CN209145837U - The exhaust structure of three booster cavity diaphragm pumps - Google Patents

Abstract

The utility model relates to a kind of exhaust structures of three booster cavity diaphragm pumps, it is inside pump head lid, high pressure water chamber is formed by the outer most edge area of space interval inside pump head lid is located at one of barrier wall, and make central space region on its interior is synchronous to form low pressure water chamber by interval, the piston valve body inside pump head lid will separately be posted, in it towards on the top surface inside pump head lid, it will be close to the area of space corral at top edge with one of barrier wall and form drainage seat, and on its bottom surface, setting to the concave again, there are three water-logged bases, several inlet openings are equipped between each water-logged base and top surface, and several drainage holes are equipped between the top surface of corresponding drainage seat position, so that the water inlet position of water-logged base is lower than draining hole site, therefore low pressure water chamber can be entered to the air of water-logged base, because floating is gathered in draining hole site, and rapidly It is discharged into high pressure water chamber and is discharged outside pump head via the apopore of pump head lid.

Description

The exhaust structure of three booster cavity diaphragm pumps

Technical field

The utility model and three increasings being installed in reverse osmosis water purifier (reverse osmosis purification) Press chamber diaphragm pump related, three booster cavity diaphragms can entered for the air in reverse osmosis water purifier in pipeline by particularly relating to one kind It after the pump head of pump, can fast and effeciently be completely exhausted out, without having because air rests in pump head, caused pump head actuation is made an uproar Sound increases and the missing of pump head output discharge reduction generates.

Background technique

It is currently known and is used in the dedicated three booster cavities diaphragm pump of reverse osmosis water purifier, be disclosed for such as U.S. Patent No. 4396357、4610605、5476367、5571000、5615597、5626464、5649812、5706715、5791882、 5816133, it 6089838,6299414,6604909,6840745 and No. 6892624 etc., constructs as shown in Fig. 1 to Figure 18, by One motor 10, a motor front cover 30, one inclination eccentric cam 40, a balance wheel seat 50, a pump head seat 60, a diaphragm 70, three are living Plug pushing block 80, a piston valve body 90 and a pump head lid 20 are composed；Wherein, the central build-in of motor front cover 30 has a bearing 31, It is placed by the force-output shaft 11 of motor 10, outer peripheral edge is convexly equipped with the convex annulus 32 of a circle, and in the inner edge surface of the convex annulus 32 It is equipped with several fixed perforation 33；40 center of inclination eccentric cam is through there is an axis hole 41, for being sheathed on going out for motor 10 On power axis 11；The bottom center build-in of the balance wheel seat 50 has a balance wheel bearing 51, for being set on inclination eccentric cam 40, There are three balance wheel 52, the horizontal top surfaces 53 of each balance wheel 52 to be recessed with a threaded hole for the top surface equidistant radial arrangement projection of pedestal 54, and it is recessed with a delineation position concave ring groove 55(again as shown in Fig. 2,3 and Fig. 4 in the periphery of the threaded hole 54)；The pump head seat 60 It is that set is placed on the convex annulus 32 of motor front cover 30, top surface wears there are three equidistant interval and is greater than in balance wheel seat 50 three The actuation perforation 61 of 52 outer diameter of balance wheel, be placed through three balance wheels 52 can in three actuations perforation 61, and its bottom surface is to having One encloses lower dome ring 62, and the scale of the lower dome ring 62 and 32 scale of convex annulus of motor front cover 30 are identical, another close to periphery The top surface of edge 62 direction of dome ring down, then several fixed perforation 63(are equipped with as shown in Fig. 2,5 and Fig. 6)；The diaphragm 70 It is placed on the top surface of pump head seat 60, by semi-rigid elastic material injection molding, two circle phases is equipped on outermost periphery top surface The outer raised line 71 and interior raised line 72 of parallel opposed, and given off three by top surface central position and be spaced apart from each other 120 degree of angles And with the mutually a sequence of fin 73 of interior raised line 72, between tri- fin 73 of Shi Gai and interior raised line 72, by between be separated out there are three piston make Dynamic area 74, and each piston actuation area 74 corresponds in balance wheel seat 50 on 54 position of threaded hole of each 52 horizontal top surface 53 of balance wheel, It is respectively equipped with a central perforation 75 again, and is convexly equipped with a circle positioning convex ring in 70 bottom surface of diaphragm for being located at each central perforation 75 Block 76(is as shown in Fig. 2,7,8 and Fig. 9)；Three piston thrust block 80 is three piston actuation areas 74 for being placed in diaphragm 70 respectively It is interior, through a stepped hole 81 is equipped on each piston thrust block 80, three positioning convex ring blocks 76 of 70 bottom surface of diaphragm are filled in respectively It is placed in balance wheel seat 50 in the positioning concave ring groove 55 of three balance wheels 52, then the ladder into piston thrust block 80 is worn with fixed screw 1 Hole 81, and pass through in diaphragm 70 after the central perforation 75 in three piston actuation areas 74, it can be by diaphragm 70 and three piston thrust blocks 80 are fixed in balance wheel seat 50 in the threaded hole 54 of three balance wheels 52 simultaneously (as shown in the enlarged view in Figure 18)；The piston valve body 90 bottom outer peripheral edge side is downwardly convex to be equipped with a ring raised line 91, can plug into 70 China and foreign countries' raised line 71 of diaphragm and interior raised line 72 Between gap, be recessed with a round drainage seat 92 towards the top surface central location in 20 direction of pump head lid, and in drainage seat 92 Center be equipped with a positioning hole 93, penetrate fixation for the non-return rubber mat 94 of a T-type, separately the interval centered on the location hole 93 120 degree of angles are formed by three regions, are equipped with several drainage holes 95, and corresponding three regions again on each region In 92 peripheral surface of drainage seat of drainage hole 95, and it is equipped with is spaced apart from each other 120 degree of angle arrangements and opening directed downwardly three respectively A water-logged base 96 is equipped with several inlet opening 97(as shown in Fig. 2, Figure 10 to Figure 13 again on each water-logged base 96), and it is each The center of water-logged base 96 places the piston sheet 98 of a handstand T-type again, can hinder by the piston sheet 98 and cover each inlet opening 97, In, the drainage hole 95 in drainage seat 92 on each region, each water-logged base 96 corresponding thereto is connected respectively, will live It, can be at three after the ring convex item 91 of 90 bottom of plug valve body plugs the gap between the outer raised line 71 of diaphragm 70 and interior raised line 72 Between water-logged base 96 and the top surface of diaphragm 70, three closed pressurized chamber 26(such as Figure 18 and its enlarged view institute are formed Show)；As shown in Fig. 2, Figure 14 to Figure 18, the pump head lid 20 be lid be located on pump head seat 60, outer edge surface be equipped with a water inlet 21, One water outlet 22 and several fixed perforation 23, and it is equipped with a scalariform slot 24 in the bottom part ring of inner edge surface, so that diaphragm 70 and work Plug valve body 90 mutually coincide after assembly outer rim, can be closely attached on the scalariform slot 24 (as shown in the enlarged view in Figure 18), It is as shown in figure 15 that a circle dome ring 25(separately is equipped in inner rim face center), the bottom of the dome ring 25 is pressed in piston valve body In 90 on the outer rim top surface of drainage seat 92, so that between the inner wall of the dome ring 25 and the drainage seat 92 of piston valve body 90, it can Around forming a high pressure water chamber 27, and the space surrounded between the wall surface of dome ring 25 and the top surface of three water-logged bases 96, The synchronous low pressure water chamber 28(that formed is as shown in Figure 18 and its enlarged view), wherein the high pressure water chamber 27 is connected with water outlet 22 Logical, which is connected (as shown in FIG. 16 and 17) with water inlet 21；Pump head lid is each passed through by fixing bolt 2 20 each fixed perforation 23, and after each fixed perforation 63 for passing through pump head seat 60, then respectively be embedded in it is each solid in pump head seat 60 Surely the nut 3 in perforation 63 is screwed, and is directly screwed into motor front cover 30 in each fixed perforation 33, can be completed entire three The combination of booster cavity diaphragm pump 100 (as shown in Fig. 1 and Figure 18).

It as shown in FIG. 19 and 20, is that above-mentioned known three booster cavities diaphragm pump 100 makees flowing mode, when the power output of motor 10 After axis 11 rotates, it will drive inclination eccentric cam 40 and rotate, and generate three balance wheels 52 on balance wheel seat 50 sequentially and be in Upper and lower reciprocal actuation, and three piston actuation areas 74 on diaphragm 70, also will receive the actuation up and down of three balance wheels 52, together Step sequentially generates upper and lower displacement repeatedly by up pushing tow and toward drop-down, and therefore, when 52 actuation down of balance wheel, synchronizing will be every The piston actuation area 74 of diaphragm 70 and piston thrust block 80 are toward drop-down, so that the piston sheet 98 of piston valve body 90 is pushed open, and will be by pumping 20 water inlet 21 of skull enters the tap water W of low pressure water chamber 28 via inlet opening 97, and enter in pressurized chamber 26 (such as Figure 19 and Shown in arrow W in its enlarged view)；When the up pushing tow actuation of balance wheel 52, also synchronize each piston actuation of diaphragm 70 Area 74 and piston thrust block 80 up push up, and squeeze the tap water W in pressurized chamber 26, its hydraulic pressure is made to increase to 80psi High pressure water Wp between~100psi, therefore after boosting is that can push the non-return rubber mat 94 on drainage seat 92 open, and via draining Each drainage hole 95 of seat 92 sequentially constantly flows into high pressure water chamber 27, is then discharged again via the water outlet 22 of pump head lid 20 Three booster cavity diaphragm pumps are outer (as shown in the arrow Wp in Figure 20 and its enlarged view), and then provide RO film in reverse osmosis water-strainer Water pressure needed for pipe carries out osmosis filtration.

It as shown in figure 21, is the construction of known reverse osmosis water purifier, by one or three booster cavity diaphragm pumps 100, a thick impurity Filter core 101, a thin impurity filter core 102, an activated carbon cartridge 103 and a RO membrane tube (reverse osmosis membrane) 104 combinations form in a casing 105, wherein the thick impurity filter core 101, thin impurity filter core 102, between activated carbon cartridge 103 It after water pipe P connection, then is connect with the water inlet 21 of the pump head lid 20 of three booster cavity diaphragm pumps 100 by water pipe P1, separately with water pipe The water outlet 22 of pump head lid 20 is connected by P2 with RO membrane tube 104, and forms a closed water pipeline, and three booster cavity Diaphragm pump 100 is installed with a supporting seat 110 in the bottom surface of pump housing outer rim, and respectively wears in the wing plates on two sides of the supporting seat 110 111 It is equipped with a pair of of Rubber shock-absorbing pad 112, then supporting seat 110 is fixed on casing 105 with fixed screw 113 and nut 114, so that Three booster cavity diaphragm pumps 100 can be horizontally fixed in casing 105 by supporting seat 110；When three booster cavity diaphragm pumps 100 open After dynamic, tap water W first can sequentially flow through thick impurity filter core 101, thin impurity filter core 102 and activated carbon cartridge 103, make tap water W In impurity and chloride material filtered respectively and Adsorption, then, via the pressurized high pressure water of three booster cavity diaphragm pump 100 Wp, into RO membrane tube 104 in carry out heavy metal substance in permeation filtration high pressure water Wp, and then generate drinkable 〝 pure water 〞 with The 〝 waste water 〞 that can not be drunk, and respectively by the pure water outlet 104a of RO membrane tube 104 and wastewater outlet 104b outflow (RO in such as Figure 21 Shown in the solid arrow and dotted arrow of membrane tube 104), finally, the water pipe P3 that the 〝 pure water 〞 is connected via pure water outlet 104a And flow into water storage pressure barrel store it is for human consumption, water pipe P4 that 〝 waste water 〞 is then connected via wastewater outlet 104b and flow into The drainpipe of house.

As shown in Figure 21 to Figure 26, there is a serious missing in aforementioned three booster cavities diaphragm pump, due to pump head for a long time The water inlet 21 and water outlet 22 of lid 20 are connected to form closed water pipeline with water pipe P1 and water pipe P2 respectively, therefore three pressurizations The motor 10 of chamber diaphragm pump 100 be actuated for be pressurized or close stop pressurization actuation when, the high pressure water chamber 27 of the pump head lid 20 or The state (as shown in Figure 22 and 23) of tap water W is filled in low pressure water chamber 28, but in impurity filter core 101, thin impurity filter core 102 and the service life of activated carbon cartridge 103 expire after losing filtering and efficacy of adsorption, then must carry out replacement new product, therefore First by overdue impurity filter core 101, thin impurity filter core 102 and activated carbon cartridge 103 in replacement process, by the water pipe of its connection P is removed, then sequentially new impurity filter core 101, thin impurity filter core 102 and activated carbon cartridge 103 are connected i.e. with each water pipe P At.When waking up motor 10 and carrying out pressurization actuation, be present in the impurity filter core 101 just newly changed, thin impurity filter core 102 and Air A inside activated carbon cartridge 103 will be entered in low pressure water chamber 28 with water pipe P from the water inlet 21 of pump head lid 20, And air A can not be dissolved in water, thus cause all up to be gathered in the upper half space of low pressure water chamber 28 (such as the institute of Figure 24 and 25 Show), at this point, the corresponding water-logged base 96a(in 28 upper half spatial position of low pressure water chamber refers to three water-logged bases of piston valve body 90 In 96, one of them is located at the water-logged base 96a of uppermost position, as shown in figure 24), the reciprocal work of balance wheel 52 can be corresponded to it Under dynamic, make the inside opening of piston sheet 98 and air A is blended in tap water W and is inhaled into pressurized chamber via inlet opening 97 by synchronization In 26a (as shown in figure 26), similarly, also because air A can not be dissolved in tap water W, and to enter in pressurized chamber 26a Air A also can be gathered in the upper half space of pressurized chamber 26a (as shown in the enlarged view of Figure 26), with balance wheel 52 For pushing tow diaphragm 70 to the tap water W in pressurized chamber 26a and after air A is pressurized, tap water W can be via drainage hole 95 It pushes non-return rubber mat 94 open to enter in high pressure water chamber 27 (as shown in the imaginary line part of rubber mat 94 non-return in Figure 26), but original aggregation Air A in the space of the upper half pressurized chamber 26a can not be but discharged into high pressure water chamber 27 with drainage hole 95, Because being that the position of drainage hole 95 is the lower half position for being located at pressurized chamber 26a, and the position of inlet opening 97 is to be located to increase Caused by the upper half position for pressing chamber 26a, and air A is bound to be gathered in the upper half spatial position of pressurized chamber 26a, therefore Cause can not to make air A by smoothly by drainage hole 95 be discharged as a result, and this result will lead to the increasing of pressurized chamber 26a Output water shortage after pressure, the water that the pressurized chamber 26 that being unable to reach other two does not have air A to enter is exported, also makes The pressurization water for obtaining the output of three booster cavity diaphragm pumps 100 is unable to reach absolutely forever.

In addition, be gathered in the air A in the space of the upper half pressurized chamber 26a, can also make piston sheet 98 repeat to In the actuation of interior inlet opening on and off 97, there is constantly slap air and generate noise and increase the entire vibration of pump head lid 20 The phenomenon that, all because of the inlet opening 97 penetrated through between low pressure water chamber 28 and pressurized chamber 26a, position is higher than to be passed through these missings Lead to caused by the drainage hole 95 between high pressure water chamber 27 and pressurized chamber 26a (as shown in figure 27), so that pump head lid 20 can not have The standby function being quickly and effectively vented, and three booster cavity diaphragm pumps 100 of the commercially available volume production of institute can not still get rid of this so far and one lack.

Utility model content

A kind of the technical solution of the utility model are as follows: exhaust structure of three booster cavity diaphragm pumps comprising, a pump head lid, For a hollow shelly-shaped body, outer edge surface is equipped with a water inlet, a water outlet and several fixations and perforates, by hindering together inside bottom surface Partition wall will be located at the outer most edge area of space interval inside the face of pump head base and form high pressure water chamber, and makes to be located in the pump head lid The central space region in portion, it is synchronous that low pressure water chamber is formed by the barrier wall interval, wherein the water outlet of the high pressure water chamber and pump head lid Mouth is connected, which is connected with the water inlet of pump head lid；And a piston valve body, it is in the bottom surface for post pump head lid The triangle discoid body in portion, also by one of barrier wall, will be close at top edge towards on the top surface inside the face of pump head base Area of space corral formed drainage seat, which corresponds to each other with the barrier wall inside the face of pump head base, and leans on top surface It nearly barrier wall and is spaced apart from each other at the position of 120 degree of angles, there are three positioning hole collumns for projection, centered on three positioning hole collumns Piston valve body bottom surface on, then set to the concave there are three water-logged base, several inlet openings be equipped between each water-logged base and top surface, And each water-logged base and several drainage holes are then equipped with corresponding between the top surface of drainage seat position, separately in each positioning hole collumn An inverted T shaped piston sheet has inside been placed, on the top surface of the several draining hole sites in everywhere, then has been embedded with a non-return rubber mat, by The inverted T shaped piston sheet can hinder the several inlet openings covered on water-logged base, can hinder the number covered on water-logged base by the non-return rubber mat A drainage hole.

The utility model has the following beneficial effects: providing a kind of exhaust structure of three booster cavity diaphragm pumps comprising: a pump head Lid is a hollow shelly-shaped body, and outer edge surface is equipped with a water inlet, a water outlet and several fixations and perforates, by one inside bottom surface Blockage wall forms high pressure water chamber for the outer most edge area of space interval inside the face of pump head base is located at, and makes to be located at the pump head lid Internal central space region, it is synchronous that low pressure water chamber is formed by interval, wherein the high pressure water chamber is connected with the water outlet of pump head lid Logical, which is connected with the water inlet of pump head lid；And a piston valve body, it is three posted inside the bottom surface of pump head lid Angular discoid body also will be close to the space of top edge towards on the top surface inside the face of pump head base by one of barrier wall Region corral forms drainage seat, which corresponds to each other with the barrier wall inside the face of pump head base, and close to barrier on top surface It wall and is spaced apart from each other at the position of 120 degree of angles, projection is there are three positioning hole collumn, the piston centered on three positioning hole collumns It on valve body bottom surface, then sets to the concave there are three water-logged base, several inlet openings is equipped between each water-logged base and top surface, and each Water-logged base and several drainage holes are then equipped with corresponding between the top surface of drainage seat position, are separately placed in each positioning hole collumn There is an inverted T shaped piston sheet, on the top surface of the several draining hole sites in everywhere, then is embedded with a non-return rubber mat, it is inverted T shaped by this Piston sheet can hinder the several inlet openings covered on water-logged base, and the several drainings covered on water-logged base can be hindered by the non-return rubber mat Hole；By the water inlet position of water-logged base lower than draining hole site, and low pressure water chamber can be entered to the air of water-logged base, because floating After being gathered in draining hole location, it can rapidly be discharged into high pressure water chamber and be discharged outside pump head via the apopore of pump head lid, therefore It will not occur to rest in pump head because of air completely, the noise of caused pump head actuation increases and pump head exports discharge reduction Missing generates.

Detailed description of the invention

Fig. 1 is the three-dimensional combination figure of known three booster cavities diaphragm pump.

Fig. 2 is the stereogram exploded view of known three booster cavities diaphragm pump.

Fig. 3 is the perspective view of balance wheel seat in known three booster cavities diaphragm pump.

Fig. 4 is the sectional view of 4-4 line in Fig. 3.

Fig. 5 is the perspective view of pump head seat in known three booster cavities diaphragm pump.

Fig. 6 is the sectional view of 6-6 line in Fig. 5.

Fig. 7 is the perspective view of known three booster cavities diaphragm pump interval diaphragm.

Fig. 8 is the sectional view of 8-8 line in Fig. 7.

Fig. 9 is the bottom view of known three booster cavities diaphragm pump interval diaphragm.

Figure 10 is the perspective view of piston valve body in known three booster cavities diaphragm pump.

Figure 11 is the sectional view of 11-11 line in Figure 10.

Figure 12 is the top view of piston valve body in known three booster cavities diaphragm pump.

Figure 13 is the bottom view of piston valve body in known three booster cavities diaphragm pump.

Figure 14 is the perspective view of pump head lid in known three booster cavities diaphragm pump.

Figure 15 is the bottom view of pump head lid in known three booster cavities diaphragm pump.

Figure 16 is the sectional view of 16-16 line in Figure 14.

Figure 17 is the sectional view of 17-17 line in Figure 14.

Figure 18 is the combination section of known three booster cavities diaphragm pump.

Figure 19 is one of the actuation diagrammatic cross-section of known three booster cavities diaphragm pump.

Figure 20 is that the actuation of known three booster cavities diaphragm pump shows the two of section intention.

Figure 21 is the internal structure diagrammatic cross-section of known reverse osmosis water purifier.

Figure 22 is the three of the actuation diagrammatic cross-section of known three booster cavities diaphragm pump.

Figure 23 is the sectional view of 23-23 line in Figure 22.

Figure 24 is the four of the actuation diagrammatic cross-section of known three booster cavities diaphragm pump.

Figure 25 is the sectional view of 25-25 line in Figure 24.

Figure 26 is the five of the actuation diagrammatic cross-section of known three booster cavities diaphragm pump.

Figure 27 is the sectional view of 27-27 line in Figure 26.

Figure 28 is the stereoscopic schematic diagram of the utility model.

Figure 29 is the stereogram exploded view of the utility model.

Figure 30 is the perspective view of pump head lid in the utility model.

Figure 31 is the bottom view of pump head lid in the utility model.

Figure 32 is the sectional view of 32-32 line in Figure 30.

Figure 33 is the sectional view of 33-33 line in Figure 30.

Figure 34 is the perspective view of piston valve body in the utility model.

Figure 35 is the sectional view of 35-35 line in Figure 34.

Figure 36 is the top view of piston valve body in the utility model.

Figure 37 is the bottom view of piston valve body in the utility model.

Figure 38 is another stereoscopic schematic diagram of piston valve body in the utility model.

Figure 39 is the sectional view of 39-39 line in Figure 38.

Figure 40 is the schematic diagram of the barrier wall top surface center merging annular seal adhesive tape of pump head lid in the utility model.

Figure 41 is the combination section of the utility model.

Figure 42 is the sectional view of 42-42 line in Figure 41.

Figure 43 is one of actuation diagrammatic cross-section of the utility model.

Figure 44 is the sectional view of 44-44 line in Figure 43.

Figure 45 is the two of the actuation diagrammatic cross-section of the utility model.

Figure 46 is the sectional view of 46-46 line in Figure 45.

Figure 47 is the three of the actuation diagrammatic cross-section of the utility model.

Figure 48 is the sectional view of 48-48 line in Figure 47.

Specific embodiment

As shown in Figure 28 to Figure 39, the utility model provides a kind of exhaust structure of three booster cavity diaphragm pumps comprising:

One pump head lid 200, is a hollow shelly-shaped body, and outer edge surface is equipped with a water inlet 201, a water outlet 202 and several Fixed perforation 203, inside bottom surface 204 as one of barrier wall 205(as shown in Figure 31 and Figure 33), 200 bottom of pump head lid will be located at Outer most edge area of space interval inside face 204 forms high pressure water chamber 206, and makes to be located at the central hollow inside the pump head lid 200 Between region, it is synchronous that low pressure water chamber 207(is formed as shown in Figure 31 and Figure 33 by the barrier wall 205 interval), wherein the high pressure water chamber 206 are connected with the water outlet 202 of pump head lid 200, which is connected (such as with the water inlet 201 of pump head lid 200 Shown in Figure 31 and Figure 32)；And

One piston valve body 300 is the triangle discoid body inside the bottom surface 204 posted into pump head lid 200, towards pump head On top surface 301 inside 200 bottom surface 204 of lid, also by one of barrier wall 302, the area of space circle of 301 edge of top surface will be close to Enclose to form drainage seat 303(as shown in Figure 34,35 and Figure 36), the barrier wall 302 and the barrier inside 200 bottom surface 204 of pump head lid Wall 205 corresponds to each other (as shown in Figure 36 and Figure 31), and close to barrier wall 302 and is spaced apart from each other 120 degree of angles on top surface 301 At position, projection is there are three positioning hole collumn 304, on 300 bottom surface 305 of piston valve body centered on three positioning hole collumns 304, Setting to the concave again, there are three water-logged base 306(as shown in Figure 35 and Figure 37), it is equipped between each water-logged base 306 and top surface 301 Several inlet openings 307, and several rows are then equipped between each water-logged base 306 and top surface 301 corresponding to 303 position of drainage seat Water hole 308 has separately placed an inverted T shaped piston sheet 309 in each positioning hole collumn 304, several drainage holes 308 in everywhere On the top surface 301 set, then to be embedded with a non-return rubber mat 310(as shown in figure 38), it can hinder and cover by the inverted T shaped piston sheet 309 Several inlet openings 307 on water-logged base 306 can hinder the several drainage holes covered on water-logged base 306 by the non-return rubber mat 310 308(is as shown in figure 39).

As shown in Figure 29 and Figure 40, for so that piston valve body 300 is posted pump head lid 200 bottom surface 204 after, increasing pump skull There is more preferably leakproofness, the more resistance in pump head lid 200 between 200 barrier wall 205 and the barrier wall 302 of piston valve body 300 205 top surface of partition wall center, has plugged an annular seal adhesive tape 400.

As shown in Figure 41 and Figure 42, the bottom surface 305 of piston valve body 300 is first placed in the outer raised line 71 of known diaphragm 70 It is interior, then after plugging 204 inside of bottom surface of pump head lid 200 together, it can be between three water-logged bases 306 and the top surface of diaphragm 70 Form three closed pressurized chamber 208.

As shown in Figure 21 and Figure 43 to Figure 48, when air A is low as water pipe P is entered from the water inlet 201 of pump head lid 200 After in pumping chamber 207, in the upper half space that all can up be gathered in low pressure water chamber 207 because air A can not be dissolved in water (such as Shown in Figure 43 and 44), at this point, the corresponding water-logged base 306a(in 207 upper half spatial position of low pressure water chamber refers to piston valve body In 300 three water-logged bases 306, one of them is located at the water-logged base 306a of uppermost position, such as the enlarged view institute of Figure 43 Show), under the reciprocal actuation that balance wheel 52 can be corresponded to it, makes the inside opening of inverted T shaped piston sheet 309 and synchronization mixes air A It is inhaled into pressurized chamber 208a (as shown in Figure 45 and 46) in tap water W via inlet opening 307, similarly, also because of air A It can not be dissolved in tap water W, and the air A entered in pressurized chamber 208a is made also all to be gathered in the upper of pressurized chamber 208a In half portion space ((as shown in the enlarged view of Figure 46 and Figure 45), as 52 pushing tow diaphragm 70 of balance wheel is to the pressurized chamber After tap water W and air A in 208a are pressurized, because of the position drainage hole 308a of water-logged base 306a, higher than inlet opening 307 Position (as shown in figure 47), therefore air A quickly will push non-return glue open via drainage hole 308a with pressurized high pressure water Wp Pad 310, and enter in high pressure water chamber 206 (as shown in Figure 47 and its enlarged view), and via the water outlet of pump head lid 200 202 Promptly therefore 200 outside (as shown in figure 48) of discharge pump skull will not occur to rest in pump head because of air completely, be led The missing of the noise increasing and pump head output discharge reduction that cause pump head actuation generates.

In conclusion the utility model not to be construction and to increase under the benefit of whole volume production cost easily most, and reach Exhaust effect of three booster cavity diaphragm pumps really has high industrial usability and practicability.

Claims (2)

1. a kind of exhaust structure of three booster cavity diaphragm pumps, it is characterised in that: including,

One pump head lid, is a hollow shelly-shaped body, and outer edge surface is equipped with a water inlet, a water outlet and several fixed perforation, bottom By one of barrier wall inside face, the outer most edge area of space interval inside the face of pump head base will be located at and form high pressure water chamber, and made Central space region inside the pump head lid, it is synchronous that low pressure water chamber is formed by the barrier wall interval, wherein the high pressure water chamber It is connected with the water outlet of pump head lid, which is connected with the water inlet of pump head lid；And

One piston valve body is the triangle discoid body posted inside the bottom surface of pump head lid, towards inside the face of pump head base On top surface, also by one of barrier wall, it will be close to the area of space corral at top edge and form drainage seat, the barrier wall and pump head Barrier wall inside the face of base corresponds to each other, and close to barrier wall and is spaced apart from each other at the position of 120 degree of angles, projection on top surface There are three positioning hole collumn, on the piston valve body bottom surface centered on three positioning hole collumns, then set to the concave there are three water-logged base, It is equipped with several inlet openings between each water-logged base and top surface, and between each water-logged base and top surface corresponding to drainage seat position Several drainage holes are then equipped with, an inverted T shaped piston sheet has separately been placed in each positioning hole collumn, in the several drainage holes in everywhere On the top surface of position, then it is embedded with a non-return rubber mat, the several water inlets covered on water-logged base can be hindered by the inverted T shaped piston sheet Hole can hinder the several drainage holes covered on water-logged base by the non-return rubber mat.

2. the exhaust structure of three booster cavity diaphragm pumps of one kind as described in claim 1, it is characterised in that: the barrier of the pump head lid Wall top face center, has more plugged an annular seal adhesive tape.