CN214252143U - Ultrasonic monitor based on advanced food materials - Google Patents

Abstract

The utility model relates to an eat material detection's technical field, disclose an ultrasonic monitor based on senior edible material, include: the top of the probe is provided with a high-frequency linear array probe; the holder, the holder activity is located the lateral wall of one side of probe, the holder includes grip block and connecting rod, the one end of connecting rod connect in the grip block, the other end slidable of connecting rod is located the lateral wall of probe, the connecting rod is along the perpendicular to the direction slip of high frequency linear array probe. The utility model discloses ultrasonic monitor based on senior edible material that technical scheme provided, when carrying out the searchlighting of meat quality condition, more accurate, difficult judgement mistake.

Description

Ultrasonic monitor based on advanced food materials

Technical Field

The utility model discloses a relate to eat the technical field that the material detected, particularly, relate to an ultrasonic monitor based on senior edible material.

Background

The food materials are used as raw materials required for cooking, and people can know the quality of the food materials through the external conditions of the food materials when purchasing the food materials, but for the food materials which cannot be judged on the surface, such as Chinese mitten crabs, lobsters and the like, the size of the food materials can be observed, but the meat quality of the food materials cannot be known specifically.

At present, the food materials such as hairy crabs and lobsters provided on the market are difficult to obtain through the surface, the meat quality is very easy to be obtained in a large body, the meat quality is often only a small part, and the food materials cannot be judged by purchasers, so that the quality of the food materials which cannot be judged on the surface cannot be ensured.

In this way, the simpler method is to directly observe the meat quality and the meat thickness of the food materials which cannot be surface-judged by sampling, but the specific conditions of the meat quality and the meat thickness of each food material still cannot be known, and many conditions are easy to judge wrongly.

When the meat quality condition of the food material is detected by adopting ultrasonic, the food material is required to be taken up manually for judgment, but when the judgment is carried out, the judgment condition is easily influenced by the hand holding the food material, the food material and non-food material cannot be analyzed, so that the judgment is difficult, and the judgment error is easy.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an ultrasonic monitor based on senior edible material aims at solving prior art, when adopting the meat quality condition of ultrasonic detection edible material, holds the problem that the hand of edible material influences the judgement condition easily.

The utility model discloses a realize like this, an ultrasonic monitor based on senior edible material, include:

the top of the probe is provided with a high-frequency linear array probe;

the holder, the holder activity is located the lateral wall of one side of probe, the holder includes grip block and connecting rod, the one end of connecting rod connect in the grip block, the other end slidable of connecting rod is located the lateral wall of probe, the connecting rod is along the perpendicular to the direction slip of high frequency linear array probe.

Optionally, the clamping plate is arranged opposite to the probe.

Optionally, the probe includes a handheld portion and a probe portion that are connected to each other, the high-frequency linear array probe is disposed on a surface of the probe portion away from the rear side portion, and the handheld portion is used for holding by hand.

Optionally, the end of the handheld portion, which is connected to the probe portion, protrudes to form an abutting portion, the surface of the abutting portion is in a concave arc surface shape, and the abutting portion is located on the side wall of the other side of the probe.

Optionally, the handheld portion is provided with a plurality of strip-shaped grooves arranged in parallel, and the strip-shaped grooves are used for fingers to be put in.

Optionally, a control button is arranged on the probe and used for controlling the sliding of the connecting rod.

Optionally, the control key is disposed on the abutting portion.

Optionally, a control panel and a driving cylinder are arranged in the probe, the control panel is electrically connected with the driving cylinder and the control key, and an output shaft of the driving cylinder is connected to the other end of the connecting rod.

Optionally, the control key includes an uplink key and a downlink key, the uplink key and the downlink key are sequentially arranged along a direction from the probe portion to the handheld portion, and the uplink key and the downlink key are respectively electrically connected to the control panel.

Optionally, a side wall of the probe is provided with a sliding hole, the sliding hole is arranged along a direction perpendicular to the high-frequency linear array probe in an extending manner, and the sliding hole extends from the handheld portion to the probe portion.

Compared with the prior art, the utility model provides an ultrasonic monitor based on senior edible material is through the position of adjusting this connecting rod to eat the material centre gripping between grip block and high frequency linear array probe, avoid eating the material and drop, and what and the thickness of the meat of eating the material calculate, compare in the mode that needs carry out meat condition searchlighting through handheld, the utility model provides an ultrasonic monitor based on senior edible material removes the influence of other structures except eating the material, when carrying out searchlighting of meat condition, and is more accurate, difficult for judging the mistake. The problem of among the prior art, when adopting the meat quality condition of supersound survey edible material, the hand of holding edible material influences the judgement condition easily is solved.

Drawings

FIG. 1 is a schematic structural diagram of an advanced food material based ultrasonic monitor provided by the present invention;

FIG. 2 is a schematic diagram of the scope of the high-level food material based ultrasonic monitor provided by the present invention;

fig. 3 is a schematic diagram of the internal structure of the ultrasonic monitor based on advanced food materials provided by the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there are the terms "upper", "lower", "left", "right", etc. indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and those skilled in the art can understand the specific meanings of the terms according to specific situations.

Referring to fig. 1 to 3, the preferred embodiment of the present invention is shown.

The embodiment of the utility model provides an in, this ultrasonic monitor based on senior edible material, include:

the probe 10, the top of the probe 10 is provided with a high-frequency linear array probe 121;

the lateral wall of one side of probe 10 is located in the holder, holder activity, and the holder includes grip block 20 and connecting rod 21, and the one end of connecting rod 21 is connected in grip block 20, and the lateral wall of probe 10 is located to the other end slidable of connecting rod 21, and connecting rod 21 slides along the direction of perpendicular to high frequency linear array probe 121.

It should be noted that the bottom of the probe 10 is connected to a host computer through a connecting wire, the host computer has a display screen, and the display screen is used for displaying an image probed by the high-frequency linear array probe 121; the main control board is arranged in the main machine and is electrically connected with the display screen, the main control board analyzes the meat quality and the thickness according to the image displayed by the display screen, and the meat quality and the thickness are displayed on the display screen. The main control board is composed of units such as a transmitting circuit, a receiving circuit and a detector, specifically, when the main control board works, the transmitting circuit converts current into pulse current to the control board in the probe 10 through high-frequency oscillation, then the pulse current is converted into ultrasonic waves to be transmitted out by utilizing the piezoelectric effect of a wafer in the high-frequency linear array probe 121, meanwhile, the wafer of the high-frequency linear array probe 121 can also receive the transmitted ultrasonic waves and convert the ultrasonic waves into electric signals, the electric signals are received by the receiving circuit of the main control board in the host, the signals are detected and amplified by the detector, and sound images appear on the display screen of the host through signal scanning processing.

Moreover, the probe 10 is a high-frequency linear array probe 121, the wafers in the probe 10 are arranged in a one-dimensional manner in a linear direction, and the surface of the wafer is generally flat, so that the subsequent calculation of the meat quality and the thickness is easier compared with the phased array probe 10 and the convex array probe 10.

In this embodiment, through adjusting the position of this connecting rod 21 to eat the material centre gripping between grip block 20 and high frequency linear array probe 121, avoid eating the material and drop, and what and the thickness calculation of the meat quality of eating the material compares in the mode that needs carry out meat quality condition searchlighting through handheld, the utility model provides an ultrasonic monitor based on senior edible material removes the influence of other structures except eating the material, when carrying out searchlighting of meat quality condition, and is more accurate, difficult judgement mistake.

Referring to fig. 1 to 3, in an embodiment of the present invention, the clamping plate 20 is disposed opposite to the probe 10.

Like this, can regard as the fender position through this grip block 20, avoid the ultrasonic wave to pierce through, and then can avoid the influence that non-edible material caused, conveniently carry out the detection of meat quality condition. Thus, the utility model provides a grip block 20 is the metal sheet promptly, and it can be for materials such as copper or silver, does not describe in detail.

Of course, in another embodiment, the clamping plate 20 may not be disposed opposite to the probe 10, i.e. only for clamping, and will not be described in detail.

Referring to fig. 1, in an embodiment of the present invention, the probe 10 includes a hand-held portion 11 and a probe portion 12 that are connected to each other, the high-frequency linear array probe 121 is disposed on a surface of the probe portion 12 away from the rear side portion, and the hand-held portion 11 is used for holding by hand.

Therefore, the probe 10 can be held by the hand-held part 11 for searchlighting, which is more convenient.

The end of the hand-held part 11 connected to the probe part 12 is protruded with an abutting part 13, the surface of the abutting part 13 is concave with an arc surface, and the abutting part 13 is positioned on the other side wall of the probe 10.

When the hand-held portion 11 is used for holding the hand, the thumb can abut against the abutting portion 13 for use, which is convenient. It should be noted that the surface of the abutting part 13 and the surface of the hand-held part 11 and the surface of the probe part 12 are rounded to ensure the smooth surface of the whole ultrasonic diagnosis and not scratch the patient during the diagnostic use.

Furthermore, the hand-held portion 11 is provided with a plurality of strip-shaped grooves 111 arranged in parallel, the strip-shaped grooves 111 being used for fingers to be inserted.

Thus, when the hand-held part 11 of the machine body is held by a single hand, the holding is more stable through the plurality of strip-shaped grooves 111. Specifically, the strip groove 111 extends from one surface of the body to one side of the body, and further extends to the other surface of the body, so that when the user actually holds the device, the thumb can abut against the abutting portion 13 on the other side of the body, so as to stabilize the holding.

Referring to fig. 1 to 3, in an embodiment of the present invention, a control button 14 is disposed on the probe 10, and the control button 14 is used for controlling the sliding of the connecting rod 21.

The control key 14 can further adjust the clamping plate 20, so that the clamping plate can be operated by one hand and is convenient to use. Of course, in another embodiment, the position of the connecting rod 21 can be adjusted manually, which is not described in detail.

In this embodiment, the control button 14 is a roller, the roller is partially exposed out of the side wall of the probe 10, the roller is rotatably disposed in the probe 10, the roller is provided with a driving gear 141 rotating concentrically, the other end of the connecting rod 21 is connected with a driven rack 22, the driven gear is movably disposed in the probe 10, the probe 10 is further provided with a gear set 15, and the driving gear 141, the gear set 15 and the driven rack 22 are sequentially connected in a transmission manner.

Specifically, in this embodiment, the gear set 15 has two gears engaged with each other, one of the gears is engaged with the driving gear 141, the other gear is engaged with the driven rack 22, and the gears and the driving gear 141 are rotatably disposed on the inner wall of the probe 10, so that the position of the driven rack 22 can be adjusted by rotating the roller, and the position of the clamping plate 20 can be changed to achieve adjustment.

Moreover, two sides of the inner wall of the probe 10 are respectively provided with a guide chute 10b extending along the direction from the high-frequency linear array probe 121 to the clamping plate 20, two sides of the driven rack 22 are respectively provided with a guide sliding strip 221, and the guide sliding strip 221 on each side is slidably embedded in one guide chute 10 b.

The guide strip 221 is engaged with the guide groove 10b to ensure the moving direction of the connecting rod 21, thereby stably moving the clamping plate 20.

In addition, the upper and lower ends of the driven rack 22 are provided with limit protrusions 222, and the limit protrusions 222 are arranged toward the gear set 15.

The two limiting protrusions 222 can limit the moving position of the clamping plate 20, and avoid damage caused by excessive movement.

Further, in an embodiment of the present invention, a friction increasing structure is disposed on the roller.

The friction force during rolling can be increased through the friction increasing structure, and manual adjustment is facilitated.

In one embodiment, the friction increasing structure is a plurality of grooves arranged at intervals, and the grooves are arranged at intervals around the periphery of the roller to increase friction. In another embodiment, a rubber sleeve can be sleeved on the outer periphery of the roller to increase friction.

In another embodiment, the probe 10 is provided with a control board and a driving cylinder, the control board is electrically connected to the driving cylinder and the control button 14, and an output shaft of the driving cylinder is connected to the other end of the connecting rod 21.

In this way, the driving of the connecting rod 21 and thus the adjustment of the position of the clamping plate 20 is achieved directly by means of electrical control.

Specifically, the control keys 14 include an uplink key and a downlink key, which are sequentially arranged along the direction from the probe portion 12 to the handheld portion 11, and the uplink key and the downlink key are respectively electrically connected to the control board.

Adjustment is achieved by moving the clamping plate 20 away from the probe 10 by the up button and by moving the clamping plate 20 closer to the probe 10 by the down button.

In an embodiment of the present invention, the control key 14 is disposed on the abutting portion 13.

Thus, when holding the hand-held portion 11 by hand, and the thumb abuts against the abutting portion 13, the control member can be controlled by the thumb, so that the operation and control are facilitated.

And, one side wall of the probe 10 has a slide hole 10a, the slide hole 10a is arranged to extend perpendicularly to the high-frequency line probe 121, and the slide hole 10a extends from the hand-held portion 11 to the probe portion 12.

The connecting rod 21 moves along the slide hole 10a to adjust the position.

Referring to fig. 2, in an embodiment of the present invention, when analyzing and calculating the meat quality and thickness, the method includes:

obtaining a searchlighting range of the probe 10 according to the image displayed by the display screen, and calculating the searchlighting area of the searchlighting range;

dividing an image displayed by a display screen into a white area and a black area, taking the white area as a meat quality area, and obtaining the quantity of meat quality according to the proportion of the white area in the searchlight area;

the ratio of the meat quality is displayed on a display screen.

Namely, after the display screen displays images, the main control panel can measure and calculate immediately and display the images so as to know the meat quality through digitization.

It should be noted that, due to the existence of the clamping plate 20, the irradiation range of the probe 10 is actually the region between the high-frequency linear array probe 121 and the clamping plate 20, and the displayed white region is white or close to white due to the blocking of the meat quality, while the black region is black or close to black due to no meat quality, so that the meat quality of the irradiated portion of the food material can be known by the ratio of the irradiation area occupied by the white region, so as to intuitively know the meat quality.

Calculating the distance between the high-frequency linear array probe 121 and the clamping plate 20 as the thickness of the food material, calculating the length of each white area as the display thickness according to the direction from the high-frequency linear array probe 121 to the clamping plate 20, and calculating the thickness of the meat according to the display thickness and the thickness of the food material;

the thickness of the flesh is displayed on the side of each corresponding white area on the display screen.

According to the thickness ratio of the display thickness to the searchlight range, and then according to the actual food material thickness, the actual thickness of the meat can be obtained by combining the ratio, as the meat is possibly scattered, the hidden white area is used as a meat area, and the thickness of the meat is marked on the corresponding white area, so that the actual thickness of the meat can be intuitively obtained.

In this embodiment, according to an image displayed on the display screen, a white area is defined as a gray level of less than 25%, and a black area is defined as a gray level of not less than 25%.

Because the image displayed in the searchlighting range is not pure black or pure white, the embodiment takes 25% as a boundary, the calculation is convenient, and the meat quality condition obtained through the range is more accurate.

In addition, the host is wirelessly connected to the cloud, after the meat quality condition is obtained through analysis and calculation, the meat quality condition can be sent to the cloud on the host, and the data is integrated through the cloud so as to analyze the quality of the batch of food materials.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. An advanced food material based ultrasonic monitor, comprising:

the top of the probe is provided with a high-frequency linear array probe;

the holder, the holder activity is located the lateral wall of one side of probe, the holder includes grip block and connecting rod, the one end of connecting rod connect in the grip block, the other end slidable of connecting rod is located the lateral wall of probe, the connecting rod is along the perpendicular to the direction slip of high frequency linear array probe.

2. An advanced food material based ultrasonic monitor according to claim 1, wherein the clamping plate is arranged opposite to the probe.

3. An advanced food material based ultrasonic monitor according to claim 1 or 2, wherein the probe comprises a hand-held part and a probe part which are connected with each other, the high-frequency linear array probe is arranged on the surface of the probe part far away from the back side part, and the hand-held part is used for being held by hands.

4. An ultrasonic monitor based on advanced food materials as claimed in claim 3, wherein the end of the hand-held part connected to the probe part is projected with an abutting part, the surface of the abutting part is concave with an arc surface, and the abutting part is located on the side wall of the other side of the probe.

5. An ultrasonic monitor based on advanced food materials according to claim 3, characterized in that the hand-held part is provided with a plurality of strip-shaped grooves arranged in parallel, the strip-shaped grooves are used for fingers to put in.

6. An ultrasonic monitor based on advanced food materials according to claim 4, characterized in that the probe is provided with a control button for controlling the sliding of the connecting rod.

7. An advanced food material based ultrasonic monitor as claimed in claim 6, wherein the control button is provided on the abutting portion.

8. An ultrasonic monitor based on advanced food materials as claimed in claim 6, wherein the probe is provided with a control board, a driving cylinder, the control board is electrically connected with the driving cylinder and a control button, and the output shaft of the driving cylinder is connected to the other end of the connecting rod.

9. An advanced food material based ultrasonic monitor as claimed in claim 8, wherein the control keys comprise an up key and a down key, the up key and the down key are arranged in sequence along the direction from the probe part to the hand-held part, and the up key and the down key are respectively electrically connected with the control panel.

10. An advanced food material based ultrasonic monitor according to claim 3, wherein one side wall of the probe is provided with a sliding hole, the sliding hole is arranged along the extension perpendicular to the linear array probe, and the sliding hole extends from the hand-held part to the probe part.

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