CN206420127U - Constant temperature and humidity unit - Google Patents
Constant temperature and humidity unit Download PDFInfo
- Publication number
- CN206420127U CN206420127U CN201720019267.4U CN201720019267U CN206420127U CN 206420127 U CN206420127 U CN 206420127U CN 201720019267 U CN201720019267 U CN 201720019267U CN 206420127 U CN206420127 U CN 206420127U
- Authority
- CN
- China
- Prior art keywords
- air
- storage groove
- air blade
- liquid storage
- blade
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Abstract
The utility model discloses a kind of constant temperature and humidity unit, the constant temperature and humidity unit includes body, the body is provided with air outlet, return air inlet, and the lower section for being provided with out at air outlet on air blade, the body and being located at air blade provided with liquid storage groove and the liquid storage groove at air outlet is located on the body;It is described go out air blade be provided with and be used to that the water conservancy diversion raised line that the condensate liquid on air blade is drained to inside liquid storage groove will to be gone out, have the condensate liquid on air blade by centralized collection after water conservancy diversion in liquid storage groove so that the condensate liquid processing more easily advantage gone out on air blade.Increase out the surface area of air blade so that go out on air blade to be easier accumulation condensate liquid so that go out air blade has certain effect on moisture extraction to the air for being blown into interior, reduces the constant temperature and humidity machine to the energy consumption in terms of indoor air dehumidification.
Description
Technical field
The utility model is related to indoor air conditioner field, more particularly to a kind of constant temperature and humidity unit.
Background technology
Constant temperature and humidity machine is in addition to adjusting air themperature, also with functions such as humidity regulation, dedustings, predominantly electronics zero
Experiment offer steady damp heat, complicated high/low temperature alternation of each link etc. are being researched and developed, producing and examined to part, industrial materials, finished product
Experimental enviroment and experimental condition, it is adaptable to the every profession and trade such as electronic apparatus, communication, chemical industry, hardware, rubber, toy.
The Chinese patent that Authorization Notice No. is CN203704154U, authorized announcement date is on 07 09th, 2014 discloses one
Constant temperature and humidity unit is planted, it includes heating component, cooling assembly and compressor.Prior art cold wind in refrigeration blows from air outlet
Go out to get in reach to indoor cooling-down effect.
The air blade that goes out that the cold wind blown out from air outlet can also be pointed to air outlet cools, so that at air outlet
The temperature for going out air blade and air outlet edge be less than the temperature of indoor moisture air, then when indoor humid air and air outlet
Moisture when going out air blade or air outlet EDGE CONTACT in indoor moisture air at place can be condensed on the blade of air outlet.These
Condensed water can be flowed down along body after gathering, and damage is caused to the parts thereof of body.
Utility model content
The purpose of this utility model is to provide a kind of constant temperature and humidity unit, which solve go out at air outlet it is cold on air blade
The problem of lime set processing trouble, with the condensate liquid centralized collection condensed in out on air blade can be collected and convenient processing it is excellent
Point.
Above-mentioned technical purpose of the present utility model technical scheme is that:
A kind of constant temperature and humidity unit, including inner body, the body are provided with air outlet, return air inlet, and the body is upper
It is provided with out at air outlet on air blade, the body at air outlet and is provided with liquid storage groove, and the liquid storage groove is located at fan blade
The lower section of piece;It is described go out air blade be provided be used to that the water conservancy diversion that the condensate liquid on air blade is drained to inside liquid storage groove will to be gone out it is convex
Bar.
Using said structure, going out setting water conservancy diversion raised line on air blade, when going out that condensation has condensate liquid on air blade because
The amount for the condensate liquid that condensate liquid single is produced is less, so condensate liquid can be transported when going out and being moved on air blade along water conservancy diversion raised line
Move, and the drainage for measuring less liquid is better than the drainage effect of groove by raised drainage effect.In the case where going out air blade
Side is provided with liquid storage groove so that going out the condensate liquid on air blade can be drained in liquid storage groove by water conservancy diversion raised line, realizes to condensation
The centralized collection of liquid facilitates the processing to condensate liquid, reduces adverse effect of the condensate liquid for body.
More preferably:The water conservancy diversion raised line has a plurality of, and each water conservancy diversion raised line is obliquely installed.
Using said structure, a plurality of water conservancy diversion raised line is provided with air blade going out, can be located at cold on air blade
Lime set is most of all can be by water conservancy diversion raised line institute water conservancy diversion so that the condensate liquid gone out on air blade by water conservancy diversion more thoroughly.It is obliquely installed
So that the condensate liquid on water conservancy diversion raised line is easier to flow under the drainage of water conservancy diversion raised line, reduces condensate liquid and largely accumulate
Gather the occurrence of causing condensate liquid not by water conservancy diversion raised line water conservancy diversion.
More preferably:It is described go out air blade middle part outwardly convex set, and it is described go out air blade outwardly convex
Part is arc.
Using said structure, the surface area of air blade is on the one hand increased out so that go out on air blade and be easier to be condensed out
Condensate liquid, so as to there is certain effect on moisture extraction to room air.On the other hand the upper surface for going out air blade is arcuate structure so that
The condensate liquid for being located at air blade upper surface is more prone to slide on the surface for go out air blade.
More preferably:It is described go out air blade top covered with being bound with the circular arc or taper of its integrally connected,
The junction of the side bound and go out air blade is set to be round and smooth.
Using said structure, when the top for going out air blade bind condensation have condensate liquid when, condensate liquid can be along the circle bound
Arc or pyramidal structure slide downward, so as to slide into out on the side surface of air blade.The connection bound with air-out blade side
Place is round and smooth cause condensate liquid from bind the side for sliding into out air blade when it is more smooth, the condensate liquid largely slided will not be from
The junction bound and go out air blade is directly dripped, and facilitates out the collection of condensate liquid on air blade.
More preferably:The liquid storage groove is removable to be arranged on body.
It can be collected using said structure, in liquid storage groove from the condensate liquid that is dripped on air blade is gone out, liquid storage groove and body are removable
Connection so that the condensate liquid in liquid storage groove can focus on and shift the easy to operate of the condensate liquid in liquid storage groove.
More preferably:The liquid storage groove is wholely set with body and the bottom land of the liquid storage groove is set diagonally downward,
The minimum point of liquid storage groove offers outage, and the outage is connected with drainage catheter, and the drainage catheter is provided with keying valve.
Using said structure, liquid storage groove and body are wholely set so that the air-tightness between liquid storage groove and body inwall
More superior, the bottom land of the liquid storage groove is obliquely installed and the minimum point of its bottom land is provided with outage and drainage catheter so that deposited
Condensate liquid in liquid bath can be discharged at any time so that the processing of condensate liquid it is simpler with it is convenient, and reduce and accumulate in
The amount of condensate liquid in liquid storage groove so that more clean hygiene inside liquid storage groove, the setting for opening and closing valve causes the constant temperature and humidity
The air that unit exposes when opening from drainage catheter is reduced, and adds the air-tightness between liquid storage groove and body.
More preferably:Sealing block is provided between the liquid storage groove and body.
Using said structure, when liquid storage groove is removable, can there is portion void between liquid storage groove and body, liquid storage groove with
Sealing block is provided between body so that space between liquid storage groove and body reduces, and largely reduces the gas in space
Body flows, so that the temperature of the gap of liquid storage groove and body is tried one's best close with indoor temperature, reduces as far as possible in liquid storage
The issuable condensate liquid in gap of groove and body.
In summary, the utility model has the advantages that:Go out air blade provided with going out air blade for water conservancy diversion
Condensate liquid water conservancy diversion raised line so that the flow direction of the most of condensate liquid gone out on air blade can control, in the case where going out air blade
Provided with liquid storage groove so that the condensate liquid gone out on air blade can be facilitated focusing on for condensate liquid by centralized collection.Go out air blade
Top is bound for taper or circular arc, and is set to be round and smooth with going out the sidepiece junction of air blade so that be condensate in out fan blade
The condensate liquid on piece top can flow to out on the side of air blade, by water conservancy diversion raised line institute water conservancy diversion, to make along the inclined ramp bound
It the most condensate liquid on air blade must be located at can be guided to by water conservancy diversion raised line in liquid storage groove and focused on so that be cold
The collection of lime set more facilitates with processing.
Brief description of the drawings
Fig. 1 is the positive structure diagram of embodiment 1;
Fig. 2 is the air-out blade side structure schematic view of embodiment 1;
Fig. 3 is Fig. 1 A-A structural representations;
Fig. 4 is Fig. 3 A portions structure enlarged diagram;
Fig. 5 is the positive structure diagram of embodiment 2;
Fig. 6 is the air-out blade side structure schematic view of embodiment 2;
Fig. 7 is Fig. 5 B-B structural representations;
Fig. 8 is Fig. 7 B portions structure enlarged diagram;
Fig. 9 is Fig. 5 C portions structure enlarged diagram.
In figure, 1, body;2nd, air outlet;3rd, return air inlet;4th, air blade is gone out;5th, liquid storage groove;6th, water conservancy diversion raised line;7th, bind;
8th, plug connector;9th, drainage catheter;10th, valve is opened and closed;11st, sealing block;12nd, thermal insulation layer;13rd, shake hands;14th, clamping is raised;15th, return air
Blade;16th, exhausted bath box;17th, inserting groove.
Embodiment
The utility model is described in further detail below in conjunction with accompanying drawing.
This specific embodiment is only to explain of the present utility model, and it is not to limitation of the present utility model, ability
Field technique personnel can make the modification without creative contribution to the present embodiment as needed after this specification is read, but
As long as all being protected in protection domain of the present utility model by Patent Law.
Embodiment 1:Constant temperature and humidity unit, as depicted in figs. 1 and 2, including internal be provided with heats component(Not shown in figure)、
Cooling assembly(Not shown in figure), damping component(Not shown in figure), air circulation component(Not shown in figure)Body 1, machine
The top of body 1 is provided with air outlet 2, and air outlet 2 is provided with out air blade 4, and it 7 is tapered middle convex that to go out air blade 4, which be that top binds,
Curved setting is played, the junction gone out between the top and middle part of air blade 4 is round and smooth to be set.Between side of air blade 4 etc. is gone out
Anomaly row is provided with multiple water conservancy diversion raised lines 6 for drainage, and water conservancy diversion raised line 6 is set diagonally downward.The air outlet 2 is not installed with out
The both sides of air blade 4 are provided with the thermal insulation layer 12 being made using heat-barrier material.
Reference picture 1, Fig. 3, Fig. 4, go out the lower section of air blade 4 provided with the condensate liquid gone out for access under the water conservancy diversion of air blade 4
Liquid storage groove 5, the one side that liquid storage groove 5 is located at outside body 1 is in same plane with the outer face surface of body 1 and the face is provided with the drawing of indent
Hand 13, the one side parallel with the face of liquid storage groove 5, which is located inside body 1, goes out the rear of air blade 4, and the bottom of liquid storage groove 5 is provided with clamping
Correspondence clamping projection 14 is provided with the buckling groove being engaged with clamping projection 14 on projection 14, body 1, when liquid storage groove 5 is connected to machine
When in body 1, clamping projection 14 and the buckling groove of liquid storage groove 5 coordinate clamping.The space of liquid storage groove 5 and body 1 passes through flexible
Sealing block 11 is sealed, and sealing block 11 allows the space between sealing block 11 and body 1 or sealing block 11 and liquid storage groove 5 to ignore
Disregard.The bottom of body 1 is provided with the return air inlet 3 with return air blade 15.
The course of work:
The power supply of constant temperature and humidity machine is opened, target humidity and temperature is regulated, constant temperature and humidity unit starts running, and works as unlatching
During refrigeration mode, body 1 is drawn air into after being cooled down inside body 1 through cooling assembly from extraneous or interior, by damping component
Adjust the humidity of the air.Finally interior is entered through overcooled cold wind to indoor blowout from the air outlet 2 of constant temperature and humidity unit
Row cooling.
When cold wind from body to going out air blade 4 by air outlet 2 during indoor sport, in cold wind by going out air blade 4
Shi Yin can carry out heat exchange at a temperature below air blade 4 is gone out with going out air blade 4, so as to can cool to going out air blade 4 so that air-out
The temperature of blade 4 is less than indoor temperature.When the contact with moisture in indoor humid air to going out after air blade 4 after cooling
Can be because the temperature for going out air blade 4 is relatively low and is condensate in out on air blade 4 and forms condensate liquid.Condensate liquid is going out the side of air blade 4
It can be flowed downward during surface because going out the arcuate structure of the side surface of air blade 4, can be along leading when condensate liquid touches water conservancy diversion raised line 6
Flow the motion of raised line 6 so as to by drainage, for positioned at go out the top of air blade 4 bind 7 condensate liquid can be because going out the cone on the top of air blade 4
Shape tops out 7 sides for flowing downward to out air blade 4, so that by 6 water conservancy diversion of water conservancy diversion raised line.By the water conservancy diversion of water conservancy diversion raised line 6
Condensate liquid finally moves to out air blade 4 close to the interior side of body 1, finally drops to out the liquid storage groove 5 of the lower section of air blade 4
It is interior.
When the condensate liquid in liquid storage groove 5 is more, first remove the sealing block 11 between liquid storage groove 5 and body 1, after will
The clamping projection 14 of liquid storage groove 5 is taken out to remove liquid storage groove 5 from buckling groove.Will after condensate liquid in liquid storage groove 5 is fallen
The clamping projection 14 of liquid storage groove 5, which is inserted in buckling groove, causes liquid storage groove 5 to be arranged in body 1, after sealing block 11 be attached to deposited
Between liquid bath 5 and body 1.Complete the disassembly process of liquid storage groove 5.
During constant temperature and humidity component operation, body 1 sucks indoor air from return air inlet 3 out of return air inlet 3, makes
The air that must be inhaled into passes through air circulation component, rear to enter damping component, cooling assembly or heat component to enter room air
Discharged after row dehumidifying, temperature adjustment, or be circulated back to the indoor temperature to interior and be adjusted.
Embodiment 2:Constant temperature and humidity unit, as shown in Figure 5, Figure 6, including internal be provided with heats component(Not shown in figure)、
Cooling assembly(Not shown in figure), damping component(Not shown in figure), air circulation component(Not shown in figure)Body 1, machine
The top of body 1 is provided with air outlet 2, and air outlet 2 is provided with out air blade 4, go out air blade 4 be top bind 7 be in the middle part of circular arc outwards
Raised curved setting, the round and smooth setting in junction gone out between the top and middle part of air blade 4.Going out side of air blade 4 etc.
Spacing is parallel to be provided with multiple water conservancy diversion raised lines 6 for drainage, and water conservancy diversion raised line 6 is set diagonally downward.The air outlet 2 is not installed with
The both sides for going out air blade 4 are provided with the thermal insulation layer 12 being made using heat-barrier material.
Reference picture 5, Fig. 7, Fig. 8, Fig. 9, the lower section for going out air blade 4 are provided with the condensation gone out for access under the water conservancy diversion of air blade 4
The liquid storage groove 5 of liquid, liquid storage groove 5 is wholely set with body 1, liquid storage groove 5 be located at body 1 outside one side with the outer face surface of body 1
In same plane, the one side parallel with the face of liquid storage groove 5, which is located inside body 1, goes out the rear of air blade 4, and the bottom land of liquid storage groove 5 inclines
Set obliquely, and outage is offered at the minimum point of liquid storage groove 5, outage is connected with the drainage for opening and closing valve 10
Conduit 9.Body 1 is provided with inserting groove 17, inserting groove 17 positioned at the lower section of liquid storage groove 5 and is plugged with the plug connector 8 coordinated with it, inserts
Fitting 8 is connected with exhausted bath box 16.Exhausted bath box 16 is plugged on when on body 1 inside of exhausted bath box 16 and drainage catheter 9 away from discharge opeing
One end connection in hole is set.The bottom of body 1 is provided with the return air inlet 3 with return air blade 15.
The course of work:
The power supply of constant temperature and humidity machine is opened, target humidity and temperature is regulated, constant temperature and humidity unit starts running, and works as unlatching
During refrigeration mode, body 1 is drawn air into after being cooled down inside body 1 through cooling assembly from extraneous or interior, by damping component
Adjust the humidity of the air.Finally interior is entered through overcooled cold wind to indoor blowout from the air outlet 2 of constant temperature and humidity unit
Row cooling.
When cold wind from body to going out air blade 4 by air outlet 2 during indoor sport, in cold wind by going out air blade 4
Shi Yin can carry out heat exchange at a temperature below air blade 4 is gone out with going out air blade 4, so as to can cool to going out air blade 4 so that air-out
The temperature of blade 4 is less than indoor temperature.When the contact with moisture in indoor humid air to going out after air blade 4 after cooling
Can be because the temperature for going out air blade 4 is relatively low and is condensate in out on air blade 4 and forms condensate liquid.Condensate liquid is going out the side of air blade 4
It can be flowed downward during surface because going out the arcuate structure of the side surface of air blade 4, can be along leading when condensate liquid touches water conservancy diversion raised line 6
The motion of raised line 6 is flowed so as to by drainage, for can be because going out the taper knot on the top of air blade 4 positioned at the condensate liquid for going out the top of air blade 4
Structure flows downward to out the side of air blade 4, so that by 6 water conservancy diversion of water conservancy diversion raised line.It is final by the condensate liquid of the water conservancy diversion of water conservancy diversion raised line 6
Air blade 4 is moved to out in the interior side of body 1, the liquid storage groove 5 for finally dropping to out the lower section of air blade 4.
Condensate liquid enters after liquid storage groove 5 because the bottom land of liquid storage groove 5 is inclined, into the condensate liquid of liquid storage groove 5
It can open and open hence into drainage catheter 9, when the condensate liquid in liquid storage groove 5 is more towards the minimum point motion of the bottom land of liquid storage groove 5
Valve closing 10, condensate liquid is eventually entered into exhausted bath box 16 by drainage catheter 9, and the condensate liquid in liquid storage groove 5 is closed after all discharging
And open and close valve 10.When the condensate liquid in exhausted bath box 16 is more, the plug connector 8 on exhausted bath box 16 is taken from inserting groove
Go out, so as to remove whole exhausted bath box 16, the plug connector 8 on exhausted bath box 16 is inserted slotting after the condensate liquid in exhausted bath box 16 is fallen
Access slot, that is, complete process of the dismounting of exhausted bath box 16 with removing condensate liquid.
During constant temperature and humidity component operation, body 1 sucks indoor air from return air inlet 3 out of return air inlet 3, makes
The air that must be inhaled into passes through air circulation component, rear to enter damping component, cooling assembly or heat component to enter room air
Discharged after row dehumidifying, temperature adjustment, or be circulated back to the indoor temperature to interior and be adjusted.
Claims (7)
1. constant temperature and humidity unit, including body (1), the body (1) are provided with air outlet (2), return air inlet (3), the body (1)
It is upper to be provided with out air blade (4) positioned at air outlet (2) place, it is characterised in that to be provided with and deposit at air outlet (2) place on the body (1)
Liquid bath (5), and the liquid storage groove (5) is located at the lower section of air blade (4);It is described go out air blade (4) be provided with and be used for air-out
Condensate liquid on blade (4) is drained to the internal water conservancy diversion raised line (6) of liquid storage groove (5).
2. constant temperature and humidity unit according to claim 1, it is characterised in that the water conservancy diversion raised line (6) has a plurality of, Mei Gesuo
Water conservancy diversion raised line (6) is stated to be obliquely installed.
3. constant temperature and humidity unit according to claim 1, it is characterised in that it is described go out air blade (4) middle part convex
Rise set, and it is described go out air blade (4) outwardly convex part be arc.
4. constant temperature and humidity unit according to claim 1, it is characterised in that it is described go out air blade (4) top covered with
The circular arc of its integrally connected or binding (7) for taper, the junction of the side bound (7) and go out air blade (4) is circle
It is sliding to set.
5. constant temperature and humidity unit according to claim 1, it is characterised in that the liquid storage groove (5) is removable to be arranged on body
(1) on.
6. constant temperature and humidity unit according to claim 1, it is characterised in that the liquid storage groove (5) integrally sets with body (1)
Put and the bottom land of the liquid storage groove (5) is set diagonally downward, the minimum point of liquid storage groove (5) offers outage, the outage
Drainage catheter (9) is connected with, the drainage catheter (9) is provided with keying valve (10).
7. constant temperature and humidity unit according to claim 5, it is characterised in that set between the liquid storage groove (5) and body (1)
There is sealing block (11).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720019267.4U CN206420127U (en) | 2017-01-07 | 2017-01-07 | Constant temperature and humidity unit |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720019267.4U CN206420127U (en) | 2017-01-07 | 2017-01-07 | Constant temperature and humidity unit |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206420127U true CN206420127U (en) | 2017-08-18 |
Family
ID=59574301
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201720019267.4U Expired - Fee Related CN206420127U (en) | 2017-01-07 | 2017-01-07 | Constant temperature and humidity unit |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN206420127U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109469974A (en) * | 2018-12-28 | 2019-03-15 | 宁波奥克斯电气股份有限公司 | A kind of swing flap blade, swing flap structure and air conditioner |
-
2017
- 2017-01-07 CN CN201720019267.4U patent/CN206420127U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109469974A (en) * | 2018-12-28 | 2019-03-15 | 宁波奥克斯电气股份有限公司 | A kind of swing flap blade, swing flap structure and air conditioner |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN207471869U (en) | Horizontal type wind-cooling refrigerator | |
US20150323216A1 (en) | A heat exchanger and a ventilation assembly comprising it | |
KR20120003359A (en) | Induced draft cooling tower | |
KR20180137660A (en) | Plume abatement cooling tower | |
CN105805912B (en) | Drainage component and air conditioner | |
CN107120891A (en) | Horizontal refrigerator with four sides air blowing function | |
CN106152319A (en) | A kind of recuperation of heat cooling-down air conditioner device | |
CN106765648A (en) | Dehumidifying air conditioner integrated machine | |
CN107504606A (en) | A kind of air-conditioner set | |
CN212619770U (en) | Air source heat pump drying device | |
CN206410246U (en) | Dehumidifying air conditioner integrated machine | |
CN206420127U (en) | Constant temperature and humidity unit | |
CN101625143B (en) | Multi-functional ventilation fan | |
CN112970594A (en) | Livestock and poultry house cooling and heating type air conditioning system and adjusting method | |
CN209116714U (en) | A kind of enclosed earth source heat pump drying system | |
CN207501295U (en) | Dehumidifier | |
CN206831738U (en) | A kind of combination mechanical refrigeration and the Evaporative Cooling Air-conditioning System of heat recovery technology | |
CN206959152U (en) | Condensed water collecting device and air conditioner | |
CN207019186U (en) | Air treatment module and air conditioner | |
CN105202726B (en) | Fresh air recuperation of heat all-in-one machine | |
CN202648009U (en) | Air conditioner | |
CN206453223U (en) | A kind of dehydrating unit of air-cooled bulk curing barn | |
CN209084942U (en) | A kind of double-condenser formula dehumidifying heat-pump apparatus | |
CN207922478U (en) | A kind of Fresh air handling units | |
CN210568893U (en) | Solar cell factory building air conditioning system |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170818 Termination date: 20210107 |