CN201891872U - High-capacity four-way reversing valve - Google Patents

Abstract

The utility model provides a high-capacity four-way reversing valve which comprises a main valve and a guide valve; the main valve comprises a valve body and a piston arranged in the valve body; the valve body comprises a low-pressure exhaust pipe a high-pressure gas inlet pipe, a condensing pipe and an evaporating pipe which are arranged on the valve body, and an oil inlet and an oil outlet are arranged on the valve body; the piston comprises a lubrication oil gallery arranged on the piston and a pressure balancing groove, and the oil inlet and the oil outlet are communicated with the lubrication oil gallery; the lubrication oil gallery comprises a first oil groove, a second oil groove and a connecting groove, wherein the first oil groove is arranged on a first outside surface of the piston, the second oil groove is arranged on a third outside surface of the piston, and the connecting groove is arranged on the outside surface of the connection part of an upper flow passage and a lower flow passage of the piston, and is communicated with the first oil groove and the second oil groove. The high-capacity four-way reversing valve can effectively solve the problem that the piston and the valve body get stuck, so that enough refrigeration oil can form oil film at the stress point of the piston and the valve body (namely a cylinder body); in addition, the force applied to the stress point of the piston and the cylinder body is reduced, and the piston is ensured to normally reverse in the cylinder body.

Description

Big capacity four-way change-over valve

Technical field

The utility model relates to a kind of big capacity four-way change-over valve.

Background technique

Big capacity four-way valve is made up of main valve and pilot valve usually.As shown in Figure 1, main valve comprises: valve body 1 and in valve body 1 movable piston 2, be arranged on condensation tube 30, evaporating pipe 40, high-pressure pipe 50 and low pressure exhaust pipe 60 on the valve body 1.The two ends of valve body 1 are provided with first end cap 101 and second end cap 102, by the dissection and analysis to the valve body that do not commutate, find that cut position multidigit is between the angle of valve body low pressure exhaust pipe and condensation tube or between the angle of low pressure exhaust pipe and evaporating pipe.As shown in Figure 2, when cut was positioned at the end face of first end cap 101, cut all was positioned at the angle (dress pilot valve one side) of valve body low pressure exhaust pipe and evaporating pipe; As shown in Figure 4, when cut was positioned at the end face of second end cap 102, cut all was positioned at the angle (being welded with joint one side) of valve body low pressure exhaust pipe and condensation tube.

Working state in conjunction with big capacity four-way valve can draw: when four-way valve is worked, the trend of the inclination of the oriented direction of piston meeting under pressure (sees Fig. 1 and Fig. 3 for details, arrow A represents that pressurized gas flow to, arrow B represents that low-pressure gas flows to, piston position is a schematic representation, the position of piston in cylindrical shell (valve body) when Fig. 2 and Fig. 4 are the valve body different conditions, wherein Fig. 1 and Fig. 2 represent the valve body power failure state, Fig. 3 and Fig. 4 represent that valve body gets electricity condition), with Fig. 1, Fig. 2 valve body power failure state is an example: the effect lower piston at pressurized gas tilts between valve body low pressure exhaust pipe 60 and evaporating pipe 40, when getting electric back piston 2, can move valve body to the end face of first end cap 101, this moment is because to be subjected to resistance big especially the thrust that piston 2 is subjected to pressurized gas valve body low pressure exhaust pipe and evaporating pipe angle when commutation, if this force bearing point can not get abundance, effective lubricating, will destroy cylindrical shell and piston at the low pressure exhaust pipe 60 of valve body first end cap 101 and the oil film between evaporating pipe 40 angles, form dry grinding, last plucking cylindrical shell causes valve body not commutate when serious.

When be in during electricity condition, in conjunction with Fig. 3, Fig. 4 and above analysis, valve body low pressure exhaust pipe 60 can not get abundance, effective lubricating with the force bearing point of condensation tube 30 angles, will destroy cylindrical shell and piston at the low pressure exhaust pipe 60 of valve body second end cap 102 and the oil film between condensation tube 30 angles, form dry grinding, the plucking cylindrical shell causes valve body not commutate.

Notice of authorization has been number for the Chinese model utility of CN201532060 discloses a kind of big capacity four-way valve, because the pressure reduction in the valve body 1 causes the oil film on the valve body 1 to come off, the phenomenon that piston 2 and valve body 1 are stuck causes the problem that four-way valve can't proper functioning to solve.

To shown in Figure 7, the main valve of this big capacity four-way valve comprises: the flange 3 of valve body 1, piston 2 and piston as Fig. 5.Piston 2 becomes stagger 90 degree and being connected as a single entity of I-shaped member rotation to constitute by two view shapes.These two I-shaped members are respectively weft element 13 and vertical body 14, and weft element 13 both sides are cavity, form cavity between vertical body 14 and the valve body 1, and what above-mentioned cavity had is connected with the high pressure admission passage, and what have is connected with the low pressure exhaust passage.

Outer surface at piston is provided with oil groove 4, and nozzle opening 5 is set on the weft element 13, and nozzle opening 5 one ends are communicated with oil groove 4, and the other end aperture is facing to cavity, makes oil spray to the inwall of cavity and valve body 1, to the motion lubricate of piston 2 in valve body 1.As shown in Figure 6, valve body 1 is provided with the oil hole 6 that connects the valve body inside and outside wall, the aperture of oil hole 6 faces toward oil groove 4, connecting tube joint 7 on the oil hole 6, and pipe joint 7 is connected with oil feed line 8, oil feed line 8 is provided with ball valve 9 and ball valve 12, be used to blind off a line, the oil feed line 8 between ball valve 9 and the ball valve 12 is provided with solenoid valve 10, is used to control the quantity delivered of oil, also be provided with filter 11 on the oil feed line 8 between ball valve 9 and the ball valve 12, be used for removing the impurity of oil.

This model utility by nozzle opening 5 to the inwall oil spout of cavity and valve body 1 to the motion lubricate of piston 2 in valve body 1, but during four-way valve work, as shown in Figure 5 and Figure 6, oil groove 4 is arranged on the outer surface of weft element 13 both sides of piston 2 and on the outer surface of vertical body 14 both sides, this just makes and communicates between each cavity in oil groove 4 and the valve body 1, the cavity that wherein has communicates with the high pressure admission passage of main valve, that is to say, oil groove 4 communicates with the high pressure admission passage of main valve, can cause the high pressure admission of coming in that the lubricant oil the oil groove on the outer surface of piston 4 is blown in the cavity like this from the high pressure admission passage, form the interruption of oil groove 4 easily to nozzle opening 5 fuel feeding, thereby be difficult to form continuously, effective fuel feeding, influence lubricating between piston 2 and the valve body 1, can not effectively solve the stuck phenomenon of piston 2 and valve body 1, make that four-way valve can't proper functioning.

When four-way valve is worked, second limit position as shown in Figure 5, refrigeration oil carries out oil spout by nozzle opening 5 to the inwall of piston cavity and valve body 1 through oil groove 4, piston cavity is taken over gentle pressure tracheae with the high pressure admission of valve body 1 respectively and is linked to each other, high pressure admission is taken in the gentle pressure tracheae swiftly flowing medium respectively, so can speed be taken away by swiftly flowing medium from the refrigeration oil that nozzle opening 5 comes out, influence the lubrication effect between piston 2 and the valve body 1, can not effectively solve the stuck phenomenon of piston 2 and valve body 1, make that four-way valve can't proper functioning.

The model utility content

The utility model aims to provide a kind of big capacity four-way change-over valve, is difficult to form effectively lubricating to solve existing four-way change-over valve, can not effectively solves problems such as piston and valve body be stuck.

According to an aspect of the present utility model, a kind of big capacity four-way change-over valve is provided, comprise main valve and pilot valve, main valve comprises: valve body, be arranged on piston in the valve body, be arranged on low pressure exhaust pipe, high-pressure pipe, condensation tube and evaporating pipe on the valve body;

Wherein, piston comprises: piston flange one end and piston flange two ends that are arranged on the piston two ends; Be arranged on the discoid joint at piston middle part, joint and piston flange one end and piston flange two are held row level with both hands; Be connected the tabular weft element between piston flange one end and the joint; Be connected the tabular vertical body between piston flange two ends and the joint; Wherein, weft element is vertical mutually with vertical body, and the outer surface of weft element is positioned on the tubular cylndrical surface of piston with the outer surface of vertical body;

The outer surface of weft element comprises: first outer surface between condensation tube and low pressure exhaust pipe; Second outer surface between evaporating pipe and high-pressure pipe;

The outer surface of vertical body comprises: the 3rd outer surface between evaporating pipe and low pressure exhaust pipe and the side surface all round between condensation tube and high-pressure pipe;

Piston also comprises: be arranged on lubricating oil path and the filler opening and the oil outlet that are separately positioned on the valve body on the piston, wherein, filler opening and oil outlet are communicated with lubricating oil path;

Lubricating oil path comprises: first oil groove is arranged on first outer surface; Second oil groove is arranged on the 3rd outer surface; Connecting groove is arranged on the outer surface of joint and connects first oil groove and second oil groove.

Further, first oil groove and/or second oil groove are the axial straight trough of parallel piston, and connecting groove is along the circumferencial direction setting of piston.

Further, piston comprises: first low-pressure cavity, be positioned at the space that piston flange one end, joint and weft element form, and at first state of piston, first low-pressure cavity is connected with the low pressure exhaust pipe; Second low-pressure cavity is positioned at the space that piston flange two ends, joint and vertical body form, and at second state of piston, second low-pressure cavity is connected with the low pressure exhaust pipe; First hyperbaric chamber is positioned at the space that piston flange one end, joint and weft element form, and at first state of piston, first hyperbaric chamber is connected with high-pressure pipe; Second hyperbaric chamber is positioned at the space that piston flange one end, joint and weft element form, and at second state of piston, second hyperbaric chamber is connected with high-pressure pipe;

Piston also comprises: first relief groove, and be arranged on second outer surface and on the outer side surface of joint and extend, first relief groove is connected perforation with second hyperbaric chamber; Second relief groove is arranged on all round on the side surface and extend on the outer side surface of joint, second relief groove is connected perforation with first hyperbaric chamber.

Further, first relief groove is the axial straight trough of parallel piston with second relief groove.

Further, piston flange one end movable limit position in valve body comprises: near first limit position of piston flange two ends with away from second limit position of piston flange two ends; Piston flange two ends movable limit position in valve body comprises: near the 3rd limit position of piston flange one end with away from the 4th limit position of piston flange one end; Wherein, filler opening is arranged on the wall body of valve body of first extreme position, and oil outlet is arranged on the wall body of valve body of the 3rd extreme position; Or filler opening is arranged on the wall body of valve body of the 3rd extreme position, and oil outlet is arranged on the wall body of valve body of first extreme position.

Further, also be provided with the through slot that connects first hyperbaric chamber and second hyperbaric chamber on the outer side surface of joint.

Further, the parallel to an axis of through slot and piston.

Because piston adopts first oil groove that is arranged on first outer surface and second oil groove that is arranged on the 3rd outer surface; first outer surface is between condensation tube and low pressure exhaust pipe; the 3rd outer surface is between evaporating pipe and low pressure exhaust pipe; first oil groove and second oil groove all are communicated with near low pressure exhaust pipe side and with the low pressure exhaust pipe; so first oil groove and second oil groove can not be subjected to the high-pressure that high-pressure pipe brings; thereby first oil groove and the formed lubricating oil path of second oil groove can not be subjected to the influence of high-pressure pipe and the lubricant oil in the lubricating oil path is thrown away; thereby kept the stable of lubricating oil path fuel feeding; overcome existing four-way change-over valve and be difficult to form effectively lubricating; can not effectively solve piston and the stuck problem of valve body; and then the force bearing point place of piston and valve body (being cylindrical shell) has sufficient refrigeration oil to form oil film; reduce and reduced the power of piston and cylindrical shell force bearing point, guarantee that piston can normal commutation in cylindrical shell.

Description of drawings

Constitute this specification a part, be used for further understanding accompanying drawing of the present utility model and show preferred embodiment of the present utility model, and be used for illustrating principle of the present utility model with specification.Among the figure:

Fig. 1 shows existing big capacity four-way change-over valve at the stressing conditions of dead electricity situation lower piston in cylindrical shell;

Fig. 2 shows existing big capacity four-way change-over valve in the position of dead electricity situation lower piston in cylindrical shell;

Fig. 3 shows existing big capacity four-way change-over valve and is getting the stressing conditions of electric situation lower piston in cylindrical shell;

Fig. 4 shows existing big capacity four-way change-over valve and is getting the position of electric situation lower piston in cylindrical shell;

Fig. 5 shows the notice of authorization number sectional drawing for the disclosed main valve master of the Chinese model utility apparent direction of CN201532060;

Fig. 6 shows the cross-section structure at A-A place among Fig. 5;

Fig. 7 shows the main TV structure of piston among Fig. 5;

Fig. 8 shows the structure of piston according to the utility model embodiment's big capacity four-way change-over valve;

Fig. 9 shows according to the filler opening of the utility model embodiment's big capacity four-way change-over valve and the position of oil outlet;

Figure 10 shows the structure according to the lubricating oil path of the utility model embodiment's big capacity four-way change-over valve; Wherein, high-pressure pipe and low pressure exhaust pipe have been omitted;

Figure 11 shows the structure according to the relief groove of the utility model embodiment's big capacity four-way change-over valve;

Figure 12 shows the piston stressed schematic diagram in cylindrical shell according to the utility model embodiment's big capacity four-way change-over valve.

Embodiment

Need to prove that under the situation of not conflicting, embodiment and the feature among the embodiment among the application can make up mutually.Describe the utility model below with reference to the accompanying drawings and in conjunction with the embodiments in detail.

As Fig. 8 and big capacity four-way change-over valve shown in Figure 9, comprise main valve and pilot valve (not shown), main valve comprises: valve body 1, be arranged on piston 2 in the valve body 1, be arranged on low pressure exhaust pipe 60, high-pressure pipe 50, condensation tube 30 and evaporating pipe 40 on the valve body 1.As shown in Figure 9, condensation tube 30 and evaporating pipe 40 along continuous straight runs settings, low pressure exhaust pipe 60 and high-pressure pipe 50 vertically are provided with.

Wherein, piston 2 can be done axial activity in valve body 1, but circumferentially rotates by locating piece limited piston 2 such as locating stud are set.As shown in Figure 8, piston 2 comprises: piston flange one end 31 and piston flange two ends 32 that are arranged on piston 2 two ends; Be arranged on the discoid joint 15 at piston 2 middle parts, joint 15 is parallel with piston flange two ends 32 with piston flange one end 31, and the external diameter of joint 15 is identical with piston flange two ends 32 with piston flange one end 31; Be connected the tabular weft element 13 between piston flange one end 31 and the joint 15; Be vertically connected on the tabular vertical body 14 between piston flange two ends 32 and the joint 15; Wherein, weft element 13 is with vertically body 14 is vertical mutually, and the outer surface of weft element 13 is positioned on the tubular cylndrical surface of piston 2 with the outer surface of vertical body 14.Weft element 13 and vertical body 14 respectively with low pressure exhaust pipe 60, high-pressure pipe 50, condensation tube 30 and evaporating pipe 40 in angle of 45 degrees.

The outer surface of weft element 13 is an arc, comprising: first outer surface 131 between condensation tube 30 and low pressure exhaust pipe 60; Second outer surface 133 between evaporating pipe 40 and high-pressure pipe 50.

The outer surface of vertical body 14 is an arc, comprising: at the 3rd outer surface 141 between evaporating pipe 40 and the low pressure exhaust pipe 60 and the side surface 143 all round between condensation tube 30 and high-pressure pipe 50.

Piston 2 also comprises: be arranged on lubricating oil path and the filler opening 17 and the oil outlet 18 that are separately positioned on the valve body 1 on the piston 2, wherein, filler opening 17 and oil outlet 18 are communicated with lubricating oil path.

Lubricating oil path comprises: first oil groove 21 is arranged on first outer surface 131; Second oil groove 22 is arranged on the 3rd outer surface 141; Connecting groove 23 is arranged on the outer surface of joint 15 and connects first oil groove 21 and second oil groove 22.Filler opening 17 and oil outlet 18 are arranged on the wall body of valve body 1, and are provided with in place, and to guarantee piston 2 in axial motion, filler opening 17 and oil outlet 18 can be communicated with first oil groove 21 and second oil groove 22.In addition, the valve body 1 outer oil feed line and the return line of also being provided with of big capacity four-way change-over valve, oil feed line connects filler opening 17, and return line connects oil outlet 18.Can be provided with valve, filter etc. on oil feed line and the return line, for example be provided with the electromagnetic valve fuel delivery.

Lubricating oil path of the present utility model is different from notice of authorization number and is the lubricating oil path in the Chinese model utility of CN201532060.Lubricating oil path of the present utility model is not on the outer surface of the outer surface of the both sides of weft element 13 and the both sides of vertical body 14 oil groove to be set all, and just at the outer surface of weft element 13 and a specific side of vertical body 14 oil groove is set.Like this, lubricating oil path of the present utility model only is lubricated at easy the to be stuck place between piston 2 and the valve body 1, and the stuck place that is not easy between piston 2 and the valve body 1 is not lubricated, and like this, has improved lubricating efficiency, and is fuel-efficient.

And then the utility model need not to be provided with notice of authorization and number is the nozzle opening 5 in the Chinese model utility of CN201532060, need not oil spout on the inwall of valve body 1, but the stable fluid path that forms by lubricating oil path carries out liquid lubrication.In addition, notice of authorization number could be realized oil spout on the inwall of valve body 1 for the nozzle opening 5 in the Chinese model utility of CN201532060 needs certain pressure, therefore, grant number is that oil feed line, the return line of the Chinese model utility of CN201532060 will reach certain pressure, the device that needs a cover pilot pressure of more complicated, thereby make oil feed line and return line complex structure, increased cost.The utility model is then lower to the pressure requirement of oil feed line and return line, and this can make the simple in structure of big capacity four-way change-over valve, and cost is low, also makes oil feed line and return line not fragile.

Wherein, in the utility model; first outer surface 131 is between condensation tube 30 and low pressure exhaust pipe 60; the 3rd outer surface 141 is between evaporating pipe 40 and low pressure exhaust pipe 60; first oil groove 21 and second oil groove 22 are all near low pressure exhaust pipe 60 sides; so first oil groove 21 and second oil groove 22 can not be subjected to the high-pressure that high-pressure pipe 50 is brought; thereby first oil groove 21 and second oil groove, 22 formed lubricating oil paties can not be subjected to the influence of high-pressure pipe and the lubricant oil in the lubricating oil path is thrown away; thereby kept the stable of lubricating oil path fuel feeding; overcome existing four-way change-over valve and be difficult to form effectively lubricating; can not effectively solve piston and the stuck problem of valve body; and then the force bearing point place of piston 2 and valve body 1 (being cylindrical shell) has sufficient refrigeration oil to form oil film; reduce and reduced the power of piston and cylindrical shell force bearing point, guarantee that piston can normal commutation in cylindrical shell.

Further, as shown in Figure 8, first oil groove 21 and/or second oil groove 22 are the axial straight trough of parallel piston 2, and connecting groove 23 for example is an annular groove, along the circumferencial direction setting of piston 2.Like this, the route of lubricating oil path is shorter, is convenient to transmit apace lubricant oil, and can be fuel-efficient.

Further, as shown in figure 10, piston 2 comprises four cavitys.Wherein, first low-pressure cavity 41, the space that is positioned at piston flange one end 31, joint 15 and weft element 13 formation also can be connected with low pressure exhaust pipe 60 (not shown); Second low-pressure cavity 42, the space that is positioned at piston flange two ends 32, joint 15 and vertical body 14 formation also can be connected with low pressure exhaust pipe 60; First hyperbaric chamber 43 (seeing Figure 11), the space that is positioned at piston flange one end 31, joint 15 and weft element 13 formation also can be connected with high-pressure pipe 50 (not shown); Second hyperbaric chamber 44 (seeing Figure 11), the space that is positioned at piston flange one end 31, joint 15 and weft element 13 formation also can be connected with high-pressure pipe 50.The air pressure of first low-pressure cavity 41 and second low-pressure cavity 42 is lowpressure, and the air pressure of first hyperbaric chamber 43 and second hyperbaric chamber 44 is highpressure.

At first state of piston, first low-pressure cavity 41 is connected with low pressure exhaust pipe 60, and second low-pressure cavity 42 is not connected with low pressure exhaust pipe 60; First hyperbaric chamber 43 is connected with high-pressure pipe 50, and second hyperbaric chamber 44 is not connected with high-pressure pipe 50.

At second state of piston, second low-pressure cavity 42 is connected with low pressure exhaust pipe 60, and first low-pressure cavity 41 is not connected with low pressure exhaust pipe 60, and second hyperbaric chamber 44 is connected with high-pressure pipe 50, and first hyperbaric chamber 43 is not connected with high-pressure pipe 50.

Wherein, the corresponding valve body power failure state of first state of piston, the corresponding valve body of second state of piston gets electricity condition.That is to say that first low-pressure cavity 41 alternately is connected with low pressure exhaust pipe 60 respectively with second low-pressure cavity 42, first hyperbaric chamber 43 alternately is connected with high-pressure pipe 50 respectively with second hyperbaric chamber 44.

As shown in figure 11, piston 2 also comprises: first relief groove 24, and be arranged on second outer surface 133 and on the outer side surface of joint 15 and extend, first relief groove 24 is connected perforation with second hyperbaric chamber 44; Second relief groove 25 is arranged on all round on the side surface 133 and extend on the outer side surface of joint 15, second relief groove 25 is connected perforation with first hyperbaric chamber 43.Therefore, first relief groove 24 and second relief groove 25 bear high-pressure.

During work, as shown in figure 12, pressurized gas enter each relief groove, thereby form an active force, with the stressed counteracting with piston 2 parts of the principle of lever.No matter be power failure state or electricity condition, always have a groove to be subjected to the pressure of pressurized gas in first relief groove 24 and second relief groove 25.

For example, under the state shown in Figure 12, pressurized gas are F1 to the high pressure thrust of weft element 13, piston 2 is being pressed under the effect of F1 on the wall body of valve body 1, the strong point of 1 pair of piston 2 of valve body is the P point, because second relief groove 25 also is subjected to high pressure thrust F2, so, with the P point is the fulcrum of lever, and the relative P point of high pressure thrust F1, F2 forms equilibrant, thereby with the stressed counteracting of piston 2 parts, realized stressed stable and balanced of piston 2, make the motion of piston more stable, reduced the wearing and tearing with piston and valve body, increased working life.When high pressure thrust during in vertical body 14, first relief groove 24 plays the effect of equilibrant, and reason is identical with the front, does not repeat them here.

Further, as shown in figure 11, first relief groove 24 is the axial straight trough of parallel piston 2 with second relief groove 25, like this, is convenient to processing.

As shown in figure 10, because piston 2 is moving reciprocatingly in valve body 1, two flanges are movable between limit position separately.Piston flange one end 31 movable limit position in valve body 1 comprises: near first limit position of piston flange two ends 32 with away from second limit position (being usually located at the upper end of valve body 1) of piston flange two ends 32; Piston flange two ends 32 movable limit position in valve body 1 comprises: near the 3rd limit position of piston flange one end 31 with away from the 4th limit position (being usually located at the lower end of valve body 1) of piston flange one end 31.

Wherein, as shown in figure 10, filler opening 17 is arranged on the wall body of valve body 1 of the 3rd extreme position, and oil outlet 18 is arranged on the wall body of valve body 1 of first extreme position.For example, filler opening 17 and oil outlet 18 are not arranged on the place, two ends of valve body 1, and are arranged on the medium position of valve body 1.For example, filler opening 17 and oil outlet 18 are arranged on the wall body of each oil groove near the valve body 1 of flange position, and be arranged on the wall body of each oil groove near the valve body 1 of joint 15 positions, like this, no matter how piston 2 moves, filler opening 17 and oil outlet 18 can both be with on lubricating oil path be connected, and what can keep lubricating is stable.And, under the state of Figure 10, be that the outer side surface of the weft element 13 at first oil groove, 21 places need lubricate, and the outer surface of the vertical body 14 at second oil groove, 22 places is owing to be not at this moment to be in and valve body 1 mutual position of wearing and tearing, therefore, the outer surface of vertical body 14 does not need to lubricate.Filler opening 17 and oil outlet 18 are arranged on the medium position of valve body 1, can satisfy at any time with condition that lubricating oil path is connected under, make lubricating oil path only lubricated to the lubricated place of needs, saved lubricant oil, improved lubricating efficiency.

Certainly, the location swap of filler opening 17 and oil outlet 18 also can reach above-mentioned effect, and for example, filler opening 17 is arranged on the wall body of valve body 1 of first extreme position, and oil outlet 18 is arranged on the wall body of valve body 1 of the 3rd extreme position.

Further, as shown in figure 11, also be provided with the through slot 26 that connects first hyperbaric chamber 43 and second hyperbaric chamber 44 on the outer side surface of joint 15.Like this, can keep pressure balance between first hyperbaric chamber 43 and second hyperbaric chamber 44.Further, the parallel to an axis of through slot 26 and piston 2.Like this, be convenient to processing.

The above is a preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various changes and variation.All within spirit of the present utility model and principle, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (7)

1. one kind big capacity four-way change-over valve, comprise main valve and pilot valve, described main valve comprises: valve body (1), be arranged on piston (2) in the described valve body (1), be arranged on low pressure exhaust pipe (60), high-pressure pipe (50), condensation tube (30) and evaporating pipe (40) on the described valve body (1);

Wherein, described piston (2) comprising: piston flange one end (31) and piston flange two ends (32) that are arranged on described piston (2) two ends; Be arranged on the discoid joint (15) at described piston (2) middle part, described joint (15) is parallel with piston flange two ends (32) with described piston flange one end (31); Be connected the tabular weft element (13) between described piston flange one end (31) and the described joint (15); Be connected the tabular vertical body (14) between described piston flange two ends (32) and the described joint (15); Wherein, described weft element (13) is vertical mutually with described vertical body (14), and the outer surface of the outer surface of described weft element (13) and described vertical body (14) is positioned on the tubular cylndrical surface of described piston (2);

The outer surface of described weft element (13) comprising: be positioned at first outer surface (131) between described condensation tube (30) and the described low pressure exhaust pipe (60); Be positioned at second outer surface (133) between described evaporating pipe (40) and the described high-pressure pipe (50);

The outer surface of described vertical body (14) comprising: be positioned at the 3rd outer surface (141) between described evaporating pipe (40) and the described low pressure exhaust pipe (60) and be positioned at described condensation tube (30) and described high-pressure pipe (50) between side surface (143) all round;

It is characterized in that, described piston (2) also comprises: be arranged on lubricating oil path and the filler opening (17) and the oil outlet (18) that are separately positioned on the described valve body (1) on the described piston (2), wherein, described filler opening (17) and described oil outlet (18) are communicated with lubricating oil path on the described piston;

Described lubricating oil path comprises:

First oil groove (21) is arranged on described first outer surface (131);

Second oil groove (22) is arranged on described the 3rd outer surface (141);

Connecting groove (23) is arranged on the outer surface of described joint (15) and connects described first oil groove (21) and described second oil groove (22).

2. big capacity four-way change-over valve according to claim 1, it is characterized in that, described first oil groove (21) and/or described second oil groove (22) are the axial straight trough of parallel described piston (2), and described connecting groove (23) is along the circumferencial direction setting of described piston (2).

3. big capacity four-way change-over valve according to claim 2 is characterized in that,

Described piston (2) comprising:

First low-pressure cavity (41) is positioned at the space that described piston flange one end (31), described joint (15) and described weft element (13) form, and at first state of described piston (2), described first low-pressure cavity (41) is connected with described low pressure exhaust pipe (60);

Second low-pressure cavity (42) is positioned at the space that described piston flange two ends (32), described joint (15) and described vertical body (14) form, and at second state of described piston (2), described second low-pressure cavity (42) is connected with described low pressure exhaust pipe (60);

First hyperbaric chamber (43) is positioned at the space that described piston flange one end (31), described joint (15) and described weft element (13) form, and at first state of described piston (2), described first hyperbaric chamber (43) is connected with described high-pressure pipe (50);

Second hyperbaric chamber (44) is positioned at the space that described piston flange two ends (32), described joint (15) and described weft element (14) form, and at second state of described piston (2), described second hyperbaric chamber (44) is connected with described high-pressure pipe (50);

Described piston (2) also comprises:

First relief groove (24) is arranged on described second outer surface (133) and goes up and extend on the outer side surface of described joint (15), and described first relief groove (24) is connected with described second hyperbaric chamber (44) perforation;

Second relief groove (25), be arranged on described all round side surface (143) go up and on the outer side surface of described joint (15), extend, described second relief groove (25) is connected with described first hyperbaric chamber (43) perforation.

4. big capacity four-way change-over valve according to claim 3 is characterized in that, described first relief groove (24) is the axial straight trough of parallel described piston (2) with described second relief groove (25).

5. big capacity four-way change-over valve according to claim 4, it is characterized in that described piston flange one end (31) movable limit position in described valve body (1) comprises: near first limit position of described piston flange two ends (32) with away from second limit position of described piston flange two ends (32); Described piston flange two ends (32) movable limit position in described valve body (1) comprises: near the 3rd limit position of described piston flange one end (31) with away from the 4th limit position of described piston flange one end (31); Wherein, described filler opening (17) is arranged on the wall body of described valve body (1) of first extreme position, and described oil outlet (18) is arranged on the wall body of described valve body (1) of the 3rd extreme position; Or described filler opening (17) is arranged on the wall body of described valve body (1) of the 3rd extreme position, and described oil outlet (18) is arranged on the wall body of described valve body (1) of first extreme position.

6. big capacity four-way change-over valve according to claim 5 is characterized in that, also is provided with the through slot (26) that connects described first hyperbaric chamber (43) and described second hyperbaric chamber (44) on the outer side surface of described joint (15).

7. according to each described big capacity four-way change-over valve in the claim 1 to 6, it is characterized in that the parallel to an axis of described through slot (26) and described piston (2).

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