CN110646051A

CN110646051A - Measuring container and measuring device

Info

Publication number: CN110646051A
Application number: CN201911079190.XA
Authority: CN
Inventors: 朱丽敏
Original assignee: No3 People's Hospital Hangzhou City
Current assignee: No3 People's Hospital Hangzhou City
Priority date: 2019-11-06
Filing date: 2019-11-06
Publication date: 2020-01-03

Abstract

The application discloses measure container and measuring device relates to the technical field of measuring tool. The measuring container comprises a container body, a scale convex line and a groove; the container body is provided with a container bottom surface and a container side surface; the graduated convex line is arranged on the side surface of the container and used for indicating the volume; a recess is provided on the side of the container for indicating the volume. The measuring container of this application so indicates two kinds of scale standards respectively through scale relief and recess to can indicate different dose divisions fast. The application discloses measuring device includes the casing, measures container, weighing transducer, volume sensor, output assembly and power supply unit spare, can detect the weight of solution in the measurement container through weighing transducer, also can detect the volume of solution in the measurement container through volume sensor to can make the volume of getting solution more convenient.

Description

Measuring container and measuring device

Technical Field

The application relates to the technical field of measuring tools, in particular to a measuring container and a measuring device.

Background

The oral liquid medicine can be taken by adopting a measuring cup on a medicine bottle or other standard measuring cups. While dose divisions for adults and children tend to differ, for example, children tend to use half, one third or one fourth of the dose for adults.

The existing measuring cup is generally only provided with a mark line in a format, so that different dosages of adults and children cannot be rapidly divided, medical workers or patients cannot observe the liquid medicine conveniently when the liquid medicine is measured, and particularly, the measuring cup is easy to cause the liquid medicine to be mistaken for medical workers or patients with poor eyesight, and is not beneficial to use of the measuring cup.

The existing measuring device can only measure the quality of the liquid medicine generally, and the volume of the liquid medicine cannot be read, so that medical staff or patients are inconvenient to measure the liquid medicine.

Disclosure of Invention

The utility model aims at providing a measuring container to solve the technical problem that can't indicate different dose divisions fast among the prior art.

The present application further aims to provide a measuring device to solve the technical problem in the prior art that the volume of the liquid medicine cannot be read.

The above technical problem of the present application is mainly solved by the following technical solutions:

a measuring container comprises a container body, a scale convex line and a groove; the container body has a container bottom surface and a container side surface; the graduated rib is arranged on the side surface of the container and used for indicating the volume; a recess is provided on the side of the container for indicating volume.

In one embodiment, the graduated ribs are provided in plurality and are uniformly distributed on the side surface of the container.

In one embodiment, the plurality of grooves are arranged between two adjacent graduation convex patterns, and the distance between the groove and two adjacent graduation convex patterns is equal.

In one embodiment, the groove surrounds the side surface of the container for one circle; the measuring container includes: at least one elastic coil is arranged in the groove and used for indicating the volume.

In one embodiment, the number of the elastic coils is less than or equal to the number of the grooves.

A measuring device comprises a shell, a measuring container, a weight sensor, a volume sensor, an output assembly and a power supply assembly; a measuring platform is arranged on the shell; the measuring container is arranged on the measuring platform and is the measuring container; the weight sensor is arranged on the measuring platform and used for detecting weight; the volume sensor is arranged on the outer surface of the measuring platform or the shell and used for detecting the volume; the output assembly is arranged on the shell, is electrically connected with the weight sensor and the volume sensor, and is used for outputting the measured weight or volume; the power supply assembly is arranged on the shell, electrically connected with the weight sensor, the volume sensor and the output assembly and used for supplying power.

In one embodiment, the measuring device includes a first control switch and a second control switch, the first control switch is connected in series with the weight sensor to form a weight detecting branch; the second control switch is connected with the volume sensor in series to form a volume detection branch; wherein the weight detection branch is connected in parallel with the volume detection branch.

In one embodiment, the output assembly includes a display screen and a sound generating device, and the display screen is electrically connected to the weight detecting branch and the volume detecting branch; the sounding device is electrically connected with the weight detection branch and the volume detection branch.

In one embodiment, the power supply assembly includes a third control switch, a solar panel and a battery for supplying power, and the third control switch is connected in series with the battery; solar panel locates on the surface of casing or measuring platform's the surface, just solar panel with the battery is parallelly connected, is used for supplying power or right the battery charges.

In one embodiment, the measuring device includes a light emitting element and a fourth control switch, the light emitting element is disposed above the measuring platform and electrically connected to the power supply assembly; the fourth control switch is connected with the light-emitting piece in series and used for controlling the light-emitting piece to emit light; the light emitted by the light-emitting piece is used for directing to the measuring container, and the light-emitting piece and the fourth control switch form an illumination branch.

In one embodiment, the measuring device comprises a heating sheet and a fifth control switch, wherein the heating sheet is arranged on the measuring platform and is electrically connected with the power supply assembly; the fifth control switch is connected with the heating sheet in series and is used for controlling the heating sheet to heat.

In an embodiment, the measuring platform is provided with a limit convex ring for limiting the movement of the measuring container.

In one embodiment, the measuring device includes a timer and a temperature sensor, the timer is disposed on the housing and electrically connected to the power supply module and the output module; the temperature sensor is arranged on the limiting convex ring and is electrically connected with the power supply assembly and the output assembly; the heating sheet, the fifth control switch, the timer and the temperature sensor are connected in series to form a heating branch.

Compared with the prior art, the beneficial effect of this application is: the measuring container of this application indicates two kinds of scale standards respectively through scale relief and recess to can indicate different dose divisions fast.

The measuring device of this application can detect the weight of solution in the measuring vessel through weighing sensor, also can detect the volume of solution in the measuring vessel through volume sensor to can make the volume of getting solution more convenient.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is a schematic structural diagram of a measuring container according to an embodiment of the present disclosure;

FIG. 2 is a schematic structural diagram of a measuring vessel according to an embodiment of the present disclosure;

FIG. 3 is a schematic structural diagram of a measuring device according to an embodiment of the present disclosure;

FIG. 4 is a schematic structural diagram of a measuring device according to an embodiment of the present disclosure;

FIG. 5 is a schematic structural diagram of a measurement platform according to an embodiment of the present disclosure;

FIG. 6 is a schematic diagram of a circuit connection of a measuring device according to an embodiment of the present application;

fig. 7 is a schematic circuit connection diagram of a measuring device according to an embodiment of the present disclosure.

Icon: 100-a measuring vessel; 110-a container body; 110 a-the inner bottom surface of the container; 110 b-container outer side; 111-graduated relief; 112-a groove; 113-an elastic coil; 210-a housing; 220-a measurement platform; 221-a limit convex ring; 222-mounting holes; 300-weight detection branch; 310-a weight sensor; 320-a first control switch; 400-volume detection branch; 410-a volume sensor; 420-a second control switch; 500-an output component; 510-a sound generating device; 520-display screen; 530-a conversion unit module; 600-a power supply component; 610-a storage battery; 620-third control switch; 630-a solar panel; 700-an illumination branch; 710-a light emitting member; 711-a bendable bracket; 712-a lamp shade; 713-led light bulb; 720-fourth control switch; 800-heating branch; 810-heating sheet; 820-a fifth control switch; 830-a timer; 840-a temperature sensor; 900-measuring device.

Detailed Description

The terms "first," "second," "third," and the like are used for descriptive purposes only and not for purposes of indicating or implying relative importance, and do not denote any order or order.

Furthermore, the terms "horizontal", "vertical", "overhang" and the like do not imply that the components are required to be absolutely horizontal or overhang, but may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present application, it should be noted that the terms "inside", "outside", "left", "right", "upper", "lower", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings or orientations or positional relationships that are conventionally arranged when products of the application are used, and are used only for convenience in describing the application and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the application.

In the description of the present application, unless expressly stated or limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements.

The technical solution of the present application will be clearly and completely described below with reference to the accompanying drawings.

Please refer to fig. 1, which is a schematic structural diagram of a measuring container according to an embodiment of the present application. Fig. 1 is a schematic structural diagram of a measuring container 100 according to an embodiment of the present disclosure. The measuring container 100 comprises a container body 110, a graduated ridge 111 and a groove 112; the container body 110 has a container bottom surface including a container inner bottom surface 110a and a container side surface including a container outer side surface 110 b; a graduated ridge 111 is provided on the outer side 110b of the container for indicating the volume; a groove 112 is provided on the container outer side 110b for indicating the volume.

The container body 110 may be of a conventional cup structure, such as a cylindrical, truncated cone, or rectangular parallelepiped structure. The container body 110 may be made of a white transparent material or a fully transparent material, for example, plastic or glass. In one embodiment, the inner surfaces of the graduated ridges 111 and grooves 112 may be painted for identification.

The measuring container 100 of the present application indicates two calibration standards by means of the graduated ridge 111 and the groove 112, respectively, so that different dose divisions can be indicated quickly.

The plurality of graduated convex patterns 111 are uniformly distributed on the outer side surface 110b of the container, the plurality of grooves 112 are formed between two adjacent graduated convex patterns 111, and the distance between each groove 112 and each two adjacent graduated convex patterns 111 is equal.

In one embodiment, the distance between two adjacent graduated ridges 111 is 1 ml, which is used to indicate an integer volume, such as: 0 ml, 1 ml, 2 ml, 3 ml, etc. The spacing between two adjacent grooves 112 is 1 ml, which is used to indicate a non-integral volume, such as: 0.5 ml, 1.5 ml, 2.5 ml, 3.5 ml, etc.

Fig. 2 is a schematic structural diagram of a measuring container 100 according to an embodiment of the present disclosure. The groove 112 surrounds the outer side surface 110b of the container for one circle and is of a circular ring groove-shaped structure; the measuring vessel 100 comprises at least one elastic coil 113, the elastic coil 113 being arranged in the recess 112 for indicating the volume. The elastic coil 113 may be a rubber band, and is sleeved outside the container body 110 and is trapped in the groove 112.

The number of the elastic coils 113 is less than or equal to the number of the grooves 112. That is, the elastic coil 113 may be disposed only in 1 or more grooves 112 for indicating the usual dosage for searching; the elastic coil 113 may also be provided in the total number of grooves 112.

The elastic coil 113 may be colored; the graduated relief 111 may be coloured to make it more conspicuous. In one embodiment, the elastic coils 113 may be solid, and the colors of the elastic coils 113 may be different from each other for differentiation. The graduated ridges 111 may be solid in color, and the colors of the respective graduated ridges 111 may be different from each other for distinction.

In one embodiment, the elastic coil refers to a light-emitting coil or a fluorescent coil capable of displaying colors under illumination. For example, a phosphor is added to or coated on a general coil.

Please refer to fig. 3, which is a schematic structural diagram of a measurement apparatus 900 according to an embodiment of the present disclosure. The measuring device 900 includes a measuring container 100 (see fig. 4), a weight sensor 310, a volume sensor 410, an output assembly 500, and a power supply assembly 600; the weight sensor 310 is used for detecting the weight of the solution in the measuring container 100; the volume sensor 410 is used for detecting the volume of the solution in the measuring container 100; the output component 500 is electrically connected with the weight sensor 310 and the volume sensor 410 and is used for outputting the measured weight or volume; the power supply assembly 600 is electrically connected to the weight sensor 310, the volume sensor 410 and the output assembly 500 for supplying power.

The weight sensor 310 may be a strain gauge pressure sensor, a plate ring type weighing sensor, or a vibrating wire type sensor. The volume sensor 410 may be an electro-optical level sensor, an optical sensor, or an acoustic wave sensor.

In one embodiment, the area of the bottom surface 110a inside the measuring container 100 is fixed, the liquid level of the solution inside the measuring container 100 can be detected by the volume sensor 410, and the volume of the solution inside the measuring container 100 can be converted by the liquid level and the area of the bottom surface 110a inside the container.

The output module 500 may display the measured volume and weight of the solution at the same time, display only one of the measured volume and weight, or switch the display as needed.

The output assembly 500 comprises a display screen 520 and a sound generating device 510, wherein the display screen 520 is used for displaying the weight and the volume measured by the weight sensor 310 and the volume sensor 410; the sound emitting device 510 may be a player for reporting the weight and volume measured by the weight sensor 310 and the volume sensor 410.

The output assembly 500 includes a conversion unit module 530, and the conversion unit module 530 may be a processor, and is configured to receive the electrical signals transmitted by the weight sensor 310 and the volume sensor 410, convert the electrical signals into digital signals, and output the digital signals to the display screen 520 and the sound generating device 510, so as to display and report the weight and the volume measured by the weight sensor 310 and the volume sensor 410.

In an implementation, the conversion unit 530 may also be called a conversion module unit, which includes a memory and a processor, and has a memory and a memory function through the memory, and then is converted by the processor, in an operation process, after a liquid is measured for the first time through the measurement apparatus 900 of the present application, a ratio between a volume and a mass of the liquid is obtained, that is, a measurement result of the first time, and the measurement result of the first time may be stored as a reference for a comparison result of the volume and the mass of the liquid in a second measurement, a third measurement, and so on. Therefore, the volume and mass ratio in the first measurement result and the volume and mass ratio in the second, third and other measurement results can be verified doubly.

The measuring device 900 of the present application can detect the weight of the solution in the measuring container 100 through the weight sensor 310, and can also detect the volume of the solution in the measuring container 100 through the volume sensor 410, so that it is more convenient to measure the solution.

Please refer to fig. 4, which is a schematic structural diagram of a measurement apparatus 900 according to an embodiment of the present disclosure. The measuring device 900 comprises a shell 210, an output assembly 500 and a power supply assembly 600 are arranged on the shell 210, and a measuring platform 220 is arranged on the shell 210; the measuring container 100 is arranged on the measuring platform 220; the weight sensor 310 is disposed on the measuring platform 220, and the volume sensor 410 is disposed on the outer surface of the measuring platform 220 or the housing 210.

The housing 210 is provided with a first control switch 320 and a second control switch 420, wherein the first control switch 320 is used for controlling the on/off of the weight sensor 310, and the second control switch 420 is used for controlling the on/off of the volume sensor 410.

The power supply assembly 600 includes a third control switch 620 and a storage battery 610 for supplying power, the storage battery 610 may be a lithium battery, and the third control switch 620 is connected in series with the storage battery 610 for controlling power on and off.

In one embodiment, the power supply assembly 600 includes a USB interface connected to the battery 610, which can be directly charged by an existing charger.

The measuring device 900 includes a light emitting element 710 and a fourth control switch 720, wherein the light emitting element 710 is disposed above the measuring platform 220 and electrically connected to the power supply assembly 600; the fourth control switch 720 is connected in series with the light emitting member 710 and is used for controlling the light emitting member 710 to emit light; wherein the light emitted from the light emitting member 710 is directed toward the measuring container 100.

The light emitting member 710 includes a bendable bracket 711, a lamp cover 712, and a led bulb 713, wherein the bendable bracket 711 is connected to the housing 210 at one end thereof and the lamp cover 712 at the other end thereof, and the led bulb 713 is disposed in the lamp cover 712. The led bulb 713 can be adjusted by the bendable bracket 711, so that the lighting effect is better.

The measuring device 900 comprises a heating sheet 810 and a fifth control switch 820, wherein the heating sheet 810 is arranged on the measuring platform 220 and is electrically connected with the power supply assembly 600; the fifth control switch 820 is connected in series with the heat generating sheet 810 and is used for controlling the heat generating sheet 810 to generate heat.

The measuring device 900 of this application can heat the solution in the measuring container 100 through the piece 810 that generates heat, makes it keep in a comparatively suitable temperature range, reduces the loss of property of a medicine, and the easier entry.

Referring to fig. 4, a stop collar 221 for limiting the movement of the measuring container 100 is disposed on the upper surface of the measuring platform 220. The measuring platform 220 is provided with a mounting hole 222 therein, and the mounting hole 222 is located in the area range surrounded by the limit convex ring 221. The heating plate 810 and the weight sensor 310 are disposed in the mounting hole 222, and a space is left between the heating plate 810 and the inner surface of the mounting hole 222 of the measuring platform 220 for isolating heat. Heating sheet 810 is the annular structure, and weight sensor 310 locates heating sheet 810 middle hollow position, and leaves the interval between with heating sheet 810, avoids heating sheet 810 directly to influence weight sensor 310. In one embodiment, the weight sensor 310 is provided with a thermal insulation layer for insulating heat.

Please refer to fig. 5, which is a top view of the measurement platform 220 according to an embodiment of the present disclosure. The heat generating sheet 810 and the weight sensor 310 are disposed on the upper surface of the measuring platform 220. The measuring device 900 includes a temperature sensor 840, the temperature sensor 840 is electrically connected to the power supply module 600 (see fig. 4) and the output module 500 (see fig. 4), and is configured to detect the temperature of the solution in the measuring container 100, and can display the temperature through the display screen 520 (see fig. 4), and the sound generating device 510 (see fig. 4) broadcasts the temperature. The temperature sensor 840 is arranged on the limiting convex ring 221, and is prevented from being in direct contact with the heating sheet 810, so that the accuracy of a detection result is influenced.

Fig. 6 is a schematic diagram of a circuit connection of a measurement apparatus 900 according to an embodiment of the present disclosure. The first control switch 320 is connected in series with the weight sensor 310 to form a weight detection branch 300; the second control switch 420 is connected in series with the volume sensor 410 to form a volume detection branch 400; wherein the weight detecting branch 300 is connected in parallel with the volume detecting branch 400.

The display screen 520 is electrically connected with the weight detection branch 300 and the volume detection branch 400; the sound generating device 510 is electrically connected with the weight detecting branch 300 and the volume detecting branch 400; the power supply module 600 is electrically connected to the weight detecting branch 300 and the volume detecting branch 400.

The measuring device 900 of the present application can have two modes, namely a weighing mode when the first control switch 320 is turned on and the second control switch 420 is turned off, and the weight (in grams) of the measured liquid is directly reported after measurement; when the first control switch 320 is closed and the second control switch 420 is opened, the volume measurement mode is set, and the volume (in milliliters) of the measured liquid is directly reported after measurement. Therefore, the measuring device 900 of the present application enables the measured liquid dosage to be more accurate by detecting the weight and volume of the liquid.

In an operation process, when weight data is needed, the first control switch 320 is turned on, the second control switch 420 is turned off, and the weighing mode is started; when volume data is needed, the first control switch 320 is closed, the second control switch 420 is opened, and the volume measurement mode is turned on.

In an operation process, first measurement data can be obtained through the graduated ridge 111, the groove 112 and the elastic coil 113 on the measuring container 100, second measurement data can be obtained through a weighing mode of the measuring device 900, third measurement data can be obtained through a volume measurement mode of the measuring device 900, and the first measurement data, the second measurement data and the third measurement data are converted, averaged and then integrated to obtain more accurate data.

Fig. 7 is a schematic diagram of a circuit connection of a measurement apparatus 900 according to an embodiment of the present disclosure. The power supply assembly 600 further includes a solar panel 630, the solar panel 630 is disposed on an outer surface of the housing 210 (see fig. 4) or an outer surface of the measuring platform 220 (see fig. 4), and the solar panel 630 is connected in parallel with the battery 610 for supplying power or charging the battery 610, so as to save energy and reduce the number of times of replacing the battery 610. In one embodiment, the solar panel 630 and the battery 610 are connected in series and then connected in parallel, and the operation of the solar panel 630 and the battery 610 can be controlled by the switch.

The measuring device 900 further includes a timer 830, and the timer 830 is disposed on the housing 210 and electrically connected to the power supply module 600 and the output module 500. The heating sheet 810, the fifth control switch 820, the timer 830 and the temperature sensor 840 are connected in series to form a heating branch 800. The timer 830 can be used to detect the heating time of the heat generating sheet 810, so as to avoid the heating time from being too long. The time data measured by the timer 830 can be displayed by the display 520 and broadcasted by the sound generator 510. The timer 830 of the present application may include a timing switch for controlling the on/off of the warming branch 800.

The light emitter 710 and the fourth control switch 720 form an illumination branch 700. The heating branch 800, the lighting branch 700, the weight detecting branch 300 and the volume detecting branch 400 are all arranged in parallel. The power supply module 600 and the output module 500 are electrically connected to the warming branch 800, the lighting branch 700, the weight detecting branch 300 and the volume detecting branch 400.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims

1. A measuring vessel, comprising:

a container body having a container side;

a graduated rib provided on the side of the container for indicating the volume; and

a recess disposed on a side of the container for indicating a volume.

2. The measuring vessel according to claim 1, wherein said graduated relief is provided in plurality and evenly distributed on the side of said vessel;

the recess is equipped with a plurality ofly, locates adjacent two between the scale burr, just the recess equals with adjacent two interval between the scale burr.

3. A measuring vessel according to claim 1 or 2, wherein the groove runs around the side of the vessel for one revolution; the measuring container includes:

at least one elastic coil is arranged in the groove and used for indicating the volume.

4. Measuring vessel according to claim 3, wherein the number of elastic coils is smaller than or equal to the number of grooves.

5. A measuring device, comprising:

the device comprises a shell, a measuring platform and a measuring platform, wherein the shell is provided with the measuring platform;

a measuring container arranged on the measuring platform, wherein the measuring container is the measuring container in any one of claims 1 to 4;

the weight sensor is arranged on the measuring platform and used for detecting weight;

the volume sensor is arranged on the outer surface of the measuring platform or the shell and used for detecting the volume;

the output assembly is arranged on the shell, is electrically connected with the weight sensor and the volume sensor and is used for outputting the measured weight or volume; and

and the power supply assembly is arranged on the shell, is electrically connected with the weight sensor, the volume sensor and the output assembly and is used for supplying power.

6. The measurement device of claim 5, wherein the measurement device comprises:

the first control switch is connected with the weight sensor in series to form a weight detection branch; and

the second control switch is connected with the volume sensor in series to form a volume detection branch;

wherein the weight detection branch is connected in parallel with the volume detection branch;

the output assembly includes:

the display screen is electrically connected with the weight detection branch and the volume detection branch; and

and the sounding device is electrically connected with the weight detection branch and the volume detection branch.

7. The measurement device of claim 5, wherein the power supply assembly comprises:

the storage battery is used for supplying power; and

a third control switch in series with the battery.

8. The measurement device of claim 5, wherein the measurement device comprises:

the light-emitting piece is arranged above the measuring platform and is electrically connected with the power supply assembly; and

the fourth control switch is connected with the light-emitting piece in series and used for controlling the light-emitting piece to emit light;

wherein the light emitted by the light emitting element is used for directing to the measuring container.

9. The measurement device according to any one of claims 5 to 8, characterized in that the measurement device comprises:

the heating sheet is arranged on the measuring platform and is electrically connected with the power supply assembly; and

and the fifth control switch is connected with the heating sheet in series and is used for controlling the heating sheet to heat.

10. The measuring device according to claim 9, wherein the measuring platform is provided with a limit convex ring for limiting the movement of the measuring container;

the measuring device includes:

the timer is arranged on the shell and is electrically connected with the power supply assembly and the output assembly; and

the temperature sensor is arranged on the limiting convex ring and is electrically connected with the power supply assembly and the output assembly;

wherein, the heating sheet, the timer and the temperature sensor are connected in series to form a heating branch.