CN207849820U - directly-heated type heat pump - Google Patents
directly-heated type heat pump Download PDFInfo
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- CN207849820U CN207849820U CN201721919912.4U CN201721919912U CN207849820U CN 207849820 U CN207849820 U CN 207849820U CN 201721919912 U CN201721919912 U CN 201721919912U CN 207849820 U CN207849820 U CN 207849820U
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- type heat
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Abstract
The utility model is related to air energy heating devices, are concretely a kind of directly-heated type heat pumps, are characterized in that:Include the support frame at left and right sides of heat pump body and the bearing plate in support frame, extension is provided on bearing plate, it is cavity inside extension upper end opening, the first shackle plate is provided in extension cavity, first shackle plate one side is connect with extension inner wall, another side is connect with bearing plate, and the lower part of the first shackle plate is arc structure, and heat pump body front-back is equipped with lifting groove.It solves that existing directly-heated type heat pump shackle structure is too simple, there is the possibility of the condensed water erosion-corrosion generated when being radiated by evaporator, and relying on handle can only be by manually being carried, the more low problem of working efficiency.
Description
Technical field
The utility model is related to air energy heating devices, are concretely directly-heated type heat pumps.
Background technology
Air-source water heater, also referred to as " air source hot pump water heater "." air-source water heater " is the low-temperature heat quantity in air
It is absorbed into and, gasify by fluorine medium, then heated up by being pressurized after compressor compresses, then water supply is converted by heat exchanger and is added
Heat, compressed high temperature heat heat water temperature with this.
Air-source water heater has the characteristics that energy-efficient, manufactures identical hot water amount, is the 4-6 of general electric heater
Times, annual thermal effect ratio is electrically heated 4 times, utilizes efficiency height.
Directly-heated type heat pump be based on air can a kind of heat pump, have many advantages, such as that small work efficiency is high, but its
Rely on to be carried manually to be carried more, the hoisting structure of setting is simple external lifting lug ring either handle, due to
Evaporator built in it can condense drop in heat dissipation, exist to external lifting lug and may corrode, while relying on handle can only
By manually being carried, working efficiency is more low.
Therefore it needs one kind simple in structure, shackle structure is subjected to built-in setting, the directly-heated for the probability that is corroded is greatly reduced
Formula heat pump.
Utility model content
The utility model is too simple for existing directly-heated type heat pump shackle structure, exists and is generated when being radiated by evaporator
The possibility of condensed water erosion-corrosion, and relying on handle can only be by manually being carried, the more low problem of working efficiency,
Directly-heated type heat pump is provided.
The utility model solves above-mentioned technical problem, the technical solution adopted is that, directly-heated type heat pump includes being set to heat pump machine
Support frame at left and right sides of body and the bearing plate in support frame are provided with extension, extension upper end opening on bearing plate
Inside is cavity, and the first shackle plate is provided in extension cavity, and the first shackle plate one side is connect with extension inner wall, another side
It is connect with bearing plate, the lower part of the first shackle plate is arc structure, and heat pump body front-back is equipped with lifting groove.
In use, by the way that extension the first shackle plate of machine is arranged on bearing plate, by lifting rope from extension open end in use
It injects, lifting can be completed around being pierced by after the first shackle plate and being connect with hoisting mechanism again, while in heat pump body front-back
Setting lifting groove is allowed to when lifting promotion, and lifting all around can be achieved to directly-heated type heat pump, prevent it from surprisingly shaking
Caused damage, it is too simple to solve existing directly-heated type heat pump shackle structure, there is the condensation generated when being radiated by evaporator
The possibility of water erosion corrosion, and relying on handle can only be by manually being carried, the more low problem of working efficiency.
Further, it is equipped with substrate, the second shackle plate, transverse slat in lifting groove and reinforces inclined plate, substrate is welded on lifting
Transverse slat and the second shackle plate are connected on the slot bottom of groove, on substrate, and substrate connects into " L " shape with transverse slat.It reinforces on inclined plate
End is connect with the lower surface of transverse slat, is reinforced inclined plate lower end and is lifted being connect to side for slot opening, the second shackle plate is equipped with
Through-hole.
The purpose designed in this way is, by the way that lifting groove is arranged on heat pump body, by substrate, the second shackle plate, cross
Plate and the structure settings such as inclined plate are reinforced in lift groove, can effectively reduce lifting lug and be bruised in routine use or accident
The probability to fracture improves lifting lug service life, and installation is sling again convenient for directly-heated type heat pump.
Moreover using substrate, the second shackle plate, transverse slat and the design for reinforcing inclined plate, the second shackle plate can be greatly improved
Stability, reinforce inclined plate and the effect that fixes and supports started to substrate, more machineries can be undertaken compared to it is directly welded
Power reduces the risk that the second shackle plate fractures.
Optionally, heat pump body is equipped with shaft, and shaft is located at the lower section at lifting slot opening end, screening is connected in shaft
Baffle, shutter are contacted with heat pump body.
The purpose designed in this way is, the second shackle plate and the external world is isolated by shutter, further decreases and hangs
The probability that ear is bruised in routine use or surprisingly fractures improves lifting lug service life, again convenient for directly-heated type heat pump
Sling installation.
Further, the one end of shutter far from shaft be equipped with No.1 magnetic sheet, heat pump body be equipped with No. two magnetic sheets, one
Number magnetic sheet and No. two magnetic sheet positions match.
The purpose designed in this way is, by the corresponding No.1 magnetic sheet in position and No. two magnetic sheets, realize shutter and
Heat pump body connects, and is inadvertently opened to reduce shutter, the probability for causing lifting lug to damage.
Optionally, heat pump body is equipped with threading groove, and threading groove is located at the top at lifting slot opening end, and threading groove with
Lift groove connection.
Optionally, through-hole periphery is equipped with reinforcing ring.
The purpose designed in this way is, can improve the mechanical strength of through-hole by the way that reinforcing ring is arranged, reduce because of stress mistake
Through-hole breakage probability caused by big.
The beneficial effects of the utility model include at least following one;
1, by the way that extension the first shackle plate of machine is arranged on bearing plate, lifting rope is injected from extension open end in use,
Lifting can be completed around being pierced by after the first shackle plate and being connect with hoisting mechanism again, while being hung in the setting of heat pump body front-back
Dress groove is allowed to when lifting promotion, lifting all around can be achieved to directly-heated type heat pump, caused by preventing it from surprisingly shaking
Damage, solves that existing directly-heated type heat pump shackle structure is too simple, there is the condensation water erosion generated when being radiated by evaporator
The possibility of corrosion, and relying on handle can only be by manually being carried, the more low problem of working efficiency.
2, by the way that lifting groove is arranged on heat pump body, by substrate, the second shackle plate, transverse slat and the structures such as inclined plate are reinforced
It is arranged in lifting groove, can effectively reduces the probability that lifting lug is bruised in routine use or surprisingly fractures, improve
Lifting lug service life slings installation again convenient for directly-heated type heat pump.
3, using substrate, the second shackle plate, transverse slat and the design for reinforcing inclined plate, the steady of the second shackle plate can be greatly improved
It is qualitative, it reinforces inclined plate and the effect fixed and supported is started to substrate, more mechanical forces can be undertaken compared to it is directly welded, drop
The risk that low second shackle plate fractures.
4, the second shackle plate and the external world are isolated by shutter, further decrease lifting lug and is touched in routine use
Wound or the probability surprisingly to fracture, improve lifting lug service life, installation are sling again convenient for directly-heated type heat pump.
5, by the corresponding No.1 magnetic sheet in position and No. two magnetic sheets, realization connects shutter with heat pump body, to
It reduces shutter to be inadvertently opened, the probability for causing lifting lug to damage.
Description of the drawings
Fig. 1 is directly-heated type heat pump structure schematic diagram;
Fig. 2 is lifting groove structure schematic diagram;
Fig. 3 is structural schematic diagram when directly-heated type heat pump is sling;
In figure label for:1 it is heat pump body, 2 be bearing plate, 3 be support frame, 4 be lifting groove, 5 be substrate, 6 is the
Two shackle plates, 7 be transverse slat, 8 be reinforce inclined plate, 9 be through-hole, 10 be reinforcing ring, 11 be shaft, 12 be shutter, 13 be No.1
Magnetic sheet, 14 be No. two magnetic sheets, 15 be wiring, 16 be threading groove, 17 be extension, 18 be the first shackle plate.
Specific implementation mode
It is clear in order to enable the purpose of this utility model, technical solution and advantage to be more clear, below in conjunction with attached drawing and
The present invention will be further described in detail for embodiment.It should be appreciated that specific embodiment described herein is only used to
It explains the utility model, is not used to limit the utility model protection content.
Embodiment 1
As shown in figures 1 and 3, directly-heated type heat pump includes being set to the support frame 3 of 1 left and right sides of heat pump body and set on support
Bearing plate 2 in frame 3, it is characterised in that:It is provided with extension 17 on bearing plate 2, is cavity inside 17 upper end opening of extension,
The first shackle plate 18 is provided in 17 cavity of extension, 18 one side of the first shackle plate is connect with 17 inner wall of extension, another side with
Bearing plate 2 connects, and the lower part of the first shackle plate 18 is arc structure, and 1 front-back of heat pump body is equipped with lifting groove 4.
In use, extension the first shackle plate of machine is arranged on bearing plate, lifting rope is injected from extension open end in use,
Lifting can be completed around being pierced by after the first shackle plate and being connect with hoisting mechanism again, while being hung in the setting of heat pump body front-back
Dress groove is allowed to when lifting promotion, lifting all around can be achieved to directly-heated type heat pump, caused by preventing it from surprisingly shaking
Damage, solves that existing directly-heated type heat pump shackle structure is too simple, there is the condensation water erosion generated when being radiated by evaporator
The possibility of corrosion, and relying on handle can only be by manually being carried, the more low problem of working efficiency.
Embodiment 2
Based on embodiment 1, as shown in Fig. 2, being equipped with substrate 5, the second shackle plate 6, transverse slat 7 in lifting groove 4 and reinforcing oblique
Plate 8, substrate 5 are welded on the slot bottom of lifting groove 4, and transverse slat 7 and the second shackle plate 6, and substrate 5 and cross are connected on substrate 5
Plate 7 connects into " L " shape, reinforces 8 upper end of inclined plate and is connect with the lower surface of transverse slat 7, reinforces 8 lower end of inclined plate and is open with lifting groove 4
To side connect, the second shackle plate 6 be equipped with through-hole 9.
In use, by the way that lifting groove is arranged on heat pump body, by substrate, the second shackle plate, transverse slat and inclined plate is reinforced
Etc. structure settings in lifting groove, can effectively reduce the probability that lifting lug is bruised in routine use or surprisingly fractures,
Lifting lug service life is improved, installation is sling again convenient for directly-heated type heat pump.
Embodiment 3
Based on embodiment 2, the side wall of heat pump body 1 is equipped with shaft 11, and shaft 11 is located under 4 open end of lifting groove
It is square, it is connected with shutter 12 in shaft 11, shutter 12 is contacted with the side wall of heat pump body 1.
Embodiment 4
Based on embodiment 3, the one end of shutter 12 far from shaft 11 is equipped with No.1 magnetic sheet 13, the side wall of heat pump body 1
No. two magnetic sheets 14 are equipped with, No.1 magnetic sheet 13 and No. two 14 positions of magnetic sheet match.
In use, by the corresponding No.1 magnetic sheet in position and No. two magnetic sheets, realization connects shutter with heat pump body,
It is inadvertently opened to reduce shutter, the probability for causing lifting lug to damage.
Embodiment 5
Based on embodiment 4, the side wall of heat pump body 1 is equipped with threading groove 16, and threading groove 16 is located at 4 open end of lifting groove
Top, and threading groove 16 with lifting groove 4 be connected to.
Embodiment 6
Based on embodiment 2,9 periphery of through-hole is equipped with reinforcing ring 10.
In use, the mechanical strength of through-hole can be improved by the way that reinforcing ring is arranged, the through-hole caused by stress is excessive is reduced
Damaged probability.
Claims (6)
1. directly-heated type heat pump, including the support frame (3) being set at left and right sides of heat pump body (1) and holding in support frame (3)
Weight plate (2), it is characterised in that:Extension (17) is provided on the bearing plate (2), inside extension (17) upper end opening
For cavity, the first shackle plate (18), the first shackle plate (18) one side and extension are provided in extension (17) cavity
(17) inner wall connects, and another side is connect with bearing plate (2), and the lower part of the first shackle plate (18) is arc structure, the heat pump machine
Body (1) front-back is equipped with lifting groove (4).
2. directly-heated type heat pump according to claim 1, it is characterised in that:Be equipped in the lifting groove (4) substrate (5),
Second shackle plate (6), transverse slat (7) and reinforcing inclined plate (8), the substrate (5) are welded on the slot bottom of lifting groove (4), substrate
(5) transverse slat (7) and the second shackle plate (6) are connected on, and substrate (5) connects into " L " shape, the reinforcing inclined plate with transverse slat (7)
(8) upper end is connect with the lower surface of transverse slat (7), is reinforced inclined plate (8) lower end and is lifted being connect to side for groove (4) opening, institute
It states the second shackle plate (6) and is equipped with through-hole (9).
3. directly-heated type heat pump according to claim 2, it is characterised in that:The heat pump body (1) is equipped with shaft (11),
The shaft (11) is located at the lower section of lifting groove (4) open end, and shutter (12), the shutter are connected in shaft (11)
(12) it is contacted with heat pump body (1).
4. directly-heated type heat pump according to claim 3, it is characterised in that:The one of the separate shaft (11) of the shutter (12)
End is equipped with No.1 magnetic sheet (13), and the heat pump body (1) is equipped with No. two magnetic sheets (14), the No.1 magnetic sheet (13) and No. two
Magnetic sheet (14) position matches.
5. directly-heated type heat pump according to claim 4, it is characterised in that:The heat pump body (1) is equipped with threading groove
(16), the threading groove (16) is located at the top of lifting groove (4) open end, and threading groove (16) is connected to lifting groove (4).
6. directly-heated type heat pump according to claim 2, it is characterised in that:Through-hole (9) periphery is equipped with reinforcing ring (10).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721919912.4U CN207849820U (en) | 2017-12-29 | 2017-12-29 | directly-heated type heat pump |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721919912.4U CN207849820U (en) | 2017-12-29 | 2017-12-29 | directly-heated type heat pump |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207849820U true CN207849820U (en) | 2018-09-11 |
Family
ID=63416516
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721919912.4U Active CN207849820U (en) | 2017-12-29 | 2017-12-29 | directly-heated type heat pump |
Country Status (1)
Country | Link |
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CN (1) | CN207849820U (en) |
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2017
- 2017-12-29 CN CN201721919912.4U patent/CN207849820U/en active Active
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