CN216448418U - Anti-freezing air energy heat pump - Google Patents

Abstract

The utility model belongs to the technical field of air energy heat pumps, and particularly relates to an anti-freezing air energy heat pump which comprises a heat pump body and a side box connected to the left side of the heat pump body, wherein an upper connecting box is connected above the heat pump body, a water tank is connected to the right side inside the heat pump body, an air pump is arranged on the top surface of the inner wall of the upper connecting box, a heating pipe is arranged at the lower end inside the upper connecting box, transverse pipes are arranged at the upper and lower ends of the left side inside the heat pump body, one side, close to the inside of each transverse pipe, is communicated with a plurality of air outlet heads, the upper connecting box is used for providing hot air for the air outlet heads, a filter plate is arranged at the right side inside the side box, a connecting plate with the right side attached to the left side of the filter plate is arranged at the upper end of the left side inside the side box, and a pull rod penetrating through the side box is connected to the left side of the connecting plate; the utility model effectively avoids the components in the heat pump body and the components in the water tank from being frozen, better improves the anti-freezing capacity of the air energy heat pump, is more convenient to clean the filter plate, and avoids the influence of the blockage of the filter plate on the normal work of the air energy heat pump.

Description

Anti-freezing air energy heat pump

Technical Field

The utility model relates to the technical field of air energy heat pumps, in particular to an anti-freezing air energy heat pump.

Background

The appearance of the air energy heat pump lightens the pressure of the environment, the combustion of coal is reduced, the air energy heat pump is environment-friendly, the existing air energy heat pump is usually installed outdoors, when the temperature of the air energy heat pump is lower, particularly in winter in the north, when the air energy heat pump is not used temporarily, the internal parts of the air energy heat pump are easy to freeze due to the lower temperature, when water is left in the water tank in the air energy heat pump, the water is easy to freeze and damage the parts in the water tank, the trouble is caused, more dust is easy to adhere to the filter plate on the air energy heat pump, and the normal work of the air energy heat pump is easy to be influenced due to the blockage of the filter plate.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and the defects, and provides the anti-freezing air energy heat pump, which can prevent components in a heat pump body and components in a water tank from being frozen, better improve the anti-freezing capacity of the air energy heat pump, be more convenient to clean a filter plate, and avoid the influence of the blockage of the filter plate on the normal work of the air energy heat pump.

An anti-freezing air-source heat pump comprises a heat pump body and a side tank connected to the left side of the heat pump body, wherein an upper connecting tank is connected to the upper side of the heat pump body, and a water tank is connected to the right side of the interior of the heat pump body;

the top surface of the inner wall of the upper connecting box is provided with an air pump, the lower end of the inside of the upper connecting box is provided with a heating pipe, the upper end and the lower end of the left side of the inside of the heat pump body are provided with transverse pipes, one side of each transverse pipe close to the inside is communicated with a plurality of air outlet heads, and the upper connecting box is used for providing hot air for the air outlet heads;

the side incasement portion right side is installed the filter plate, side incasement portion left side upper end is equipped with the connecting plate of the laminating of right side and filter plate left side, the connecting plate left side is connected with the pull rod that runs through out the side case, the connecting plate with be connected with a plurality of springs between the side incasement wall left side.

Preferably, the left side and the lower end of the air pump are respectively communicated with an air inlet pipe and an air outlet pipe, the left side of the air inlet pipe penetrates through the upper connecting box, a main pipe penetrating through the heat pump body is communicated between the lower end of the upper connecting box and the transverse pipe above the upper connecting box, and a connecting pipe is communicated between the upper transverse pipe and the lower transverse pipe.

Preferably, the PLC controller and the thermodetector are installed from last to down in proper order to heat pump body inner wall left surface upper end, water tank right side lower extreme intercommunication has the outlet pipe that runs through out the heat pump body.

Preferably, the outlet pipe outside is installed from a left side to the right side in proper order and is located the outside flowmeter of the heat pump body and solenoid valve, thermodetector, air pump, heating pipe, flowmeter, solenoid valve and thermodetector all with PLC controller signal connection.

Preferably, a lower connecting box is connected to the lower portion of the side box, a containing box embedded into the lower connecting box is inserted into the left side of the lower connecting box in a plugging mode, and a through hole penetrating through the side box and communicated with the interior of the lower connecting box is formed in the left side of the lower portion of the inner wall of the side box.

Preferably, the through hole corresponds to the containing box from top to bottom, the left side of the outer wall of the side box is provided with an opening penetrating through the inner wall of the side box, the left side of the inner wall of the heat pump body is provided with an air inlet communicated with the inside of the side box, and the left side of the inner wall of the heat pump body is provided with a fan corresponding to the air inlet.

The beneficial effects of the utility model are: when the temperature is lower than the limit temperature, hot air is pumped into the interior of the heat pump body through the air pump, so that the temperature of parts in the heat pump body can be well increased through the hot air, the parts in the heat pump body are prevented from being frozen due to low-temperature freezing, the parts in the heat pump body are well protected at a low temperature, the anti-freezing capacity of the air energy heat pump is well improved, meanwhile, the electromagnetic valve outside the water outlet pipe is opened to discharge water in the water tank, the water in the water tank is discharged, the water in the water tank is effectively prevented from being frozen to damage the parts in the water tank, and the anti-freezing capacity of the air energy heat pump is further improved;

the filter plate vibrates through the connecting plate to vibrate the dust of its left surface and get off, and the dust that the filter plate vibration got off alright get into the containing box inside through the through-hole, the containing box alright collect with better dust to on the filter plate, better clearance the dust on the filter plate, avoid the filter plate to block up the normal work that influences air ability heat pump.

Drawings

FIG. 1 is a schematic view of the overall front cross-sectional structure of the present invention;

FIG. 2 is an enlarged partial view of part A of FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of a portion B of FIG. 1 according to the present invention;

fig. 4 is a schematic diagram of a partial enlarged structure of C in fig. 1 according to the present invention.

The labels in the figure are: the heat pump body 101, the upper connection box 102, the water tank 103, the water outlet pipe 104, the air pump 105, the electromagnetic valve 106, the flowmeter 107, the air outlet pipe 108, the heating pipe 109, the main pipe 110, the horizontal pipe 111, the air outlet head 112, the connecting pipe 113, the PLC 114, the temperature detector 115, the side box 116, the air inlet 117, the fan 118, the opening 119, the pull rod 120, the connecting plate 121, the spring 122, the lower connection box 123, the through hole 124, the flowmeter 125, the filter plate 126, the air inlet pipe 127 and the storage box 128.

Detailed Description

As shown in fig. 1 to 4, the present application is an anti-freezing air energy heat pump, which includes a heat pump body 101 and a side tank 116 connected to the left side of the heat pump body, an upper connection tank 102 is connected to the upper side of the heat pump body 101, and a water tank 103 is connected to the right side inside the heat pump body 101;

an air pump 105 is mounted on the top surface of the inner wall of the upper connecting box 102, a heating pipe 109 is mounted at the lower end of the interior of the upper connecting box 102, transverse pipes 111 are mounted at the upper and lower ends of the left side of the interior of the heat pump body 101, one side of each transverse pipe 111 close to the interior is communicated with a plurality of air outlet heads 112, the upper connecting box 102 is used for providing hot air for the air outlet heads 112, an air inlet pipe 127 and an air outlet pipe 108 are respectively communicated with the left side and the lower end of the air pump 105, the left side of the air inlet pipe 127 penetrates through the upper connecting box 102, a main pipe 110 penetrating through the heat pump body 101 is communicated between the lower end of the upper connecting box 102 and the upper transverse pipe 111, and a connecting pipe 113 is communicated between the upper transverse pipe 111 and the lower transverse pipe 111;

the upper end of the left surface of the inner wall of the heat pump body 101 is sequentially provided with a PLC (programmable logic controller) 114 and a temperature detector 115 from top to bottom, the lower end of the right side of the water tank 103 is communicated with a water outlet pipe 104 penetrating through the heat pump body 101, a flow meter 125 and an electromagnetic valve 106 which are positioned outside the heat pump body 101 are sequentially arranged outside the water outlet pipe 104 from left to right, and the temperature detector 115, the air pump 105, the heating pipe 109, the flow meter 125, the electromagnetic valve 106 and the temperature detector 115 are in signal connection with the PLC 114;

a limit temperature and a maximum temperature are set for the temperature detector 115, the limit temperature is set to be zero, the maximum temperature is the highest temperature for safely storing components inside the heat pump body 101, when the temperature detected by the temperature detector 115 is lower than zero, the temperature detector 115 can transmit a signal to the PLC 114, the PLC 114 can control the air pump 105 and the heating pipe 109 to be electrified, meanwhile, the electromagnetic valve 106 is controlled to be opened, the air pump 105 can suck external air through the air inlet pipe 127, a filter screen for filtering dust in the external air is arranged at the air inlet pipe 127 to prevent the dust in the external air from being sucked into the air pump 105, the air pump 105 pumps air through the air outlet pipe 108, the heating pipe 109 is electrified and heated at the moment, and the air pumped out from the air outlet pipe 108 can be changed into hot air through the heating pipe 109, so that subsequent antifreezing is convenient;

after the air outlet pipe 108 is changed into hot air, the hot air can enter the upper transverse pipe 111 through the main pipe 110, the hot air entering the upper transverse pipe 111 can be sprayed out through the air outlet head 112 on the upper transverse pipe 111, the hot air inside the upper transverse pipe 111 can also enter the lower transverse pipe 111 through the connecting pipe 113, the hot air entering the lower transverse pipe 111 can be sprayed out through the air outlet head 112 on the lower transverse pipe 111, the air outlet heads 112 on the upper side and the lower side can blow out the hot air from the upper end and the lower end inside the heat pump body 101, the hot air can well heat up components inside the heat pump body 101, the components inside the heat pump body 101 are prevented from being frozen due to low-temperature icing, the components inside the heat pump body 101 are well protected at lower temperature, and the anti-freezing capability of the air energy heat pump is well improved;

when the temperature detector 115 detects that the temperature reaches the highest temperature, the temperature detector 115 can transmit a signal to the PLC 114, and the PLC 114 can control the air pump 105 and the heating pipe 109 to pause, so that energy waste is avoided;

when the PLC 114 controls the electromagnetic valve 106 to be opened, the water outlet pipe 104 is communicated with the lower end of the right side of the water tank 103, so that water in the water tank 103 can be discharged through the water outlet pipe 104, the flow meter 125 positioned outside the water outlet pipe 104 can detect the flow of the water outlet pipe 104, when the flow meter 125 detects that the flow in the water outlet pipe 104 is zero, the water in the water tank 103 can be discharged, the flow meter 125 can transmit signals to the PLC 114, the PLC 114 can control the electromagnetic valve 106 to be closed, external impurities are prevented from entering the water tank 103 through the water outlet pipe 104, the water in the water tank 103 is discharged, the water in the water tank 103 is effectively prevented from being frozen to damage parts in the water tank 103, and the anti-freezing capability of the air energy heat pump is further improved;

a filter plate 126 is arranged on the right side in the side box 116, a connecting plate 121 with the right side attached to the left side of the filter plate 126 is arranged at the upper end of the left side in the side box 116, a pull rod 120 penetrating through the side box 116 is connected to the left side of the connecting plate 121, and a plurality of springs 122 are connected between the connecting plate 121 and the left side of the inner wall of the side box 116;

a lower connecting box 123 is connected below the side box 116, a containing box 128 embedded into the lower connecting box 123 is inserted and connected to the left side of the lower connecting box 123, a through hole 124 which penetrates through the side box 116 and is communicated with the interior of the lower connecting box 123 is formed in the left side of the inner wall of the side box 116, the through hole 124 corresponds to the containing box 128 up and down, an opening 119 which penetrates through the inner wall of the side box 116 is formed in the left side of the outer wall of the side box 116, an air inlet 117 which is communicated with the interior of the side box 116 is formed in the left side of the inner wall of the heat pump body 101, and a fan 118 which corresponds to the air inlet 117 is installed in the left side of the inner wall of the heat pump body 101;

the fan 118 is powered on, the fan 118 can blow air inside the side box 116 into the heat pump body 101 through the air inlet 117, outside air can enter the side box 116 through the opening 119 and is filtered through the filter plate 126, a large amount of dust is easily adhered to the left side of the filter plate 126, a user can pull the pull rod 120 leftwards, the pull rod 120 can drive the connecting plate 121 to move leftwards, the spring 122 can contract, the pull rod 120 is released, the spring 122 can reset and drive the connecting plate 121 to move rightwards, the connecting plate 121 can contact with the filter plate 126 to vibrate the filter plate 126, when the filter plate 126 vibrates, dust on the left side surface of the filter plate 126 can be vibrated, dust vibrated by the filter plate 126 can enter the containing box 128 through the through hole 124, the containing box 128 can better collect dust on the filter plate 126, and better clean the dust on the filter plate 126, the normal work of the air energy heat pump is prevented from being influenced by the blockage of the filter plate 126;

the user moves containing box 128 to the left and can take out containing box 128 from the inside of connecting box 123, pours the dust in containing box 128 into the garbage bin, inserts containing box 128 back down inside connecting box 123 and can continue to collect the dust, and is comparatively convenient.

Claims (6)

1. The utility model provides an air can heat pump prevents frostbite, includes the heat pump body (101) and connects in its left side case (116), the heat pump body (101) top is connected with connecting box (102), the inside right side of the heat pump body (101) is connected with water tank (103), its characterized in that:

the air pump (105) is installed on the top surface of the inner wall of the upper connecting box (102), the heating pipe (109) is installed at the lower end of the interior of the upper connecting box (102), the transverse pipes (111) are installed at the upper end and the lower end of the left side of the interior of the heat pump body (101), one side, close to the interior, of each transverse pipe (111) is communicated with a plurality of air outlet heads (112), and the upper connecting box (102) is used for providing hot air for the air outlet heads (112);

the utility model discloses a filter plate, including side case (116), connecting plate (121) are installed on the inside right side of side case (116), the inside left side upper end of side case (116) is equipped with right side and the laminating of filter plate (126) left side, connecting plate (121) left side is connected with and runs through pull rod (120) of side case (116), connecting plate (121) with be connected with a plurality of springs (122) between side case (116) inner wall left side.

2. The antifreeze air energy heat pump of claim 1, wherein: an air inlet pipe (127) and an air outlet pipe (108) are respectively communicated with the left side and the lower end of the air pump (105), the left side of the air inlet pipe (127) penetrates through the upper connecting box (102), a main pipe (110) penetrating through the heat pump body (101) is communicated between the lower end of the upper connecting box (102) and the upper transverse pipe (111), and a connecting pipe (113) is communicated between the upper transverse pipe (111) and the lower transverse pipe (111).

3. The antifreeze air energy heat pump of claim 1, wherein: the hot pump body (101) inner wall left surface upper end is from last to installing PLC controller (114) and thermodetector (115) down in proper order, water tank (103) right side lower extreme intercommunication has outlet pipe (104) that runs through out hot pump body (101).

4. The antifreeze air energy heat pump of claim 3, wherein: the water outlet pipe (104) is externally and sequentially provided with a flow meter (125) and an electromagnetic valve (106) which are positioned outside the heat pump body (101) from left to right, and the temperature detector (115), the air pump (105), the heating pipe (109), the flow meter (125), the electromagnetic valve (106) and the temperature detector (115) are all in signal connection with the PLC (114).

5. The antifreeze air energy heat pump of claim 1, wherein: the side case (116) below is connected with lower junction box (123), the containing box (128) of embedding inside is pegged graft in lower junction box (123) left side, open on the left side below side case (116) inner wall and have through-hole (124) that run through side case (116) and communicate with lower junction box (123) inside.

6. The antifreeze air energy heat pump of claim 5, wherein: the through hole (124) corresponds from top to bottom with containing box (128), open the opening (119) that link up to its inner wall on side case (116) outer wall left surface, open the heat pump body (101) inner wall left surface have with the inside communicating air inlet (117) of side case (116), fan (118) that correspond with air inlet (117) are installed to the heat pump body (101) inner wall left surface.

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