CN217178941U - Water receiving and deicing device at bottom of air source heat pump - Google Patents

Abstract

The utility model discloses an air source heat pump bottom water receiving deicing device relates to air source heat pump deicing device field, which comprises a bod, the mounting bracket is installed to the bottom side of organism, install the water collector on the mounting bracket, the outlet pipe is installed to the bottom side of water collector, the outlet pipe with the water collector is linked together, the bottom of outlet pipe is rotated through connecing the mechanism soon and is installed the heating type drain pipe, the zone of heating is installed to the bottom surface of water collector. The utility model discloses in, through setting up the water collector, can accept the comdenstion water that produces in the organism course of operation, prevent to drip the bottom surface, the comdenstion water assembles on the water collector to set for the region through heating type drain pipe flow direction, the zone of heating work of water collector bottom surface can make the water collector be heated, prevent that water on the water collector from freezing and forming thicker ice sheet, through temperature sensor's setting, can real-time detection temperature, and just make the zone of heating set up work when setting below zero, with the energy saving.

Description

Water receiving and deicing device at bottom of air source heat pump

Technical Field

The utility model relates to an air source heat pump deicing device field, in particular to air source heat pump bottom water receiving deicing device.

Background

An air source heat pump is an energy-saving device which utilizes high-level energy to enable heat to flow from low-level heat source air to a high-level heat source. It is a form of heat pump, and as the name suggests, the heat pump can convert the low-level heat energy (such as the heat contained in air, soil and water) which can not be directly utilized into the high-level heat energy which can be utilized, thereby achieving the purpose of saving part of the high-level energy (such as coal, gas, oil and electric energy).

In the prior art, in the process of using an air source heat pump in winter, a machine body can produce a large amount of condensed water, the condensed water drops to the ground, and the condensed water can be gradually frozen into ice due to low air temperature, so that the ground is wet and slippery, potential safety hazards are brought to pedestrians, and therefore the water receiving and ice melting device at the bottom of the air source heat pump is disclosed to meet the requirements of people.

SUMMERY OF THE UTILITY MODEL

An object of this application is to provide an air source heat pump bottom water receiving deicing device to use air source heat pump in-process in winter who proposes in solving above-mentioned background art, the organism can produce a large amount of comdenstion water, and the comdenstion water drips to ground, and because the lower meeting of temperature freezes into ice gradually, causes the ground and wetly slides, brings the problem of potential safety hazard for the pedestrian.

In order to achieve the above purpose, the present application provides the following technical solutions: the utility model provides an air source heat pump bottom water receiving deicing device, includes the organism, the mounting bracket is installed to the bottom side of organism, install the water collector on the mounting bracket, the outlet pipe is installed to the bottom side of water collector, the outlet pipe with the water collector is linked together, the bottom of outlet pipe is rotated through fast coupling mechanism and is installed the fever type drain pipe, the zone of heating is installed to the bottom surface of water collector, temperature sensor is installed to one side of organism, temperature sensor pass through the wire with the zone of heating is connected, the outside cover of zone of heating installs the heat preservation.

Preferably, the heating type drain pipe comprises a water pipe body, the water pipe body is installed on the water outlet pipe in a sleeved mode, heating wires are uniformly wound on the outer side wall of the water pipe body, and the water pipe body and the outer side of the heating wires are provided with warm-keeping sleeves.

Preferably, the quick connection mechanism comprises a sliding pin, a slot is formed in the outer side wall of the water outlet pipe, a sliding hole is correspondingly formed in the outer side wall of the water pipe body, the sliding pin is slidably mounted in the sliding hole, one end of the sliding pin is matched with the slot, and a driving unit for driving the sliding pin to slide is mounted at the other end of the sliding pin.

Preferably, the driving unit comprises a rotating ring, one end of the water outlet pipe, which is close to the sliding pin, is sleeved with a thickening layer, the outer side wall of the thickening layer is rotatably provided with the rotating ring, the top side of the rotating ring is provided with a guide pillar, the bottom side of the sliding pin is correspondingly provided with a wedge-shaped notch, one side of the guide pillar is matched with the inclined plane of the wedge-shaped notch, the thickening layer is correspondingly provided with an avoiding hole, and an elastic unit is arranged in the avoiding hole.

Preferably, the elastic unit comprises a tension spring, a flange ring is installed on the sliding pin, the tension spring is installed on the sliding pin in a sleeved mode, one end of the tension spring is installed on the outer side wall of the water pipe body, the other end of the tension spring is installed on one side of the flange ring, and the tension spring is located in the avoiding hole.

Preferably, the bottom surface of the water receiving tray is of an inclined plane structure, the periphery of the water receiving tray is provided with a flange, and the top sides of the flanges are located on the same horizontal plane.

Preferably, the water outlet pipe is located at the lowest position of the inclined surface of the bottom surface of the water pan.

To sum up, the utility model discloses a technological effect and advantage:

1. the utility model discloses in, through setting up the water collector, can accept the comdenstion water that produces in the organism course of operation, prevent to drip the bottom surface, the comdenstion water assembles and discharges through the outlet pipe on the water collector, and set for the region through heating type drain pipe flow direction, the zone of heating work of water collector bottom surface can make the water collector be heated, prevent that water on the water collector from freezing and forming thick ice layer, make subsequent comdenstion water spill over the water collector, through temperature sensor's setting, can real-time detection temperature, and set up and just make the zone of heating set up work when below zero, with the energy saving.

2. The utility model discloses in, when the temperature is lower, heater strip and zone of heating simultaneous working, the heater strip heats the water pipe body, prevents that the intraductal flowing water of water pipe body from becoming the ice-cube and causing the body to block up, guarantees to add the fever type drain pipe and can discharge water at low temperature smoothly, and cold-proof cover can reduce the heat and scatter and disappear, makes and keeps the water pipe body to be in certain temperature range, through the setting of sliding pin, can make water pipe body and the mutual locking of outlet pipe or unblock, realizes quick assembly disassembly, increases convenient to use nature.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a partial sectional view of the area of the water pan of the present invention;

FIG. 3 is a partial sectional view of the book outlet pipe area of the present invention;

fig. 4 is a partial cross-sectional view of the area of the slide pin according to the present invention.

In the figure: 1. a body; 2. a mounting frame; 3. a water pan; 4. a heating type drain pipe; 41. a water pipe body; 42. heating wires; 43. a warm keeping sleeve; 5. a temperature sensor; 6. a wire; 7. flanging; 8. a heating layer; 9. a heat-insulating layer; 10. a water outlet pipe; 11. a slide pin; 12. a tension spring; 13. thickening the layer; 14. a flange ring; 15. a wedge-shaped notch; 16. a rotating ring; 17. a guide post; 18. and (4) a slot.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example (b): referring to fig. 1-4, an air source heat pump bottom water receiving and deicing device is shown, and includes a machine body 1, a mounting bracket 2 is installed at the bottom side of the machine body 1, a water pan 3 is installed on the mounting bracket 2, a water outlet pipe 10 is installed at the bottom side of the water pan 3, the water outlet pipe 10 is communicated with the water pan 3, a heating type drain pipe 4 is installed at the bottom end of the water outlet pipe 10 through rotation of a quick connection mechanism, a heating layer 8 is installed on the bottom surface of the water pan 3, a temperature sensor 5 is installed at one side of the machine body 1, the temperature sensor 5 is connected with the heating layer 8 through a wire 6, and a heat preservation layer 9 is installed on the outer side of the heating layer 8 in a covering manner.

Based on above mechanism, organism 1 has supported certain height through mounting bracket 2, the comdenstion water that produces in the organism 1 course of work can be accepted to the water collector 3 of bottom side installation, prevent to drip the bottom surface, the comdenstion water assembles and discharges through outlet pipe 10 on water collector 3, and set for the region through heating type drain pipe 4 flow direction, but the heating type drain pipe 4 free rotation direction of rotation installation, be convenient for set for drainage area, the zone of heating 8 work of water collector 3 bottom surface, can make water collector 3 be heated, prevent that the water on the water collector 3 from freezing and forming thick ice sheet, make subsequent comdenstion water spill over water collector 3, setting through temperature sensor 5, can real-time detection temperature, and set for just making the zone of heating 8 set up work when below zero, so as to energy saving.

As shown in fig. 1 and 3, heating type drain pipe 4 includes water pipe body 41, water pipe body 41 cup joints and installs on outlet pipe 10, evenly twine on water pipe body 41's the lateral wall has heater strip 42, water pipe body 41 installs cold-proof cover 43 with heater strip 42's the outside, water pipe body 41 has certain heat resistance, like the nylon pipe, when the temperature is lower, heater strip 42 and zone of heating 8 simultaneous working, heater strip 42 heats water pipe body 41, prevent that water pipe body 41's intraductal flowing water from becoming the ice-cube and causing the body to block up, guarantee that heating type drain pipe 4 can smoothly drain off at low temperature, cold-proof cover 43 can reduce the heat and scatter and disappear, keep water pipe body 41 in certain temperature range.

As shown in fig. 3 and slide-in 4, the quick-connection mechanism includes a slide pin 11, a slot 18 is provided on the outer side wall of the water outlet pipe 10, a slide hole is correspondingly provided on the outer side wall of the water pipe body 41, the slide pin 11 is slidably mounted in the slide hole, one end of the slide pin 11 is matched with the slot 18, and a driving unit for driving the slide pin 11 to slide is mounted at the other end of the slide pin 11, and through the arrangement of the slide pin 11, the driving unit enables the slide pin 11 to slide in the slide hole, and enables the slide pin 11 to be inserted into or slide out of the slot 18, so that the water pipe body 41 and the water outlet pipe 10 can be locked or unlocked mutually.

As shown in fig. 3 and 4, the driving unit includes a rotating ring 16, one end of the water outlet pipe 10 close to the sliding pin 11 is sleeved with a thickening layer 13, the outer side wall of the thickening layer 13 is rotatably provided with the rotating ring 16, the top side of the rotating ring 16 is provided with a guide pillar 17, the bottom side of the sliding pin 11 is correspondingly provided with a wedge-shaped notch 15, one side of the guide pillar 17 is matched with the inclined plane of the wedge-shaped notch 15, the thickening layer 13 is correspondingly provided with a avoiding hole, an elastic unit is arranged in the avoiding hole, the elastic unit enables the sliding pin 11 to always slide to one side close to the slot 18, the sliding pin 11 is inserted into the slot 18, the rotating ring 16 is rotated along the thickening layer 13 and drives the guide pillar 17 to synchronously rotate, during the rotation of the guide pillar 17, one side of the guide pillar 17 pushes the inclined plane of the wedge-shaped notch 15 to abut against, and pushes the sliding pin 11 to slide to one side far away from the slot 18, the sliding pin 11 is separated from the slot 18, and reversely rotates the rotating ring 16, the slide pin 11 is reset by the elastic unit.

As shown in fig. 4, the elastic unit includes a tension spring 12, a flange ring 14 is installed on the sliding pin 11, the tension spring 12 is installed on the sliding pin 11 in a sleeved manner, one end of the tension spring 12 is installed on the outer side wall of the water pipe body 41, the other end of the tension spring is installed on one side of the flange ring 14, the tension spring 12 is located in the escape hole, and through the arrangement of the tension spring 12, under the action of no external force, the tension force of the tension spring 12 pulls the flange ring 14, so that the sliding pin 11 slides to one side close to the slot 18, and the sliding pin 11 is inserted into the slot 18.

As shown in figure 2, the bottom surface of the water receiving tray 3 is arranged in an inclined plane structure, the flanging 7 is installed on the periphery of the water receiving tray 3, the top side of the flanging 7 is located on the same horizontal plane, water can be gathered to the lower part through the arrangement of the inclined plane structure, the water is convenient to discharge, and the arrangement of the flanging 7 can be used for enabling the water receiving tray 3 to form a certain volume and preventing the water from overflowing due to overlarge water amount.

As shown in fig. 2, the outlet pipe 10 is located at the lowest position of the inclined surface of the bottom surface of the water-receiving tray 3, which is advantageous for draining the accumulated water in the water-receiving tray 3.

This practical theory of operation:

organism 1 has supported certain height through mounting bracket 2, the comdenstion water that produces in the 1 course of the work of organism can be accepted to the water collector 3 of bottom side installation, prevent to drip the bottom surface, the comdenstion water assembles and discharges through outlet pipe 10 on water collector 3, and set for the region through heating type drain pipe 4 flow direction, but the heating type drain pipe 4 free rotation direction of rotation installation, be convenient for set for drainage area, the zone of heating 8 work of water collector 3 bottom surface, can make water collector 3 be heated, prevent that the water on the water collector 3 from freezing and forming thick ice sheet, make subsequent comdenstion water spill over water collector 3, setting through temperature sensor 5, can the real-time detection temperature, and just make zone of heating 8 set up work when setting below the zero degree, with the energy saving.

When the temperature is lower, the heating wire 42 and the heating layer 8 work simultaneously, the heating wire 42 heats the water pipe body 41, the water flowing in the pipe of the water pipe body 41 is prevented from forming ice blocks to cause pipe body blockage, the heating type drain pipe 4 can drain water smoothly at the low temperature, the heat dissipation can be reduced by the heat insulation sleeve 43, the water pipe body 41 is kept in a certain temperature range, the driving unit enables the sliding pin 11 to slide in the sliding hole through the arrangement of the sliding pin 11, the sliding pin 11 is inserted into the inserting groove 18 and enabled to be inserted into or slide out of the inserting groove 18, the water pipe body 41 and the water outlet pipe 10 can be locked or unlocked mutually, the elastic unit enables the sliding pin 11 to slide towards one side close to the inserting groove 18 all the time, the sliding pin 11 is enabled to be inserted into the inserting groove 18, the rotating ring 16 is rotated along the thickening layer 13, the guide pillar 17 is driven to rotate synchronously, one side of the guide pillar 17 pushes the inclined plane of the wedge-shaped notch 15 to be abutted against, and pushes the sliding pin 11 to slide towards one side far away from the inserting groove 18 in the rotating process, the sliding pin 11 is separated from the slot 18, the rotating ring 16 is rotated reversely, and the sliding pin 11 is reset under the action of the elastic unit.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (7)

1. The utility model provides an air source heat pump bottom water receiving deicing device, includes organism (1), its characterized in that: mounting bracket (2) are installed to the bottom side of organism (1), install water collector (3) on mounting bracket (2), outlet pipe (10) are installed to the bottom side of water collector (3), outlet pipe (10) with water collector (3) are linked together, the bottom of outlet pipe (10) is rotated through connecing the mechanism soon and is installed heating type drain pipe (4), zone of heating (8) are installed to the bottom surface of water collector (3), temperature sensor (5) are installed to one side of organism (1), temperature sensor (5) through wire (6) with zone of heating (8) are connected, heat preservation (9) are installed in the outside cover of zone of heating (8).

2. The bottom water-receiving deicing device of the air source heat pump as claimed in claim 1, characterized in that: heating type drain pipe (4) include water pipe body (41), water pipe body (41) cup joint to be installed on outlet pipe (10), evenly twine on the lateral wall of water pipe body (41) heater strip (42), water pipe body (41) with cold-proof cover (43) is installed in the outside of heater strip (42).

3. The bottom water-receiving deicing device of the air source heat pump as claimed in claim 2, characterized in that: the quick-connecting mechanism comprises a sliding pin (11), a slot (18) is formed in the outer side wall of the water outlet pipe (10), a sliding hole is correspondingly formed in the outer side wall of the water pipe body (41), the sliding pin (11) is slidably mounted in the sliding hole, one end of the sliding pin (11) is matched with the slot (18), and a driving unit for driving the sliding pin (11) to slide is mounted at the other end of the sliding pin.

4. The bottom water-receiving deicing device of the air source heat pump as claimed in claim 3, characterized in that: the driving unit comprises a rotating ring (16), the water outlet pipe (10) is close to one end of the sliding pin (11) and is sleeved with a thickening layer (13), the rotating ring (16) is rotatably installed on the outer side wall of the thickening layer (13), a guide pillar (17) is installed on the top side of the rotating ring (16), a wedge-shaped notch (15) is correspondingly formed in the bottom side of the sliding pin (11), one side of the guide pillar (17) is matched with the inclined plane of the wedge-shaped notch (15), a avoiding hole is correspondingly formed in the thickening layer (13), and an elastic unit is arranged in the avoiding hole.

5. The bottom water-receiving deicing device of the air source heat pump as claimed in claim 4, wherein: the elastic unit comprises a tension spring (12), a flange ring (14) is installed on the sliding pin (11), the tension spring (12) is installed in a sleeved mode on the sliding pin (11), one end of the tension spring (12) is installed on the outer side wall of the water pipe body (41), the other end of the tension spring is installed on one side of the flange ring (14), and the tension spring (12) is located in the avoiding hole.

6. The bottom water-receiving deicing device of the air source heat pump as claimed in claim 1, characterized in that: the bottom surface of the water receiving tray (3) is of an inclined plane structure, the turn-ups (7) are installed on the periphery of the water receiving tray (3), and the top sides of the turn-ups (7) are located on the same horizontal plane.

7. The bottom water-receiving deicing device of the air source heat pump as claimed in claim 6, wherein: the water outlet pipe (10) is positioned at the lowest position of the inclined surface on the bottom surface of the water receiving tray (3).

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