CN216646172U - Syrup brix measuring device - Google Patents

Abstract

The utility model discloses a syrup brix measuring device which comprises a storage box body, a syrup data acquisition unit and a syrup data processing unit, wherein the syrup data processing unit is arranged outside the storage box body and used for detecting syrup stored in the storage box body, the syrup data acquisition unit is electrically connected with the syrup data processing unit, the syrup data acquisition unit comprises a pressure sensor, a force transmission connecting piece and a floating body, a hoisting hole is formed in the top end of the storage box body, the upper end of the force transmission connecting piece is in transmission connection with the acquisition end of the pressure sensor, the lower end of the force transmission connecting piece vertically extends downwards into the storage box body along the hoisting hole and is connected with the upper side of the floating body, and the lower side of the floating body is connected to the inner wall of the bottom of the storage box body in a sliding and hanging mode. The utility model can measure the concentration of syrup in real time, can ensure the stability of the floating body in the measuring process, prevents the influence of the impact of the syrup on the floating body on the measuring result and ensures the accuracy and the stability of the measurement.

Description

Syrup brix measuring device

Technical Field

The utility model relates to the technical field of sugar manufacturing, in particular to a syrup brix measuring device.

Background

In recent years, with the rapid development of food and beverage industries in China, the demand for liquid sugar is also increased year by year, and with the development of production technology, more and more syrup products are well favored by sugar enterprises due to the characteristics of good color, convenient application and the like. In the syrup production process, the brix control of syrup directly influences the quality of sugar boiling, therefore, the concentration of liquid materials stored in various syrup (sugar juice and molasses) boxes in the production process needs to be measured and monitored in real time, so as to judge whether the concentration of the syrup meets the requirements of the production process, at present, some sugar factories use microwave brix meters and expensive imported brix meters, which are commonly used in the automatic control of sugar boiling, although the brix meters can accurately measure the syrup, belong to advanced import equipment, have precise structure and high technical cost, can hardly be maintained once damaged, can only be replaced, not only has expensive replacement cost, but also has long supply period and high maintenance cost, and has long supply period, and is generally only used in the automatic control of sugar boiling, so that the large-scale application can not be realized. Some sugar mills still pass through artifical sampling syrup even, then take special equipment to carry out the measurement of brix degree, not only waste time and energy inefficiency, can not accomplish the brix degree of real-time rapid survey syrup like this, and inefficiency moreover, can't realize the on-line monitoring of syrup concentration. For this reason, there is no record of simple and reliable measurement of syrup concentration and automatic concentration monitoring.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a syrup brix measuring device which can measure the syrup concentration in real time so as to conveniently control the syrup concentration within a certain range, conveniently monitor the syrup concentration in production, ensure the stability of a floating body in the syrup measuring process, prevent the measured data from jumping too much due to the impact of syrup fluid on the floating body, and ensure the accuracy and stability of the sugar liquid brix measurement. In order to achieve the purpose, the utility model adopts the following technical effects:

according to one aspect of the utility model, the syrup brix measuring device comprises a storage box body, a syrup data processing unit and a syrup data acquisition unit, wherein the syrup data processing unit is arranged outside the storage box body, the syrup data acquisition unit is used for detecting syrup brix parameters stored in the storage box body, the syrup data acquisition unit is electrically connected with the syrup data processing unit, the syrup data acquisition unit comprises a pressure sensor, a force transmission connecting piece and a floating body, a lifting hole is formed in the top end of the storage box body, the force transmission connecting piece vertically penetrates through the lifting hole, the pressure sensor is arranged above the lifting hole, the upper end of the force transmission connecting piece is in transmission connection with an acquisition end of the pressure sensor, the lower end of the force transmission connecting piece vertically extends downwards into the storage box body along the lifting hole and is connected with the upper side of the floating body, the lower side of the floating body is connected to the inner wall of the bottom of the storage box body in a sliding and hanging manner.

According to the scheme, the inner wall of the hoisting hole is connected with the blocking cover in a threaded manner, the lower end of the force transmission connecting piece extends into the storage box body along the center of the blocking cover through the hoisting hole and is connected with the upper side of the floating body, and the upper end of the force transmission connecting piece slides upwards to penetrate through the blocking cover to be in transmission connection with the acquisition end of the pressure sensor.

According to a further preferable mode of the technical scheme, a gantry mounting frame is vertically arranged along the peripheral edge of the blocking cover, the pressure sensor is fixed on the lower side of the top end of the gantry mounting frame, and the acquisition end of the pressure sensor is in transmission connection with the upper end of the force transmission connecting piece.

According to the scheme, the lower end of the force transmission connecting piece is connected to the lifting ring, the lower side of the floating body is connected to the top end of the supporting frame through the suspension connecting piece, and the length of the suspension connecting piece is 8-15 cm.

In a further preferred embodiment of the above scheme, a sliding hole is formed in the center of the top of the support frame, a limiting piece is arranged below the sliding hole, the size of the limiting piece is larger than the inner diameter of the sliding hole, and the lower end of the suspension connecting piece penetrates through the sliding hole to be connected with the limiting piece.

In a further preferred embodiment of the above scheme, the floating body is a floating ball or a buoy.

In a further preferred embodiment of the above technical scheme, a feeding pipe is arranged on the side wall of the upper end of the storage box body, a discharging pipe is arranged on the side wall of the lower end of the storage box body, a one-way feeding valve is arranged on the feeding pipe, a one-way discharging valve is arranged on the discharging pipe, and the control end of the one-way feeding valve and the control end of the one-way discharging valve are electrically connected with the syrup data processing unit respectively.

Above-mentioned scheme is further preferred, be provided with level sensor in the storage box body and be located the top of discharging pipe, this level sensor's liquid level signal output part with syrup data processing unit connects.

In a further preferred embodiment of the above scheme, a spray pipe extending to the vicinity of the floating body is arranged at the outer edge of the hoisting hole, and a spray control valve is arranged on the spray pipe outside the top end of the storage box body and electrically connected with the syrup data processing unit.

In a further preferred embodiment of the above-mentioned solution, the syrup data processing unit includes a central controller and a liquid crystal display, and a display input end of the liquid crystal display, a control end of the one-way material inlet valve, and a control end of the one-way material outlet valve are electrically connected to the central controller, respectively.

In summary, the utility model adopts the above technical scheme, and the utility model has the following technical effects:

the syrup brix measuring device can measure the concentration of syrup stored in a storage box body (a molasses box or a syrup box) in real time, so that the concentration of syrup can be conveniently controlled within a certain range, and the change of the concentration of syrup can be conveniently monitored; the stability of the floating body can be ensured in the syrup measuring process, the phenomenon that the measured data is jumped too much due to the fact that syrup fluid impacts the floating body too much is prevented, and the accuracy and the stability of the sugar liquid brix measurement are ensured; compared with other precision hammermieters, the hammermill measuring device has the greatest advantages of simplicity, easiness in manufacturing, easiness in purchasing materials, low cost and convenience in maintenance. The measuring device can continuously measure, can obtain the brix of the syrup in real time, ensures the quality of the syrup, greatly reduces the labor reduction of workers, and is suitable for popularization and application in factories.

Drawings

FIG. 1 is a schematic structural diagram of a first embodiment of a device for measuring the brix of a syrup according to the present invention;

FIG. 2 is a schematic top view of the storage enclosure of the present invention;

FIG. 3 is a schematic diagram of a syrup data acquisition unit of the present invention;

FIG. 4 is a schematic view of the installation of the float of the present invention;

FIG. 5 is a schematic diagram of a second embodiment of a device for measuring the brix of a syrup according to the present invention;

in the drawing, a storage box body 1, a syrup data acquisition unit 2, a syrup data processing unit 3, a liquid level sensor 4, a hoisting hole 10, a feeding pipe 11, a discharging pipe 12, a one-way feeding valve 110, a one-way discharging valve 120, a pressure sensor 201, a force transmission connecting piece 202, a floating body 203, a hanging ring 203a, a blocking cover 204, a gantry mounting frame 205, a supporting frame 206, a suspension connecting piece 206a, a sliding hole 207, a limiting piece 208, a spraying pipe 209 and a spraying control valve 209a are arranged.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail below with reference to the accompanying drawings by way of examples of preferred embodiments. It should be noted, however, that the numerous details set forth in the description are merely for the purpose of providing the reader with a thorough understanding of one or more aspects of the present invention, which may be practiced without these specific details.

Referring to fig. 1, 2 and 3, the syrup brix measuring device according to the present invention includes a storage box 1, a syrup data processing unit 2 and a syrup data processing unit 3, the syrup data processing unit 3 is disposed outside the storage box 1, the syrup data processing unit 2 is used for detecting syrup stored in the storage box 1, the syrup data processing unit 3 is electrically connected to the syrup data acquisition unit 2, the syrup data acquisition unit 2 includes a pressure sensor 201, a force transmission connector 202 and a floating body 203, the floating body 203 is a floating ball or a floating pontoon, a lifting hole 10 is disposed at a top end of the storage box 1, the force transmission connector 202 vertically penetrates through the lifting hole 10, the pressure sensor 201 is disposed above the lifting hole 10, an upper end of the force transmission connector 202 is in transmission connection with an acquisition end of the pressure sensor 201, the lower end of the force transmission connecting piece 202 vertically extends downwards into the storage box body 1 along the hoisting hole 10 to be connected with the upper side of the floating body 203, and the lower side of the floating body 203 is connected to the inner wall of the bottom of the storage box body 1 in a sliding and hanging manner; the syrup data processing unit 3 comprises a central controller and a liquid crystal display, the central controller is a PLC (programmable logic controller) or a single chip microcomputer controller, the display input end of the liquid crystal display is electrically connected with the central controller, the stored syrup liquid level in the storage box body 1 rises to the floating body 203, after a period of time, when the syrup is stable and the buoyancy force borne by the floating body 203 is in a relatively static state, the downward tension force borne by the floating body is measured by the pressure sensor 201 (tension sensor), the measured tension force is converted into an electric signal to be transmitted to the central controller, the central controller converts the electric signal into a hammering degree value, and at the moment, the central controller outputs the hammering degree of the syrup and displays the hammering degree on the liquid crystal display.

In the present invention, as shown in fig. 1, 2 and 3, a blocking cover 204 is screwed on the inner wall of the hoisting hole 10, the lower end of the force transmission connector 202 extends into the storage box body 1 along the center of the blocking cover 204 through the hoisting hole 10 to be connected with the upper side of the floating body 203, a gantry mounting frame 205 is vertically arranged along the peripheral edge of the blocking cover 204, the blocking cover 204 prevents the heat in the storage box body 1 from being discharged from the lifting hole along the force transmission connector 202, the lifting hole 10 is arranged at the top end of the storage box body 1, the purpose is to place the floating body 203 in a convenient way, a plugging cover 204 (hole cover) is arranged on the hoisting hole 10, when the floating body 203 is lifted, the blocking cover 204 can be covered to prevent sundries from falling into the box, a round hole is formed in the center of the blocking cover 204, the diameter of the round hole is slightly larger than that of the force transmission rod, so that the force transmission connecting piece 202 can penetrate out of the round hole of the hole cover and can freely slide up and down. The pressure sensor 201 is fixed on the lower side of the top end of the gantry mounting frame 205, the acquisition end of the pressure sensor 201 is in transmission connection with the upper end of the force transmission connecting piece 202, and the force transmission connecting piece 202 is a hard force transmission rod or a soft force transmission rope connecting piece; according to the utility model, a dowel bar is connected between a pressure sensor 201 and a floating body 203, a force transmission connecting piece 202 penetrates through the inside and outside of a storage box body 1 along the center of a blocking cover 204, the upper end of the force transmission connecting piece 202 is connected with a pressure detection end of the pressure sensor 201, a fixed shell of the pressure sensor 201 is connected to the lower side wall of the top end of a gantry mounting frame 205 through a bolt, and in the utility model, the floating body 203 pulls the pressure detection end of the force transmission connecting piece 202 through the force transmission connecting piece 202; at this time, the floating body 203 has a tendency of floating upwards due to the buoyancy of the syrup liquid, the pressure floating up on the floating body 203 is transmitted to the pressure sensor 201 on the top of the storage box 1 through the force transmission connecting piece 202, the pressure sensor 201 converts the pressure signal into an electric signal and transmits the electric signal to the central controller of the syrup data processing unit 3 matched with the electric signal for processing by acquiring the pressure, and the central controller converts the electric signal into a hammer value, the hammer value of the liquid crystal display and the pressure value received by the pressure sensor 201.

Referring to fig. 1, 2 and 3, a support frame 206 is arranged on the inner wall of the bottom of the storage box 1 right below the lower end of the force transmission connector 202, a hanging ring 203a is arranged on the upper side of the floating body 203, the lower end of the force transmission connector 202 is connected to the hanging ring 203a, the height of the hanging ring 203a is 4cm-6cm, the height of the floating body 203 is 30-40cm, the lower side of the floating body 203 is connected to the top end of the support frame 206 through a suspension connector 206a, and the length of the suspension connector 206a is 8-15 cm; the center of the top of the support frame 206 is provided with a sliding hole 207, a limit piece 208 is arranged below the sliding hole 207, the size of the limit piece 208 is larger than the inner diameter of the sliding hole 207, the lower end of the suspension connecting piece 206a passes through the sliding hole 207 to be connected with the limit piece 208, the suspension connecting piece 206a is a hard dowel bar or soft dowel rope connecting piece, in the utility model, the suspension connecting piece 206a adopts a soft dowel rope connecting piece, the lower end of the suspension connecting piece 206a is in threaded connection with the limit piece 208, when the floating body 203 is subjected to the buoyancy action of syrup liquid and tends to float upwards, the suspension connecting piece 206a and the limit piece 208 are subjected to upward pulling force under the buoyancy action of the floating body 203, when the suspension connecting piece 206a ascends or descends of the floating body 203, the suspension connecting piece 206a slides in the sliding hole 207, the suspension connecting piece 206a is clamped at the top of the support frame 206 through the limit piece 208, thereby restricting the random swing of floating body 203 in the syrup liquid, making floating body 203 can be by the complete submergence of the syrup liquid of awaiting measuring to guarantee that floating body 203 keeps relative static or steady state in the syrup liquid, prevent that the syrup fluid from assaulting too greatly and leading to the measured data to beat too big, guarantee pressure sensor 201's pressure measurement's accuracy and stability, also guaranteed sugar liquid brix measuring accuracy and stability. The crossbeam center of gantry mounting frame 205, the same vertical axis of hoisting hole 204 center and support frame 206 center three, pressure sensor 201 is installed at the crossbeam center of gantry mounting frame 205, body 203 places on support frame 206, body 203 upper end and 203 lower extreme of biography power connecting piece are with bolt fixed connection, the upper end of biography power connecting piece 202 inserts in the receiving terminal of pressure sensor 206 lower part, set up gantry mounting frame 205 outside hoisting hole 10, its effect is used for installing pressure sensor 201, pressure sensor 201 belongs to the precision part, if install in the case, because the incasement environment is abominable, pressure sensor 201 is easily leaded to damaging by the steam invasion, consequently install pressure sensor 201 outside the case just can avoid this problem, and the inspection is maintained conveniently. The syrup data processing unit 3 matched with the pressure sensor 201 can be fixed beside the pressure sensor, so that the observation and the operation are convenient; because the floating body 203 is arranged in the storage box body 1 and the pressure sensor 201 is arranged outside the box, the device is provided with the force transmission connecting piece 202 which is used for transmitting the pressure generated by the floating body 203 and transmitting the pressure to the receiving end of the pressure sensor 201, the force transmission connecting piece 202 is made of stainless steel round steel with the diameter of 10mm, and the length is determined according to the actual measurement environment.

In the present invention, as shown in fig. 5, a feeding pipe 11 is disposed on the upper end side wall of the storage box 1, a discharging pipe 12 is disposed on the lower end side wall of the storage box 1, a one-way feeding valve 110 is disposed on the feeding pipe 11, a one-way discharging valve 120 is disposed on the discharging pipe 12, a control end of the one-way feeding valve 110 and a control end of the one-way discharging valve 120 are electrically connected to a central controller of the syrup data processing unit 3, respectively, a liquid level sensor 4 is disposed in the storage box 1 above the discharging pipe 12, the liquid level sensor 4 is located at a height position of 3/5-3/4 in the storage box 1, a liquid level signal output end of the liquid level sensor 4 is connected to the central controller of the syrup data processing unit, the central controller of the syrup data processing unit adjusts the opening degree of the one-way feeding valve 110 according to the liquid level height detected by the liquid level sensor 4, thereby controlling the height of the syrup put into the storage box body 1 and ensuring that the floating body 203 is in a relatively stable sugar solution for measurement, arranging a spraying pipe 209 extending to the vicinity of the floating body 203 at the outer edge of the hoisting hole 10, arranging a spraying control valve 209a on the spraying pipe 209 outside the top end of the storage box body 1, electrically connecting the spraying control valve 209a with a central controller of the syrup data processing unit 3, controlling the opening or closing of the one-way feeding valve 110 by the central controller so that the syrup is fed into the storage box body 1 from the feeding pipe 11, guiding the syrup into the storage box body 1 by the feeding pipe 11, controlling the opening or closing of the one-way discharging valve 120 by the central controller when the brix measurement is needed, discharging the syrup in the storage box body 1 from the discharging pipe 12 so as to effectively prevent the influence of excessive precipitates on the measurement precision, controlling the opening or closing of the one-way spraying control valve 209a by the central controller, the storage box body 1 and the floating body 203 are washed through the spray pipe 209, and the next measurement of the brix can be carried out after the storage box body 1 and the floating body 203 are washed clean.

The principle of measuring the brix of the syrup is further explained by combining the figures 1, 2, 3 and 4 of the utility model, the floating body 203 is suspended in the storage box body 1 to be completely immersed in the syrup liquid, when no syrup liquid is in the box or the syrup liquid is not immersed in the floating body 203, the floating body 203 is in a static state, when the syrup liquid is completely immersed in the floating body 203, the buoyancy force borne by the floating body 203 is larger than the self gravity force and floats upwards, at the moment, the floating body 203 has the buoyancy force effect due to the fact that the floating body 203 is immersed in the syrup liquid and has the tendency of floating upwards, the force transmission connecting piece 202 slides upwards to touch the pressure sensor 201 on the top of the storage box body 1, the pressure of the floating body 203 upwards floats can be transmitted to the receiving end of the pressure sensor 201 on the top of the syrup box through the force transmission connecting piece 202, the pressure sensor 201 transmits a pressure signal to the central controller of the syrup data processing unit 3 matched with the pressure sensor, the central controller processes the pressure signal and sends the processed pressure signal to the liquid crystal display to directly display the pressure value measured by the pressure sensor 201, and the specific measurement process is as follows:

first, the liquid density values are obtained: the pressure (P) received by the pressure sensor 201 is equal to the buoyancy (F) of the floating ball minus the gravity (G) of the floating ball, and the buoyancy (F) of the floating ball is obtained through conversion, and according to the buoyancy formula F ═ ρ V and as shown in fig. 1, the density ρ of the liquid in the storage tank 1 is ═ F/V, wherein the buoyancy F ═ G + P, G is the gravity of the floating body 203 and the force transmission connecting piece 202, and P is the force received by the pressure sensor 201, that is, the following steps are performed: ρ ═ G + P)/V;

secondly, converting the syrup density value into a syrup brix value: for a manufactured floating body 203, the weight (G) of the floating body 203 and the volume (V) of the floating body 203 are known fixed values, the weight of the floating body 203 can be obtained by weighing, the volume of the floating body 203 can be calculated by measuring the external dimension, as can be seen from the formula F ═ G + P, as long as the pressure (P) measured by the pressure sensor 20 is obtained, the density (rho) of the syrup can be calculated, and the density (rho) of the syrup and the concentration (Bx) of the syrup in the sugar production are in proportional correlation according to the conversion calculation formula of the density rho and the brix, namely the higher the density of the syrup is, the higher the concentration of the syrup (also called the brix of the syrup) is.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications should also be construed as the protection scope of the present invention.

Claims (10)

1. The utility model provides a syrup brix measuring device, measuring device is including storage box, syrup data processing unit and syrup data acquisition unit, syrup data processing unit sets up in the storage box outside, syrup data acquisition unit is used for detecting the syrup brix parameter of the storage box internal storage, syrup data acquisition unit with syrup data processing unit electric connection, its characterized in that: the syrup data acquisition unit comprises a pressure sensor, a force transmission connecting piece and a floating body, wherein a lifting hole is formed in the top end of the storage box body, the force transmission connecting piece vertically penetrates through the lifting hole, the pressure sensor is arranged above the lifting hole, the upper end of the force transmission connecting piece is in transmission connection with the acquisition end of the pressure sensor, the lower end of the force transmission connecting piece vertically downwards extends into the storage box body along the lifting hole and is connected with the upper side of the floating body, and the lower side of the floating body is connected to the inner wall of the bottom of the storage box body in a sliding and hanging mode.

2. A syrup brix measuring device according to claim 1, wherein: the inner wall of the hoisting hole is in threaded connection with a blocking cover, the lower end of the force transmission connecting piece extends into the storage box body along the center of the blocking cover through the hoisting hole to be connected with the upper side of the floating body, and the upper end of the force transmission connecting piece slides upwards to penetrate through the blocking cover to be in transmission connection with the acquisition end of the pressure sensor.

3. A syrup brix measuring device according to claim 2, wherein: and a gantry mounting frame is vertically arranged along the peripheral edge of the blocking cover, the pressure sensor is fixed at the lower side of the top end of the gantry mounting frame, and the acquisition end of the pressure sensor is in transmission connection with the upper end of the force transmission connecting piece.

4. A syrup brix measuring device according to claim 1, wherein: the lower end of the force transmission connecting piece is connected to the lifting ring, the lower side of the floating body is connected to the top end of the supporting frame through a suspension connecting piece, and the length of the suspension connecting piece is 8-15 cm.

5. A syrup brix measurement device according to claim 4, wherein: the top center of the support frame is provided with a slide hole, a limiting piece is arranged below the slide hole, the size of the limiting piece is larger than the inner diameter of the slide hole, and the lower end of the suspension connecting piece penetrates through the slide hole to be connected with the limiting piece.

6. A syrup brix measuring device according to claim 1, 3 or 5, wherein: the floating body is a floating ball or a buoy.

7. A syrup brix measuring device according to claim 1, wherein: the side wall of the upper end of the storage box body is provided with a feeding pipe, the side wall of the lower end of the storage box body is provided with a discharging pipe, the feeding pipe is provided with a one-way feeding valve, the discharging pipe is provided with a one-way discharging valve, and the control end of the one-way feeding valve and the control end of the one-way discharging valve are respectively electrically connected with the syrup data processing unit.

8. A syrup brix measuring device according to claim 7, wherein: and a liquid level sensor is arranged in the storage box body and above the discharge pipe, and the liquid level signal output end of the liquid level sensor is connected with the syrup data processing unit.

9. A syrup brix measuring device according to claim 2, wherein: and a spraying pipe extending to the position near the floating body is arranged at the outer edge of the hoisting hole, a spraying control valve is arranged on the spraying pipe outside the top end of the storage box body, and the spraying control valve is electrically connected with the syrup data processing unit.

10. A syrup brix measuring device according to claim 1, 7, 8 or 9, wherein: the syrup data processing unit comprises a central controller and a liquid crystal display, wherein the display input end of the liquid crystal display, the control end of the one-way feeding valve and the control end of the one-way discharging valve are electrically connected with the central controller respectively.

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