CN106091496A - A kind of carbon dioxide coolant reservoir - Google Patents

Abstract

The invention discloses a kind of carbon dioxide coolant reservoir, including cylinder, upper end cover and bottom end cover, it is evenly arranged with supporting leg on the lateral surface of cylinder, cylinder be internally provided with cavity, it is provided with heat-insulation layer on the inwall of cylinder, diversion boosting device it is provided with in cavity, diversion boosting device includes locating ring, lower locating ring and deflector, upper locating ring is rotatably connected on auxiliary rod, auxiliary rod is fixedly connected on the top of upper end cover, lower locating ring connects upper locating ring by deflector, deflector finishes up connection the most successively, recoiling device it is provided with on bottom end cover.Present configuration is simple, practical, it is possible not only to realize pressure-increasing unit under the effect of unpowered diversion boosting device, reduce the energy loss of liquid, Environmental Safety, and spacing adjustment can be carried out according to the reservoir of different model size, prevent the liquid to needing conveying from polluting, good sealing effect simultaneously, can meet emission request while liquids and gases.

Description

A kind of carbon dioxide coolant reservoir

Technical field

The present invention relates to a kind of carbon dioxide coolant reservoir.

Background technology

Reservoir is the vitals of compressor of air conditioner, plays storage, gas-liquid separation, filtration, noise reduction and cold-producing medium buffering Effect, it is made up of parts such as cylinder, air inlet pipe, escape pipe, filter screens, and its operation principle is: reservoir is assemblied in sky Adjust vaporizer and compressor suction duct position, be to prevent liquid refrigerant from flowing into compressor and producing the guard block of liquid hammer.

Reservoir of the prior art needs after liquid external equipment to provide the power could be by the liquid in reservoir storing Body transports out, and energy expenditure is relatively big, easily causes the pollution of liquid in reservoir, and sealing effectiveness is poor.

Summary of the invention

Present invention aim at providing a kind of carbon dioxide coolant liquid storage for the deficiency existing for prior art The technical scheme of device, is possible not only to realize pressure-increasing unit under the effect of unpowered diversion boosting device, reduces the energy of liquid Loss, Environmental Safety, and spacing adjustment can be carried out according to the reservoir of different model size, prevent the liquid needing conveying Body pollutes, simultaneously good sealing effect, can meet emission request while liquids and gases.

In order to solve above-mentioned technical problem, the present invention adopts the following technical scheme that

A kind of carbon dioxide coolant reservoir, including cylinder, upper end cover and bottom end cover, upper end cover and bottom end cover respectively Be fixedly connected on the two ends up and down of cylinder, the lateral surface of cylinder be evenly arranged with supporting leg, cylinder be internally provided with cavity, its Being characterised by: be provided with heat-insulation layer on the inwall of cylinder, being provided with diversion boosting device in cavity, diversion boosting device includes Locating ring, lower locating ring and deflector, upper locating ring is rotatably connected on auxiliary rod, and auxiliary rod is fixedly connected on the top of upper end cover Portion, lower locating ring is positioned at the lower section of locating ring, and lower locating ring connects upper locating ring by deflector, and deflector depends on from top to bottom Secondary ending connects, and bottom end cover is provided with recoiling device；By the design of unpowered diversion boosting device, not only will not be to cylinder In liquid pollute, and decrease the energy loss of reservoir, after liquid enters cavity, liquid flowing velocity and Acting under the dual function of gravity on deflector, drive deflector to rotate, downward liquid flow simultaneously, when the liquid in cavity Time highly more than the position of lower location-plate, the unpowered pressure-increasing unit of liquid can be realized, Environmental Safety, upper locating ring and lower fixed Position ring has been effectively ensured the diversion boosting device stability when rotating, and prevents from clashing into the heat-insulation layer of cylinder, and heat-insulation layer is the most permissible Play insulation effect, it is ensured that in cavity, the temperature of liquid meets the requirement of setting, reduce the loss of liquid energy, be conducive to extending The storage time of bin, the ending of deflector connects design and can adjust according to the needs of different model size reservoir Whole, and then the upper spacing between locating ring and lower locating ring of regulation so that it is meet the production needs of different reservoir, enhance reality With property and motility, recoiling device can carry out recoil operation according to the viscosity of liquid in cavity, prevent liquid binder under The bottom of end cap and cause the blocking of connecting pipe component.

Further, upper end cover is provided with escape pipe assembly, inlet tube assembly and hanger, escape pipe assembly and inlet tube group Part is all connected on upper end cover by the first seal washer, and escape pipe assembly and inlet tube assembly are provided with the first rubber stopper Son, liquid is conveniently delivered to cavity and stores by inlet tube assembly, and the gas in cavity then can be discharged by escape pipe assembly Going out, the first seal washer improves the sealing effectiveness being connected between inlet tube assembly, escape pipe assembly and upper end cover, anti-major structure Becoming leakage, the first rubbery stopper can need to stopper according to actual operation.

Further, the lateral surface of cylinder is provided with watch window and display screen, can be seen intuitively by watch window The degree of depth of liquid in cavity, when the liquid in cavity flooded locating ring, by the first rubbery stopper block input port pipe group Part, prevents from affecting the service life of reservoir owing to liquid exceedes set depth, and display screen can be in real time to liquid in cylinder Capacity, temperature and pressure detect, improve safety during use.

Further, the lateral surface of cylinder being provided with outlet, outlet fixes connector drum, outlet by gripper shoe One end be provided with the second rubbery stopper, the other end of outlet is connected to the inside of bottom end cover by connecting pipe component, connect Being provided with the second seal washer between pipe assembly and bottom end cover, the end of connecting pipe component is rotationally connected lower locating ring, works as needs When using the carbon dioxide coolant in cylinder, only need to be opened by the second rubbery stopper, the liquid in cavity can be from connecting tube In assembly and outlet flow out, improve motility during use, the second seal washer can effectively prevent connecting pipe component with The junction of bottom end cover leaks, and improves safety.

Further, the center of upper locating ring is provided with column, and column connects upper locating ring, on column by overarm is fixing Being provided with spacing hole, spacing hole matches with auxiliary rod, and upper locating ring connects auxiliary rod by column, can make locating ring energy Rotating around auxiliary rod, overarm improves the bonding strength between column and upper locating ring, makes locating ring keep when rotated Balance.

Further, upper locating ring being provided with equal Gridding, equal Gridding can make the liquid of entrance cavity uniformly to divide Cloth flows, and the side stress preventing locating ring is excessive and causes inclination, and then affects the stability of whole diversion boosting device And reliability.

Further, deflector includes plate body and arc side plate, and arc side plate is fixedly connected on the end face of plate body, plate body Being provided with half slot and connecting hole on side, half slot is positioned at the center of the side of plate body, and connecting hole is symmetrically distributed in semicircle The both sides of groove, when liquid is flowed on the end face of plate body, can flow along the inner side of arc side plate, make the gravitational potential of liquid Can change into the kinetic energy of diversion boosting device as far as possible, it is achieved the conversion of energy, half slot not only alleviates the weight of plate body, and And improve the stability of deflector, connecting hole is easy to being stably connected with between adjacent two deflectors.

Further, the end face of plate body being provided with boosting block, boosting block triangular shape, the right-angle side of boosting block is towards liquid The side that body flows down, boosting block can increase the contact area with liquid, improves the liquid active force to deflector, helps simultaneously The right-angle side of pushing block directly contacts with liquid, further increases the power that deflector rotates, it is achieved the company of diversion boosting device Continuous rotation.

Further, being bolted between two adjacent deflectors, the angle between two deflectors is a, angle a In the range of 30～60, the production and processing of the reservoir of different model size can be met in this angular range, enhance The working range of reservoir.

Further, recoiling device includes casing and jet tray, and jet tray is fixedly connected on the end face of casing, on jet tray Being evenly arranged with spray-hole, be provided with supercharger in casing, the liquid in cavity is acted on by supercharger by spray-hole, real Now recoil scale removal, extends the service life of reservoir.

Due to the fact that and have employed technique scheme, have the advantages that

1, by the design of unpowered diversion boosting device, not only the liquid in cylinder will not be polluted, and subtract Lack the energy loss of reservoir, after liquid enters cavity, acted under the flowing velocity of liquid and the dual function of gravity On deflector, driving deflector to rotate, downward liquid flow simultaneously, when the liquid height in cavity is more than the position of lower location-plate Time, the unpowered pressure-increasing unit of liquid, Environmental Safety can be realized；

2, upper locating ring and lower locating ring have been effectively ensured the diversion boosting device stability when rotating, and prevent impacting tube The heat-insulation layer of body, heat-insulation layer then can play insulation effect, it is ensured that in cavity, the temperature of liquid meets the requirement of setting, reduces liquid The loss of physical ability, is conducive to extending the storage time of bin；

3, the ending connection design of deflector can be adjusted according to the needs of different model size reservoir, and then adjusts Spacing between locating ring and lower locating ring on joint so that it is meet the production needs of different reservoirs, enhance practicality and spirit Activity, when liquid is flowed on the end face of plate body, can flow along the inner side of arc side plate, make the gravitional force of liquid to the greatest extent May change into the kinetic energy of diversion boosting device, it is achieved the conversion of energy, half slot not only alleviates the weight of plate body, Er Qieti The high stability of deflector, connecting hole is easy to being stably connected with between adjacent two deflectors；

4, recoiling device can carry out recoil operation according to the viscosity of liquid in cavity, prevents liquid binder at bottom end cover Bottom and cause the blocking of connecting pipe component.

Present configuration is simple, practical, is possible not only to realize supercharging under the effect of unpowered diversion boosting device Conveying, reduces the energy loss of liquid, Environmental Safety, and can carry out spacing tune according to the reservoir of different model size Whole, prevent the liquid to needing conveying from polluting, good sealing effect simultaneously, while can meeting liquids and gases, discharge is wanted Ask.

Accompanying drawing explanation

The invention will be further described below in conjunction with the accompanying drawings:

Fig. 1 is the internal structure schematic diagram of the present invention a kind of carbon dioxide coolant reservoir；

Fig. 2 is the external structure schematic diagram of the present invention；

Fig. 3 is the top view of Fig. 2；

Fig. 4 is the structural representation of upper locating ring in the present invention；

Fig. 5 is the structural representation of deflector in the present invention；

Fig. 6 is the structural representation of recoiling device in the present invention.

In figure: 1-cylinder；2-cavity；3-heat-insulation layer；4-hanger；5-escape pipe assembly；6-inlet tube assembly；7-the first rubber Plug；8-the first seal washer；9-diversion boosting device；10-auxiliary rod；11-watch window；12-connecting pipe component；13- Outlet；14-gripper shoe；The upper locating ring of 15-；16-deflector；Locating ring under 17-；18-the second seal washer；19-recoils dress Put；20-supporting leg；21-upper end cover；22-bottom end cover；23-display screen；24-column；25-hangs oneself from a beam；26-spacing hole；27-all arranges net Lattice；28-plate body；29-arc side plate；30-half slot；31-connecting hole；32-boosting block；33-casing；34-jet tray；35-increases Depressor；36-spray-hole；37-the second rubbery stopper.

Detailed description of the invention

As shown in Figures 1 to 6, for one carbon dioxide coolant reservoir of the present invention, including cylinder 1, upper end cover 21 It is respectively fixedly connected with the two ends up and down at cylinder 1 with bottom end cover 22, upper end cover 21 and bottom end cover 22, upper end cover 21 is provided with out Trachea assembly 5, inlet tube assembly 6 and hanger 4, escape pipe assembly 5 and inlet tube assembly 6 are all connected by the first seal washer 8 On upper end cover 21, escape pipe assembly 5 and inlet tube assembly 6 are provided with the first rubbery stopper 7, inlet tube assembly 6 convenience Liquid being delivered to cavity 2 store, the gas in cavity 2 then can be emitted by escape pipe assembly 5, the first sealing gasket Circle 8 improves the sealing effectiveness being connected between inlet tube assembly 6, escape pipe assembly 5 and upper end cover 21, prevents from causing leakage, the One rubbery stopper 7 can need to stopper according to actual operation.

It is evenly arranged with supporting leg 20 on the lateral surface of cylinder 1, the lateral surface of cylinder 1 is provided with watch window 11 and display Screen 23, can see the degree of depth of liquid in cavity 2 intuitively by watch window 11, when the liquid in cavity 2 floods calmly During the ring 15 of position, by the first rubbery stopper 7 block input port pipe assembly 6, prevent from affecting reservoir owing to liquid exceedes set depth Service life, the capacity of liquid, temperature and pressure in cylinder 1 can be detected, improve use by display screen 23 in real time Time safety.

Being provided with outlet 13 on the lateral surface of cylinder 1, outlet 13 fixes connector drum 1 by gripper shoe 14, outlet One end of pipe 13 is provided with the second rubbery stopper 37, and the other end of outlet 13 is connected to bottom end cover 22 by connecting pipe component 12 Inside, be provided with the second seal washer 18 between connecting pipe component 12 and bottom end cover 22, the end of connecting pipe component 12 rotates Connect lower locating ring 17, when needing the carbon dioxide coolant in use cylinder 1, only the second rubbery stopper 37 need to be opened, Liquid in cavity 2 can flow out from connecting pipe component 12 and outlet 13, improves motility during use, and second seals Packing ring 18 can effectively prevent connecting pipe component 12 from leaking with the junction of bottom end cover 22, improves safety.

Cylinder 1 be internally provided with cavity 2, the inwall of cylinder 1 is provided with heat-insulation layer 3, be provided with in cavity 2 water conservancy diversion increase Pressure device 9, diversion boosting device 9 includes that locating ring 15, lower locating ring 17 and deflector 16, upper locating ring 15 are rotatably connected on On auxiliary rod 10, auxiliary rod 10 is fixedly connected on the top of upper end cover 21, and the center of upper locating ring 15 is provided with column 24, vertical Post 24 connects upper locating ring 15 by overarm 25 is fixing, and column 24 is provided with spacing hole 26, spacing hole 26 and auxiliary rod 10 phase Coupling, upper locating ring 15 connects auxiliary rod 10 by column 24, locating ring 15 can be made to rotate around auxiliary rod 10, overarm 25 improve the bonding strength between column 24 and upper locating ring 15, make locating ring 15 keep balance, upper location when rotated Being provided with equal Gridding 27 on ring 15, equal Gridding 27 can make the liquid of entrance cavity 2 can be uniformly distributed flowing, and it is fixed to prevent The side stress of position ring 15 is excessive and cause inclination, so affect under the stability of whole diversion boosting device 9 and reliability fixed Position ring 17 is positioned at the lower section of locating ring 15.

Lower locating ring 17 connects upper locating ring 15 by deflector 16, and deflector 16 finishes up connection the most successively, leads Stream plate 16 includes plate body 28 and arc side plate 29, and arc side plate 29 is fixedly connected on the end face of plate body 28, the side of plate body 28 On be provided with half slot 30 and connecting hole 31, half slot 30 is positioned at the center of the side of plate body 28, and connecting hole 31 is symmetrical In the both sides of half slot 30, when on the end face that liquid is flowed into plate body 28, can flow along the inner side of arc side plate 29, make The gravitional force of liquid changes into the kinetic energy of diversion boosting device 9 as far as possible, it is achieved the conversion of energy, and half slot 30 not only alleviates The weight of plate body 28, and improve the stability of deflector 16, connecting hole 31 is easy between adjacent two deflectors 16 Be stably connected with, the end face of plate body 28 be provided with boosting block 32, boosting block 32 triangular shape, the right-angle side of boosting block 32 towards The side that liquid flows down, boosting block 32 can increase the contact area with liquid, improves the liquid active force to deflector 16, The right-angle side of boosting block 32 directly contacts with liquid simultaneously, further increases the power that deflector 16 rotates, it is achieved water conservancy diversion increases The continuous rotation of pressure device 9, is bolted between two adjacent deflectors 16, and the angle between two deflectors 16 is A, angle a, in the range of 30～60, can meet the production and processing of the reservoir of different model size in this angular range, Enhance the working range of reservoir.

Being provided with recoiling device 19 on bottom end cover 22, recoiling device 19 includes casing 33 and jet tray 34, and jet tray 34 is solid Surely it is connected on the end face of casing 33, jet tray 34 is evenly arranged with spray-hole 36, in casing 33, be provided with supercharger 35, increase Liquid in cavity 2 is acted on by depressor 35 by spray-hole 36, it is achieved recoil scale removal, extends the use longevity of reservoir Life；By the design of unpowered diversion boosting device 9, not only the liquid in cylinder 1 will not be polluted, and decrease storage The energy loss of liquid device, after liquid enters cavity 2, acts on deflector under the flowing velocity of liquid and the dual function of gravity On 16, driving deflector 16 to rotate, downward liquid flow simultaneously, when the liquid height in cavity 2 is more than the position of lower location-plate Time, the unpowered pressure-increasing unit of liquid, Environmental Safety, upper locating ring 15 and lower locating ring 17 can be realized water conservancy diversion has been effectively ensured The pressurizer 9 stability when rotating, prevents from clashing into the heat-insulation layer 3 of cylinder 1, and heat-insulation layer 3 then can play insulation effect, protects In card cavity 2, the temperature of liquid meets the requirement of setting, reduces the loss of liquid energy, when being conducive to the storage extending bin Between, the ending of deflector 16 connects design and can be adjusted according to the needs of different model size reservoir, and then in regulation Spacing between locating ring 15 and lower locating ring 17 so that it is meet the production needs of different reservoir, enhance practicality and spirit Activity, recoiling device 19 can carry out recoil operation according to the viscosity of liquid in cavity 2, prevent liquid binder at bottom end cover 22 Bottom and cause the blocking of connecting pipe component 12.

Embodiment 1

First the first rubbery stopper 7 on escape pipe assembly 5 and the second rubbery stopper 37 on outlet 13 are stoppered, so After open the first rubbery stopper 7 of inlet tube assembly 6, inlet tube assembly 6 is connected with external pipe, liquid can be delivered to Cylinder 1 is internal, and liquid flows to, on the equal Gridding 27 on locating ring 15, drip under gravity, the liquid of drippage Act on the boosting block 32 on deflector 16 and arc side plate 29, drive deflector 16 to rotate, and then drive whole unpowered Diversion boosting device 9 rotates, and when the liquid in cavity 2 flooded lower location-plate, opens the second rubber stopper on outlet 13 Son 37, can realize storing carrying, and meets actual operation needs, and can be with real-time monitored chamber by display screen 23 The pressure of liquid, temperature and flowing velocity in body 2；Liquid conveying can be pointed to bottom end cover 22 by recoiling device 19 after terminating The liquid of bottom recoils, and prevents it to be bonded in bottom and cause corrosion, uses the first rubbery stopper 7 and second after terminating Rubbery stopper 37 stoppers.

Embodiment 2

First the first rubbery stopper 7 on escape pipe assembly 5 and the second rubbery stopper 37 on outlet 13 are stoppered, so After open the first rubbery stopper 7 of inlet tube assembly 6, inlet tube assembly 6 is connected with external pipe, liquid can be delivered to Cylinder 1 is internal, and liquid flows to, on the equal Gridding 27 on locating ring 15, drip under gravity, the liquid of drippage Act on the boosting block 32 on deflector 16 and arc side plate 29, drive deflector 16 to rotate, and then drive whole unpowered Diversion boosting device 9 rotates, when the liquid in cavity 2 flooded location-plate, by the first rubber stopper on inlet tube assembly 6 Son 7 stoppers, the first rubber on the second rubbery stopper 37 opening on outlet 13 when needing and using liquid and escape pipe assembly 5 Plug 7, liquid just carries out booster action to the boosting block 32 deflector 16 and arc side plate 29 from starting to flow, drives whole Individual diversion boosting device 9 rotates, and then realizes the pressure-increasing unit to liquid, meets actual operation needs, and passes through display screen 23 can be with the pressure of liquid, temperature and flowing velocity in real-time monitored cavity 2；Liquid conveying can by recoiling device 19 after terminating Recoil with the liquid being pointed to bottom bottom end cover 22, prevent it to be bonded in bottom and cause corrosion, use the after terminating One rubbery stopper 7 and the second rubbery stopper 37 stopper.

The technical parameter of the present invention requires as follows:

1, design pressure 7～10MPa；

2, resistance to pressure pressure 10～15MPa, intensity pressure 22～27MPa；

3, cylinder 1 requires when welding with end cap: within first 5 seconds, start to welding latter 5 seconds to want inflated with nitrogen from welding；

4, vessel surface (except pipe arrangement) uses blacking electrostatic spraying, coated film thickness to should be greater than 30 μm, paints after spraying Film surface must not have substantially scuffing, (each pipe arrangement does not sprays) from the mouth of pipe 20～30mm；

5, before spraying paint film, vessel surface answers the hard defect such as impulse-free robustness, sharp edge；

6, should be without the defects such as rusty stain, solder flux, dust, water mark, internal residual foreign body 200mg/m inside and outside container²Hereinafter, wherein Blacklead, ferrum will be at 20200mg/m²Hereinafter, remnant of moisture content is at 27mg/m²Below+6mg；

7, container is dried, pours 0.02～0.05MPa nitrogen, each mouth of pipe encapsulation rubber stopper after evacuation-0.01MPa Son.

These are only the specific embodiment of the present invention, but the technical characteristic of the present invention is not limited thereto.Any with this Based on bright, for realizing essentially identical technique effect, done ground simple change, equivalent or modification etc., all contain Among protection scope of the present invention.

Claims (10)

1. a carbon dioxide coolant reservoir, including cylinder, upper end cover and bottom end cover, described upper end cover and described lower end Lid is respectively fixedly connected with the two ends up and down at described cylinder, and the lateral surface of described cylinder is evenly arranged with supporting leg, described cylinder Be internally provided with cavity, it is characterised in that: be provided with heat-insulation layer on the inwall of described cylinder, in described cavity, be provided with water conservancy diversion Pressurizer, described diversion boosting device includes that locating ring, lower locating ring and deflector, described upper locating ring are rotatably connected on On auxiliary rod, described auxiliary rod is fixedly connected on the top of described upper end cover, and described lower locating ring is positioned at described upper locating ring Lower section, described lower locating ring connects described upper locating ring, the described deflector company of ending the most successively by described deflector Connect, described bottom end cover is provided with recoiling device.

A kind of carbon dioxide coolant reservoir the most according to claim 1, it is characterised in that: set on described upper end cover It is equipped with escape pipe assembly, inlet tube assembly and hanger, described escape pipe assembly and described inlet tube assembly all to seal by first Packing ring is connected on described upper end cover, and described escape pipe assembly and described inlet tube assembly are provided with the first rubbery stopper.

A kind of carbon dioxide coolant reservoir the most according to claim 1, it is characterised in that: the outside of described cylinder Watch window and display screen it is provided with on face.

A kind of carbon dioxide coolant reservoir the most according to claim 1, it is characterised in that: the outside of described cylinder Being provided with outlet on face, described outlet connects described cylinder by gripper shoe is fixing, and one end of described outlet is provided with Second rubbery stopper, the other end of described outlet is connected to the inside of described bottom end cover, described connection by connecting pipe component Being provided with the second seal washer between pipe assembly and described bottom end cover, the end of described connecting pipe component is rotationally connected described lower fixed Position ring.

A kind of carbon dioxide coolant reservoir the most according to claim 1, it is characterised in that: described upper locating ring Center is provided with column, and described column connects described upper locating ring by overarm is fixing, and described column is provided with spacing hole, Described spacing hole matches with described auxiliary rod.

A kind of carbon dioxide coolant reservoir the most according to claim 5, it is characterised in that: on described upper locating ring It is provided with equal Gridding.

A kind of carbon dioxide coolant reservoir the most according to claim 1, it is characterised in that: described deflector includes Plate body and arc side plate, described arc side plate is fixedly connected on the end face of described plate body, the side of described plate body is provided with Half slot and connecting hole, described half slot is positioned at the center of the side of described plate body, and described connecting hole is symmetrically distributed in described The both sides of half slot.

A kind of carbon dioxide coolant reservoir the most according to claim 7, it is characterised in that: the end face of described plate body On be provided with boosting block, described boosting block triangular shape, the side that the right-angle side of described boosting block flows down towards liquid.

A kind of carbon dioxide coolant reservoir the most according to claim 7, it is characterised in that: described in adjacent two Being bolted between deflector, the angle between two described deflectors is a, and described angle a is in the range of 30～60.

A kind of carbon dioxide coolant reservoir the most according to claim 1, it is characterised in that: described recoiling device Including casing and jet tray, described jet tray is fixedly connected on the end face of described casing, and described jet tray is evenly arranged with Spray-hole, is provided with supercharger in described casing.