CN209744600U - air conditioner suitable for hoisting equipment cockpit - Google Patents

Abstract

the utility model discloses a cold warm air conditioner suitable for hoisting equipment cockpit, including setting up at the outside host computer of hoisting equipment cockpit and setting up the indoor set inside the hoisting equipment cockpit, the indoor set include the indoor set casing of L shape, be provided with fan motor chamber in the horizontal part, evaporimeter chamber and fan motor chamber communicate each other, the evaporimeter setting is in the evaporimeter intracavity, the fan motor sets up in the fan motor intracavity, the vertical portion rear surface of the indoor set casing of L shape is provided with indoor set air intake, the horizontal part upper surface of the indoor set casing of L shape is provided with the indoor set air outlet, the air outlet of fan motor is corresponding with indoor set air outlet position. The utility model discloses both satisfied the installation demand in the inside narrow and small space of cockpit, can effectively improve the refrigeration effect again, still reduced the potential safety hazard of current hoisting equipment cockpit cooling and heating air conditioner simultaneously.

Description

Air conditioner suitable for hoisting equipment cockpit

Technical Field

The utility model relates to a cooling and heating air conditioner especially relates to a cooling and heating air conditioner suitable for hoisting equipment cockpit.

Background

At present, in hoisting equipment, particularly metallurgical hoisting equipment, the space inside a cab is narrow, the equipment is compactly arranged, and the temperature inside the cab is in a low-temperature or high-temperature state for a long time in winter and summer, so that the working environment of drivers is severe. The existing air conditioner suitable for the cab of the hoisting equipment comprises an air conditioner host and an indoor unit, wherein the existing indoor unit ensures the area of an evaporator so as to improve the refrigeration effect, so that the size of the existing air conditioner is large, the existing crane control electric box can be easily opened after the existing air conditioner is installed in the cab of the hoisting equipment, and the potential safety hazard is very large. Meanwhile, the layout design of the fan and the evaporator of the existing indoor unit is not reasonable enough, so that the refrigerating effect is poor, and the phenomenon of overflowing of condensed water also exists, so that the potential safety hazard is caused to be sent.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cooling and heating air conditioner suitable for hoisting equipment cockpit both satisfies the installation demand in the inside narrow and small space of cockpit, can effectively improve the refrigeration effect again, has still reduced the potential safety hazard of current hoisting equipment cockpit cooling and heating air conditioner simultaneously.

The utility model adopts the following technical proposal:

A cooling and heating air conditioner suitable for a hoisting equipment cockpit comprises a host arranged outside the hoisting equipment cockpit and an indoor unit arranged inside the hoisting equipment cockpit, wherein the indoor unit comprises an L-shaped indoor unit casing, the indoor unit casing comprises a vertical part and a horizontal part, an evaporator cavity is arranged in the vertical part, a fan motor cavity is arranged in the horizontal part, the evaporator cavity and the fan motor cavity are mutually communicated, an evaporator is arranged in the evaporator cavity, a fan motor is arranged in the fan motor cavity, and an evaporator pipeline connecting port, a condensate water outlet and a fan motor power supply interface are further arranged on the indoor unit casing; the back surface of the vertical part of the L-shaped indoor unit casing is provided with an indoor unit air inlet, the upper surface of the horizontal part of the L-shaped indoor unit casing is provided with an indoor unit air outlet, and the air outlet of the fan motor corresponds to the position of the indoor unit air outlet.

The fan motor adopts a centrifugal fan, a motor in the centrifugal fan adopts a double-shaft motor, impellers are arranged on two output shafts of the double-shaft motor, volute casings are arranged on the outer sides of the two impellers, and air outlets of the two volute casings are upwards arranged and correspond to the air outlet of the indoor unit.

The indoor unit casing inside be located fan motor chamber top and be provided with vertical water-collecting tray, the evaporimeter sets up in vertical water-collecting tray top, vertical water-collecting tray water catch bowl is provided with to the upper surface of vertical water-collecting tray, one side and the comdenstion water export of vertical water-collecting tray water catch bowl switch on, the area of vertical water-collecting tray and evaporimeter bottom area phase-match.

The vertical water collecting tray is rectangular, the left side and the right side of the vertical water collecting tray are respectively connected with the inner surfaces of the left side and the right side of the indoor unit shell, the left side and the right side of the vertical water collecting tray are respectively provided with a rectangular ventilation opening, the upper surface of the vertical water collecting tray is provided with a rectangular vertical water collecting tray water collecting tank, the left depth of the rectangular vertical water collecting tray water collecting tank is larger than the right depth, the bottom surface of the rectangular vertical water collecting tray water collecting tank is an inclined plane with a high front part and a low rear part, and the rear part of the left side of the rectangular vertical water collecting tray water collecting tank is provided with a vertical.

Indoor set casing inside be located vertical portion front surface department and be provided with the ceiling type water catch tray, the evaporimeter setting is in ceiling type water catch tray rear side, the rear surface of ceiling type water catch tray is provided with the ceiling type water catch tray water catch bowl, one side and the comdenstion water export of ceiling type water catch tray water catch bowl switch on, the area of ceiling type water catch tray and evaporimeter bottom front surface area phase-match.

The front surface of vertical portion slopes forward for the lower part in the indoor set casing, and ceiling type water catch tray is the rectangle, and the rear surface of ceiling type water catch tray is provided with the ceiling type water catch tray water catch bowl of rectangle, and the left degree of depth of ceiling type water catch tray water catch bowl is greater than the degree of depth on right side, and the left side lower part of ceiling type water catch tray water catch bowl is provided with the ceiling type water catch tray water catch bowl breach that switches on with the comdenstion water export.

Gaps are arranged between the front side and the rear side of the vertical water collecting tray and the front side and the rear side of the vertical part in the shell of the indoor unit.

Indoor set air outlet department be provided with wind direction guiding device, the inside hollow wind direction guide chamber that is provided with of wind direction guiding device, and wind direction guide chamber is the arcuation, wind direction guiding device's rear end and indoor set air outlet fixed connection, wind direction guiding device's front end is provided with the air outlet panel, the wind direction guiding device air outlet has been seted up to air outlet panel front end, be provided with horizontal wind direction blade and vertical wind direction blade in the wind direction guiding device air outlet, the air outlet panel is 45 angle settings with vertical portion rear panel in the indoor set casing, and air outlet panel rear portion height is higher than the anterior height of air outlet panel.

The double-shaft motor is provided with an aluminum shell, and radiating fins are arranged on the aluminum shell; the evaporator comprises a copper pipe and fins arranged on the copper pipe, wherein the copper pipe is an internal thread copper pipe, and the fins are hydrophilic aluminum foils.

the wind direction guiding device air outlet inside be provided with electric auxiliary heater, electric auxiliary heater includes ceramic heating element and aluminum pipe.

The utility model discloses fully consider the narrow and small problem in current hoisting equipment cockpit space, through the shape of optimizing indoor set casing and the mounted position of each components and parts, the wind channel that scientific design is reasonable is taken evaporator cavity cold air out through high-efficient centrifugal fan, recycles special design's the route of airing exhaust and air-out equipment and sends into the cockpit with specific angle, reaches the effect that improves refrigeration effect. And simultaneously, the utility model discloses still through the structure of the interior quick-witted casing of optimal design, make the utility model discloses can provide two kinds of installation forms of vertical installation and ceiling type installation for the user can select suitable installation form to install according to actual space and equipment overall arrangement in the different types cockpit, has improved the utility model discloses a practicality. For the installation form of two kinds of differences of cooperation, the utility model discloses still independent design has two sets of different comdenstion water discharge structures, eliminates because of the potential safety hazard that the comdenstion water revealed and leads to. Compared with the existing cooling and heating air conditioner suitable for the cab of the hoisting equipment, the cooling and heating air conditioner has the volume of only 60 percent of that of the existing cooling and heating air conditioner suitable for the cab of the hoisting equipment under the condition of 5 pieces of refrigerating capacity; the changes in temperature air conditioner height of former 5 hoisting equipment cockpit of refrigeration capacity is 1.29 meters, and thickness is 0.43 meters, the utility model discloses highly only be 0.785 meters, lower part thickness is 0.35 meters, and upper portion thickness is 0.17 meters, has greatly saved the space of current hoisting equipment cockpit.

Drawings

Fig. 1 is a schematic structural view of an indoor unit of the present invention;

Fig. 2 is a schematic front view of the indoor unit of the present invention;

FIG. 3 is a schematic side view of the indoor unit of the present invention;

Fig. 4 is a rear view structural schematic diagram of the indoor unit of the utility model;

Fig. 5 is a schematic structural diagram of the middle double-shaft motor of the present invention.

Detailed Description

The invention is described in detail below with reference to the following figures and examples:

As shown in fig. 1 to 5, cooling and heating air conditioner suitable for hoisting equipment cockpit, including setting up at the outside host computer of hoisting equipment cockpit and setting up the indoor set in hoisting equipment cockpit inside, the host computer is the same with current air conditioning equipment host computer structure, no longer gives redundant details here. The indoor unit comprises an L-shaped indoor unit casing, the indoor unit casing comprises a vertical part 1 and a horizontal part 2, an evaporator cavity is arranged in the vertical part 1, a fan motor cavity is arranged in the horizontal part 2, the evaporator cavity and the fan motor cavity are communicated with each other, an evaporator 3 is vertically arranged in the evaporator cavity, a fan motor 4 is arranged in the fan motor cavity, an evaporator pipeline connecting port 5, a condensate water outlet 6 and a fan motor power supply interface 7 are further arranged on the indoor unit casing, and a host machine penetrates through the evaporator pipeline connecting port 5 by using a connecting pipe and a connecting wire to be connected with the evaporator 3; an indoor unit air inlet 8 is arranged on the rear surface of the vertical part 1 of the L-shaped indoor unit casing, an indoor unit air outlet is arranged on the upper surface of the horizontal part 2 of the L-shaped indoor unit casing, and the air outlet of the fan motor 4 corresponds to the position of the indoor unit air outlet. In this application, adopt the indoor set casing of L shape to set up evaporimeter 3 and fan motor 4 from top to bottom respectively, high-efficient indoor set casing inner space that utilizes carries out the cold air after the heat exchange through evaporimeter 3, is discharged through the indoor set air outlet by fan motor 4 from indoor set casing upper portion suction to the lower part, optimizes whole cold wind route, makes cold wind more even, effectively improves refrigeration effect.

In order to further improve the refrigeration effect, in this embodiment, the fan motor 4 is a centrifugal fan, a double-shaft motor 9 is adopted as a motor in the centrifugal fan, impellers are respectively arranged on two output shafts 10 of the double-shaft motor 9, volute casings 11 are respectively arranged on the outer sides of the two impellers, and air outlets of the two volute casings 11 are respectively arranged upwards and correspond to the air outlet of the indoor unit. The centrifugal fan can suck cold air subjected to heat exchange by the evaporator 3 into the impeller from the side by utilizing the impeller rotating at a high speed according to the principle that kinetic energy is converted into potential energy, changes the flow direction, and conveys the cold air to the air outlet of the indoor unit from the air outlet of the volute casing 11 above. The cold air is thrown out from the impeller and collected in the volute casing 11, and due to the low speed and high pressure, the cold air enters the cab from the air outlet of the indoor unit. When the air in the impeller is discharged, a negative pressure is formed, and the cold air outside the air suction port of the fan motor 4 is pressed into the impeller under the action of atmospheric pressure. Therefore, the impeller rotates continuously, and cold air is conveyed into the cab continuously. In this embodiment, adopted neotype double-shaft motor 9 and all be provided with the impeller on double-shaft motor 9 both sides output shaft 10, further improved refrigeration effect. Due to the adoption of the special centrifugal fan, a good cold air conveying path can be formed in the shell of the indoor unit, namely, cold air formed by heat exchange near the evaporator 3 is continuously sucked into the centrifugal fan from two sides of the shell of the indoor unit under the action of atmospheric pressure and conveyed into the cockpit through the centrifugal fan, so that the cold air is more uniform, and the refrigeration effect is better.

Because the space is comparatively narrow and small in the cockpit, the utility model discloses two kinds of mounting means can be realized to the indoor set casing shape of well special design, vertical installation and ceiling type installation promptly for the user can select the installation according to the actual conditions in the cockpit.

In order to adapt to the utility model discloses a two kinds of installation form make the utility model discloses can guarantee the effective collection of comdenstion water under two kinds of installation forms, avoid the comdenstion water to reveal the existence that leads to the potential safety hazard. At vertical installation the utility model discloses the time, indoor set casing inside is located fan motor chamber top and is provided with vertical water-collecting tray 12, and 3 vertical settings of evaporimeter are in vertical water-collecting tray 12 tops, and vertical water-collecting tray 12's upper surface is provided with vertical water-collecting tray water catch bowl, and one side of vertical water-collecting tray water catch bowl switches on with comdenstion water export 6, the area of vertical water-collecting tray 12 and 3 bottom area phase-matchs of evaporimeter. When the evaporator 3 exchanges heat with air, condensed water generated on fins and copper tubes of the evaporator 3 directly drops onto the vertical water collecting tray 12 under the action of gravity to be collected.

In this embodiment, the vertical water collecting tray 12 is rectangular, the left and right sides of the vertical water collecting tray 12 are respectively connected with the inner surfaces of the left and right sides of the indoor unit casing, the upper surface of the vertical water collecting tray 12 is provided with a rectangular vertical water collecting tray water collecting groove, the depth of the left side of the rectangular vertical water collecting tray water collecting groove is greater than the depth of the right side of the rectangular vertical water collecting tray water collecting groove, the bottom surface of the rectangular vertical water collecting tray water collecting groove is an inclined surface with a high front part and a low rear part, and the rear part of the left side of the rectangular vertical water collecting tray water collecting groove is. Because the depth of the left rear part in the vertical water collecting tray is deepest, the condensed water collected in the vertical water collecting tray 12 can be discharged through the condensed water outlet 6 under the action of gravity.

At ceiling type installation the utility model discloses the time, indoor set casing inside is located 1 front surface department of vertical portion and is provided with ceiling type water catch tray 13, and evaporimeter 3 sets up in ceiling type water catch tray 13 rear side, and ceiling type water catch tray 13's rear surface is provided with ceiling type water catch tray water catch bowl, and one side and the comdenstion water export 6 of ceiling type water catch tray water catch bowl switch on, and 3 end front surface area phase-matchs of area and evaporimeter of ceiling type water catch tray 13. When the evaporator 3 exchanges heat with air, condensed water generated on fins and copper tubes of the evaporator 3 directly drops onto the ceiling type water collecting tray 13 under the action of gravity to be collected.

The front surface 14 of the vertical part 1 in the indoor unit casing is an inclined plane with the lower part inclined forwards, the ceiling type water collecting tray 13 is rectangular, the rear surface of the ceiling type water collecting tray 13 is provided with a rectangular ceiling type water collecting tray water collecting groove, the left depth of the ceiling type water collecting tray water collecting groove is larger than the right depth, and the left lower part of the ceiling type water collecting tray water collecting groove is provided with a ceiling type water collecting tray water collecting groove notch communicated with the condensate outlet 6. Since the depth of the left side in the water collection tank of the ceiling-type water collection tray is deepest and the lower portion thereof is inclined forward, the condensed water collected in the ceiling-type water collection tray 13 can be discharged through the condensed water outlet 6 by gravity.

In order to ensure that cold air can be smoothly pumped into the centrifugal fan, rectangular ventilation openings are arranged on the left side and the right side of the vertical water collecting tray 12, and gaps are arranged between the front side and the rear side of the vertical water collecting tray 12 and the front side and the rear side of the vertical part 1 in the indoor unit casing.

the air outlet of the indoor unit is provided with an air direction guiding device 15, and the air direction guiding device 15 is used for adjusting the air outlet angle and improving the refrigeration effect. Inside hollow wind direction guide chamber that is provided with of wind direction guiding device 15, and the wind direction guide chamber is the arcuation, in order to optimize the wind channel design, improve wind-force transport efficiency, wind direction guiding device 15's rear end and indoor set air outlet fixed connection, wind direction guiding device 15's front end is provided with air outlet panel 16, the wind direction guiding device air outlet has been seted up to air outlet panel 16 front end, be provided with horizontal wind direction blade and vertical wind direction blade in the wind direction guiding device air outlet, air outlet panel 16 is 45 angle settings with 1 rear panel of vertical portion in the indoor set casing, and air outlet panel 16 rear portion height is higher than the anterior height of air outlet panel 16. Special wind direction guiding device 15's design can enough guarantee good wind-force transport efficiency, avoids the air current disorder, can effectual optimization air-out angle again, guarantees promptly the utility model discloses under vertical installation or ceiling type installation status, all can realize 45 air-outs, carry cold air to cockpit middle part space, improve refrigeration effect.

In the utility model, the double-shaft motor 9 is provided with the aluminum casing 17, the aluminum casing 17 can be totally enclosed, and the aluminum casing 17 is provided with the radiating fins, so that the radiating effect is better and the double-shaft motor can stably work for a long time compared with the traditional iron motor casing; the evaporator 3 comprises a copper pipe and fins arranged on the copper pipe, the copper pipe is an internal thread copper pipe, refrigerating capacity can be increased by about 30%, and the fins are hydrophilic aluminum foils, so that the evaporator has a good anti-oxidation function and long service life.

In order to achieve the auxiliary heating function, an electric auxiliary heater is arranged in the air outlet of the wind direction guiding device 15 and comprises a ceramic heating element and an aluminum pipe, namely, a PTC electric heater. The PTC heater has higher safety performance, when the fan stops due to faults, the PTC heater cannot generate heat fully, the power of the PTC heater can be automatically and rapidly reduced, the surface temperature of the heater is maintained at about the Curie temperature, and the phenomenon that the surface of an electric heating pipe heater emits red light cannot be caused.

the utility model discloses in, fully consider the narrow and small problem in current jacking equipment cockpit space, through the shape of optimizing indoor set casing and the mounted position of each components and parts, optimize design scientific and reasonable's wind channel, take evaporator cavity cold air out through high-efficient centrifugal fan, recycle special design's the route of airing exhaust and air-out equipment and send into the cockpit with specific angle, reach the effect that improves refrigeration effect. And simultaneously, the utility model discloses still through the structure of the interior quick-witted casing of optimal design, make the utility model discloses can provide two kinds of installation forms of vertical installation and ceiling type installation for the user can select suitable installation form to install according to actual space and equipment overall arrangement in the different types cockpit, has improved the utility model discloses a practicality. The installation form of two kinds of differences of cooperation, the utility model discloses still independent design has two sets of different comdenstion water discharge structures, lowers the potential safety hazard that the comdenstion water revealed and leads to. Compared with the existing cooling and heating air conditioner suitable for the cab of the hoisting equipment, the cooling and heating air conditioner has the volume of only 60 percent of that of the existing cooling and heating air conditioner suitable for the cab of the hoisting equipment under the condition of 5 pieces of refrigerating capacity; the changes in temperature air conditioner height of former 5 hoisting equipment cockpit of refrigeration capacity is 1.29 meters, and thickness is 0.43 meters, the utility model discloses highly only be 0.785 meters, lower part thickness is 0.35 meters, and upper portion thickness is 0.17 meters, has greatly saved the space of current hoisting equipment cockpit.

Claims (10)

1. The utility model provides a cooling and heating air conditioner suitable for hoisting equipment cockpit, includes the host computer of setting outside hoisting equipment cockpit and sets up the indoor set in hoisting equipment cockpit inside which characterized in that: the indoor unit comprises an L-shaped indoor unit casing, the indoor unit casing comprises a vertical part and a horizontal part, an evaporator cavity is arranged in the vertical part, a fan motor cavity is arranged in the horizontal part, the evaporator cavity and the fan motor cavity are mutually communicated, the evaporator is arranged in the evaporator cavity, the fan motor is arranged in the fan motor cavity, and an evaporator pipeline connecting port, a condensate water outlet and a fan motor power supply interface are further arranged on the indoor unit casing; the back surface of the vertical part of the L-shaped indoor unit casing is provided with an indoor unit air inlet, the upper surface of the horizontal part of the L-shaped indoor unit casing is provided with an indoor unit air outlet, and the air outlet of the fan motor corresponds to the position of the indoor unit air outlet.

2. Air conditioner suitable for a lifting equipment cockpit according to claim 1 characterized in that: the fan motor adopts a centrifugal fan, a motor in the centrifugal fan adopts a double-shaft motor, impellers are arranged on two output shafts of the double-shaft motor, volute casings are arranged on the outer sides of the two impellers, and air outlets of the two volute casings are upwards arranged and correspond to the air outlet of the indoor unit.

3. air conditioner suitable for a lifting equipment cockpit according to claim 1 characterized in that: the indoor unit casing inside be located fan motor chamber top and be provided with vertical water-collecting tray, the evaporimeter sets up in vertical water-collecting tray top, vertical water-collecting tray water catch bowl is provided with to the upper surface of vertical water-collecting tray, one side and the comdenstion water export of vertical water-collecting tray water catch bowl switch on, the area of vertical water-collecting tray and evaporimeter bottom area phase-match.

4. Air conditioner suitable for a lifting equipment cockpit according to claim 3 characterized in that: the vertical water collecting tray is rectangular, the left side and the right side of the vertical water collecting tray are respectively connected with the inner surfaces of the left side and the right side of the indoor unit shell, the left side and the right side of the vertical water collecting tray are respectively provided with a rectangular ventilation opening, the upper surface of the vertical water collecting tray is provided with a rectangular vertical water collecting tray water collecting tank, the left depth of the rectangular vertical water collecting tray water collecting tank is larger than the right depth, the bottom surface of the rectangular vertical water collecting tray water collecting tank is an inclined plane with a high front part and a low rear part, and the rear part of the left side of the rectangular vertical water collecting tray water collecting tank is provided with a vertical.

5. Air conditioner suitable for a lifting equipment cockpit according to claim 4 characterized in that: indoor set casing inside be located vertical portion front surface department and be provided with the ceiling type water catch tray, the evaporimeter setting is in ceiling type water catch tray rear side, the rear surface of ceiling type water catch tray is provided with the ceiling type water catch tray water catch bowl, one side and the comdenstion water export of ceiling type water catch tray water catch bowl switch on, the area of ceiling type water catch tray and evaporimeter bottom front surface area phase-match.

6. Air conditioner suitable for a lifting equipment cockpit according to claim 5 characterized in that: the front surface of vertical portion slopes forward for the lower part in the indoor set casing, and ceiling type water catch tray is the rectangle, and the rear surface of ceiling type water catch tray is provided with the ceiling type water catch tray water catch bowl of rectangle, and the left degree of depth of ceiling type water catch tray water catch bowl is greater than the degree of depth on right side, and the left side lower part of ceiling type water catch tray water catch bowl is provided with the ceiling type water catch tray water catch bowl breach that switches on with the comdenstion water export.

7. Air conditioner suitable for a lifting equipment cockpit according to claim 6 characterized in that: gaps are arranged between the front side and the rear side of the vertical water collecting tray and the front side and the rear side of the vertical part in the shell of the indoor unit.

8. Air conditioner suitable for a lifting equipment cockpit according to claim 7 characterized in that: indoor set air outlet department be provided with wind direction guiding device, the inside hollow wind direction guide chamber that is provided with of wind direction guiding device, and wind direction guide chamber is the arcuation, wind direction guiding device's rear end and indoor set air outlet fixed connection, wind direction guiding device's front end is provided with the air outlet panel, the wind direction guiding device air outlet has been seted up to air outlet panel front end, be provided with horizontal wind direction blade and vertical wind direction blade in the wind direction guiding device air outlet, the air outlet panel is 45 angle settings with vertical portion rear panel in the indoor set casing, and air outlet panel rear portion height is higher than the anterior height of air outlet panel.

9. Air conditioner suitable for a lifting equipment cockpit according to claim 2 characterized in that: the double-shaft motor is provided with an aluminum shell, and radiating fins are arranged on the aluminum shell; the evaporator comprises a copper pipe and fins arranged on the copper pipe, wherein the copper pipe is an internal thread copper pipe, and the fins are hydrophilic aluminum foils.

10. Air conditioner suitable for a lifting equipment cockpit according to claim 8 characterized in that: the wind direction guiding device air outlet inside be provided with electric auxiliary heater, electric auxiliary heater includes ceramic heating element and aluminum pipe.