CN1846098A

CN1846098A - Expansion tank with double diaphragm

Info

Publication number: CN1846098A
Application number: CNA2004800254676A
Authority: CN
Inventors: 罗伯特·隆巴里
Original assignee: Flexcon Ind
Current assignee: Flexcon Ind
Priority date: 2003-07-22
Filing date: 2004-07-19
Publication date: 2006-10-11
Anticipated expiration: 2024-07-19
Also published as: CN100430655C

Abstract

A double-diaphragm bladder. The bladder comprises a non-flexible diaphragm having a peripheral edge and a flexible diaphragm having a peripheral edge. The non-flexible diaphragm has an aperture adapted and constructed to be connected to a liquid port, and the peripheral edges of the non-flexible diaphragm and the flexible diaphragm are sealed together. The bladder is suitable for use in an expansion tank.

Description

Expansion tank with two barrier films

Present patent application requires the 60/489th of submission on July 22nd, 2003, the 60/489th of submission on July 22nd, No. 061 1, submit in No. 056 and on July 24th, 2003 the 60/489th, the priority of No. 644 U.S. Provisional Patent Application cases, the content of each of described patent application case is incorporated herein by reference.

Technical field

The invention relates to a membrane becomes expanded water tank and the exemplary flow-through connector that is used for this.

Background technology

Known expansion tank is used for running system flowing with control liquid under the pressure that changes.Usually, expansion tank comprises one and contains the cylindrical or spherical shell of being essentially of a capsule types of diaphragms, and described capsule types of diaphragms is divided a liquid regions and a gas-pressurized zone.For the generality discussion of expansion tank and capsule types of diaphragms, see also the 4th, 784, No. 181 United States Patent (USP)s that are entitled as " Expansion Tank with a Bladder-Type Diaphragm " of Hilverdink.

Expansion tank has a nozzle usually, and liquid passes through described nozzle inflow according to the stress level of being controlled by the pucker ﹠ bloat of internal diaphragm and flows out.The expansion tank that many mechanisms require to be used for drinking water comprises such equipment, and promptly it guarantees that water can be by described water tank circulation, and when water tank " sky " in water tank the minimum water that does not in fact have delay.

Summary of the invention

On the one hand, the present invention is seed capsules.Described capsule comprises a non-flexible diaphragm, described non-flexible diaphragm have a peripheral edge and once adjust and through construction to receive the hole of first-class logical connector; With a flexible partition with a peripheral edge.The described peripheral edge of described non-flexible diaphragm and flexible partition seals each other to form one around seam.The described peripheral edge of described non-flexible diaphragm and described flexible partition is heat seal mutually.Described capsule can further comprise a clench ring.Using the clench ring place, the described peripheral edge of described non-flexible diaphragm comprises one around depression, and the described peripheral edge of described flexible partition comprises one around rib.Described around depression and described around the rib engagement, and the described peripheral edge of described non-flexible diaphragm and described flexible partition is clipped together by described clench ring.

On the other hand, the present invention is a kind of expansion tank.Described expansion tank comprises: a shell, and it has a sidewall and relative end wall; First-class logical connector; With a capsule that is placed in the described shell.Described capsule comprises: a non-flexible diaphragm and with a peripheral edge has the flexible partition of a peripheral edge.Described non-flexible diaphragm is between described circulation connector and described flexible partition, and described non-flexible diaphragm has a hole that is connected to described shell or described circulation connector, makes described circulation connector provide fluid flow between the inside of the outside of described expansion tank and described capsule.The described peripheral edge of described non-flexible diaphragm and described flexible partition seals each other forming one around seam, and the space in the described capsule and the space between described capsule and the described shell are fluid isolation.

Described circulation connector can comprise the joint with first and second ends.Described first end has a plurality of protuberances, and described protuberance can be operated so that described joint is fastened to described capsule between an insertion position and a restraint location.Described circulation connector can further comprise: one first retainer ring, its be fixedly attached to described joint and be placed in described capsule and described shell between; One second retainer ring, it is placed in around the described joint and in described capsule; One the one O shape ring, it is placed between described first retainer ring and the described capsule; With one the 2nd O shape ring, it is placed between described second retainer ring and the described capsule.At described restraint location place, described protuberance is pressed to described first retainer ring producing a sealing with described second retainer ring, and described sealing prevents to have fluid flow between the inside of described capsule and the space between described capsule and the described shell.

In an alternate embodiment, described circulation connector comprises: a non-rotating diversion member, and it defines a center high pressure flow channel; One low pressure flow pass, it is placed in around the flow channel of described center in concentric mode; With all thread paths, water passes described all thread paths and flows out in the described capsule from described flow channel, and contain a plurality of inlets that enter described low pressure flow pass, described low pressure flow pass has a total cross-sectional area that is less than or equal to total cross-sectional area of described flow channel.When described flexible partition and described lid offset, described capsule comes down to empty, and described water tank through adjust and through construction so that water circulation, make the second portion that enters the water of described water tank after the first of the water that enters water tank leave before the described water tank, described water tank leaves in the first of water.The plane that enters opening of described high pressure flow channel is oriented orthogonal to the outflow opening of described flow channel.

According to circumstances, described therein capsule comprises among the embodiment of a clench ring, wherein said clench ring is clipped together the described peripheral edge of described flexible partition and described non-flexible diaphragm, can be perpendicular to the center line of described expansion tank by the plane that described clench ring forms.The shell of described water tank can comprise inside projection, described projection is arranged in the plane perpendicular to the center line of described expansion tank, and itself and fluid port are separated by a distance, make the described clench ring of described capsule between described fluid port and described inside protruding residing described plane.Usually, described inside projection projects inward to and prevents that described clench ring from moving along the center line of described expansion tank, but it does not project inward to the expansion that obviously prevents described second barrier film.

Description of drawings

Specific embodiment shown in the reference diagram of the present invention and being described.Embodiment among the figure shows in the mode of example and and does not mean that by any way and limit.

Fig. 1 is the figure of a specific embodiment of capsule of the present invention.

Fig. 2 is the enlarged drawing of the part of Fig. 1.

Fig. 2 A is the enlarged drawing of the part of Fig. 1.

Fig. 3 is schematically illustrating according to an expansion tank of one embodiment of the invention.

Fig. 4 A is the schematically illustrating an of part of the capsule shown in Fig. 1.

Fig. 4 B is capsule the schematically illustrating when its collapse state of describing among Fig. 1.

Fig. 5 is the cross-sectional illustration that is used for a joint is attached to the flow-through nozzle attachment of a barrier film according to one embodiment of the invention.

Fig. 5 A is the enlarged drawing of the flow-through nozzle attachment shown in Fig. 5.

Fig. 6 is the schematic diagram according to a flow-through diverter equipment of one embodiment of the invention.

The specific embodiment

Be illustrated in the capsule 10 under the swelling state among Fig. 1.Capsule 10 comprises one first non-flexible diaphragm 12 and one second flexible partition 14.Described capsule also has a hole 16.The peripheral edge 18 and 20 of first barrier film and second barrier film is connected to each other respectively to form a sealing.Protrude among the embodiment (also can consult Fig. 2) of outside peripheral edge 18 and 20 in displaying, peripheral edge 18 and 20 offsets each other and is clipped together by clench ring 22.As shown in Fig. 2 A, the peripheral edge 20 of flexible partition 14 has one around rib 24, around meshing to obtain a sealing around depression 26 on the peripheral edge 18 of rib 24 and non-flexible diaphragm 12.

In an alternate embodiment, the peripheral edge heat-sealing of non-flexible diaphragm 12 and flexible partition 14.In this embodiment, do not need to make the peripheral edge of described barrier film to clip together or have one around rib or groove.

Described non-flexible diaphragm can be made by a relative harder polymer.When capsule 10 was used to hold drinking water, described polymer preferably can be used for food through approval, or it is nontoxic, non-carcinogenic and non-mutagenesis, and it does not make these materials stay in the water.The exemplary materials that is used to make non-flexible diaphragm 12 includes, but is not limited to polypropylene, special rich Long, nylon, poly-(alkylene) terephthalate, polyformaldehyde, polystyrene, polymethyl methacrylate, Merlon and poly-hexyl isocyanates.

Described second flexible partition can be made by a flexible flexible polymer.When capsule 10 was used to hold drinking water, described polymer preferably can be used for food through the approval of suitable government organs, or it is nontoxic, non-carcinogenic and non-mutagenesis, and it does not make these materials stay in the water.The exemplary materials that is used to make flexible partition 14 includes, but is not limited to isobutene, polybutadiene, dimethyl silicone polymer, poly-(suitable-1,4-isoprene), poly-(anti--1,4-isoprene) and thermoplastic elastomer.

Capsule 10 of the present invention is suitable in the expansion tank.One exemplary tank 110 comprises a core 40, and described core 40 defines the sidewall of water tank 110.Core 40 is covered to form a shell 46 (Fig. 3) by first dome 42 and second dome 44.The those skilled in the art also will understand shell 46 and can be formed or had other configuration by two domes that weld together.Capsule 10 is positioned at shell 46.When it was sky, the gas pressure between shell 46 and the capsule 10 offseted and collapse flexible partition 14 and non-flexible diaphragm 12.

In one embodiment, when liquid when capsule 10 is discharged, seal the hole 16 of non-flexible diaphragm 12 fully for preventing flexible partition 14, the liner 28 (Fig. 4 A) that then makes flexible partition 14 have many projectioies in the inside relative with hole 16, liquid can flow into the capsules from hole 16 by groove 29 between described liner.Liner 28 prevents to produce vacuum between two barrier films.The compressive state of the capsule of describing in Fig. 4 B exploded view 1 10.When liquid entered capsule 10, it was exerted pressure on the inside of capsule 10, and flexible partition 14 is expanded.This expands gas is compressed in the space between flexible partition 14 and the shell 46.When the fluid pressure in the capsule 10 during less than gas pressure, gas expands and also promotes flexible partition 14, makes supporting non-flexible diaphragm 12 and collapse and discharge liquid.The operation of those skilled in the art's known diaphragm expansion tank and the 4th, 784, describing in No. 181 United States Patent (USP)s has this operation.

For entering in the capsule 10, water must be by the opening in the shell 46 and the hole 16 of non-flexible diaphragm 12.One by shell 46 (for example, by second dome 44), and the one end is attached to flow-through nozzle attachment that non-flexible diaphragm 12 and the other end be attached to a pipe or other device in the mode of sealing in the mode of sealing and allows water to flow into or flow out capsule 10 and can not enter space between capsule 10 and the shell 46 from described pipe.The exemplary flow-through nozzle adapter that uses with capsule 10 has description the 4th, 784 in No. 181 United States Patent (USP)s, and the those skilled in the art will be familiar with other circulation annex of being fit to use with the present invention.In an alternate embodiment, can utilize the flow-through nozzle attachment of describing among Fig. 5 120.

As shown in Figure 5, and in Fig. 5 A that amplifies, joint 50 extends through non-flexible diaphragm 12 and enters in the capsule 10 to allow liquid.As shown in Fig. 5 A, joint 50 is through locating to extend through shell 46.In shell 46, joint 50 further extends through capsule 10 is fastened on first retainer ring 52 and second retainer ring 54 between it.O shape ring 56 is as the water-tight equipment of the interface of the capsule 10 with first retainer ring 52 and second retainer ring 54.The face down bonding of the most close shell 46 of joint 50 is received first retainer ring 52.In one embodiment, O shape ring is made by Viton , and joint 50 and retainer ring 52 and 54 are made by stainless steel.

Joint 50 comprises at least one protuberance 60 at the one end, and protuberance 60 can be by making with the material identical materials of making joint 50.Protuberance 60 can be an integrated part of joint 50.Fig. 5 illustrates that 60, the four protuberances of three described protuberances are not shown.Protuberance 60 terminal in position fastening with joint 50 through being designed to operate.When passing first retainer ring 52, capsule 50 and second retainer ring 54 and insert joints 50, protuberance 60 is folded in the position contacting the outer rim of second retainer ring 54, and is supporting second retainer ring 54 and fastening 50.In case joint 50 in position, liquid just can enter in the capsule 10 by it and can not leak in the space between shell 46 and the capsule 10.

Be understood by those skilled in the art that flow-through nozzle attachment 120 also can be used with the capsule and the diaphragm tanks of prior art, rather than only uses with invention capsule as herein described.Flow-through nozzle attachment 120 can be used for that an expansion tank (for example, utilizing the expansion tank of capsule 10) is connected to one and wherein exists in the system of some liquid, such as water pipe system or hot water supply system.

Be used to hold potable water at capsule, the circulation that needs promotion water to pass capsule 10 makes water enter and leave capsule based on first in first out (FIFO) rather than based on last in, first out (LIFO).Even the circulation of water has defective, that is, water is combined into and leaves capsule with some of FIFO and LIFO, and the circulation that is increased still reduces water and resides in time in the capsule, and the stagnation that becomes of anti-sealing.Can be used for promoting that the exemplary current divider of water circulation comprises by the 6th, 343, the current divider that the current divider of No. 622 United States Patent (USP) announcements and other those skilled in the art are familiar with.

In an alternate embodiment, capsule 10 uses with the current divider shown in Fig. 6 130.The diversion member 70 of flow-through diverter equipment 130 is arranged in a main liquid flow path with towards a upstream direction.In one embodiment, diversion member 70 is similar to one and draws equipment.

Diversion member 70 is set up inlet circulation flow path 72 so that liquid is redirect in the capsule 10 from described main liquid flow path.The interior cylindrical path that inlet circulation flow path 72 moves for the longitudinal axis along flow-through diverter equipment 130.The design of diversion member 70 and inlet circulation flow path 72 allows a High-Pressure Water to enter in the capsule 10.

Water passes discharge currents path 76 and flows out capsule 10 via discharging inlet 74.In one embodiment, discharge currents path 76 with around mode be configured in the inlet circulation flow path 72 around.In another embodiment, flow-through diverter 130 has around the single annular row outlet flow passage 76 of inlet circulation flow path 72.A plurality of discharge inlets 74 all import water in the described single discharge distribution channel 76.Water enters in the main liquid flow path from discharge currents path 76.Discharging distribution channel 76 does not need to extend in the main liquid flow path of conduct inlet circulation flow path 72.

As shown in Figure 6, the part of the flow-through diverter 130 of the top of inlet circulation flow path 72 and support discharge inlet 74 can be shaped according to " honeycomb hat " design.When capsule 10 was sky, this round-shaped helps flexible diaphragm 14 met the apparent surface of capsule 10.When propping up non-flexible diaphragm 12, help the conforming to of described two barrier films to guarantee all water when empty and discharge from capsule when capsule when flexible partition 14 pressurizeds.Equally, " honeycomb hat " shape water of helping to enter empty pocket 10 at first moves away from inflexibility capsule 12 with flexible partition 14.

Be understood by those skilled in the art that flow-through diverter 130 is except also using with other pair diaphragm tanks with two diaphragm tanks disclosed herein are used.In addition, flow-through diverter 130 also can be used with single diaphragm tanks.

As shown in Figure 6, flow-through diverter 130 substituting circulation mechanism offer circulation nozzle 120.Retaining

element

80 and 82 is fastened to flow-through diverter 130 on the non-flexible diaphragm 12.

Consider the specification or the practice of present invention disclosed herein, other embodiment is conspicuous to those of ordinary skill in the art.Only wish described specification and example are considered as exemplary, real category of the present invention and spirit are specified by above claims.

Claims

1. capsule that is used for an expansion tank, it comprises:

One non-flexible diaphragm, its have a peripheral edge and once adjust and through construction to receive the hole of first-class logical connector; With

One flexible partition, it has a peripheral edge,

The described peripheral edge of wherein said non-flexible diaphragm and flexible partition seals each other to form one around seam.

2. capsule according to claim 1, the described peripheral edge of wherein said non-flexible diaphragm and described flexible partition is heat seal each other.

3. capsule according to claim 1, it further comprises a clench ring, the described peripheral edge of wherein said non-flexible diaphragm comprises one around depression, and the described peripheral edge of described flexible partition comprises one around rib, and wherein said around depression and described around the rib engagement, and the described peripheral edge of described non-flexible diaphragm and described flexible partition is clipped together by described clench ring.

4. expansion tank, it comprises:

One shell, it comprises a sidewall and opposite end walls;

First-class logical connector; With

One capsule, it is placed in the described shell, and described capsule comprises:

One non-flexible diaphragm and with a peripheral edge has the flexible partition of a peripheral edge, described non-flexible diaphragm is between described circulation connector and described flexible partition, and described non-flexible diaphragm is connected to one in described shell and the described circulation connector, make described circulation connector between an inside of an outside and described capsule of described water tank, provide fluid flow, the described peripheral edge of wherein said non-flexible diaphragm and described flexible partition seals each other forming one around seam, and the space in the wherein said capsule and the space between described capsule and the described shell are fluid isolation.

5. expansion tank according to claim 4, wherein said circulation connector comprises:

One joint, it has first end and second end, and described first end comprises a plurality of protuberances;

Wherein said protuberance can be operated so that described joint is fastened to described capsule between an insertion position and a restraint location.

6. expansion tank according to claim 5, wherein said circulation connector further comprises:

One first retainer ring, its be fixedly attached to described joint and be placed in described capsule and described shell between;

One second retainer ring, it is placed in around the described joint and in described capsule;

One the one O shape ring, it is placed between described first retainer ring and the described capsule; With

One the 2nd O shape ring, it is placed between described second retainer ring and the described capsule,

Wherein, in described restraint location, described protuberance is pressed to described first retainer ring producing a sealing with described second retainer ring, and described sealing prevents to have fluid flow between the space between inner and a described capsule and the described shell of described capsule.

7. expansion tank according to claim 4, wherein said circulation connector comprises:

One center high pressure flow channel, it is defined by a non-rotating diversion member;

At least one low pressure flow pass, its with around mode be placed in around the described diversion member; With

One contour lid, water passes described contour lid and flows out in the described capsule from described center high pressure flow channel, and contain a plurality of inlets that enter described low pressure flow pass, described low pressure flow pass has a total cross-sectional area that is less than or equal to total cross-sectional area of described flow channel

Wherein, when described flexible partition and described lid offset, described capsule comes down to empty, and described water tank through adjust and through construction so that water circulation, before making that a second portion that enters the water of described water tank after a first of the water that enters described water tank leaves described water tank, described water tank leaves in the described first of water.

8. expansion tank according to claim 7, the plane of an inlet opening of wherein said flow channel is oriented orthogonal to the plane of an exit opening of described flow channel.