch bar 22 also is not limited to control piston 21 fixing, also can fix with spool.As shown in Figure 4, this figure is the structural representation of the pilot operated directional control valve that provides of another embodiment of the utility model.Be that with the difference of embodiment one catch bar 22 right-hand members and spool 8 are fixing, left end is relative with control piston 21, and at this moment, catch bar 22 can transmit motive force equally, when control piston 21 slides to the right, can promote spool 8 by catch bar 22 and slide to the right; When spool 8 is moved to the left, can promotes control piston 21 by catch bar 22 and slide left; In addition, also can make catch bar 22 two ends fixing with control piston 21 and spool 8 respectively, spool 8 and control piston 21 are slided synchronously; Can also make catch bar 22 be floating structure, between the left end that promptly floats on spool 8 and the right-hand member of control piston 21, and extend, also can transmit motive force, the realization the purpose of this utility model in valve axis O-O direction.

Providing on the basis of above-mentioned pilot operated directional control valve, also provide and planted the emulsion backwash filter station that comprises above-mentioned pilot operated directional control valve, this emulsion backwash filter station comprises that main fluid path and guide control the liquid road, the guide controls the liquid road and links to each other with pilot operated directional control valve control liquid mouth K, and main fluid path links to each other with the second hydraulic port T with working solution mouth A, the first hydraulic port P.Because pilot operated directional control valve has above-mentioned technique effect, comprises that the emulsion backwash filter station of this pilot operated directional control valve also has corresponding technique effect.

The above only is a preferred implementation of the present utility model; should be pointed out that for those skilled in the art, under the principle prerequisite that does not break away from the utility model description; can also make some improvements and modifications; such as, in order to keep sealing property, can corresponding sealing ring be set in the position that is sealed and matched; control piston 21 can comprise piston rod; also can not comprise piston rod, or the like, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (10)

1. the pilot operated directional control valve of an emulsion backwash filter station, comprise valve body and spool, form valve pocket in the described valve body, described spool slidably cooperates with valve pocket, so that described spool slides on the valve axis direction, described valve body is provided with the working solution mouth, it is characterized in that, also comprise control piston and catch bar, described valve body also forms the control sap cavity; Described control piston slidably cooperates with the control sap cavity, and will control sap cavity and be divided into the first control sap cavity and the second control sap cavity, and described first controls sap cavity communicates with the control liquid mouth of valve body; Described catch bar and extends in described valve axis direction between control piston and spool; When control piston slided with respect to valve body, control piston promoted spool by described catch bar and slides.

2. the pilot operated directional control valve of emulsion backwash filter station according to claim 1 is characterized in that, described catch bar one end or fix with control piston, or fix with spool; Perhaps two ends are fixed with control piston and spool respectively.

3. the pilot operated directional control valve of emulsion backwash filter station according to claim 1, it is characterized in that, described valve body also has central dividing plate, and described central dividing plate is between control sap cavity and valve pocket, and described catch bar slidably cooperates with promotion closed hole on the central dividing plate.

4. the pilot operated directional control valve of emulsion backwash filter station according to claim 3 is characterized in that, also is supported with the control back-moving spring between described control piston and the central dividing plate.

5. according to the pilot operated directional control valve of each described emulsion backwash filter station of claim 1-4, it is characterized in that, described valve pocket comprises the work sap cavity and is positioned at the first through-flow chamber of work sap cavity one end, between the described work sap cavity and the first through-flow chamber first seal receptacle is set; The described first through-flow chamber communicates with first hydraulic port of valve body, and described work sap cavity communicates with the working solution mouth; Described spool slidably cooperates with the work sap cavity, when an end of described spool cooperates with first seal receptacle, cuts off the work sap cavity and the first through-flow chamber.

6. the pilot operated directional control valve of emulsion backwash filter station according to claim 5, it is characterized in that, described valve pocket comprises the second through-flow chamber that is positioned at the work sap cavity other end, between the described work sap cavity and the second through-flow chamber second seal receptacle is set, described catch bar passes the second through-flow chamber and promotes the spool slip; The described second through-flow chamber communicates with valve body second hydraulic port; When one end of described spool cooperated with first seal receptacle, the work sap cavity communicated with the second through-flow chamber, when the other end of described spool cooperates with second seal receptacle, cut off the work sap cavity and the second through-flow chamber, and the work sap cavity communicates with the first through-flow chamber.

7. the pilot operated directional control valve of emulsion backwash filter station according to claim 6 is characterized in that, also comprises Flexible Reset, and described Flexible Reset is bearing on the inwall in the end of spool and the first through-flow chamber.

8. the pilot operated directional control valve of emulsion backwash filter station according to claim 6 is characterized in that, described working solution mouth comprises first hole and second hole that communicates with work sap cavity end positions respectively.

9. the pilot operated directional control valve of emulsion backwash filter station according to claim 6 is characterized in that, described spool two ends are the conical surface, and the face that described first seal receptacle and second seal receptacle match with spool is respectively the conical surface.

10. an emulsion backwash filter station comprises that main fluid path and guide control the liquid road, it is characterized in that, also comprises each described pilot operated directional control valve of claim 1-9, and described guide controls the liquid road and links to each other with control liquid mouth, and described main fluid path links to each other with the working solution mouth.

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