CN110703829B - Heat preservation water tank with accuse temperature detects function - Google Patents

Abstract

The invention discloses a heat preservation water tank with a temperature control detection function, which comprises an inner tank body for containing and a temperature control shell body sleeved on the inner tank body, wherein the upper surface of the temperature control shell body is also provided with a liquid inlet and a medicine inlet, the inner tank body is provided with a temperature control assembly capable of monitoring and controlling temperature, a temperature control ring is arranged between the temperature control shell body and the inner tank body and comprises an inner ring and an outer ring, a plurality of heat preservation telescopic assemblies for adjusting the temperature control effect are circumferentially arranged between the inner ring and the outer ring at equal intervals, the inner ring and the outer ring are respectively connected with the inner tank body and the temperature control shell body in a sliding manner, the upper ends of the inner ring and the outer ring are respectively provided with a transmission gear ring, a plurality of groups of transmission gears are arranged between the two groups of transmission gear. The invention can switch the two states of enhanced heat dissipation and enhanced heat preservation according to different use stages, use environments and the like, so that the heat-preservation water tank can adjust heat dissipation and heat preservation.

Description

Heat preservation water tank with accuse temperature detects function

Technical Field

The invention relates to the technical field of water tanks, in particular to a heat-preservation water tank with a temperature control detection function.

Background

Cogeneration is the simultaneous generation of electricity and useful heat by heat engines or power stations. Triple cogeneration or cooling, heat and power cogeneration refers to the simultaneous production of electricity and useful heat and cooling from fuel burning or solar collectors. Cogeneration is a thermodynamically efficient use of fuel. In individual power production, some of the energy must be discarded as waste heat, but in cogeneration, some of this heat energy is put into use.

And need use the holding water tank in our natural gas cogeneration unit engineering, but traditional holding water tank can't satisfy our use needs, traditional holding water tank can't satisfy simultaneously and carry out effective heat dissipation under the high temperature condition again the temperature keep warm more than 5 degrees after the heat dissipation, and its heat preservation effect of traditional holding water tank is not very ideal when dealing with northern cold climate, consequently, need one kind now can satisfy the holding water tank that uses in our natural gas cogeneration unit engineering, make it can follow and strengthen heat preservation and strengthen radiating switching according to the user demand, and improve its heat preservation accuse temperature effect.

Disclosure of Invention

In order to solve the technical problem, the invention provides the heat-preservation water tank with the temperature control detection function.

The invention has the technical scheme that the heat preservation water tank with the temperature control detection function comprises an inner tank body for containing and a temperature control shell body sleeved on the inner tank body, wherein a liquid inlet and a medicine inlet are further formed in the upper surface of the temperature control shell body, a liquid outlet is formed in the lower bottom surface of the temperature control shell body, the liquid inlet, the medicine inlet and the liquid outlet are communicated with the inner tank body, a temperature control assembly capable of monitoring and controlling temperature is arranged on the inner tank body, a temperature control ring is arranged between the temperature control shell body and the inner tank body, the temperature control ring comprises an inner ring and an outer ring, a plurality of heat preservation telescopic assemblies used for adjusting the temperature control effect are circumferentially arranged between the inner ring and the outer ring at equal intervals, the heat preservation telescopic assemblies can perform switching of two states of heat dissipation enhancement and heat preservation enhancement according to the relative rotation of the inner ring and the outer ring, the inner ring, The upper end of the outer ring is provided with a transmission gear ring, a plurality of groups of transmission gears are arranged between the two transmission gear rings, and the transmission gears are connected with the adjusting buttons arranged on the upper surface of the temperature control shell through connecting rods. Through the design of accuse temperature ring, utilize the flexible subassembly that keeps warm, make it can strengthen the heat dissipation according to the relative rotation of inner ring, outer loop, strengthen the switching of two kinds of states that keep warm, make this holding water box can adjust heat dissipation and heat preservation, can be according to user demand, make the fan come the temperature and cool down, or keep warm to its storage water, be favorable to the fan after the water that comes cools down and keep warm under being not less than 5 ℃ of temperature, improve the result of use of water tank.

Furthermore, the heat-preservation telescopic assembly comprises a telescopic main body plate, a temperature-adjustable plate and a sliding sleeve plate; flexible main part board, slip lagging are respectively through a pivot piece and outer loop, interior loop connection, and the slip lagging cover is established on flexible main part board, the inner ring is furnished with the recess with each slip lagging department, flexible main part board is close to pivot piece one side and is equipped with the pars contractilis that is used for flexible main part board length, can regulate and control temperature board one end and flexible main part board and be close to slip lagging one side and connect through replying the hub connection, can regulate and control the temperature board other end and upper and lower both ends and respectively through a flexible interlayer and flexible main part board connection. Through the structural design of the adjustable temperature control plate of the heat-preservation telescopic assembly, the combined action of the return shaft and the sliding sleeve plate is utilized, the adjustable temperature control plate is expanded or stretched out and drawn back to realize the switching of the temperature control ring between two states of enhanced heat dissipation and enhanced heat preservation, the function can be effectively realized through the design of the structure, the operation is simple, the use effect is good, and the use requirement of the adjustable temperature control plate can be met.

Furthermore, the return shaft is a rotating shaft with a torsion spring; the temperature-adjustable plate and the telescopic main body plate are made of the existing heat-insulation plates; the flexible interlayer is made of the existing high-temperature-resistant cloth.

Furthermore, an elastic groove for placing heat preservation filler is arranged in the middle of the telescopic main body plate, the elastic groove comprises a hole groove, elastic blocking nets at the upper end and the lower end and an arc-shaped elastic sheet, and the two ends of the arc-shaped elastic sheet are respectively connected with the left end and the right end of the hole groove and used for extruding or accommodating the heat preservation filler according to the rotation of the temperature adjustable plate of the heat preservation telescopic assembly; the heat-insulating filler is spherical particles with the diameter length of 3-5 mm prepared by using a heat-insulating cotton material. Through the cooperation design elasticity groove on flexible main part board, utilize the elasticity groove holding of exerting pressure and put the effect of pressing the release, fill the heat preservation filler to it, supplementary reinforcing keeps warm the heat preservation effect of flexible subassembly when reinforcing heat preservation state, makes it can reply chilly northern temperature.

Further, the heat-preservation telescopic assembly is provided with 13 groups; the far end of the temperature-adjustable plate can be contacted with the rotating shaft block of the adjacent telescopic main body plate when the heat-preservation telescopic assembly is in a heat-preservation-enhanced state, so that the temperature control ring is integrally in a state of being covered by the heat-preservation filler and the temperature-adjustable plate; the rotating shaft block of the telescopic main body plate and the adjacent corresponding side of the temperature-adjustable plate are provided with magnetic suction blocks, and the positions of the temperature-adjustable plate and the rotating shaft block of the telescopic main body plate corresponding to each other are also provided with magnetic suction blocks. Through setting up magnetism and inhaling the piece, can effectively improve adjustable temperature control board and pivot piece contact, avoid two adjacent heat preservation flexible subassembly can regulate and control the temperature board and do not seal and cause its thermal insulation performance to descend.

Furthermore, the inner ring and the outer ring are respectively connected with the inner box body and the temperature control shell in a sliding mode through a plurality of groups of damping annular rail assemblies, each damping annular assembly comprises a magnetic ring rail groove arranged on the inner box body and the temperature control shell and a magnetic ring arranged on the inner ring and the outer ring, the cross section of the joint of the magnetic ring and the magnetic ring rail groove is circular, the cross section of the magnetic ring rail groove is circular, anti-collision contacts are uniformly distributed on the circumferential wall, and the anti-collision contacts are made of rubber materials. Through setting up the annular rail subassembly of shock attenuation can effectual reduction inner ring, outer loop running friction, make the knob operation more light, simultaneously, owing to utilize magnetic levitation to make it persist the fit clearance, can effectual buffering adjust the vibration of rotating the in-process, the design of cooperation anticollision contact simultaneously avoids the water tank acutely to rock the wait to make magnetic ring rail groove and magnetic ring collision cause the damage.

Furthermore, the adjusting button is equipped with 4 groups, and the equidistant distribution is in accuse temperature casing upper surface respectively. Can make on the accuse temperature casing all be equipped with the adjusting knob in each position, the operating personnel of being convenient for is located holding water box's each angle homoenergetic and adjusts accuse temperature ring.

Furthermore, the temperature control assembly comprises a temperature sensor arranged on the inner bottom surface of the inner box body, a controller arranged on the outer top surface of the inner box body, a heating plate for controlling temperature and a stirring assembly for stirring; the heating plates are provided with a plurality of groups, the heating plates are circumferentially arranged on the lower bottom surface of the support plate at equal intervals, the support plate is connected with the inner wall of the temperature control shell through a connecting rod, the stirring assemblies are provided with a plurality of groups and are respectively arranged between every two adjacent heating plates, each stirring assembly comprises an outer sleeve, an inner rod, a transmission disc, a driving disc and a driving motor, a connecting hole is respectively arranged at the position corresponding to each stirring assembly on the support plate, the stirring assemblies are rotatably connected with the connecting holes through the outer sleeves through large bearings, the inner rod is arranged in the outer sleeves in a penetrating manner, small bearings for limiting are arranged at the bottom of the inner rod and are connected with the inner wall of the outer sleeve, the upper end of the transmission disc is fixed with the support plate through a connecting piece so as to be positioned above the outer sleeves, the transmission disc is positioned in an, the driving disc is positioned above the center of the support plate and connected with an output shaft of a driving motor, the driving disc is in transmission connection with each transmission disc through a transmission belt, the driving motor is arranged on the outer top surface of the temperature control shell, a plurality of groups of stirring plates are circumferentially arranged on the outer sleeve, a plurality of stirring blades are longitudinally arranged between every two adjacent stirring plates at equal intervals, the stirring blades penetrate through the outer sleeve through a stirring rod, a shaft sleeve is arranged at the joint of the stirring rod and the outer sleeve, a bevel gear is arranged at the end of the stirring rod, and a bevel gear ring is arranged at the position, corresponding to the position of the bevel gear, of the inner rod and meshed; the controller is connected with the temperature sensor, the driving motor and the heating plate. Set up on the support plate through multiunit hot plate circumference, can improve the effect of internal box heating, make its can be quick even intensification to the heat preservation scope, simultaneously, the stirring subassembly of setting can carry out the stirring of interior box in order to improve the degree of mixing of medicament and water as required, utilizes two sets of transmissions of outer tube and interior pole to realize violently stirring and indulging the stirring to same position, improves the efficiency of stirring.

Furthermore, the transmission connection mode of the transmission ring and the mating ring is any one of tooth transmission or friction transmission. The matching rings of the outer sleeve and the inner rod can be rotated through the rotation of the transmission ring in the transmission mode, so that the outer sleeve and the inner rod can be rotated.

The working principle of the heat preservation water tank is as follows:

injecting high-temperature water from a fan into the inner box body through the liquid inlet, adding a medicament into the inner box body through the medicament inlet, and taking a state of enhancing heat dissipation as an initial state by the temperature control ring; the temperature of the water in the inner box body is slowly reduced to the room temperature or about 5 ℃ through the temperature control ring without opening the heat preservation telescopic component (the room temperature or 5 ℃ is stable according to the external temperature), the temperature is collected through the temperature sensor, meanwhile, the controller can prompt in various existing different modes after processing (for example, the matching buzzer reminds through buzzing sound, the matching display reminds through display, the matching indicator light reminds through light and the like), a worker rotates any one adjusting button to enable the adjusting button to rotate to an indicating gear position for enhancing heat preservation according to the prompt, further adjusting the temperature control ring to a reinforced heat preservation state to preserve heat of the heat preservation water tank, collecting and monitoring the water temperature of the inner tank body through the action of the temperature sensor and the controller during heat preservation, when the water temperature is lower than 5 ℃, the controller instructs the heating plate to heat the water until the water temperature is restored to be higher than 5 ℃; during the storage period, the controller can instruct the driving motor to operate and drive each stirring assembly to start, so as to stir the water stored in the inner box body;

the working principle of the temperature control ring is as follows: when the adjusting button is rotated, the adjusting button drives the transmission gear to rotate, and the transmission gear is meshed with the transmission gear rings of the outer ring and the inner ring for transmission, so that the outer ring and the inner ring rotate in opposite directions, and the heat-preservation telescopic assembly is stretched;

the working principle of the heat-preservation telescopic assembly is as follows: when the heat-preservation telescopic assembly is stretched, the sliding sleeve plate moves to the return shaft along the telescopic main body plate, when the stretching is completed, the sliding sleeve plate moves to the rear side of the return shaft, the adjustable temperature control plate is rotated open by taking the return shaft as a circle center due to the restoring force of the rotating shaft of the return shaft, the other end of the adjustable temperature control plate is attracted with the rotating shaft block of the adjacent telescopic main body plate through the magnetic attraction block, meanwhile, the elastic groove loses the pressure applied by the adjustable temperature control plate, and the heat-preservation filler is released to enter the space where the adjustable temperature control plate is unfolded through the elastic recovery of the arc-shaped elastic sheet; when the heat preservation telescopic assembly contracts, the principle is opposite to the principle, and in the period, the telescopic part of the telescopic main body plate and the groove of the inner ring ensure the telescopic main body plate and the adjustable temperature plate allowance to be retracted during the telescopic process;

the working principle of the stirring assembly is as follows: after driving motor moves, and then the drive plate rotates and makes the drive plate rotate through each drive belt, then rotate through the drive ring and make the joining in marriage of outer tube connect the ring, the joining in marriage of interior pole connects the ring to rotate respectively, and then the outer tube rotates under the linkage effect of big bearing, interior pole rotates under the linkage effect of little bearing, the outer tube stirs through the stirring board that is equipped with on, interior pole rotates through the awl tooth ring, meshing through bevel gear and awl tooth ring makes the puddler rotate, and then stirs through the stirring leaf.

The invention has the beneficial effects that:

(1) the heat-insulating water tank can switch the two states of heat dissipation enhancement and heat insulation enhancement according to different use stages, use environments and the like through the design of the temperature control ring, so that the heat-insulating water tank can adjust heat dissipation and heat insulation.

(2) According to the invention, through the arrangement of the plurality of groups of heating plates, the temperature of the inner box body can be quickly and uniformly raised to a heat preservation range, and meanwhile, the stirring component can stir the inner box body according to the use requirement so as to improve the mixing degree of the medicament and water and improve the stirring efficiency.

Drawings

FIG. 1 is an overall external view of the holding water tank of the present invention.

Fig. 2 is a schematic view of the overall structure of the holding water tank of the present invention.

Fig. 3 is an enlarged view of fig. 2 a of the present invention.

Fig. 4 is an enlarged view of the invention at B of fig. 2.

Fig. 5 is an enlarged view of the invention at C of fig. 2.

FIG. 6 is a top view of a temperature control assembly of the present invention.

Fig. 7 is a schematic structural diagram of a carrier board according to the present invention.

FIG. 8 is a top view of the stirring assembly of the present invention.

FIG. 9 is a schematic view of the temperature control ring of the present invention in a state of enhanced thermal insulation.

FIG. 10 is a schematic view of a temperature control ring according to the present invention in a state of enhanced heat dissipation.

FIG. 11 is a schematic drawing of the stretched configuration of the insulating telescoping assembly of the present invention.

FIG. 12 is a schematic view of the heat retention telescoping assembly of the present invention in a collapsed configuration.

Wherein, 1-inner box body, 2-temperature control shell, 21-liquid inlet, 22-medicine inlet, 23-liquid outlet, 24-adjusting button, 3-temperature control component, 31-temperature sensor, 32-controller, 33-heating plate, 34-carrier plate, 341-connecting hole, 35-big bearing, 36-small bearing, 4-temperature control ring, 41-inner ring, 42-outer ring, 43-driving gear ring, 44-driving gear, 5-heat preservation telescopic component, 51-telescopic main body plate, 52-adjustable temperature control plate, 53-sliding sleeve plate, 531-groove, 54-rotating shaft block, 541-magnetic attraction block, 55-restoring shaft, 56-flexible interlayer, 57-elastic groove, hole groove, 572-elastic baffle net, 571, 573-arc spring, 6-damping annular rail component, 61-magnetic ring rail groove, 62-magnetic ring, 63-anti-collision contact, 7-stirring component, 71-outer sleeve, 711-stirring plate, 72-inner rod, 721-stirring blade, 722-stirring rod, 723-shaft sleeve, 724-bevel gear, 725-bevel gear ring, 73-driving disk, 74-driving disk, 75-driving motor, 76-connecting piece, 77-driving ring, 78-mating ring and 79-driving belt.

Detailed Description

A heat-preservation water tank with a temperature-control detection function is disclosed, as shown in figure 2, the heat-preservation water tank comprises an inner tank body 1 for containing and a temperature-control shell 2 sleeved on the inner tank body 1, the upper surface of the temperature-control shell 2 is further provided with a liquid inlet 21 and a medicine inlet 22, the lower bottom surface of the temperature-control shell 2 is provided with a liquid outlet 23, the liquid inlet 21, the medicine inlet 22 and the liquid outlet 23 are communicated with the inner tank body 1, the inner tank body 1 is provided with a temperature-control assembly 3 capable of monitoring and controlling temperature, a temperature-control ring 4 is arranged between the temperature-control shell 2 and the inner tank body 1, the temperature-control ring 4 comprises an inner ring 41 and an outer ring 42, a plurality of heat-preservation telescopic assemblies 5 for adjusting the temperature-control effect are circumferentially arranged between the inner ring 41 and the outer ring 42 at equal intervals, the heat-preservation telescopic assemblies 5 can perform heat dissipation enhancement and heat preservation state switching according to, The temperature control housing 2 is slidably connected, as shown in fig. 5, the damping ring assembly 6 includes a magnetic ring track groove 61 disposed on the inner box 1 and the temperature control housing 2, and a magnetic ring 62 disposed on the inner ring 42 and the outer ring 41, wherein a joint between the magnetic ring 62 and the magnetic ring track groove 61 has a circular cross section, and the circumferential wall is uniformly distributed with anti-collision contacts 63, and the anti-collision contacts 63 are made of rubber material. The damping annular rail assembly 6 can effectively reduce the rotation friction of the inner ring 42 and the outer ring 41, so that the operation of the adjusting button 24 is lighter, meanwhile, the magnetic suspension effect is utilized to reserve a fit clearance, so that the vibration in the rotating process can be effectively buffered, and meanwhile, the design of the anti-collision contact 63 is matched, so that the magnetic ring rail groove 61 and the magnetic ring 62 are prevented from colliding to cause damage when the water tank shakes violently,

as shown in fig. 1 and 2, the upper ends of the inner ring 41 and the outer ring 42 are respectively provided with a transmission gear ring 43, and 4 sets of transmission teeth 44 are arranged between the two transmission gear rings 43 and are respectively distributed on the upper surface of the temperature control housing 2 at equal intervals. Can make on the accuse temperature casing 2 all be equipped with adjusting knob 24 in each position, the operating personnel of being convenient for is located the homoenergetic under each angle of holding water box and adjusts accuse temperature ring 4. The transmission gear 44 is connected with the adjusting button 24 arranged on the upper surface of the temperature control shell 2 through a connecting rod. Through the design of accuse temperature ring 4, utilize heat preservation telescopic component 5, make it can strengthen the heat dissipation according to inner ring 41, outer loop 42's relative rotation, the switching of the two kinds of states of reinforcing heat preservation, make this holding water box can adjust heat dissipation and heat preservation, can be according to the user demand, make the fan come the temperature and cool down, or keep warm to its storage water, be favorable to the fan after the water that comes cools down and keep warm under being not less than 5 ℃ of temperature, improve the result of use of water tank.

As shown in fig. 9-12, the thermal insulating telescopic assembly 5 includes a telescopic main body plate 51, a temperature adjustable plate 52, and a sliding sleeve plate 53; the telescopic main body plate 51 and the sliding sleeve plate 53 are respectively connected with the outer ring 42 and the inner ring 41 through a rotating shaft block 54, the sliding sleeve plate 53 is sleeved on the telescopic main body plate 51, the inner ring 41 and each sliding sleeve plate 53 are provided with a groove 531, one side of the telescopic main body plate 51 close to the rotating shaft block 54 is provided with a telescopic part for extending the length of the telescopic main body plate 51, one end of the temperature-adjustable plate 52 is connected with one side of the telescopic main body plate 51 close to the sliding sleeve plate 53 through a return shaft 55, the other end and the upper and lower ends of the temperature-controllable plate 52 are respectively connected with the main flexible plate 51 through a flexible interlayer 56, an elastic groove 57 for placing thermal insulation filler is arranged in the middle of the main flexible plate 51, the elastic groove 57 comprises a hole 571, an elastic blocking net 572 at the upper and lower ends and an arc-shaped spring 573, the two ends of the arc-shaped spring 573 are respectively connected with the left and right ends of the hole 571, the heat-insulation expansion assembly is used for extruding or accommodating the heat-insulation filler according to the rotation of the temperature-adjustable plate 52 of the heat-insulation expansion assembly 5; the heat-insulating filler is spherical particles with the diameter length of 3-5 mm prepared by using a heat-insulating cotton material. Through the cooperation design elastic slot 57 on flexible main part board 51, utilize elastic slot 57 to exert pressure the holding and put the effect of pressing the release, fill the heat preservation filler to it, supplementary reinforcing keeps warm the heat preservation effect of subassembly 5 when reinforcing heat preservation state, makes it reply chilly northern temperature. Through the structural design of the adjustable temperature control plate 52 of the heat preservation telescopic assembly 5, the combined action of the return shaft 55 and the sliding sleeve plate 53 is utilized, the adjustable temperature control plate 52 is unfolded or is switched with the telescopic main body plate 51, so that the temperature control ring 4 is switched between two states of enhanced heat dissipation and enhanced heat preservation, the function can be effectively realized through the design of the structure, the operation is simple, the use effect is good, and the use requirement of the adjustable temperature control plate can be met. Wherein, the return shaft 55 is a rotating shaft with a torsion spring; the temperature-adjustable plate 52 and the telescopic main body plate 51 are made of the existing heat-insulating plate; the flexible interlayer 56 is made of the existing high temperature resistant cloth. 13 groups of heat preservation telescopic components 5 are arranged; the far end of the temperature-adjustable plate 52 can be contacted with the rotating shaft block 54 of the adjacent telescopic main body plate 51 when the heat-preservation telescopic assembly 5 is in a heat-preservation-enhanced state, so that the whole temperature-control ring 4 is in a state of being covered by the heat-preservation filler and the temperature-adjustable plate 52; a magnetic absorption block 541 is arranged on one side of the rotating shaft block 54 of the telescopic main body plate 51 corresponding to the adjacent temperature-controllable plate 52, and the magnetic absorption block 541 is also arranged at the position corresponding to the position of the temperature-controllable plate 52 and the rotating shaft block 54 of the telescopic main body plate 51. Through setting up magnetism piece 541, can effectively improve adjustable temperature control board 52 and pivot piece 54 contact, avoid two adjacent heat preservation subassemblies 5 can adjust and control temperature board 52 and not seal and cause its thermal insulation performance to descend.

As shown in fig. 2-4 and 6-8, the temperature control assembly 3 comprises a temperature sensor 31 arranged on the inner bottom surface of the inner box 1, a controller 32 arranged on the outer top surface of the inner box 1, a heating plate 33 for controlling temperature, and a stirring assembly 7 for stirring; the heating plates 33 are provided with a plurality of groups, which are circumferentially arranged on the lower bottom surface of the support plate 34 at equal intervals, the support plate 34 is connected with the inner wall of the temperature control shell 2 through a connecting rod, the stirring assemblies 7 are provided with a plurality of groups, which are respectively arranged between every two adjacent heating plates 33, each stirring assembly 7 comprises an outer sleeve 71, an inner rod 72, a driving disc 73, a driving disc 74 and a driving motor 75, a connecting hole 341 is respectively arranged on the support plate 34 corresponding to each stirring assembly 7, the stirring assemblies 7 are rotatably connected with the connecting holes 341 through the outer sleeve 71 through large bearings 35, the inner rod 72 is arranged in the outer sleeve 71 in a penetrating way, the bottom of the inner rod 72 is provided with a small bearing 36 for limiting, the small bearing 36 is connected with the inner wall of the outer sleeve 71, the upper end of the driving disc 73 is fixed with the support plate 34 through a connecting piece 76 so as to be positioned, The outer sleeve 71 is provided with a matching ring 78 in transmission connection, the driving disc 74 is positioned above the center of the carrier plate 34 and is connected with an output shaft of a driving motor 75, the driving disc 74 is in transmission connection with each transmission disc 73 through a transmission belt 79, the driving motor 75 is arranged on the outer top surface of the temperature control shell 2, a plurality of groups of stirring plates 711 are circumferentially arranged on the outer sleeve 71, a plurality of stirring blades 721 are longitudinally arranged between every two adjacent stirring plates 711 at equal intervals, the stirring blades 721 penetrate through the outer sleeve 71 through the stirring rods 722, a shaft sleeve 723 is arranged at the connection part of the stirring rods 722 and the outer sleeve 71, bevel gears 724 are arranged at the ends of the stirring rods, and bevel gear rings 725 are arranged at the corresponding positions of the inner rods 722 and the bevel gears; the controller 32 is connected to the temperature sensor 31, the driving motor 75, and the heating plate 33. Set up on support plate 34 through multiunit hot plate 33 circumference, can improve the effect of box 1 heating inside, make its can be fast even intensification to the heat preservation scope, simultaneously, the stirring subassembly 7 of setting, the stirring in order to improve the medicament and the degree of mixing of water of box 1 in can carrying out as required, two sets of transmissions that utilize outer tube 71 and interior pole 72 realize violently stirring and indulging the stirring to the same position, improve the efficiency of stirring. Wherein, the transmission connection mode of the transmission ring 77 and the adapting ring 78 is tooth transmission. The driving ring 77 can be rotated to rotate the coupling rings 78 of the outer sleeve 71 and the inner rod 72, and the outer sleeve 71 and the inner rod 72 can be rotated.

The working principle of the heat preservation water tank is as follows:

high-temperature water from a fan is injected into the inner box body 1 through the liquid inlet 21, a medicament is added into the inner box body 1 through the medicament inlet 22, and the temperature control ring 4 takes the state of enhancing heat dissipation as an initial state; the temperature of the water in the inner box body 1 is slowly reduced to the room temperature or about 5 ℃ by not opening the heat preservation telescopic component 5 through the temperature control ring 4 (the room temperature or the 5 ℃ is stable according to the external temperature), the temperature is collected through the temperature sensor 31, meanwhile, the controller 32 can prompt in various existing manners (e.g., the matching buzzer prompts through buzzing tones, the matching display prompts through display, the matching indicator lights prompt through lamplight, etc.) after processing, and the worker rotates any one of the adjusting buttons 24 to the indicating gear position for enhancing heat preservation according to the prompt, further, the temperature control ring 4 is adjusted to be in a state of enhancing heat preservation, the heat preservation water tank is used for preserving heat, during the heat preservation period, the water temperature of the inner tank body 1 is collected and monitored through the action of the temperature sensor 31 and the controller 32, when the water temperature is below 5 ℃, the controller 32 instructs the heating plate 33 to heat the water until the temperature is restored to above 5 ℃; during the storage period, the controller 32 can instruct the driving motor 75 to operate and drive each stirring assembly 7 to start, so as to stir the water stored in the inner box body 1;

the working principle of the temperature control ring 4 is as follows: when the adjusting button 24 is rotated, the adjusting button 24 drives the transmission gear 44 to rotate, and further, the transmission gear 43 is meshed with the transmission gear rings 43 of the outer ring 42 and the inner ring 42 for transmission, so that the outer ring 42 and the inner ring 42 rotate in opposite directions, and the heat-preservation telescopic assembly 5 is stretched;

the working principle of the heat preservation telescopic assembly 5 is as follows: when the heat preservation telescopic assembly 5 is stretched, the sliding sleeve plate 53 moves to the return shaft 55 along the telescopic main body plate 51, when the stretching is completed, the sliding sleeve plate 53 moves to the rear side of the return shaft 55, because the adjustable temperature control plate 52 is subjected to the rotating shaft restoring force of the return shaft 55, the adjustable temperature control plate is unscrewed by taking the return shaft 55 as the center of a circle, and the other end of the adjustable temperature control plate is attracted with the rotating shaft block 54 of the adjacent telescopic main body plate 51 through the magnetic attraction block 541, and simultaneously, the elastic groove 57 loses the pressure applied by the adjustable temperature control plate 52, and the heat preservation filler is released into the space where the adjustable temperature control plate 52 is unfolded through the elastic recovery of the arc-shaped elastic sheet 573; when the heat preservation telescopic assembly 5 is contracted, the principle is opposite to the above principle, and in the period, the telescopic part of the telescopic main body plate 51 and the groove 531 of the inner ring 41 ensure the retraction of the margins of the telescopic main body plate 51 and the temperature adjustable plate 52 during the telescopic process;

the working principle of the stirring assembly 5 is as follows: after the driving motor 75 runs, the driving disc 74 rotates, the driving disc 73 rotates through each driving belt 79, the driving ring 77 rotates to enable the connecting ring 78 of the outer sleeve 71 and the connecting ring 78 of the inner rod 72 to rotate respectively, the outer sleeve 71 rotates under the connecting action of the large bearing 35, the inner rod 72 rotates under the connecting action of the small bearing 36, the outer sleeve 71 is stirred through the stirring plate 711 arranged on the outer sleeve, the inner rod 72 rotates through the bevel gear ring 725, the stirring rod 722 rotates through the meshing of the bevel gear 724 and the bevel gear ring 725, and stirring is further performed through the stirring blade 721;

wherein, above-mentioned material or component that do not point out especially all select current brand product, and the holding water box adopts the power supply mode of battery or external block terminal to supply power to power consumption components such as water tank driving motor 75, hot plate 33.

Claims (8)

1. The utility model provides a holding water box with accuse temperature detects function, is including the temperature control casing (2) that is used for the interior box (1) of splendid attire water and overcoat on interior box (1), temperature control casing (2) upper surface still is equipped with inlet (21) and medicine inlet (22), and the bottom surface is equipped with liquid outlet (23) under accuse temperature casing (2), inlet (21), medicine inlet (22), liquid outlet (23) all communicate with interior box (1), its characterized in that, interior box (1) is equipped with accuse temperature subassembly (3) that can monitor and control the temperature, be equipped with accuse temperature ring (4) between accuse temperature casing (2) and interior box (1), accuse temperature ring (4) include inner ring (41), outer loop (42), the equidistant heat preservation that is used for adjusting the accuse temperature effect that is equipped with a plurality of to keep warm flexible subassembly (5) of circumference between inner ring (41) and outer loop (42), the heat-preservation telescopic assembly (5) can perform switching between two states of heat dissipation enhancement and heat preservation enhancement according to relative rotation of the inner ring (41) and the outer ring (42), the inner ring (41) and the outer ring (42) are respectively in sliding connection with the inner box body (1) and the temperature-control shell (2), the upper ends of the inner ring (41) and the outer ring (42) are respectively provided with a transmission gear ring (43), a plurality of groups of transmission gears (44) are arranged between the two transmission gear rings (43), and the transmission gears (44) are connected with adjusting buttons (24) arranged on the upper surface of the temperature-control shell (2) through connecting rods;

the heat-preservation telescopic assembly (5) comprises a telescopic main body plate (51), a temperature-adjustable plate (52) and a sliding sleeve plate (53); the telescopic main body plate (51) and the sliding sleeve plate (53) are connected with the outer ring (42) and the inner ring (41) through a rotating shaft block (54) respectively, the sliding sleeve plate (53) is sleeved on the telescopic main body plate (51), grooves (531) are arranged at the positions of the inner ring (41) and the sliding sleeve plates (53), one side, close to the rotating shaft block (54), of the telescopic main body plate (51) is provided with a telescopic part for extending the plate length of the telescopic main body plate (51), one end of the adjustable temperature control plate (52) is connected with one side, close to the sliding sleeve plate (53), of the telescopic main body plate (51) through a return shaft (55), and the other end and the upper end and the lower end of the adjustable temperature control plate (52) are connected with the telescopic main body plate (51) through flexible interlayers (56).

2. The thermal water tank with the function of temperature control detection according to claim 1, wherein the return shaft (55) is a rotating shaft with a torsion spring; the temperature-adjustable plate (52) and the telescopic main body plate (51) are made of the existing heat-insulating plate; the flexible interlayer (56) is made of the existing high-temperature-resistant cloth.

3. The thermal insulation water tank with the temperature control detection function according to claim 1, wherein an elastic groove (57) for placing thermal insulation filler is formed in the middle of the telescopic main body plate (51), the elastic groove (57) comprises a hole groove (571), an elastic blocking net (572) at the upper end and a lower end and an arc-shaped elastic sheet (573), and two ends of the arc-shaped elastic sheet (573) are respectively connected with the left end and the right end of the hole groove (571) and used for extruding or accommodating the thermal insulation filler according to the rotation of the temperature control plate (52) of the thermal insulation telescopic assembly (5); the heat-insulating filler is spherical particles with the diameter length of 3-5 mm prepared by using a heat-insulating cotton material.

4. The heat-preservation water tank with the temperature control detection function according to claim 1, wherein 13 groups of heat-preservation telescopic assemblies (5) are arranged; the magnetic attraction block (541) is arranged on one side of the rotating shaft block (54) of the telescopic main body plate (51) corresponding to the adjacent temperature-adjustable plate (52), and the magnetic attraction block (541) is also arranged at the position corresponding to the rotating shaft block (54) of the telescopic main body plate (51) and the temperature-adjustable plate (52).

5. The heat-preservation water tank with the function of temperature control detection according to claim 1, wherein the temperature-controllable plate (52) and the telescopic main body plate (51) of the heat-preservation telescopic assembly (5) are made of existing heat-preservation plates.

6. The heat-preservation water tank with the temperature-control detection function according to claim 1, wherein the adjusting buttons (24) are provided with 4 groups, and the groups are respectively distributed on the upper surface of the temperature-control shell (2) at equal intervals.

7. The heat-preservation water tank with the temperature control detection function according to claim 1, wherein the temperature control assembly (3) comprises a temperature sensor (31) arranged on the inner bottom surface of the inner tank body (1), a controller (32) arranged on the outer top surface of the inner tank body (1), a heating plate (33) for controlling the temperature, and a stirring assembly (7) for stirring; the utility model discloses a temperature control device, including heating plate (33), support plate (34), stirring subassembly (7), driving disc (74), driving motor (341), outer tube (71), interior pole (72), driving disc (73), driving disc (74) and driving motor (75), heating plate (33) are equipped with the multiunit, and the equidistant bottom surface that sets up under support plate (34) of circumference, support plate (34) are through connecting rod and accuse temperature casing (2) inner wall connection, stirring subassembly (7) are equipped with the multiunit, divide and locate between every two adjacent heating plate (33), and stirring subassembly (7) are connected with connecting hole (341) rotation through big bearing (35) through outer tube (71), interior pole (72) are worn to establish in outer tube (71), and the bottom is equipped with and is used for spacing little bearing (36) and outer tube (71) inner wall connection, driving disc (73) upper end is fixed through connecting piece (76) and support plate (34) and is made it can be located in outer tube (71) top, the transmission disc (73) is positioned in an annular gap between the inner rod (72) and the outer sleeve (71) through a transmission ring (77) arranged on the lower bottom surface and is in transmission connection with an adapter ring (78) arranged on the inner rod (72) and the outer sleeve (71), the driving disc (74) is positioned above the center of the carrier plate (34) and is connected with an output shaft of a driving motor (75), the driving disc (74) is in transmission connection with each transmission disc (73) through a transmission belt (79), the driving motor (75) is arranged on the outer top surface of the temperature control shell (2), a plurality of groups of stirring plates (711) are circumferentially arranged on the outer sleeve (71), a plurality of stirring blades (721) are longitudinally arranged between every two adjacent stirring plates (711) at equal intervals, the stirring blades (721) penetrate through the outer sleeve (71) through the stirring rods (722), and a shaft sleeve (723) is arranged at the connection part of the stirring rods (722) and the outer sleeve (, a bevel gear (724) is arranged at the end of the stirring rod (722), and a bevel gear ring (725) is arranged at the position, corresponding to the bevel gear (724), of the inner rod (72) and meshed with the bevel gear; the controller (32) is connected with the temperature sensor (31), the driving motor (75) and the heating plate (33).

8. The thermal insulation water tank with the temperature control detection function according to claim 7, wherein the transmission connection mode of the transmission ring (77) and the mating ring (78) is any one of tooth transmission or friction transmission.

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