Mechanical flash evaporation type air conditioner refrigeration equipment
Technical Field
The invention relates to the field of refrigeration air-conditioning machinery, in particular to mechanical flash evaporation type air-conditioning refrigeration equipment.
Background
The air conditioning equipment outputs cold air in the running process, and after the air conditioning equipment stops working, the main machine cannot stop running immediately, and the air conditioning refrigeration equipment stops working after continuing running for a period of time, and the current air conditioning refrigeration equipment has the following defects:
the existing flash evaporation type air-conditioning refrigeration equipment is characterized in that the existing flash evaporation type air-conditioning refrigeration equipment is connected with water vapor condensation refrigeration output through a shower nozzle plate, an evaporation heating plate and a cyclone runner body in a cyclone manner, so that the air-conditioning refrigeration is more perfect, and after the equipment stops running, partial cold air is still output and directly emitted to cause waste.
Disclosure of Invention
Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a mechanical flash evaporation type air conditioner refrigeration device structurally comprises a connecting pipeline, a linking device, a fixed disc, a refrigeration box, supporting legs and a flash tank, wherein the connecting pipeline is connected with the linking device, the linking device is arranged on the fixed disc, the fixed disc is arranged on the refrigeration box, the bottom of the refrigeration box is provided with the supporting legs, the number of the supporting legs is four, the supporting legs are fixedly arranged at the bottom of the refrigeration box, the flash tank is connected with the connecting pipeline, and the refrigeration box is connected with the linking device;
the connecting device is composed of a blocking plate, a limiting structure, a connecting cavity and a one-way plate, the blocking plate is connected with the limiting structure, the limiting structure is installed in the connecting cavity, the connecting cavity is of a 'T' -shaped structure, the one-way plate is arranged in the connecting cavity, and the connecting cavity is communicated with the connecting pipeline.
As a further optimization of the present invention, the barrier plate is composed of a first plate, a connecting rod, a second plate and a movable rod, the first plate is embedded with the second plate, a shaft rod is arranged at the end of the first plate opposite to the second plate and is fixed at the connecting position of the connecting pipeline and the connecting cavity through the shaft rod, the connecting rod is arranged on the second plate and is mechanically connected with the movable rod, and the connecting rod penetrates and fixes one end of the movable rod on the second plate.
As a further optimization of the invention, the limiting structure comprises a fixed column, a rotating disc, a rotating bar, a draw bar and a limiting plate, wherein a hollowed frame is arranged on the fixed column, the movable bar penetrates through the hollowed frame, the inner width of the hollowed frame is far greater than the diameter of the movable bar, the rotating disc is mechanically connected with the rotating bar, one end of the rotating bar, which is far away from the rotating disc, is mechanically connected with the draw bar, the draw bar is fixedly connected with the movable bar, the limiting plate and the movable bar are arranged vertically, the limiting plate is fixedly connected with the movable bar, the limiting plate and the draw bar are arranged in parallel, and the limiting plate is positioned on one side, which is far away from the.
As a further optimization of the invention, the unidirectional plate is composed of fixed blocks, two laminated plates and fixed plate shafts, wherein the fixed blocks are of solid structures, the fixed blocks are provided with the fixed plate shafts, the two fixed plate shafts are symmetrically arranged, the two ends of each laminated plate are penetrated through by the fixed plate shafts and fixed on the fixed blocks, and the laminated plates are positioned between the two fixed blocks.
As a further optimization of the invention, the laminated plate comprises a solid layer, an air passage, a rotating plate and a fixed shaft, wherein the solid layer is provided with the air passage, the rotating plate is arranged in the air passage, the center of the rotating plate is penetrated by the fixed shaft, the fixed shaft is positioned in the center of the air passage, and the two ends of the rotating plate are respectively provided with a negative pole magnetic block, so that the rotating plate can rotate around the fixed shaft and realize the on-off control of the air passage.
As a further optimization of the invention, the inner wall of the air passage channel is concave in a certain radian and can be matched with the rotation angle of the rotating plate.
As a further optimization of the invention, one end of the first plate connected with the second plate is in 'line' jogged connection, so that when the first plate and the second plate are jogged, the connecting pipeline and the linking cavity are in a spaced state.
As a further optimization of the invention, the inner wall of the air passage is provided with the positive magnetic block which is arranged in an arc strip shape and a fixed block shape.
Advantageous effects
The invention relates to a mechanical flash evaporation type air-conditioning refrigeration device, a refrigeration box runs and outputs cold air after being electrified, the cold air enters a connecting cavity through a one-way plate, a rotary disc rotates clockwise under the action of external mechanical force, a rotary rod drives a traction rod to move along with the rotary disc, the traction rod pushes a movable rod to move along with the traction rod, one end of a second plate connected with the second plate is pushed out, the first plate and the second plate are opened, the cold air entering the connecting cavity is conveyed to a connecting pipeline and enters a flash tank through the connecting pipeline, when the device stops running, the rotary disc rotates anticlockwise, the traction rod is driven to move, the movable rod pulls the second plate to move along with the plate, the first plate and the second plate are driven to be embedded, the interval between the connecting pipeline and the connecting cavity is realized, a fixed limit block is arranged at one end of a rotary plate, and the rotary range of the rotary plate is limited, under initial condition, the rotor plate makes the rotor plate be horizontal linear form because inter attraction between negative pole magnetic path and the anodal magnetic path, is the closed condition for crossing the gas channel promptly, and the rotor plate counter-clockwise turning that air conditioning promoted when cold air input to cross the gas channel and open during cold air can enter into linking chamber, when stopping cold air transport, because opposite sex inter attraction, the rotor plate can be closed crossing the gas channel once more.
Compared with the prior art, the invention has the following advantages:
according to the cold air conveying device, the principle that like poles repel each other and opposite poles attract each other is utilized, so that the negative pole magnetic block on the rotating plate drives the whole rotating plate to rotate under the condition that cold air is not conveyed, so that the whole rotating plate is attracted and attached to the positive pole magnetic block in the air passing channel, and therefore when the refrigerating box stops working, output residual cold air can be stored in the connecting cavity, the output residual cold air can be directly output when the next device is started, and waste is avoided.
Drawings
Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
fig. 1 is a schematic structural diagram of a mechanical flash evaporation type air conditioning refrigeration device.
Fig. 2 is a structural diagram of a connecting device of a mechanical flash evaporation type air-conditioning refrigeration device.
Fig. 3 is a diagram of the operation state of fig. 2.
FIG. 4 is a structure diagram of a layer plate of the mechanical flash evaporation type air-conditioning refrigeration equipment.
FIG. 5 is a partial structure diagram of a laminate of a mechanical flash evaporation type air conditioning refrigeration device.
Fig. 6 is a structural diagram of a one-way plate of the mechanical flash evaporation type air-conditioning refrigeration equipment.
In the figure, a connecting pipeline-1, a connecting device-2, a fixed disc-3, a refrigeration box-4, supporting legs-5, a flash tank-6, a stopping plate-a, a limiting structure-b, a connecting cavity-c, a one-way plate-d, a first plate-a 1, a connecting rod-a 2, a second plate-a 3, a movable rod-a 4, a fixed column-b 1, a rotating disc-b 2, a rotating rod-b 3, a traction rod-b 4, a limiting plate-b 5, a fixed block-d 1, a laminated plate-d 2, a fixed plate shaft-d 3, a solid layer-d 21, an air passing channel-d 22, a rotating plate-d 23 and a fixed shaft-d 24 are arranged.
Detailed Description
In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.
Example 1
Referring to fig. 1-6, the invention provides a mechanical flash evaporation type air-conditioning refrigeration device, which structurally comprises a connecting pipeline 1, a connecting device 2, a fixed disk 3, a refrigeration box 4, supporting legs 5 and a flash tank 6, wherein the connecting pipeline 1 is connected with the connecting device 2, the connecting device 2 is arranged on the fixed disk 3, the fixed disk 3 is arranged on the refrigeration box 4, the bottom of the refrigeration box 4 is provided with the supporting legs 5, the number of the supporting legs 5 is four, the supporting legs are fixedly arranged at the bottom of the refrigeration box 4, the flash tank 6 is connected with the connecting pipeline 1, and the refrigeration box 4 is connected with the connecting device 2;
the linking device 2 is composed of a blocking plate a, a limiting structure b, a linking cavity c and a one-way plate d, the blocking plate a is connected with the limiting structure b, the limiting structure b is installed in the linking cavity c, the linking cavity c is of a V-shaped structure, the one-way plate d is arranged in the linking cavity c, and the linking cavity c is communicated with the connecting pipeline 1.
The barrier plate a comprises a first plate a1, a connecting rod a2, a second plate a3 and a movable rod a4, the first plate a1 is embedded with the second plate a3, a shaft rod is arranged at one end of the first plate a1 opposite to the second plate a3 and is fixed at the connecting position of the connecting pipeline 1 and the connecting cavity c through the shaft rod, the connecting rod a2 is arranged on the second plate a3, the connecting rod a2 is mechanically connected with the movable rod a4, the connecting rod a2 penetrates through one end of the movable rod a4 and is fixed on the second plate a3, and the movable rod a4 is connected with a limiting structure b, so that the opening and closing of the first plate a1 and the second plate a3 can be controlled.
The limiting structure b is composed of a fixed column b1, a rotating disc b2, a rotating bar b3, a traction bar b4 and a limiting plate b5, wherein a hollowed frame is arranged on the fixed column b1, a movable bar a4 penetrates through the hollowed frame, the inner width of the hollowed frame is far larger than the diameter of the movable bar a4, the rotating disc b2 is mechanically connected with a rotating bar b3, one end of the rotating bar b3 far away from the rotating disc b2 is mechanically connected with a traction bar b4, the traction bar 84b 53 is fixedly connected with a movable bar a4, the limiting plate b5 and the movable bar a4 are vertically arranged, the limiting plate b5 is fixedly connected with a movable bar a4, the limiting plate b4 and the traction bar b4 are arranged in parallel, the limiting plate b4 is arranged on one side of the fixed column b4 far away from the traction bar b4, and the limiting plate b4 and the movable range of the movable bar a4 is limited.
The one-way plate d comprises fixed block d1, plywood d2, fixed board axle d3, fixed block d1 is solid construction, be equipped with fixed board axle d3 on the fixed block d1, fixed board axle d3 is equipped with two to be symmetrical structure and establish, fixed board axle d3 runs through plywood d 2's both ends, and fixes on fixed block d1, plywood d2 is located between two fixed blocks d1, the establishment of plywood d2 can control and link up whether to communicate between chamber c and the refrigeration case 4.
The laminated plate d2 is composed of a solid layer d21, an air passing channel d22, a rotating plate d23 and a fixed shaft d24, the solid layer d21 is provided with an air passing channel d22, the air passing channel d22 is provided with the rotating plate d23, the center of the rotating plate d23 is penetrated through by the fixed shaft d24, the fixed shaft d24 is located at the center of the air passing channel d22, the two ends of the rotating plate d23 are respectively provided with a negative pole magnetic block, so that the rotating plate d23 can rotate around the fixed shaft d24 and switch control of the air passing channel d22 is realized, and one end of the rotating plate d23 is provided with a fixed limiting block, so that the rotating range of the rotating plate d23 is limited.
The inner wall of the air passage d22 is concave with a certain radian and can match with the rotation angle of the rotating plate d 23.
The end of the first plate a1 connected with the second plate a3 is in L-shaped line jogged connection, so that when the two are jogged, the connecting pipeline 1 and the connecting cavity c are in a spaced state.
The inner wall of the air passage d22 is provided with an anode magnetic block which is in an arc strip shape and a fixed block shape, so that the anode magnetic block can attract the cathode magnetic block on the rotating plate d23 to drive the rotating plate d23 to rotate.
After the power is on, the refrigeration box 4 runs and outputs cold air, the cold air enters the connecting cavity c through the one-way plate d, under the action of external mechanical force, the rotating disc b2 rotates clockwise, the rotating bar b3 drives the traction bar b4 to move along with the rotating disc b3, so that the traction bar b4 pushes the movable bar a4 to move along with the rotating disc b4, one end of the second plate a3 connected with the second plate a is pushed out, the first plate a1 and the second plate a3 are opened, the cold air entering the connecting cavity c is conveyed to the connecting pipeline 1 and enters the flash tank 6 through the connecting pipeline 1, when the equipment stops running, the rotating disc b2 rotates anticlockwise, the traction bar b4 is driven to move, the movable bar a4 pulls the second plate a3 to move along with the first plate a1, the first plate a1 and the second plate a3 are embedded, and the interval between the connecting pipeline 1 and the connecting cavity c is achieved.
Example 2
Referring to fig. 1-4, the invention provides a mechanical flash evaporation type air-conditioning refrigeration device, which structurally comprises a connecting pipeline 1, a connecting device 2, a fixed disk 3, a refrigeration box 4, supporting legs 5 and a flash tank 6, wherein the connecting pipeline 1 is connected with the connecting device 2, the connecting device 2 is arranged on the fixed disk 3, the fixed disk 3 is arranged on the refrigeration box 4, the bottom of the refrigeration box 4 is provided with the supporting legs 5, the number of the supporting legs 5 is four, the supporting legs are fixedly arranged at the bottom of the refrigeration box 4, the flash tank 6 is connected with the connecting pipeline 1, and the refrigeration box 4 is connected with the connecting device 2; the connecting device 2 is composed of a blocking plate a, a limiting structure b, a connecting cavity c and a one-way plate d; the barrier plate a is composed of a first plate a1, a connecting rod a2, a second plate a3 and a movable rod a 4; the unidirectional plate d is composed of a fixed block d1, a laminated plate d2 and a fixed plate shaft d3, the fixed block d1 is of a solid structure, the fixed plate shaft d3 is arranged on the fixed block d1, two fixed plate shafts d3 are arranged and are arranged in a symmetrical structure, the two ends of the laminated plate d2 penetrate through the fixed plate shaft d3 and are fixed on the fixed block d1, and the laminated plate d2 is located between the two fixed blocks d 1; the laminated plate d2 is composed of a solid layer d21, an air passing channel d22, a rotating plate d23 and a fixed shaft d24, the solid layer d21 is provided with an air passing channel d22, the air passing channel d22 is provided with the rotating plate d23, the center of the rotating plate d23 is penetrated through by the fixed shaft d24, the fixed shaft d24 is positioned in the center of the air passing channel d22, and two ends of the rotating plate d23 are provided with negative pole magnetic blocks, so that the rotating plate d23 can rotate around the fixed shaft d24 and the on-off control of the air passing channel d22 is realized.
A fixed limiting block is arranged at one end of the rotating plate d23, so that the rotating range of the rotating plate d23 is limited, in an initial state, the rotating plate d23 enables the rotating plate d23 to be in a horizontal straight line shape due to mutual attraction between the negative magnetic block and the positive magnetic block, namely, the air passage d22 is in a closed state, when cold air is input, the rotating plate d23 pushed by the cold air rotates anticlockwise, so that the air passage d22 is opened, the cold air can enter the connecting cavity c, and when the cold air is stopped to be input, due to the mutual attraction of the opposite polarities, the rotating plate d23 can close the air passage d22 again.
The flash evaporation type air-conditioning refrigeration equipment solves the problems that the existing flash evaporation type air-conditioning refrigeration equipment conducts water vapor condensation refrigeration output through a shower nozzle plate, an evaporation heating plate and a cyclone runner body by wind cyclone, so that the air-conditioning refrigeration is more perfect, and after the equipment stops running, partial cold air is still output and directly emitted to cause waste.
While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.