CN207230875U - A kind of air port conversion equipment and air conditioner - Google Patents
A kind of air port conversion equipment and air conditioner Download PDFInfo
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- CN207230875U CN207230875U CN201721178783.8U CN201721178783U CN207230875U CN 207230875 U CN207230875 U CN 207230875U CN 201721178783 U CN201721178783 U CN 201721178783U CN 207230875 U CN207230875 U CN 207230875U
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- air
- connecting tube
- guide rail
- air port
- conversion equipment
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Abstract
The utility model discloses a kind of air port conversion equipment and air conditioner, air port conversion equipment includes babinet and the air passage switching mechanism being arranged in the babinet, the air supply duct connected with the box house, return air duct are provided with the one side of the babinet, the first pipeline, the second pipe connected with the box house is provided with opposite another side, first pipeline, the second pipe are connected by the way that the air passage switching mechanism is changeable with the air supply duct.The utility model makes the first pipeline, second pipe are changeable to be connected with air supply duct by air passage switching mechanism, so that indoor air outlet and return air inlet can be changed mutually, realizes the variation of indoor air flow circulation.
Description
Technical field
Air conditioner technical field is the utility model is related to, more particularly to a kind of air port conversion equipment and air-conditioning
Device.
Background technology
Air outlet and return air inlet currently used for room air conditioner can not be changed, i.e., indoor air flow can only carry out
Single circulation, can not meet diversified air-supply demand.
Utility model content
It can make what indoor air outlet and return air inlet were changed mutually the technical problem to be solved by the present invention is to provide a kind of
Air port conversion equipment and air conditioner, realize the variation of indoor air flow circulation.
The technical solution of the utility model is:A kind of air port conversion equipment is provided, including babinet and is arranged on the babinet
Interior air passage switching mechanism, is provided with the air supply duct connected with the box house, return air duct on the one side of the babinet,
The first pipeline, the second pipe connected with the box house, first pipeline, described are provided with opposite another side
Two pipelines are connected by the way that the air passage switching mechanism is changeable with the air supply duct.
The air passage switching mechanism includes the first connecting tube and the second connecting tube, first connecting tube and the second connecting tube
One end it is changeable connected with air supply duct, the other end of first connecting tube is connected with the first pipeline, it is described second connect
The other end of adapter is connected with second pipe.
Done by first connecting tube and the second connecting tube synchronous flat in one end of first connecting tube and the second connecting tube
Shifting movement and changeable connected with air supply duct.
The air passage switching mechanism further includes the first translation mechanism, and the first connecting tube is driven by first translation mechanism
Synchronous translational movement is done with the second connecting tube.
First translation mechanism includes first gear, the first rack, the first guide rail, the second guide rail and the 3rd guide rail, institute
The side that the first guide rail is arranged on the air port that air supply duct is located on babinet is stated, the second guide rail is arranged on the first pipeline and is located at babinet
On air port both sides, the 3rd guide rail is arranged on the both sides in the air port that second pipe is located on babinet, and first rack is set
On one end of the first connecting tube and the second connecting tube, and one end of first connecting tube and the second connecting tube and the first guide rail
It is slidably matched, the other end and the second guide rail of first connecting tube are slidably matched, the other end of second connecting tube and
Three guide rails are slidably matched, and the first gear is engaged with the first rack.
The air passage switching mechanism includes the hose of a stretchable deformation, and one end and the air supply duct of the hose are located at case
Air port on body is fixedly connected, and the other end of the hose is changeable to be connected with the first pipeline, second pipe.
The other end of the hose is connected by doing translational motion and changeable with the first pipeline, second pipe.
The air passage switching mechanism further includes the second translation mechanism, and the hose other end is driven by second translation mechanism
Do translational motion.
Second translation mechanism includes second gear, the second rack and the 4th guide rail, and the 4th guide rail is arranged on
One pipeline and second pipe are located at the side in the air port on babinet, and second rack is arranged on the hose other end, and described
The other end of hose is slidably matched with the 4th guide rail, and the second gear is engaged with the second rack.
The utility model also provides a kind of air conditioner, including air port conversion equipment described above.
The utility model is connected by air passage switching mechanism to make the first pipeline, second pipe changeable with air supply duct
It is logical, it can be changed mutually so as to fulfill indoor air outlet and return air inlet so that the variation of indoor air flow circulation.
Brief description of the drawings
Fig. 1 is the first working state schematic representation of air port conversion equipment in the utility model the first embodiment.
Fig. 2 is the second working state schematic representation of air port conversion equipment in the utility model the first embodiment.
Fig. 3 is the first working state schematic representation of air port conversion equipment in second of embodiment of the utility model.
Fig. 4 is the second working state schematic representation of air port conversion equipment in second of embodiment of the utility model.
Embodiment
Such as Fig. 1 and Fig. 2, the air port conversion equipment that is proposed in the first embodiment of the utility model, the air port conversion equipment
Installed in pipeline air conditioner room outdoor.The air port conversion equipment includes babinet 10 and the air passage switching mechanism being arranged in babinet 10,
Air supply duct 11, the return air duct 12 connected with the inside of the babinet 10, opposite opposite side are provided with the one side of babinet 10
The first pipeline 13, the second pipe 14 connected with the inside of the babinet 10 is provided with face.Air supply duct 11 is connected with blower fan system,
Return air duct 12 is connected with outdoor.First pipeline 13 and second pipe 14 are connected with interior.First pipeline 13, second pipe 14 are logical
Cross that air passage switching mechanism is changeable to be connected with air supply duct 11.
Such as Fig. 1 and Fig. 2, air passage switching mechanism includes the first connecting tube 21, the second connecting tube 22 and first in the present embodiment
Translation mechanism, the first connecting tube 21 are straight, and the second connecting tube 22 is oblique.The one of first connecting tube 21 and the second connecting tube 22
End drives the first connecting tube 21 and the second connecting tube 22 to do synchronous translational movement and changeable with sending by the first translation mechanism
Wind pipeline 11 connects.With reference to figure 1, when one end of the first connecting tube 21 is connected with air supply duct 11, the first connecting tube 21 it is another
One end is connected with the first pipeline 13.With reference to figure 2, when one end of the second connecting tube 22 is connected with air supply duct 11, the second connection
The other end of pipe 22 is connected with second pipe 14.
First translation mechanism includes first gear 23, the first rack 24, the first guide rail 25, the second guide rail 26 and the 3rd guide rail
27, first gear 23, the first rack 24 and the first guide rail 25 respectively have one, and the second guide rail 26 and the 3rd guide rail 27 respectively have one
It is right.First guide rail 25 is arranged on the side in the air port that air supply duct 11 is located on babinet 10(It is right side in the present embodiment), second
Guide rail 26 is arranged on the both sides in the air port that the first pipeline 13 is located on babinet 10(It is the left and right sides in the present embodiment), the 3rd guide rail
27 are arranged on the both sides in the air port that second pipe 14 is located on babinet 10.First guide rail 25, the second guide rail 26 and the 3rd guide rail 27
It is fixed on by screw, or welding manner on 10 inner surface of babinet.First rack 24 is arranged on the first connecting tube 21 and second
On one end of connecting tube 22, and one end of the first connecting tube 21 and the second connecting tube 22(It is lower end in the present embodiment)Led with first
Rail 25 is slidably matched, and first gear 23 is engaged with the first rack 24, and preferably the first rack 24 is connected with the first connecting tube 21, second
Pipe 22 is integrally formed.The other end of first connecting tube 21(It is upper end in the present embodiment)It is slidably matched with the second guide rail 26, the
The other end of two connecting tubes 22(It is upper end in the present embodiment)It is slidably matched with the 3rd guide rail 27.First rack 24, the first guide rail
25th, the second guide rail 26 and the 3rd guide rail 27 extend along anteroposterior direction, and first gear 23, which rotates, drives the first rack 24 to be translatable, into
And drive the first connecting tube 21 and the second connecting tube 22 synchronous along the 27 front and rear shifting of the first guide rail 25, the second guide rail 26 and the 3rd guide rail
It is dynamic.
Protrusion can be set in the present embodiment on the side at the first connecting tube 21,22 both ends of the second connecting tube, and first
There is the groove being adapted with protrusion, whole length of the groove along three guide rails on guide rail 25, the second guide rail 26 and the 3rd guide rail 27
Degree extension, the first connecting tube 21 and the second connecting tube 22 are slided to be translated along guide rail by protrusion in groove.Protrusion can also
It is changed to roller.
It is provided with babinet 10 on the moving direction positioned at the first rack 24 for limiting 24 shift position of the first rack
The first position block 28, when being connected in the lower end of the second connecting tube 22 with air supply duct 11, first position block 28 and
One gear 23 offsets.First position block 28 is fixed on 10 inner surface of babinet by screw, or welding manner.
The operation principle of air port conversion equipment is in the first embodiment:
Such as Fig. 1, the first working status, the lower end of the first connecting tube 21 connects with air supply duct 11 in the first working status
Logical, the upper end of the first connecting tube 21 is connected with the first pipeline 13, and the upper end of the second connecting tube 22 is to separate with second pipe 14
State.After air from blower fan system is followed by 11 and first connecting tube 21 of air supply duct, room is flowed into from the first pipeline 13
It is interior, and enter through the air after indoor circulation from second pipe 14, arrive room followed by row after babinet 10 and return air duct 12
Outside.When needing tuyere, first gear 23, which rotates, drives the first rack 24 to be translatable, and then drives the first connecting tube 21 and the
Two connecting tube 22 is synchronous to be moved rearwards along the first guide rail 25, the second guide rail 26 and the 3rd guide rail 27, makes the first connecting tube 21
Lower end is separated with air supply duct 11, and the upper end of the first connecting tube 21 is separated with the first pipeline 13.Such as Fig. 2, until moving backward to
The lower end of second connecting tube 22 is connected with air supply duct 11, and the upper end of the second connecting tube 22 is connected with second pipe 14, is changed into Fig. 2
The second shown working status.In second working status, the air from blower fan system is followed by air supply duct 11 and second
After connecting tube 22, interior is flowed into from second pipe 14, and is entered through the air after indoor circulation from the first pipeline 13, is flowed successively
Row, so that indoor air outlet and return air inlet converted mutually, changes room to outdoor after babinet 10 and return air duct 12
Interior air-flow endless form, realizes diversified air-supply demand.
Air supply duct, return air duct, the first pipeline, second pipe, the cross section shape of the first connecting tube and the second connecting tube
Shape can be square, or other shapes.
Such as Fig. 3 and Fig. 4, the air port conversion equipment that is proposed in second of embodiment of the utility model, second of embodiment with
The difference of the first embodiment is:Air passage switching mechanism includes 31 and second translation mechanism of hose of a stretchable deformation,
The both ends of hose 31 are all made of hard material, one end of hose 31(It is lower end in the present embodiment)It is located at air supply duct 11
Air port on babinet 10 is fixedly connected(It can be fixedly connected by screw), the other end of hose 31(It is upper end in the present embodiment)
Connected by doing translational motion and changeable with the first pipeline 13, second pipe 14.
Second translation mechanism includes second gear 32, the second rack 33 and the 4th guide rail 34, and the 4th guide rail 34 has one.
4th guide rail 34 is arranged on the first pipeline 13 and second pipe 14 is located at the side in the air port on babinet(After being in the present embodiment
Side), the second rack 33 is arranged on 31 other end of hose, and the other end of hose 31 is slidably matched with the 4th guide rail 34, and second
Gear 32 is engaged with the second rack 33.Second gear 32, which rotates, drives the second rack 33 to be translatable, and then drives hose 31 along the 4th
Guide rail 34 moves left and right.
It is provided with babinet 10 on the moving direction positioned at the second rack 33 for limiting 33 shift position of the second rack
The second position block 35, when the upper end of hose 31 is connected with second pipe 14, second position block 35 and second gear 32
Offset.
The operation principle of air port conversion equipment is in second of embodiment:
Such as Fig. 3, the first working status, the upper end of hose 31 is connected with the first pipeline 13 in the first working status.Come from
After the air of blower fan system is followed by air supply duct 11 and hose 31, interior is flowed into from the first pipeline 13, and through indoor circulation
Later air enters from second pipe 14, followed by row after babinet 10 and return air duct 12 to outdoor.When need change wind
Mouthful when, second gear 32 rotate drive the second rack 33 be translatable, and then drive hose 31 upper end along the 4th guide rail 34 to the left
It is mobile, the upper end of hose 31 is separated with the first pipeline 13.Such as Fig. 2, managed until being moved to the left to the upper end of hose 31 and second
Road 14 connects, and is changed into the second working status shown in Fig. 2.In second working status, the air from blower fan system followed by
After air supply duct 11 and hose 31, interior is flowed into from second pipe 14, and through the air after indoor circulation from the first pipeline 13
Into followed by row after babinet 10 and return air duct 12 to outdoor, so that indoor air outlet and return air inlet are changed mutually
, indoor air flow endless form is changed, realizes diversified air-supply demand.
The shape of cross section of hose can be square, or other shapes.
Both the above embodiment is all to make the first pipeline, second pipe changeable and air-supply by air passage switching mechanism
Pipeline connects, so that indoor air outlet and return air inlet can be changed mutually, realizes the variation of indoor air flow circulation.And
It is easy for installation and the utility model is simple in structure.
The utility model also provides the air port conversion equipment in a kind of air conditioner, including above two embodiment.
Only to illustrate the design of the utility model, those of ordinary skill in the art's specific embodiment above exist
Various deformation and change can be made under the design of the utility model, these are deformed and change is included in the guarantor of the utility model
Within the scope of shield.
Claims (10)
1. a kind of air port conversion equipment, it is characterised in that including babinet(10)With the air passage switching machine being arranged in the babinet
Structure, is provided with the air supply duct connected with the box house on the one side of the babinet(11), return air duct(12), it is opposite
The first pipeline connected with the box house is provided with another side(13), second pipe(14), it is first pipeline, described
Second pipe is connected by the way that the air passage switching mechanism is changeable with the air supply duct.
2. air port conversion equipment according to claim 1, it is characterised in that the air passage switching mechanism includes the first connection
Pipe(21)With the second connecting tube(22), one end of first connecting tube and the second connecting tube is changeable and air supply duct(11)
Connection, the other end and the first pipeline of first connecting tube(13)Connection, the other end of second connecting tube and the second pipe
Road(14)Connection.
3. air port conversion equipment according to claim 2, it is characterised in that first connecting tube(21)With the second connection
Pipe(22)One end by first connecting tube and the second connecting tube do synchronous translational move and changeable and air supply duct
(11)Connection.
4. air port conversion equipment according to claim 3, it is characterised in that it is flat that the air passage switching mechanism further includes first
Telephone-moving structure, the first connecting tube is driven by first translation mechanism(21)With the second connecting tube(22)Do synchronous translational movement.
5. air port conversion equipment according to claim 4, it is characterised in that first translation mechanism includes first gear
(23), the first rack(24), the first guide rail(25), the second guide rail(26)With the 3rd guide rail(27), first guide rail is arranged on
Air supply duct(11)Positioned at babinet(10)On air port side, the second guide rail is arranged on the first pipeline(13)On babinet
The both sides in air port, the 3rd guide rail are arranged on second pipe(14)The both sides in the air port on babinet, first rack are set
On one end of the first connecting tube and the second connecting tube, and first connecting tube(21)With the second connecting tube(22)One end with
First guide rail is slidably matched, and the other end and the second guide rail of first connecting tube are slidably matched, second connecting tube it is another
One end is slidably matched with the 3rd guide rail, and the first gear is engaged with the first rack.
6. air port conversion equipment according to claim 1, it is characterised in that it is stretchable that the air passage switching mechanism includes one
The hose of deformation(31), one end of the hose and air supply duct(11)Air port on babinet is fixedly connected, the hose
The other end it is changeable with the first pipeline(13), second pipe(14)Connection.
7. air port conversion equipment according to claim 6, it is characterised in that the hose(31)The other end it is flat by doing
Shifting movement and it is changeable with the first pipeline(13), second pipe(14)Connection.
8. air port conversion equipment according to claim 7, it is characterised in that it is flat that the air passage switching mechanism further includes second
Telephone-moving structure, hose is driven by second translation mechanism(31)The other end does translational motion.
9. air port conversion equipment according to claim 8, it is characterised in that second translation mechanism includes second gear
(32), the second rack(33)With the 4th guide rail(34), the 4th guide rail is arranged on the first pipeline(13)And second pipe(14)
Positioned at babinet(10)On air port side, second rack is arranged on hose(31)On the other end, and the hose(31)
The other end be slidably matched with the 4th guide rail, the second gear is engaged with the second rack.
10. a kind of air conditioner, it is characterised in that including the air port conversion equipment any one of claim 1 to 9.
Priority Applications (1)
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CN201721178783.8U CN207230875U (en) | 2017-09-14 | 2017-09-14 | A kind of air port conversion equipment and air conditioner |
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CN201721178783.8U CN207230875U (en) | 2017-09-14 | 2017-09-14 | A kind of air port conversion equipment and air conditioner |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115899914A (en) * | 2022-12-09 | 2023-04-04 | 珠海格力电器股份有限公司 | Fresh air environment-control integrated unit and control method thereof |
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2017
- 2017-09-14 CN CN201721178783.8U patent/CN207230875U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115899914A (en) * | 2022-12-09 | 2023-04-04 | 珠海格力电器股份有限公司 | Fresh air environment-control integrated unit and control method thereof |
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