Temperature regulating and controlling device of refrigeration equipment
Technical Field
The invention relates to a temperature regulating device of refrigeration equipment, belonging to the field of refrigeration equipment.
Background
Apparatus for use in refrigeration operations. Different refrigeration methods use different equipment, the most widely used at present is vapor compression refrigeration, and the main equipment is a compressor (see a fluid conveying machine), a condenser, an evaporator and a throttle valve.
Compressors are used to compress and deliver refrigerant vapor, with piston and centrifugal applications being the broadest.
The temperature regulator operates the temperature of the control object to a required temperature, and the process is temperature control.
A refrigeration device is a device in which a refrigerator is combined with a facility that uses refrigeration. The refrigeration apparatus is designed and constructed to effectively use the cold to refrigerate foods or other objects; performing performance test and scientific research test of the product at low temperature; certain cooling processes are implemented in industrial production, or air conditioning is performed. When the goods are cooled or frozen, a certain amount of heat needs to be emitted, and when the enclosure structure of the refrigerating device is used, a certain amount of heat can also be transmitted. Therefore, in order to maintain the low temperature condition in the refrigerating apparatus, it is necessary to provide a refrigerator to continuously remove the heat or absorb the heat by melting ice or sublimation of dry ice.
However, the temperature adjusting device in the prior art cannot perform intelligent adjustment on the refrigeration equipment according to the external temperature, cannot filter the refrigerant liquid in the adjustment process, and cannot enable the device to be adjusted to follow the inertial adjustment, so that the adjustment is more accurate and intelligent.
Disclosure of Invention
Aiming at the defects in the prior art, the invention aims to provide a temperature regulating device of refrigeration equipment, which solves the problems that the temperature regulating device cannot intelligently regulate the refrigeration equipment according to the external temperature, cannot filter the refrigerant liquid in the regulating process, cannot enable the device to be subjected to inertial regulation after regulation, and cannot enable the regulation to be more accurate and intelligent.
In order to achieve the purpose, the invention is realized by the following technical scheme: a temperature control device of refrigeration equipment structurally comprises: a protective supporting leg, a fixed base, a device shell, an intelligent temperature control and regulation device, protective rubber, a movable blade, an exhaust pipe and a blade frame, the protective supporting legs are vertically and fixedly arranged at four corners of the lower surface of the fixed base in a pairwise parallel way, the device shell is positioned on the upper surface of the fixed base and welded with the fixed base, the protective rubber is positioned on the outer side surface of the device shell and movably connected with the device shell, the intelligent temperature control and regulation device is embedded in the device shell and is movably connected with the device shell, the exhaust pipe is positioned on the upper surface of the device shell and is integrated with the device shell, the movable blade is movably arranged on the inner side surface of the exhaust pipe and is in clearance fit with the exhaust pipe, the blade frame is positioned on the right side surface of the device shell and is movably connected with the device shell;
the intelligent temperature control and regulation device is provided with a rotation transmission device, a movable regulation device, a regulation and filtration device, a temperature sensing device, an electromagnetic transmission device and a power matching device;
the left and right sides surface that rotates transmission and locate equipment inside is in the same place with equipment fixed welding simultaneously, the activity adjusting device with rotate transmission and be parallel to each other and with through the area body activity fit together, adjust the left side surface of the embedded temperature-sensing device of filter equipment and be in the same place rather than swing joint simultaneously, the upper surface of temperature-sensing device vertical connection and power transmission, electromagnetic transmission is mutually perpendicular and mesh together rather than temperature-sensing device, power transmission adopts clearance fit to link together through area body transmission and activity adjusting device.
Furthermore, the rotation transmission device is provided with a mounting rack, a fixed rolling shaft, a rotating disc, a movable groove, a steel rope, a matching wheel, a conveying belt and a steel rope wheel.
Further, the rotating disc is located on the front surface of the mounting frame and movably connected with the mounting frame, the steel rope wheel is movably mounted in the center of the front surface of the rotating disc and movably connected with the rotating disc, the steel rope wraps the outer side surfaces of the steel rope wheel and movably matched with the outer side surfaces of the steel rope wheel, the matching wheel and the steel rope wheel are parallel to each other and movably connected with each other through the steel rope, the outer side surfaces of the rotating disc are embedded into the movable groove and fixedly connected with the rotating disc, the fixed rolling shaft is arranged inside the movable groove and is in clearance fit with the movable groove, the conveying wheel is perpendicular to the matching wheel located below the conveying wheel and meshed with the conveying wheel, and the outer side surfaces of the conveying wheel wrapped by the conveying belt are connected with each other in clearance.
Furthermore, the movable adjusting device is provided with a joint frame, a rotating shaft, a mounting block, a movable turntable, a fixed frame, a threaded rod, a rubber block, a shell and a water channel, the joint frame is positioned at the center of the outer side surface of the rotating shaft and fixedly welded with the rotating shaft, the mounting block wraps the outer side surface of the rotating shaft and is movably matched with the rotating shaft, the fixing frames are fixedly mounted on the outer side surface of the mounting block in a bilateral symmetry mode and are welded with the mounting block, the movable turntable is movably arranged on the inner side surface of the fixed frame and movably matched with the fixed frame, the threaded rod is vertically connected with the lower surface of the movable turntable and is movably connected with the movable turntable, the rubber block wraps the outer side surface of the threaded rod and is arranged in the shell, and the water channel is embedded into the shell and is of an integrated structure with the shell.
Further, adjust filter equipment and be equipped with expansion bracket, pressure pole, protection frame, pressure frame, filter screen board, carriage, condenser, the carriage is parallel to each other and is located the left and right sides people surface of condenser and link up each other with the condenser, the filter screen board vertical connection is in the same place with the inboard surface of carriage and with carriage activity cooperation, the pressure is put up the mode connection that passes through hinged joint and is connected the upper surface with filter screen board, the protection frame is located the below of pressure frame and is in the same place with pressure frame activity cooperation simultaneously, the pressure pole is located the lower surface of pressure frame and is in the same place with pressure frame swing joint simultaneously, the inside of embedding pressure pole in the expansion bracket simultaneously with pressure pole activity cooperation.
Furthermore, the temperature sensing device is provided with a lifting frame, a reagent frame, a fixing plate, a rack, a matching wheel frame, a gear shaft, a transmission shaft and a lower pressing block, the reagent rack is arranged in the frame in parallel up and down and movably matched with the frame, the fixing plate is positioned on the upper surface of the reagent rack and movably connected with the reagent rack, the rack is vertical to the center of the lower surface of the fixing plate and is welded with the fixing plate, the matching wheel carrier is arranged on the right side surface of the rack and is movably meshed with the rack, the transmission shaft is arranged on the lower surface of the matching wheel carrier and is movably connected with the matching wheel carrier, the gear shaft is vertical to the upper surface of the transmission shaft and is movably connected with the transmission shaft, the lifting frame and the lower pressing block are perpendicular to each other and are fixedly connected into an integrated structure in a welding mode.
Furthermore, the electromagnetic transmission device is provided with a connecting wire, an electromagnet, a shell frame, a jacking rod, a movable spring, a meshing wheel and a joint frame, the electromagnet is arranged in the shell frame and is fixedly connected with the shell frame, the shell frame and the jacking rod are fixedly connected together through the joint frame positioned between the electromagnet and the shell frame, the movable spring wraps the outer side surface of the jacking rod and is movably matched with the jacking rod, and the meshing wheel is vertical to the upper surface of the jacking rod and is welded with the jacking rod into an integrated structure.
Further, the power matching device is provided with a driving shaft, a driving motor, an auxiliary motor, a transmission shaft, a transmission belt, a balance belt, a gear shaft frame, a belt wheel frame, a matching fixing shaft and a bevel gear group, wherein the driving motor and the auxiliary motor are parallel to each other and symmetrically welded into an integrated structure, the driving shaft is vertically embedded into the driving motor and movably connected with the driving motor, the belt wheel frame is connected with the front surface of the driving shaft in a welding mode, the transmission shaft is embedded into the auxiliary motor and fixedly connected with the auxiliary motor, the transmission belt wraps the outer side surface of the transmission shaft and is movably matched with the transmission shaft, the bevel gear group is arranged on the right side surface of the transmission shaft and is fixedly connected with the transmission shaft, the gear shaft frame is vertically connected with the lower surface of the bevel gear group and is movably connected with the bevel gear group, the balance belt wraps the outer side surface of the gear shaft frame and is movably matched with the gear shaft frame, the belt wheel frame is located on the right side surface of the driving shaft, the belt wheel frame and the gear shaft are fixedly connected together, and the matching fixing shaft fixedly penetrates through the center of the belt wheel frame and is fixedly connected with the matching fixing shaft.
Advantageous effects
The invention relates to a temperature regulating device of refrigeration equipment, after the equipment is electrified, a driving motor and an auxiliary motor are simultaneously electrified, the refrigeration equipment operates, the reagent rack inducted temperature is over high, when the temperature is over high, the reagent rack expands to enable a lifting rack at the front to descend, the driving motor at the lower part is electrified, a driving shaft rotates under the action of electromagnetic induction to enable power to be output upwards, then a matching fixed shaft at the right side rotates simultaneously through the transmission of power by a belt wheel rack to enable a rotating disc at the lower part to rotate, and further in the rotating process of a movable groove on the rotating disc, a fixed rolling shaft rotates to drive a steel rope wheel to rotate, an upper matching wheel rotates through the transmission of a steel rope to drive a rotating shaft reverse transfer mounting block to rotate, so that a movable rotating disc at the lower part rotates on a shell, and a rubber block rises to enable an, the discharge amount of condensed gas is increased, and after the transmission of power is stopped under the matching condition of the fixed rolling shaft and the movable groove, the movable turntable can continue to carry out a section of work, when the external temperature is too cold, the reagent rack can shrink to press the pressing rack inside, the pressing rod descends, meanwhile, the filter screen plate descends, slides and is embedded into the sliding rack, the refrigerant liquid entering and exiting is filtered, meanwhile, the pressing rod enables the auxiliary motor to rotate reversely, enables the transmission shaft to rotate, enables the bevel gear group above the bevel gear group to rotate under the matching transmission of the transmission belt inside, drives the gear shaft rack above the bevel gear group to rotate again, enables the balance belt to rotate in the process of rotating, enables the rubber block to limit the discharge of the refrigerant liquid to enable the indoor temperature to rise, thereby completing the temperature regulation of the refrigeration equipment, and therefore, the temperature regulation device can carry out intelligent regulation according to the external temperature in the refrigeration equipment, and can filter the refrigerant liquid at the in-process of adjusting, the device can follow inertial regulation after the adjustment simultaneously, lets adjust more accurate and intelligent purpose.
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 temperature control device of a refrigeration apparatus according to the present invention.
Fig. 2 is a schematic structural diagram of the intelligent temperature control and regulation device of the present invention.
Fig. 3 is a detailed schematic diagram of the component structure of the intelligent temperature control and regulation device of the invention.
Fig. 4 is a first schematic view of the intelligent temperature control and regulation device of the present invention.
Fig. 5 is a schematic diagram of the intelligent temperature control and regulation device of the invention.
In the figure: protective supporting foot-1, fixed base-2, device shell-3, intelligent temperature control adjusting device-4, protective rubber-5, movable blade-6, exhaust pipe-7, blade frame-8, rotary transmission device-41, movable adjusting device-42, adjusting filter device-43, temperature sensing device-44, electromagnetic transmission device-45, power matching device-46, mounting frame-411, fixed rolling shaft-412, rotary disc-413, movable groove-414, steel rope-415, matching wheel-416, conveying wheel-417, conveying belt-418, steel rope wheel-419, connecting frame-421, rotating shaft-422, mounting block-423, movable rotary disc-424, mounting frame-425, threaded rod-426, intelligent temperature control adjusting device-44, and power matching device-46, Rubber block-427, shell-428, water channel-429, telescopic frame-431, press rod-432, protective frame-433, press moving frame-434, filter screen plate-435, sliding frame-436, condenser-437, lifting frame-441, frame-442, reagent frame-443, fixed plate-444, rack-445, matching wheel frame-446, gear shaft-447, transmission shaft-448, lower press block-449, connecting wire-451, electromagnet-452, shell frame-453, top moving rod-454, movable spring-455, meshing wheel-456, joint frame-457, driving shaft-461, driving motor-462, auxiliary motor-463, transmission shaft-464, transmission belt-465, balance belt-466, gear shaft frame-467, transmission belt-467, A belt wheel carrier-468, a matching fixed shaft-469 and a bevel gear set-4610.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.
Referring to fig. 1 to 5, the present invention provides a temperature control device for a refrigeration apparatus, comprising: the structure includes: the device comprises protective supporting legs 1, a fixed base 2, a device shell 3, an intelligent temperature control adjusting device 4, protective rubber 5, movable blades 6, an exhaust pipe 7 and a blade frame 8, wherein every two of the protective supporting legs 1 are vertically and fixedly arranged at four corners of the lower surface of the fixed base 2 in parallel, the device shell 3 is positioned on the upper surface of the fixed base 2 and welded with the fixed base 2, the protective rubber 5 is positioned on the outer side surface of the device shell 3 and movably connected with the device shell 3, the intelligent temperature control adjusting device 4 is embedded in the device shell 3 and movably connected with the device shell 3, the exhaust pipe 7 is positioned on the upper surface of the device shell 3 and is of an integrated structure with the device shell 3, the movable blades 6 are movably arranged on the inner side surface of the exhaust pipe 7 and are in clearance fit with the inner side surface of the exhaust pipe 7, the blade frame 8 is positioned on the right side surface of the device shell 3 and is movably connected with the device shell 3;
the intelligent temperature control adjusting device 4 is provided with a rotation transmission device 41, a movable adjusting device 42, an adjusting and filtering device 43, a temperature sensing device 44, an electromagnetic transmission device 45 and a power matching device 46;
the rotary transmission device 41 is arranged on the left side surface and the right side surface inside the equipment and fixedly welded with the equipment, the movable adjusting device 42 and the rotary transmission device 41 are parallel to each other and movably matched together through a belt body, the left side surface of the temperature sensing device 44 is embedded in the adjusting and filtering device 43 and movably connected together, the temperature sensing device 44 is vertically connected with the upper surface of the power transmission device 46, the electromagnetic transmission device 45 and the temperature sensing device 44 are perpendicular to each other and meshed together, the power transmission device 46 is connected with the movable adjusting device 42 through belt body transmission in a clearance fit manner, the rotary transmission device 41 is provided with a mounting rack 411, a fixed rolling shaft 412, a rotary disk 413, a movable groove 414, a steel rope 415, a matching wheel 416, a conveying wheel 417, a conveying belt 418 and a steel rope wheel 419, the rotary disk 413 is arranged on the front surface of the mounting rack 411 and movably connected with the mounting rack 411, the steel rope wheel 419 is movably mounted in the center of the front surface of the rotating disc 413 and movably connected to the rotating disc, the steel rope 415 wraps the outer side surface of the steel rope wheel 419 and movably matched with the steel rope wheel 419, the matching wheel 416 and the steel rope wheel 419 are parallel to each other and movably connected to each other through the steel rope 415, the outer side surface of the rotating disc 413 is embedded in the movable groove 414 and fixedly connected to the rotating disc 413, the fixed roller 412 is disposed in the movable groove 414 and is in clearance fit with the movable groove 414, the conveying wheel 417 is perpendicular to and meshed with the matching wheel 416 positioned below the conveying wheel 417, the outer side surface of the conveying wheel 417 is wrapped by the conveying belt 418 and is connected to each other through clearance fit, the movable adjusting device 42 is provided with a joint frame 421, a rotating shaft 422, a mounting block 423, a movable rotating disc 424, a fixed frame 425, a rubber block 427, a housing 428, a water channel 429, wherein the joint frame 421 is located at the center of the outer side surface of the rotating shaft 422 and fixedly welded with the rotating shaft 422, the mounting block 423 wraps the outer side surface of the rotating shaft 422 and movably matched with the rotating shaft 422, the fixed frame 425 is fixedly mounted on the outer side surface of the mounting block 423 in a bilateral symmetry manner and welded with the mounting block 423, the movable rotary disc 424 is movably mounted on the inner side surface of the fixed frame 425 and movably matched with the fixed frame 425, the threaded rod 426 is vertically connected with the lower surface of the movable rotary disc 424 and movably connected with the movable rotary disc 424, the rubber block 427 wraps the outer side surface of the threaded rod 426 and is arranged in the housing 428, the water channel 429 is embedded in the housing 428 and is of an integrated structure with the housing 428, the adjusting filter device 43 is provided with an expansion bracket, The pressure bar 432, the protection frame 433, the pressure frame 434, the filter screen plate 435, the sliding frame 436, the condenser 437, the sliding frame 436 is parallel to each other and is located on the left and right side of the condenser 437 and is communicated with the condenser 437, the filter screen plate 435 is vertically connected with the inner side surface of the sliding frame 436 and is movably matched with the sliding frame 436, the pressure frame 434 is connected with the upper surface of the filter screen plate 435 through a hinge connection mode, the protection frame 433 is located below the pressure frame 434 and is movably matched with the pressure frame 434, the pressure bar 432 is located on the lower surface of the pressure frame 434 and is movably connected with the pressure frame 434, the inside of the pressure bar 432 is embedded in the telescopic frame 431 and is movably matched with the pressure bar 432, the temperature sensing device 44 is provided with a lifting frame 441, a frame 442, a reagent frame 444, a fixing plate 444, a rack 445, a matching wheel frame 446, a sliding frame 443, A gear shaft 447, a transmission shaft 448 and a lower pressing block 449, wherein the reagent holder 443 is installed inside the frame 442 in parallel up and down and movably matched with the frame 442, the fixing plate 444 is located on the upper surface of the reagent holder 443 and movably connected with the reagent holder 443, the rack 445 is vertically connected with the center of the lower surface of the fixing plate 444 and welded with the fixing plate 444, the matching wheel holder 446 is arranged on the right side surface of the rack 445 and movably meshed with the rack 445, the transmission shaft 448 is arranged on the lower surface of the matching wheel holder 446 and movably connected with the matching wheel holder 446, the gear shaft 447 is vertically connected with the upper surface of the transmission shaft 448 and movably connected with the transmission shaft 448, the crane 441 and the lower pressing block 449 are vertically connected with each other by welding to form a fixed and integrated structure, the electromagnetic transmission device 45 is provided with connection wires 451, The electromagnet 452 is arranged inside the shell frame 453 and is fixedly connected with the shell frame 453, the shell frame 453 and the jacking rod 454 are fixedly connected together through the joint frame 457 positioned between the two, the movable spring 455 wraps the outer side surface of the jacking rod 454 and is movably matched with the jacking rod 454, the meshing wheel 456 is perpendicular to the upper surface of the jacking rod 454 and is welded with the jacking rod 454 into an integrated structure, the power matching device 46 is provided with a driving shaft 461, a driving motor 462, an auxiliary motor 463, a transmission shaft 464, a transmission belt 465, a balance belt 466, a gear shaft frame 467, a belt wheel frame 468, a matching fixed shaft 469 and a bevel gear set 4610, the driving motor 462 and the auxiliary motor are parallel to each other and are symmetrically welded into an integrated structure, the driving shaft 461 is vertically embedded inside the driving motor 462 and is movably connected together, the pulley frame 468 is connected to a front surface of the driving shaft 461 by welding, the transmission shaft 464 is embedded in the auxiliary motor 463 and is fixedly connected with the auxiliary motor 463, the conveyor 465 wraps the outer side surface of the transmission shaft 464 and is movably engaged with the transmission shaft 464, the bevel gear group 4610 is provided on the right side surface of the transmission shaft 464 and is fixedly coupled with the transmission shaft 464, the gear shaft bracket 467 is vertically connected with the lower surface of the bevel gear group 4610 and is movably connected with the bevel gear group 4610, the balance strap 466 wraps the outer side surface of the gear shaft frame 467 and is movably fitted with the gear shaft frame 467, the pulley frame 468 is fixedly connected to the right side surface of the driving shaft 461, the fixed axis 469 is fixed through the center of the pulley frame 468 and is fixedly connected with the fixed axis 469.
The power fitting means 46 of the present invention refers to means capable of providing the power and adjustments required for the operation of the apparatus.
After the device is powered on, the driving motor 462 and the auxiliary motor 463 are powered on simultaneously, the refrigeration device operates, when the temperature sensed by the reagent rack 443 is too high, the reagent rack 443 expands, so that the lifting rack 441 at the front descends to enable the driving motor 262 at the lower part to be powered on, the driving shaft 261 rotates under the action of electromagnetic induction to enable power to be output upwards, then the power is transmitted through the belt wheel frame 468 to enable the matching fixing shaft 469 at the right side to rotate simultaneously to enable the rotating disc 413 at the lower part to rotate, and further, in the process that the movable groove 414 on the rotating disc 413 rotates, the fixing roller 412 rotates to drive the steel rope pulley 419 to rotate and enable the matching wheel 417 at the upper part to rotate through the transmission of the steel rope 415 so as to drive the rotating shaft 422 to rotate reversely to enable the movable rotating disc 424 at the lower part to rotate on the shell 427 and enable the threaded rod 426 to rotate, the discharge amount of the condensed gas is increased, and in the case where the fixed roller 412 is engaged with the movable groove 414, after stopping the delivery of the stopping force, the movable turntable 424 can continue to work for a while, when the external temperature is too cold, the reagent holder 443 is contracted to press the inner pressing frame 434 downward and cause the pressing rod 432 to descend and the filter screen plate 435 to descend and slide into the inner portion of the sliding frame 436, filtering the incoming and outgoing refrigerant fluid, meanwhile, the pressing rod 432 rotates the auxiliary motor 463 reversely and rotates the transmission shaft 464 to rotate the transmission belt 465 so that the bevel gear group 4610 above rotates to drive the gear shaft frame 467 above the bevel gear group 4610 to rotate again and rotate simultaneously to rotate the balance belt 466 reversely, so that the rubber block 427 restricts the discharge of the refrigerant fluid by rotating the rotary shaft 422 reversely, thereby allowing the temperature in the room to rise back to some extent, thereby completing the temperature adjustment of the refrigerating apparatus.
The invention solves the problems that the temperature adjusting device can not carry out intelligent adjustment on the refrigeration equipment according to the external temperature, can not filter the refrigerant liquid in the adjustment process, and can not enable the device to carry out inertial adjustment after adjustment, thereby being incapable of leading the adjustment to be more accurate and intelligent.
While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
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.