CN112729620A - Automatic steam energy monitoring devices of moisturizing - Google Patents

Abstract

The embodiment of the invention discloses a steam energy monitoring device capable of automatically supplementing water. The invention relates to a steam energy monitoring device capable of automatically supplementing water, which comprises: the device comprises a support, a containing cup, a connecting pipe, a weighing device, a thermocouple, a water supplementing mechanism, an air drying mechanism and a controller. The steam energy monitoring device provided by the invention has the advantages that the initial weight of water in the containing cup is measured through the weighing device, the steam generator is communicated through the connecting pipe, the initial temperature of the water in the containing cup and the tail end temperature of the water after the steam is introduced are measured through the thermocouple, the tail end weight of the water in the containing cup is measured through the weighing device, the initial energy and the tail end energy of the water in the containing cup can be calculated according to an energy equation, the difference between the initial energy and the tail end energy is the energy value of the steam, and further the steam energy value sprayed in unit time can be calculated, so that the spraying energy can be controlled according to the spraying time, and the water replenishing mechanism is further arranged for replenishing water into the containing cup, so that the function of remote water replenishing can be realized.

Description

Automatic steam energy monitoring devices of moisturizing

Technical Field

The invention relates to the technical field of energy monitoring, in particular to a steam energy monitoring device capable of automatically supplementing water.

Background

Steam refers to water vapor, and the former steam therapy refers to a method in which the medicine is heated and boiled in a closed chamber to evaporate the gas, and then the patient sits or lies in the chamber, and the temperature in the treatment chamber is gradually increased to perform treatment, but the method has a large action area and a small effect.

At present, steam is generally applied to the beauty or treatment industry, the purpose of treatment is achieved by spraying a local area to be treated through a steam nozzle, and only the area to be treated needs to be sprayed, so that the treatment effect is improved, the materials are saved, and the steam-jet type cosmetic is more economical and practical.

At present, in order to further promote treatment effect or cosmetic effect, reach smart and special effect, the energy value of steam spraying needs to be controlled, according to the required energy of actual need spraying, therefore need measure the energy value that steam is attached, generally moisturizing by the manual work among the prior art, can make the part of manual intervention more like this, the influence that can make measuring result receive is bigger.

Disclosure of Invention

The invention aims to provide a steam energy monitoring device capable of automatically supplementing water, wherein a controller controls the on-off of a thermocouple, a weighing device and a water supplementing mechanism, a support is arranged to support each structure, a containing cup is arranged to contain water, the initial weight of the water in the containing cup is measured by the weighing device, a connecting pipe is arranged to communicate with a steam generator, the output end of the connecting pipe extends below the water level of the water in the containing cup, steam is introduced for a certain time, the steam is absorbed by the water in the containing cup, the water temperature is increased, the initial temperature of the water in the containing cup and the terminal temperature of the water after the steam is introduced are measured by the thermocouple, the terminal weight of the water in the containing cup is measured by the weighing device, the initial energy and the terminal energy of the water in the containing cup can be calculated according to an energy equation (mass), and the difference is the energy value of the steam, and the steam energy value of spraying in unit time can be calculated, so that the spraying energy can be controlled according to the spraying time, and the water supplementing mechanism is further arranged for supplementing water into the containing cup, so that the function of remote water supplementing can be realized.

The embodiment of the invention provides a steam energy monitoring device capable of automatically supplementing water, which comprises: the device comprises a bracket, a containing cup, a connecting pipe, a weighing device, a thermocouple, a water supplementing mechanism and a controller;

the weighing device is arranged on the bracket, the containing cup is arranged on the weighing device and used for containing water, and the weighing device is used for measuring the weight of the object carried in the containing cup;

the input end of the connecting pipe is used for receiving externally input steam, the output end of the connecting pipe is arranged on the bracket, and the output end of the connecting pipe is used for extending into the containing cup;

the thermocouple is fixed on the bracket and used for measuring the temperature of the water in the containing cup;

the water replenishing mechanism is arranged on the bracket and is used for adding water into the containing cup;

the controller is respectively electrically connected with the weighing device, the water supplementing mechanism and the thermocouple, and the controller is used for controlling the opening and closing of the weighing device, the water supplementing mechanism and the thermocouple.

The containing cup is arranged on the weighing device, the weighing device is arranged on the support, the weighing device is used for measuring the weight of the containing cup, the input end of the connecting pipe is communicated with the steam generator, the output end of the connecting pipe extends into the containing cup, the connecting pipe is used for introducing steam into the containing cup, the water supplementing mechanism is arranged on the support, the water supplementing mechanism is arranged to facilitate water supplementing to the containing cup, the convenience of using the device is improved when multiple measurements are convenient, the weighing device for containing the containing cup is reset, a proper amount of water is added into the containing cup through the water supplementing mechanism, the water level is higher than the output end of the connecting pipe, the measuring end of the thermocouple extends into the containing cup, the steam generator is opened to introduce steam into the containing cup, the initial temperature of the water in the containing cup before the steam generator is opened and the terminal temperature of the water in the containing cup after the steam generator is closed are measured by the thermocouple, and the initial weight of the water in the containing cup before the steam generator is opened and the terminal temperature The weight of the steam is calculated, and then the energy value of the steam in unit time can be calculated, so that the spraying energy can be controlled according to the spraying time, the purpose of controlling the amount of the steam spraying energy is achieved, and the problem of influence caused by manual deployment in the prior art is solved.

In one possible aspect, the water replenishing mechanism includes: a water pump and a water inlet pipe;

the water inlet end of the water inlet pipe is communicated with a water source, the water outlet end of the water inlet pipe extends to the containing cup, the water pump is arranged on the water inlet pipe and is electrically connected with the controller, the controller is used for controlling the opening and closing of the water pump, and the water pump is used for adding water into the containing cup through the water inlet pipe.

Set up like this and be linked together the water source with holding the cup through the inlet tube, provide power through the water pump, realize opening and close control of water pump through the controller, realize the effect of long-range moisturizing then.

In one possible embodiment, the method further comprises: a water outlet pipe and an electromagnetic valve;

the water outlet device comprises a water outlet pipe, a controller and an electromagnetic valve, wherein a drain hole is formed in the containing cup, the input end of the water outlet pipe is communicated with the drain hole, the output end of the water outlet pipe extends out of the device, the electromagnetic valve is arranged on the water outlet pipe and is electrically connected with the controller, and the controller is used for controlling the electromagnetic valve to be opened and closed.

The water outlet pipe is arranged to facilitate the water in the containing cup to be discharged, the electromagnetic valve is arranged to facilitate the control of the communication of the water outlet pipe through the controller, so that the water is directly discharged during the measurement, and the practicability is improved.

In one possible embodiment, the method further comprises: an air drying mechanism;

air-dry the mechanism with controller electric connection, the controller is used for controlling air-dry opening and close of mechanism, air-dry the mechanism and be used for weathering hold the cup.

The air drying mechanism is arranged, so that the air drying of the containing cup is accelerated, the influence of residual water in the containing cup on subsequent measurement is reduced, the total amount of water in the containing cup after water supplement is controlled at every time, and the monitoring accuracy is improved conveniently.

In one possible approach, the seasoning mechanism includes: a fan and an air pipe;

the fan is arranged on the support, the inlet end of the air pipe is communicated with the output end of the fan, the outlet end of the air pipe extends to the upper side of the containing cup, the fan is electrically connected with the controller, the controller is used for controlling the opening and closing of the fan, and the fan is used for supplying air to the containing cup through the air pipe.

Wind power is generated through the fan, and the wind is guided to the position of the containing cup through the wind pipe, so that the air drying speed of the containing cup is accelerated.

In one possible embodiment, the seasoning mechanism further comprises: a first branch pipe and a second branch pipe;

the first branch pipe and the second branch pipe are arranged on the support, the inlet end of the first branch pipe is communicated with the air pipe, the inlet end of the second branch pipe is communicated with the outlet end of the first branch pipe, the second branch pipe is spiral, the second branch pipe surrounds the cup containing outer side, a plurality of air outlets facing the side wall of the cup are formed in the second branch pipe, and the first branch pipe and the second branch pipe are used for guiding air of the fan to the cup containing outer side.

The first branch pipe and the second branch pipe are arranged to guide wind blown out by the fan to the outer side of the containing cup, so that the area of the containing cup under the action of wind force can be enlarged, and the air drying speed is accelerated.

In one possible embodiment, the seasoning mechanism further comprises: an electric heating wire;

the electric heating wire is arranged at the outlet end of the fan and electrically connected with the controller, the controller is used for controlling the opening and closing of the electric heating wire, and the electric heating wire is used for heating the wind generated by the fan.

The electric heating wire is arranged to heat the wind generated by the fan, so that air drying can be promoted.

In one possible embodiment, the method further comprises: a thermal insulation sleeve;

the heat preservation sleeve is made of heat preservation materials, the heat preservation sleeve is arranged on the support, and the heat preservation sleeve surrounds the containing cup.

The heat insulation sleeve is arranged, so that the influence of the external environment on the containing cup can be reduced, the heat dissipation rate is reduced, and the measurement accuracy is improved.

In one possible solution, the support is provided with a pressing mechanism and a driving mechanism;

the output end of the connecting pipe is arranged on the pressing mechanism, the pressing mechanism is electrically connected with the controller, and the controller is used for controlling the pressing mechanism to drive the output end of the connecting pipe to move into or out of the containing cup;

the thermocouple is arranged on the driving mechanism, the driving mechanism is electrically connected with the controller, the controller is used for controlling the driving mechanism to be opened and closed, and the driving mechanism is used for driving the thermocouple to move into or out of the containing cup.

The output end of the connecting pipe and the thermocouple can be driven by the pressing mechanism and the driving mechanism to stretch into the accommodating cup, the input end of the connecting pipe can stretch into the accommodating cup when steam is introduced, then the connecting pipe is moved out, the thermocouple can stretch into the accommodating cup before the steam is introduced, then the connecting pipe is moved out, the thermocouple stretches into the accommodating cup after the steam is introduced, and then the thermocouple is moved out, so that the influence of the connecting pipe and the thermocouple on quality measurement is reduced.

In one possible aspect, the pressing mechanism includes: the telescopic device and the first connecting rod;

the first connecting rod is hinged to the support, one end of the telescopic device is hinged to the support, the other end of the telescopic device is hinged to the first connecting rod, the conveying end of the connecting pipe is arranged on the first connecting rod, the telescopic device is electrically connected with the controller, the controller is used for controlling the opening and closing of the telescopic device, and the telescopic device is used for driving the first connecting rod to rotate.

The output setting of connecting pipe is on the head rod, through opening and close of controller control telescoping device, drives the head rod through the telescoping device and rotates, and then drives the motion of connecting pipe, realizes stretching into of connecting pipe output and stretches out.

In one possible solution, the pressing mechanism further includes: the second connecting rod, the fixed block and the fixed rod;

the second connecting rod is hinged to the bracket, and the fixing block is hinged to the first connecting rod and the second connecting rod at the same time;

the fixing rod is arranged on the fixing block, a through hole is formed in the fixing rod, and the output end of the connecting pipe is arranged on the through hole.

Set up the second connecting rod, the upper and lower both ends of fixed block articulate respectively on head rod and second connecting rod, and the vertical setting of dead lever is on the fixed block, and the output of connecting pipe sets up on the through-hole on the dead lever, sets up like this and can make the output of connecting pipe can not change at the removal in-process orientation, reduces the orientation change of the output of connecting pipe to measuring influence.

In one possible solution, the drive mechanism comprises: a connecting plate and a driving device;

the thermocouple is arranged on the connecting plate, the connecting plate is hinged to the support, the tail end of the driving device is hinged to the support, the head end of the driving mechanism is hinged to the connecting plate, the controller is electrically connected with the driving device and used for controlling the driving device to be opened and closed, and the driving device is used for driving the connecting plate to rotate.

The connecting plate is hinged on the support, the controller is electrically connected with the driving device, and the driving device drives the connecting plate to rotate so as to drive the thermocouple to extend into or out of the containing cup.

In one possible embodiment, the method further comprises: a rotating mechanism;

the rotating mechanism is arranged on the support, the thermocouple is arranged on the rotating mechanism, and the rotating mechanism is used for driving the thermocouple to rotate on the support.

The rotating mechanism is arranged to drive the thermocouple to rotate, so that the water temperature balance in the containing cup is facilitated, and the measuring accuracy is facilitated to be improved.

In one possible solution, the rotation mechanism includes: the device comprises a sliding block, a sliding rail, a first belt wheel, a second belt wheel, a belt, a motor and a rotating ring;

the rotating ring is rotatably arranged on the support, the first belt wheel is coaxially arranged on the rotating ring, the second belt wheel is rotatably arranged on the support, the belt is wound on the first belt wheel and the second belt wheel, the motor is arranged with the second driving wheel shaft, the controller is electrically connected with the motor, the controller is used for controlling the opening and closing of the motor, and the motor is used for driving the second belt wheel to rotate;

the rotary ring is provided with an insertion hole, the head end of the thermocouple is inserted in the insertion hole, the thermocouple can freely rotate on the insertion hole, the sliding rail is arranged on the support, the sliding block is slidably arranged on the sliding rail, and the tail end of the thermocouple is hinged to the sliding block.

The first belt wheel is driven to rotate through the motor, meanwhile, the head end of the thermocouple inserted in the insertion hole is driven to rotate through the rotating ring, the thermocouple drives water in the containing cup to rotate, the temperature of different positions can be measured by the thermocouple, the measuring result is more accurate, and the tail end of the thermocouple is hinged to the sliding block at the moment, so that the installation is facilitated.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of a first perspective structure of a steam energy monitoring device according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a partially enlarged structure at A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic front view of a steam energy monitoring device according to an embodiment of the present invention;

FIG. 4 is a schematic perspective view of a second perspective view of a steam energy monitoring device according to an embodiment of the present invention;

fig. 5 is a schematic partial structural diagram of a steam energy monitoring device according to an embodiment of the present invention.

Reference numbers in the figures:

1. a support; 2. a holding cup; 3. a connecting pipe; 4. a weighing device; 5. a thermocouple; 6. a water replenishing mechanism; 7. a water pump; 8. a water inlet pipe; 9. a water outlet pipe; 10. an electromagnetic valve; 11. an air drying mechanism; 12. a fan; 13. an air duct; 14. a first branch pipe; 15. a second branch pipe; 16. a thermal insulation sleeve; 17. a pressing mechanism; 18. a drive mechanism; 19. a telescoping device; 20. a first connecting rod; 21. a second connecting rod; 22. a fixed block; 23. fixing the rod; 24. a connecting plate; 25. a drive device; 26. a rotating mechanism; 27. a slider; 28. a slide rail; 29. a first pulley; 30. a second pulley; 31. a belt; 32. a motor; 33. and (6) rotating the ring.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "axial," "radial," "circumferential," and the like are used in the indicated orientations and positional relationships based on the drawings for convenience in describing and simplifying the description, but do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

In the present invention, unless otherwise specifically stated or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; the connection can be mechanical connection, electrical connection or communication connection; either directly or indirectly through intervening media, either internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The moisturizing is being carried out by the manual work usually among the prior art, and the part that can make artifical intervention like this is more, and the volume that can make every moisturizing has the deviation, and artifical moisturizing makes the drop of water of leaving on the lateral wall of flourishing water container easily, makes measured weight and temperature inaccurate easily.

In order to solve the problems in the prior art, the inventor of the present application proposes a technical solution of the present application, and specific embodiments are as follows:

fig. 1 is a schematic view of a first perspective three-dimensional structure of a steam energy monitoring device in an embodiment of the present invention, fig. 2 is a schematic view of a partially enlarged structure at a point a in fig. 1 in an embodiment of the present invention, fig. 3 is a schematic view of a front view structure of a steam energy monitoring device in an embodiment of the present invention, fig. 4 is a schematic view of a second perspective three-dimensional structure of a steam energy monitoring device in an embodiment of the present invention, and fig. 5 is a schematic view of a partial structure of a steam energy monitoring device in an embodiment of. As shown in fig. 1 to 5, the steam energy monitoring device for automatic water replenishment of the present embodiment includes: the device comprises a support 1, a containing cup 2, a connecting pipe 3, a weighing device 4, a thermocouple 5, a water supplementing mechanism 6 and a controller (not shown in the figure), wherein the weighing device 4 is arranged on the support 1, the containing cup 2 is arranged on the weighing device 4, the containing cup 2 is used for containing water, the weighing device 4 is used for measuring the weight of a bearing object in the containing cup 2, the input end of the connecting pipe 3 is used for receiving externally input steam, the output end of the connecting pipe 3 is arranged on the support 1, and the output end of the connecting pipe 3 is used for extending into the containing cup 2, the thermocouple 5 is fixed on the support 1, the thermocouple 5 is used for measuring the temperature of water in the containing cup 2, the water supplementing mechanism 6 is arranged on the support 1, the water supplementing mechanism 6 is used for adding water into the containing cup 2, the controller is respectively electrically connected with the weighing device 4, the water supplementing mechanism 6 and the thermocouple 5, and the controller is used for controlling the opening and closing of the weighing device 4, the water supplementing mechanism 6 and the thermocouple 5.

Specifically speaking, in this embodiment, support 1 level setting, weighing device 4 sets up on support 1, holds cup 2 and sets up on weighing device 4, and the input of connecting pipe 3 is linked together with steam generator (not shown in the figure), and the output of connecting pipe 3 extends to and holds in cup 2, and thermocouple 5 sets up on support 1, and the head end of thermocouple 5 extends to and holds in cup 2, and controller (not shown in the figure) respectively with weighing device 4, moisturizing mechanism 6 and thermocouple 5 electric connection. Before use, the containing cup 2 is dried, then the containing cup 2 is placed on the weighing device 4, the water supplementing mechanism 6 is started, a certain amount of water is added into the containing cup 2, the initial temperature and the initial weight of the water are measured through the weighing device 4 and the thermocouple 5, the initial energy is further calculated, and then the tail end temperature and the tail end weight of the water are measured after the steam is introduced. In actual use, the device needs to be warmed up first.

Through the above contents, it can be easily found that the initial energy and the terminal energy of the water can be calculated through the measured initial temperature, initial weight, terminal temperature and terminal weight, and then the energy value of the steam introduced in the period of time can be calculated, and further the steam energy value in unit time can be calculated, so that the purpose of controlling the steam energy can be achieved by controlling the time length of the steam introduced.

In addition, it should be noted that, because the steam of the steam energy monitoring device of the present application is generally used to act on the human body, it is more accurate to take the energy value at the reference temperature relative to the temperature (body temperature) when calculating the energy of the steam, i.e. the initial energy value is compared with the energy value at the reference temperature, and the terminal energy value is compared with the energy value at the reference temperature, which is more appropriate for the actual requirement.

Further, the water replenishing mechanism 6 includes: water pump 7 and inlet tube 8, the end of intaking of inlet tube 8 is linked together with the water source, and the play water end of inlet tube 8 extends to and holds on the cup 2, and water pump 7 sets up on inlet tube 8, and water pump 7 and controller electric connection, controller are used for controlling opening and close of water pump 7, and water pump 7 is used for adding water to holding in the cup 2 through inlet tube 8.

Specifically speaking, in this embodiment, inlet tube 8 sets up on support 1, and in the play water end of inlet tube 8 extended to holding cup 2, water pump 7 and power electric connection, water pump 7 and inlet tube 8 were linked together, and water pump 7 is used for providing the power of the interior water motion of inlet tube 8, and water pump 7 and controller electric connection when needs are to the moisturizing in holding cup 2, open through controller control water pump 7, it can to reach behind the required water yield.

Further, the method also comprises the following steps: the water discharging device comprises a water discharging pipe 9 and an electromagnetic valve 10, wherein a water discharging hole is formed in the containing cup 2, the input end of the water discharging pipe 9 is communicated with the water discharging hole, the output end of the water discharging pipe 9 extends out of the device, the electromagnetic valve 10 is arranged on the water discharging pipe 9, the electromagnetic valve 10 is electrically connected with a controller, and the controller is used for controlling the electromagnetic valve 10 to be opened and closed.

Specifically speaking, in this embodiment, the wash port setting is in the downside that holds cup 2, and the end of intaking of outlet pipe 9 is linked together with the wash port, and solenoid valve 10 sets up in holding cup 2 outside, and solenoid valve 10 sets up on outlet pipe 9, and the output of outlet pipe 9 is less than the wash port setting, controller and solenoid valve 10 electric connection, opens through controller control solenoid valve 10 when needing the water that discharges to hold in the cup 2, holds the water in the cup 2 and flows along the drain pipe.

Further, the method also comprises the following steps: air-dry mechanism 11, air-dry mechanism 11 and controller electric connection, the controller is used for controlling opening and close of air-drying mechanism 11, and air-dry mechanism 11 is used for weathering holding cup 2.

Specific speaking, in this embodiment, air-dry mechanism 11 sets up on support 1, and air-dry mechanism 11 and power electric connection, air-dry mechanism 11 and controller electric connection open through controller control air-dry mechanism 11 during the use, close air-dry mechanism 11 after the water stain remaining in holding cup 2 air-dries, and later the moisturizing is carried out through moisturizing mechanism 6 to the rethread, is convenient for control and holds the water yield in the cup 2.

Further, the seasoning mechanism 11 includes: fan 12 and tuber pipe 13, fan 12 sets up on support 1, and the entrance point of tuber pipe 13 is linked together with fan 12's output, and the exit end of tuber pipe 13 extends to holding cup 2 upside, and fan 12 and controller electric connection, controller are used for controlling opening and close of fan 12, and fan 12 is used for supplying air to holding cup 2 through tuber pipe 13.

Specifically speaking, in this embodiment, fan 12 sets up on support 1, fan 12 and power electric connection, fan 12 and controller electric connection, and tuber pipe 13 is fixed on support 1, and the entrance point of tuber pipe 13 is linked together with the output of fan 12, and the exit end of tuber pipe 13 extends to holding cup 2 upside, opens fan 12 during the use, and the wind that fan 12 produced passes through tuber pipe 13 and moves to holding cup 2 upside, and the air flow speed in the cup 2 of accelerateing holds for holding cup 2's air-dry speed.

Further, the air drying mechanism 11 further includes: first branch pipe 14 and second branch pipe 15, first branch pipe 14 and second branch pipe 15 all set up on support 1, the entrance point and tuber pipe 13 of first branch pipe 14 are linked together, the entrance point and the exit end of first branch pipe 14 of second branch pipe 15 are linked together, second branch pipe 15 is the heliciform, and second branch pipe 15 encircles and contain the cup 2 outside to be equipped with a plurality of ventholes towards containing the cup 2 lateral wall on the second branch pipe 15, first branch pipe 14 and second branch pipe 15 are used for leading the wind direction of fan 12 and contain the cup 2 outside.

Specifically speaking, in this embodiment, be equipped with the through-hole on the tuber pipe 13, the entrance point of first branch pipe 14 is linked together with the through-hole on the tuber pipe 13, the entrance point of second branch pipe 15 is linked together with the exit end of first branch pipe 14, the exit end of second branch pipe 15 is sealed, second branch pipe 15 is fixed on support 1, and second branch pipe 15 is the heliciform and encircles in the holding cup 2 outside, be equipped with a plurality of ventholes towards holding cup 2 on the second branch pipe 15, during the use fan 12 through tuber pipe 13 blow to holding cup 2 upside through first branch pipe 14 and second branch pipe 15 to the lateral wall that holds cup 2 blow, can accelerate the air-dried speed of holding cup 2, and first branch pipe 14 and second branch pipe 15 all do not contact and hold cup 2.

Further, the air drying mechanism 11 further includes: and the electric heating wire (not shown in the figure) is arranged at the outlet end of the fan 12 and is electrically connected with the controller, the controller is used for controlling the on-off of the electric heating wire, and the electric heating wire is used for heating the wind generated by the fan 12.

Specifically, in the present embodiment, the heating wire (not shown) is electrically connected to the power supply, the heating wire is electrically connected to the controller, the heating wire is disposed at the outlet end of the fan 12, and the air generated by the fan 12 is heated by the heating wire to accelerate the air drying speed of the cup 2.

Further, the method also comprises the following steps: the heat preservation sleeve 16 is made of heat preservation materials, the heat preservation sleeve 16 is arranged on the support 1, and the heat preservation sleeve 16 surrounds the containing cup 2.

Specifically, in this embodiment, the thermal insulation sleeve 16 is a cylindrical vertically through sleeve, the thermal insulation sleeve 16 is arranged on the support 1, the weighing device 4, the containing cup 2 and the second branch pipe 15 are all located in the thermal insulation sleeve 16, a vertically arranged waist hole convenient for the water outlet pipe 9 to pass through is formed in the thermal insulation sleeve 16, the waist hole does not prevent the weighing device 4 from measuring the weight of the containing cup 2, and the thermal insulation sleeve 16 is arranged to reduce the influence of the external environment on the temperature of the water in the containing cup 2.

Further, support 1 is equipped with pushing down mechanism 17 and actuating mechanism 18, the output setting of connecting pipe 3 is on pushing down mechanism 17, pushing down mechanism 17 and controller electric connection, the controller is used for controlling pushing down mechanism 17 and drives the motion that the output of connecting pipe 3 was stretched into or stretched out and hold cup 2, thermocouple 5 sets up on actuating mechanism 18, actuating mechanism 18 and controller electric connection, the controller is used for controlling opening and close of actuating mechanism 18, actuating mechanism 18 is used for driving thermocouple 5 and is stretched into or stretch out and hold the motion of cup 2.

Specifically, in this embodiment, the pressing mechanism 17 and the driving mechanism 18 are respectively disposed at two adjacent sides of the containing cup 2, when in use, the controller controls the driving mechanism 18 to drive the thermocouple 5 to press down, the controller controls the thermocouple 5 to start to measure the initial temperature, then the driving mechanism 18 drives the thermocouple 5 to rise, then the pressing mechanism 17 is controlled to drive the output end of the connecting pipe 3 to extend into the containing cup 2, steam is introduced for a certain time, then the controller controls the pressing mechanism 17 to drive the output end of the connecting pipe 3 to rise, and then the thermocouple 5 measures the end temperature.

Further, the pressing mechanism 17 includes: telescoping device 19 and head rod 20, head rod 20 articulates on support 1, and the one end of telescoping device 19 articulates on support 1, and the other end of telescoping device 19 articulates on head rod 20, and the delivery end setting of connecting pipe 3 is on head rod 20, and telescoping device 19 and controller electric connection, the controller is used for controlling opening and close of telescoping device 19, and telescoping device 19 is used for driving head rod 20 and rotates.

Specifically, in this embodiment, the expansion device 19 is an air cylinder, the expansion device 19 is communicated with an air source, the middle of the first connecting rod 20 is hinged to the bracket 1, the bottom end of the expansion device 19 is hinged to the bracket 1, the top end of the expansion device 19 is hinged to the outer end of the first connecting rod 20, the output end of the connecting pipe 3 is arranged at the inner end of the first connecting rod 20, and the expansion device 19 expands and contracts to drive the output end of the connecting pipe 3 to move.

Further, the pressing mechanism 17 further includes: second connecting rod 21, fixed block 22 and dead lever 23, second connecting rod 21 articulates on support 1, and fixed block 22 articulates simultaneously on first connecting rod 20 and second connecting rod 21, and dead lever 23 sets up on fixed block 22, is equipped with the through-hole on the dead lever 23, and the output setting of connecting pipe 3 is on the through-hole.

Specifically, in this embodiment, one end of the second connecting rod 21 is hinged to the bracket 1, the fixing block 22 is hinged to the other end of the second connecting rod 21 and the inner side end of the first connecting rod 20, the fixing rod 23 is vertically arranged on the fixing block 22, the second connecting rod 21 and the first connecting rod 20 are arranged in parallel, the through hole is arranged at the bottom end of the fixing rod 23, and the output end of the connecting pipe 3 is arranged in the through hole.

Further, the drive mechanism 18 includes: the thermocouple device comprises a connecting plate 24 and a driving device 25, the thermocouple 5 is arranged on the connecting plate 24, the connecting plate 24 is hinged on the support 1, the tail end of the driving device 25 is hinged on the support 1, the head end of the driving mechanism 18 is hinged on the connecting plate 24, the controller is electrically connected with the driving device 25 and used for controlling the opening and closing of the driving device 25, and the driving device 25 is used for driving the connecting plate 24 to rotate.

Specifically, in this embodiment, the driving device 25 is an air cylinder, the driving device 25 is communicated with an air source, the middle of the connecting plate 24 is hinged to the bracket 1, the bottom end of the driving device 25 is hinged to the bracket 1, the top end of the driving device 25 is hinged to the outer end of the connecting plate 24, the thermocouple 5 is fixed to the inner end of the connecting plate 24, and the movement of the thermocouple 5 can be driven by controlling the extension and retraction of the driving device 25.

Further, the method also comprises the following steps: the rotating mechanism 26, the rotating mechanism 26 is arranged on the support 1, the thermocouple 5 is arranged on the rotating mechanism 26, and the rotating mechanism 26 is used for driving the thermocouple 5 to rotate on the support 1.

Specifically, in this embodiment, the rotating mechanism 26 is disposed on the bracket 1, the thermocouple 5 is disposed on the rotating mechanism 26, the rotating mechanism 26 is electrically connected to the controller, the controller is configured to control the opening and closing of the rotating mechanism 26, and after the driving mechanism 18 drives the thermocouple 5 to descend, the rotating mechanism 26 is opened to drive the thermocouple 5 to rotate, so that the measured value of the thermocouple 5 is more accurate.

Further, the rotating mechanism 26 includes: the thermocouple assembly comprises a sliding block 27, a sliding rail 28, a first belt wheel 29, a second belt wheel 30, a belt 31, a motor 32 and a rotating ring 33, wherein the rotating ring 33 is rotatably arranged on the support 1, the first belt wheel 29 is coaxially arranged on the rotating ring 33, the second belt wheel 30 is rotatably arranged on the support 1, the belt 31 is wound on the first belt wheel 29 and the second belt wheel 30, the motor 32 and the second belt wheel are arranged, a controller is electrically connected with the motor 32 and is used for controlling the opening and closing of the motor 32, the motor 32 is used for driving the second belt wheel 30 to rotate, an insertion hole is formed in the rotating ring 33, the head end of the thermocouple 5 is inserted in the insertion hole, the thermocouple 5 can freely rotate on the insertion hole, the sliding rail 28 is arranged on the support 1, the sliding block 27 is slidably arranged on the sliding rail 28, and the tail end of the thermocouple 5 is hinged to the sliding.

Specifically, in the embodiment, the slide rail 28 is disposed on the bracket 1, the slide block 27 is slidably disposed on the slide rail 28, the rotary ring 33 is rotatably disposed on the connecting plate 24 on the bracket 1, the head end of the thermocouple 5 is inserted into the insertion hole, the tail end of the thermocouple 5 is hinged to the slide block 27, the first pulley 29 and the rotary ring 33 are coaxially and fixedly disposed, the second pulley 30 is rotatably disposed on the connecting plate 24, the motor 32 is connected to the second pulley 30, the belt 31 is wound around the first pulley 29 and the second pulley 30, when in use, the rotary ring 33 is driven by the motor 32 to rotate, and simultaneously the head end of the thermocouple 5 is driven to rotate in the containing cup 2 and the tail end of the thermocouple 5 slides on the slide rail 28, so that water temperature balance can be promoted, temperatures at different positions can be measured by the thermocouple 5, and the tail end of the thermocouple 5 always faces one direction, the installation is convenient.

In the present invention, unless otherwise explicitly specified or limited, the first feature "on" or "under" the second feature may be directly contacting the first feature and the second feature or indirectly contacting the first feature and the second feature through an intermediate.

Also, a first feature "on," "above," and "over" a second feature may mean that the first feature is directly above or obliquely above the second feature, or that only the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lower level than the second feature.

In the description herein, reference to the description of the term "one embodiment," "some embodiments," "an example," "a specific example" or "some examples," or the like, means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (14)

1. The utility model provides an automatic steam energy monitoring devices of moisturizing which characterized in that includes: the device comprises a bracket, a containing cup, a connecting pipe, a weighing device, a thermocouple, a water supplementing mechanism, an air drying mechanism and a controller;

the weighing device is arranged on the bracket, the containing cup is arranged on the weighing device and used for containing water, and the weighing device is used for measuring the weight of the object carried in the containing cup;

the input end of the connecting pipe is used for receiving externally input steam, the output end of the connecting pipe is arranged on the bracket, and the output end of the connecting pipe is used for extending into the containing cup;

the thermocouple is fixed on the bracket and used for measuring the temperature of the water in the containing cup;

the water replenishing mechanism is arranged on the bracket and is used for adding water into the containing cup;

the air drying mechanism is arranged on the rack and used for drying the containing cup;

the controller is respectively electrically connected with the weighing device, the water supplementing mechanism, the air drying mechanism and the thermocouple, and is used for controlling the opening and closing of the weighing device, the water supplementing mechanism, the air drying mechanism and the thermocouple.

2. The steam energy monitoring device of claim 1, wherein the water replenishment mechanism comprises: a water pump and a water inlet pipe;

the water inlet end of the water inlet pipe is communicated with a water source, the water outlet end of the water inlet pipe extends to the containing cup, the water pump is arranged on the water inlet pipe and is electrically connected with the controller, the controller is used for controlling the opening and closing of the water pump, and the water pump is used for adding water into the containing cup through the water inlet pipe.

3. The steam energy monitoring device of claim 1, further comprising: a water outlet pipe and an electromagnetic valve;

the water outlet device comprises a water outlet pipe, a controller and an electromagnetic valve, wherein a drain hole is formed in the containing cup, the input end of the water outlet pipe is communicated with the drain hole, the output end of the water outlet pipe extends out of the device, the electromagnetic valve is arranged on the water outlet pipe and is electrically connected with the controller, and the controller is used for controlling the electromagnetic valve to be opened and closed.

4. The steam energy monitoring device of claim 3, wherein the airing mechanism comprises: a fan and an air pipe;

the fan is arranged on the support, the inlet end of the air pipe is communicated with the output end of the fan, the outlet end of the air pipe extends to the upper side of the containing cup, the fan is electrically connected with the controller, the controller is used for controlling the opening and closing of the fan, and the fan is used for supplying air to the containing cup through the air pipe.

5. The steam energy monitoring device of claim 4, wherein the airing mechanism further comprises: a first branch pipe and a second branch pipe;

the first branch pipe and the second branch pipe are arranged on the support, the inlet end of the first branch pipe is communicated with the air pipe, the inlet end of the second branch pipe is communicated with the outlet end of the first branch pipe, the second branch pipe is spiral, the second branch pipe surrounds the cup containing outer side, a plurality of air outlets facing the side wall of the cup are formed in the second branch pipe, and the first branch pipe and the second branch pipe are used for guiding air of the fan to the cup containing outer side.

6. The steam energy monitoring device of claim 4, wherein the airing mechanism further comprises: an electric heating wire;

the electric heating wire is arranged at the outlet end of the fan and electrically connected with the controller, the controller is used for controlling the opening and closing of the electric heating wire, and the electric heating wire is used for heating the wind generated by the fan.

7. The steam energy monitoring device of claim 1, further comprising: a thermal insulation sleeve;

the heat preservation sleeve is made of heat preservation materials, the heat preservation sleeve is arranged on the support, and the heat preservation sleeve surrounds the containing cup.

8. The steam energy monitoring device of claim 1, wherein the bracket is provided with a hold-down mechanism;

the output end of the connecting pipe is arranged on the pressing mechanism, the pressing mechanism is electrically connected with the controller, and the controller is used for controlling the pressing mechanism to drive the output end of the connecting pipe to move into or out of the containing cup.

9. The steam energy monitoring device of claim 8, wherein the hold-down mechanism comprises: the telescopic device and the first connecting rod;

the first connecting rod is hinged to the support, one end of the telescopic device is hinged to the support, the other end of the telescopic device is hinged to the first connecting rod, the conveying end of the connecting pipe is arranged on the first connecting rod, the telescopic device is electrically connected with the controller, the controller is used for controlling the opening and closing of the telescopic device, and the telescopic device is used for driving the first connecting rod to rotate.

10. The steam energy monitoring device of claim 9, wherein the hold-down mechanism further comprises: the second connecting rod, the fixed block and the fixed rod;

the second connecting rod is hinged to the bracket, and the fixing block is hinged to the first connecting rod and the second connecting rod at the same time;

the fixing rod is arranged on the fixing block, a through hole is formed in the fixing rod, and the output end of the connecting pipe is arranged on the through hole.

11. The steam energy monitoring device of claim 1, wherein the bracket is provided with a drive mechanism;

the thermocouple is arranged on the driving mechanism, the driving mechanism is electrically connected with the controller, the controller is used for controlling the driving mechanism to be opened and closed, and the driving mechanism is used for driving the thermocouple to move into or out of the containing cup.

12. The steam energy monitoring device of claim 11, wherein the drive mechanism comprises: a connecting plate and a driving device;

the thermocouple is arranged on the connecting plate, the connecting plate is hinged to the support, the tail end of the driving device is hinged to the support, the head end of the driving mechanism is hinged to the connecting plate, the controller is electrically connected with the driving device and used for controlling the driving device to be opened and closed, and the driving device is used for driving the connecting plate to rotate.

13. The steam energy monitoring device of claim 1, further comprising: a rotating mechanism;

the rotating mechanism is arranged on the support, the thermocouple is arranged on the rotating mechanism, and the rotating mechanism is used for driving the thermocouple to rotate on the support.

14. The steam energy monitoring device of claim 13, wherein the rotation mechanism comprises: the device comprises a sliding block, a sliding rail, a first belt wheel, a second belt wheel, a belt, a motor and a rotating ring;

the rotating ring is rotatably arranged on the support, the first belt wheel is coaxially arranged on the rotating ring, the second belt wheel is rotatably arranged on the support, the belt is wound on the first belt wheel and the second belt wheel, the motor is arranged with the second driving wheel shaft, the controller is electrically connected with the motor, the controller is used for controlling the opening and closing of the motor, and the motor is used for driving the second belt wheel to rotate;

the rotary ring is provided with an insertion hole, the head end of the thermocouple is inserted in the insertion hole, the thermocouple can freely rotate on the insertion hole, the sliding rail is arranged on the support, the sliding block is slidably arranged on the sliding rail, and the tail end of the thermocouple is hinged to the sliding block.

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