CN111545111A

CN111545111A - Mannitol shaking heating box

Info

Publication number: CN111545111A
Application number: CN202010605639.8A
Authority: CN
Inventors: 伍美艳; 严高超
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-06-29
Filing date: 2020-06-29
Publication date: 2020-08-18

Abstract

The invention relates to a mannitol shaking heating box, and belongs to the field of medical instruments. It includes the box, the semiconductor refrigeration piece, micro water pump, the water pipe, medicine bottle storage device, infrared thermometer, temperature controller and motor, the device can be fast the interior crystalline solid of safe dissolution mannitol, simultaneously can also shake automatically at the in-process that the heating is dissolved, nurse's work load has been reduced, mannitol is in the heating after because the temperature can not in time be used, still need wait for the cooling, can use after reaching the temperature of human adaptation, but the condition of recrystallization can appear very probably in the cooling process, the device can accelerate the cooling of mannitol, and at the in-process of cooling, the mode of shaking has been adopted, mannitol at the possibility of cooling in-process recrystallization is reduced.

Description

Mannitol shaking heating box

Technical Field

The technical scheme of the invention relates to a mannitol shaking heating box, in particular to equipment adopting a semiconductor refrigerating sheet, a micro water pump, a medicine bottle containing device and a motor, and belongs to the field of medical instruments.

Background

Mannitol is a commonly used medicine for lowering blood pressure, dehydration and diuresis in clinic. Mannitol is crystallized in an environment lower than 20 ℃, so that a large amount of mannitol is crystallized in winter or summer at low indoor temperature, mannitol crystals which are crystallized can be used only after the mannitol crystals are dissolved, mannitol crystals which are generally not dissolved at normal temperature are not dissolved, and mannitol crystals which are not dissolved easily in winter at low temperature can not be dissolved completely for several hours. Therefore, how to dissolve mannitol crystals quickly and safely becomes a problem for many clinical departments.

In clinical practice, medical staff usually use an electric stove or an electric cooker to boil and melt the mannitol, which is long in consumed time, and usually the mannitol needs to be shaken manually after being heated to accelerate the rapid dissolution of crystals. The manual shaking is time-consuming and labor-consuming, and brings great inconvenience to the work of nurses.

Meanwhile, the temperature of the mannitol after the crystallization and melting is too high to be used immediately, and the temperature of the mannitol after heating is reduced for a long time. If the materials are melted and placed for a period of time, the heat can not be kept continuously, and the materials need to be repeatedly crystallized after the temperature is reduced, which causes great inconvenience for clinical application.

Therefore, a device needs to be designed, crystals in mannitol can be dissolved quickly and safely, meanwhile, the crystals can be automatically shaken in the dissolving process, the workload of a nurse is reduced, the crystals cannot be used in time due to too high temperature after being heated, the crystals need to be cooled, the crystals can be used only when reaching the temperature suitable for a human body, and therefore the device can accelerate the cooling of the mannitol.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a mannitol shaking heating box which can automatically shake mannitol when mannitol is heated, and simultaneously quickens the cooling speed of the heated mannitol, so that the defects of the prior art are overcome.

The invention is realized by the following technical scheme:

mannitol shakes heating cabinet, including box, semiconductor refrigeration piece, micro water pump, water pipe, medicine bottle storage device, infrared radiation thermometer, temperature controller and motor, the box middle part is equipped with intermediate layer, divide into two-layer about the box, and the semiconductor refrigeration piece is installed in the centre of box lower part, divide into cold water pool and hot-water reservoir with the box lower part, micro water pump is provided with two, installs respectively in cold water pool and hot-water reservoir, and micro water pump's play water outlet end installs the water pipe, and the water pipe passes through intermediate layer and then fixed mounting is on the inner wall on box upper strata, medicine bottle storage device passes through the rotatable installation of bearing in box upper strata, and infrared radiation thermometer installs on the box wall, is horizontal installation with medicine bottle storage device, temperature controller and motor are installed in one end of box upper portion medicine bottle storage device, semiconductor refrigeration piece, micro water pump, The infrared thermometer, the motor and the temperature controller are electrically connected.

The water pipes respectively arranged in the cold water tank and the hot water tank are connected through the water pipe at the upper part of the middle interlayer, the upper part of each water pipe is provided with an arc-shaped pipeline, the middle part of each water pipe connected with the micro water pump is provided with a two-position two-way electromagnetic valve, the electromagnetic valves are positioned below the middle interlayer, and the temperature controller and the electromagnetic valves are electrically connected to control the on-off of the water pipes together.

The medicine bottle storage device comprises a stepped shaft and a medicine bottle storage box, the medicine bottle storage box is fixedly connected to the stepped shaft, one end of the stepped shaft is provided with two grooves for installing a sealing ring, one end provided with the grooves is fixed with a belt pulley, the medicine bottle storage box is divided into an upper part and a lower part, and is provided with a lock catch, the medicine bottle storage device is provided with three sets of grooves, the three sets of grooves are inverted triangles in the installation form of the upper part of the box, the transmission of the first set of the medicine bottle storage device and the transmission of the second set of the medicine bottle storage device are only provided with the belt pulley, and the third set of.

The output end of the motor is connected with a belt wheel and a gear, the belt wheel and the gear are fixedly connected, the gear on the motor is in meshing transmission with the gear arranged on the third medicine bottle containing device, the belt wheel and the belt wheels on the first and second medicine bottle containing devices are in transmission through a belt, and the two medicine bottle containing devices above the three medicine bottle containing devices rotate in opposite directions and towards the middle.

The middle interlayer is provided with a drainage sieve pore in the middle, the lower part of the drainage sieve pore is provided with a water pipe, a two-position three-way electromagnetic valve is arranged on the water pipe, the water pipe is divided into two branch water pipes, one branch water pipe is communicated with the cold water tank, and the other branch water pipe is communicated with the hot water tank. The electromagnetic valve is electrically connected with the temperature controller.

The infrared radiation thermometers are arranged in two, and besides being horizontally installed with the medicine bottle storage device, the installed positions of the infrared thermometers need to avoid fence strips on the medicine bottle storage box.

The water inlet and the water level observing strip are further arranged on the outer side of the box body, the box cover is arranged on the upper portion of the box body, and the box cover is connected with the box body through a hinge.

The temperature controller is provided with a display screen, and the model of the temperature controller is XH-W3001.

The invention relates to a mannitol heating and dissolving method, which uses a device consisting of a box body, a semiconductor refrigeration sheet, a micro water pump, a water pipe, a medicine bottle containing device, an infrared thermometer, a temperature controller and a motor. The temperature of the liquid medicine in the medicine bottle is measured every 30s by the infrared thermometer, after the temperature rises to a set temperature, the micro water pump and the corresponding electromagnetic valve on the hot water pool side are closed, the micro water pump and the corresponding electromagnetic valve on the cold water pool side start to work, the semiconductor refrigerating sheet and the motor continue to work, the temperature of the liquid medicine in the medicine bottle is measured every 30s by the infrared thermometer, after the temperature drops to the set temperature, the equipment stops working, and a user can take out the medicine bottle.

The above mannitol shaking heating box uses components which are well known to those skilled in the art and are obtained by known means, and the connection method of the components is known to those skilled in the art.

The mannitol cooling device has the beneficial effects that crystals in mannitol can be quickly and safely dissolved, meanwhile, the mannitol can be automatically shaken in the heating and dissolving process, the workload of nurses is reduced, mannitol cannot be used in time due to too high temperature after being heated, mannitol also needs to be cooled and can be used after reaching the temperature suitable for a human body, but recrystallization is likely to occur in the cooling process, the mannitol cooling device can accelerate the mannitol cooling, and in the cooling process, the mannitol is shaken, so that the probability of recrystallization in the cooling process is reduced. The device uses the semiconductor refrigeration piece to respectively heat and cool water, thereby greatly reducing the complexity of the device; in the heating and cooling processes, the crystal melting is promoted by adopting a shaking mode, and the device adopts a water bath mode to rapidly cool the mannitol, so that the probability of recrystallization of the mannitol is greatly reduced; the medicine bottle containing device is installed in an inverted triangle mode, the medicine bottle containing device on the upper portion is driven to move towards the middle by means of gears and belt transmission, a large amount of water flow can flow to the medicine bottle containing device on the lower portion, and utilization efficiency of energy is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a diagram of the internal structure of the present invention with partial occlusion removed;

FIG. 3 is an internal structure diagram of another view angle after partial occlusion is removed according to the present invention

FIG. 4 is a schematic structural view of the present invention after the cover is opened;

FIG. 5 is a rear view of the present invention;

FIG. 6 is a cross-sectional view taken at A-A of FIG. 5;

FIG. 7 is an enlarged view taken at I of FIG. 6;

FIG. 8 is a side view of the present invention;

FIG. 9 is a cross-sectional view taken at B-B of FIG. 8 in accordance with the present invention;

FIG. 10 is a schematic view of the vial receiving device of the present invention;

FIG. 11 is another perspective view of the vial receiving device of the present invention;

FIG. 12 is a control flow chart of the temperature controller according to the present invention;

in the figure: 1. the water level monitoring device comprises a box body, 2, a box cover, 3, a display screen, 4, a water inlet, 5, a water level observation strip, 6, a temperature controller, 7, a water pipe, 8, a medicine bottle storage box, 9, a gear, 10, a motor, 11, an infrared thermometer, 12, a belt, 13, a belt wheel, 14, a semiconductor refrigeration sheet, 15, a bearing, 16, a stepped shaft, 17, a groove, 18, a lock catch, 19, a sealing ring, 20, a miniature water pump, 21, an electromagnetic valve, 22, a hot water tank, 23, a cold water tank, 24, a drainage sieve hole, 25 and a middle interlayer.

Detailed Description

The invention is further described with reference to the following figures and examples.

The semiconductor refrigeration chip 14, also called thermoelectric refrigeration chip, is a heat pump. Its advantages are no slide part, limited space, high reliability and no pollution of refrigerant. By utilizing the Peltier effect of semiconductor materials, when direct current passes through a galvanic couple formed by connecting two different semiconductor materials in series, heat can be absorbed and released at two ends of the galvanic couple respectively to form a refrigerating surface and a heating surface, and the purposes of refrigerating and heating can be achieved simultaneously. The refrigerating technology which generates negative thermal resistance is characterized by no moving parts and higher reliability.

As shown in figures 1 to 9, the mannitol shaking heating box comprises a box body 1, a semiconductor refrigerating sheet 14, a micro water pump 20, a water pipe 7, a medicine bottle containing device, an infrared thermometer 11, a temperature controller 6 and a motor 10, the upper part of the box body 1 is provided with a box cover 2, the box cover 2 is connected with the box body 1 through a hinge, the middle part of the box body 1 is provided with a middle interlayer 25 which divides the box body 1 into an upper layer and a lower layer, the semiconductor refrigerating sheet 14 is arranged in the middle of the lower part of the box body 1 and divides the lower part of the box body 1 into two water pools, wherein the refrigerating surface of the semiconductor refrigerating sheet 14 corresponds to a cold water pool 23, the heating surface corresponds to a hot water pool 22, two micro water pumps 20 are arranged and are respectively arranged in a cold water pool 23 and a hot water pool 22, the water outlet end of the micro water pump 20 is provided with a water pipe 7, and the water pipe 7 is fixedly arranged on the inner wall of the upper layer of the box body 1 after passing through the middle interlayer 25. Medicine bottle storage device passes through the rotatable installation in 1 upper strata of box of bearing 15, and infrared radiation thermometer 11 is provided with two altogether, installs on 1 wall of box, is horizontal installation with medicine bottle storage device, and the fence strip on medicine bottle receiver 8 still need be avoided to the position of its installation simultaneously, avoids when infrared radiation thermometer 11 measures the liquid medicine temperature, and the fence strip causes the interference.

The type of the temperature controller 6 is XH-W3001, the device supplies power through an external power supply, the temperature controller 6 and the motor 10 are installed at one end of the medicine bottle containing device on the upper portion of the box body 1, the semiconductor refrigeration piece 14, the micro water pump 20, the infrared thermometer 11, the motor 10 and the temperature controller 6 are electrically connected, and the controller inside the temperature controller 6 controls the semiconductor refrigeration piece 14, the micro water pump 20, the infrared thermometer 11 and the motor 10 to work. Meanwhile, the temperature controller 6 is provided with a display screen 3, the display screen 3 is arranged at the upper part of the box body 1, and the display screen 3 is used for displaying the temperature of the liquid medicine measured by the infrared thermometer 11.

The water pipes 7 respectively arranged in the cold water tank 23 and the hot water tank 22 are connected through the water pipes 7 at the upper part of the middle interlayer 25, the uppermost part of each water pipe 7 is provided with an arc-shaped pipeline, and when water flows, the water is directly sprayed onto the medicine bottles inside the medicine bottle containing device through the arc-shaped pipelines. The middle of the water pipe 7 connected with the micro water pump 20 is provided with a two-position two-way electromagnetic valve 21, the electromagnetic valve 21 is positioned below the middle interlayer 25, when the micro water pump 20 in the hot water tank 22 works, the corresponding electromagnetic valve 21 is communicated, four pipelines with arc-shaped pipelines all discharge hot water, when the micro water pump 20 in the cold water tank 23 works, the corresponding electromagnetic valve 21 is communicated, four pipelines with arc-shaped pipelines all discharge cold water, and the temperature controller 6 is electrically connected with the electromagnetic valve 21 to control the on-off of the water pipe 7.

As shown in fig. 10 and 11, the medicine bottle containing device includes a stepped shaft 16 and a medicine bottle containing box 8, the medicine bottle containing box 8 is fixedly connected to the stepped shaft 16, one end of the stepped shaft 16 is provided with two grooves 17 for installing a sealing ring 19, so as to prevent water in the box 1 from entering the motor 10, one end of the groove 17 is fixed with a belt wheel 13, the medicine bottle containing box 8 is divided into an upper part and a lower part, and is provided with a lock catch 18, mannitol medicine bottles needing to be redissolved are placed in the medicine bottle containing box 8, the medicine bottle containing devices are provided with three sets, the three sets of devices are arranged on the upper part of the box 1 in a triangular shape, wherein the transmission of the first and second medicine bottle containing devices is only provided with the belt wheel 13, and the third medicine bottle containing device is further provided with a. The output end of the motor 10 is connected with a belt wheel 13 and a gear 9, the belt wheel 13 and the gear 9 are fixedly connected, the gear 9 on the motor 10 is in meshing transmission with the gear 9 arranged on the third medicine bottle containing device, the belt wheel 13 and the belt wheels 13 on the first medicine bottle containing device and the second medicine bottle containing device are in transmission through a belt 12, and the two medicine bottle containing devices above the three medicine bottle containing devices rotate in opposite directions and towards the middle. By adopting the rotation direction, hot water or cold water can be reused by the medicine bottle containing device at the lower part after passing through the medicine bottle containing device at the upper part, and the utilization efficiency of water is improved.

The middle partition layer 25 is provided with a drainage sieve hole 24 in the middle, the lower part of the drainage sieve hole 24 is provided with a water pipe 7, the water pipe 7 is provided with a two-position three-way electromagnetic valve 21, the water pipe 7 is divided into two branch water pipes 7, one branch water pipe is led into the cold water tank 23, the other branch water pipe is led into the hot water tank 22, and the electromagnetic valve 21 is electrically connected with the temperature controller 6. The on-off of the electromagnetic valve 21 and the electromagnetic valve 21 at the micro-water pump 20 are in synchronous motion, and the liquid passing through the micro-water pump 20 can flow back to the corresponding pool from the drainage sieve hole 24 again. The outside of the box body 1 is also provided with a water inlet 4 and a water level observation strip 5, so that a user can observe the height of the water level in the pool from the water level observation strip 5, and water can be added into the corresponding pool through the water inlet 4.

As shown in fig. 12, the control flow of the temperature controller 6 is: start → semiconductor refrigeration piece 14 starts working → micro water pump 20 in hot water pool 22 works, corresponding to the opening of electromagnetic valve 21 channel in the pipeline → motor 10 starts working → time delay 30s → infrared thermometer 11 works to measure temperature → judge whether the temperature of mannitol liquid medicine rises to the preset temperature; if not, returning to the step of delaying for 30 s; if yes, the motor 10 continues to work → the micro water pump 20 in the hot water pool 22 is closed, the corresponding electromagnetic valve 21 is closed → the micro water pump 20 in the cold water pool 23 works, the corresponding electromagnetic valve 21 is opened → the time delay 30s → the infrared thermometer 11 works to measure temperature → judges whether the temperature of the mannitol liquid medicine is reduced to a preset temperature; if not, returning to the last step of delaying for 30 s; if "yes," then all devices are turned off → end.

The invention relates to a mannitol heating and dissolving method, which uses a device consisting of a box body 1, a semiconductor refrigerating sheet 14, a micro water pump 20, a water pipe 7, a medicine bottle accommodating device, an infrared thermometer 11, a temperature controller 6 and a motor 10, wherein a medicine bottle is firstly put into a medicine bottle accommodating box 8, the medicine bottle accommodating box 8 is closed, then the semiconductor refrigerating sheet 14, the motor 10, the micro water pump 20 at the side of a hot water pool 22 and a corresponding electromagnetic valve 21 start to work, the heated water heats the medicine bottle in a water bath, the running motor 10 drives the medicine bottle to rotate, the medicine liquid is continuously shaken, and the water falling on an intermediate interlayer 25 after the water bath returns to the corresponding pool through a drainage sieve mesh 24. The infrared thermometer 11 measures the temperature of the liquid medicine in the medicine bottle every 30s, after the temperature rises to a set temperature, the micro water pump 20 and the corresponding electromagnetic valve 21 on the hot water tank 22 side are closed, the micro water pump 20 and the corresponding electromagnetic valve 21 on the cold water tank 23 side start to work, the semiconductor refrigeration sheet 14 and the motor 10 continue to work, the infrared thermometer 11 measures the temperature of the liquid medicine in the medicine bottle every 30s, after the temperature drops to the set temperature, the equipment stops working, and a user can take out the medicine bottle.

Examples

According to the above fig. 1 to 12, a mannitol shaking heating box is prepared, when the device is used for heating crystallized mannitol liquid medicine, the box cover 2 is opened to put the medicine bottle into the medicine bottle storage box 8, the medicine bottle storage box 8 is closed, then the semiconductor refrigerating sheet 14, the motor 10, the micro water pump 20 at the side of the hot water tank 22 and the corresponding electromagnetic valve 21 start to work, the heated water heats the medicine bottle in a water bath, the running motor 10 drives the medicine bottle to rotate while heating the medicine bottle, the liquid medicine is continuously shaken, and the water falling on the middle interlayer 25 after the water bath returns to the corresponding tank through the drainage sieve hole 24; the infrared thermometer 11 measures the temperature of the liquid medicine in the medicine bottle every 30s, after the temperature rises to a set temperature, the micro water pump 20 and the corresponding electromagnetic valve 21 on the hot water tank 22 side are closed, the micro water pump 20 and the corresponding electromagnetic valve 21 on the cold water tank 23 side start to work, the semiconductor refrigeration sheet 14 and the motor 10 continue to work, the infrared thermometer 11 measures the temperature of the liquid medicine in the medicine bottle every 30s, after the temperature drops to the set temperature, the equipment stops working, and a user can take out the medicine bottle.

Therefore, the scope of the present invention should not be limited to the disclosure of the embodiments, but includes various alternatives and modifications without departing from the scope of the present invention, which is defined by the claims of the present patent application.

Claims

1. Mannitol rocks heating cabinet, includes box, semiconductor refrigeration piece, miniature pump, water pipe, medicine bottle storage device, infrared thermometer, temperature controller and motor, its characterized in that: the medical bottle storage device is characterized in that a middle interlayer is arranged in the middle of the box body and divides the box body into an upper layer and a lower layer, the semiconductor refrigeration piece is arranged in the middle of the lower portion of the box body and divides the lower portion of the box body into a cold water pool and a hot water pool, the two micro water pumps are respectively arranged in the cold water pool and the hot water pool, a water pipe is arranged at the water outlet end of each micro water pump, the water pipe passes through the middle interlayer and is then fixedly arranged on the inner wall of the upper layer of the box body, the medical bottle storage device is rotatably arranged on the upper layer of the box body through a bearing, the infrared thermometer is arranged on the wall of the box body and is horizontally arranged with the medical bottle storage device, the temperature controller and the motor are arranged at one.

2. The mannitol rocking heating cabinet according to claim 1, characterized in that: the water pipes respectively arranged in the cold water tank and the hot water tank are connected through the water pipe at the upper part of the middle interlayer, the upper part of each water pipe is provided with an arc-shaped pipeline, the middle part of each water pipe connected with the micro water pump is provided with a two-position two-way electromagnetic valve, the electromagnetic valves are positioned below the middle interlayer, and the temperature controller and the electromagnetic valves are electrically connected to control the on-off of the water pipes together.

3. The mannitol rocking heating cabinet according to claim 1, characterized in that: the medicine bottle storage device comprises a stepped shaft and a medicine bottle storage box, the medicine bottle storage box is fixedly connected to the stepped shaft, one end of the stepped shaft is provided with two grooves for installing a sealing ring, one end provided with the grooves is fixed with a belt pulley, the medicine bottle storage box is divided into an upper part and a lower part, and is provided with a lock catch, the medicine bottle storage device is provided with three sets of grooves, the three sets of grooves are inverted triangles in the installation form of the upper part of the box, the transmission of the first set of the medicine bottle storage device and the transmission of the second set of the medicine bottle storage device are only provided with the belt pulley, and the third set of.

4. The mannitol rocking heating cabinet according to claim 1, characterized in that: the output end of the motor is connected with a belt wheel and a gear, the belt wheel and the gear are fixedly connected, the gear on the motor is in meshing transmission with the gear arranged on the third medicine bottle containing device, the belt wheel and the belt wheels on the first and second medicine bottle containing devices are in transmission through a belt, and the two medicine bottle containing devices above the three medicine bottle containing devices rotate in opposite directions and towards the middle.

5. The mannitol rocking heating cabinet according to claim 1, characterized in that: the middle interlayer is provided with a drainage sieve pore in the middle, the lower part of the drainage sieve pore is provided with a water pipe, a two-position three-way electromagnetic valve is arranged on the water pipe, the water pipe is divided into two branch water pipes, one branch water pipe is communicated with the cold water tank, and the other branch water pipe is communicated with the hot water tank. The electromagnetic valve is electrically connected with the temperature controller.

6. The mannitol rocking heating cabinet according to claim 1, characterized in that: the infrared radiation thermometers are arranged in two, and besides being horizontally installed with the medicine bottle storage device, the installed positions of the infrared thermometers need to avoid fence strips on the medicine bottle storage box.

7. The mannitol rocking heating cabinet according to claim 1, characterized in that: the water inlet and the water level observing strip are further arranged on the outer side of the box body, the box cover is arranged on the upper portion of the box body, and the box cover is connected with the box body through a hinge.

8. The mannitol rocking heating cabinet according to claim 1, characterized in that: the temperature controller is provided with a display screen, and the model of the temperature controller is XH-W3001.

9. A method for dissolving mannitol by heating is characterized in that: the method uses by the box, the semiconductor refrigeration piece, miniature water pump, the water pipe, medicine bottle storage device, infrared radiation thermometer, the device that temperature controller and motor are constituteed, at first put into the medicine bottle receiver with the medicine bottle, close the medicine bottle receiver, then the semiconductor refrigeration piece, including a motor, an end cap, a controller, and a cover plate, the miniature water pump and the corresponding solenoid valve of hot water pond side begin to work, water bath heating is carried out to the medicine bottle to the water after the heating, the motor of operation drives the medicine bottle and rotates, carry out continuous rocking to the liquid medicine, the water that falls on the intermediate interlayer after the water bath passes through the drainage sieve mesh and gets back to corresponding pond again. The temperature of the liquid medicine in the medicine bottle is measured every 30s by the infrared thermometer, after the temperature rises to a set temperature, the micro water pump and the corresponding electromagnetic valve on the hot water pool side are closed, the micro water pump and the corresponding electromagnetic valve on the cold water pool side start to work, the semiconductor refrigerating sheet and the motor continue to work, the temperature of the liquid medicine in the medicine bottle is measured every 30s by the infrared thermometer, after the temperature drops to the set temperature, the equipment stops working, and a user can take out the medicine bottle.