A mutton fat detection device

By designing a mutton fat detection device, which utilizes an auxiliary detection mechanism and a servo motor-driven rotating disk to achieve limited fixation and automatic feeding of mutton, the problem of slow mutton fat detection speed is solved, and the detection accuracy and efficiency are improved.

CN224341513UActive Publication Date: 2026-06-09HULUNBUIRXIN OASIS NATIONAL FOOD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HULUNBUIRXIN OASIS NATIONAL FOOD CO LTD
Filing Date
2025-07-25
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing technologies for detecting mutton fat are slow and time-consuming, resulting in low detection efficiency.

Method used

A mutton fat detection device was designed, which adopts an auxiliary detection mechanism and a rotating disk driven by a servo motor. A support plate and a placement plate are set on the support plate. Gravity and elastic elements are used to limit and fix the mutton. Two support plates are symmetrically arranged on the support plate to realize simultaneous detection and feeding. Automatic collection is realized by combining the feeding trough and the guide slide.

Benefits of technology

It improves the accuracy and efficiency of mutton fat detection, shortens the mutton loading and unloading time, and enhances the efficiency of large-scale mutton fat detection.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of mutton testing technology and discloses a mutton fat testing device. It includes an operating table, with a testing device body fixedly connected to one side of the top of the operating table. A rotating disk is rotatably connected to the middle of the top of the operating table, and a servo motor is fixedly connected to the middle of the bottom of the operating table. The output shaft of the servo motor passes through the inner wall of the operating table and is fixedly connected to the bottom of the rotating disk. A support plate is fixedly connected to the top of the rotating disk. Auxiliary testing mechanisms are provided at both ends of the support plate. The two sets of auxiliary testing mechanisms include support disks symmetrically hinged to the top of the end of the support plate furthest from the rotation center point. Because this utility model has two symmetrically arranged support disks on the top of the support plate, when one support disk is below the testing device body, the other support disk is located in the rectangular groove area. This achieves the purpose of testing another piece of mutton while it is being fed, improving the efficiency of testing large batches of mutton fat.
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Description

Technical Field

[0001] This utility model relates to the field of mutton detection technology, specifically to a mutton fat detection device. Background Technology

[0002] The fat content of mutton directly affects its taste and flavor. For example, lamb has the best tenderness and juiciness when its fat content is controlled at 12-18%. Current technology uses nuclear magnetic resonance (NMR) to detect mutton fat. Based on the difference in relaxation characteristics of hydrogen nuclei in fat, quantitative analysis of fat can be completed without destroying the sample. However, only one piece of mutton can be tested at a time, and the loading and unloading of mutton takes a lot of time. As a result, the current technology for detecting mutton fat is slow and time-consuming, thus reducing the efficiency of mutton fat detection. Utility Model Content

[0003] The purpose of this invention is to provide a mutton fat detection device to solve the problems mentioned in the background art.

[0004] To achieve the above objectives, this utility model provides a mutton fat detection device, including an operating table. A detection device body is fixedly connected to one side of the top of the operating table. A rotating disk is rotatably connected to the middle of the top of the operating table. A servo motor is fixedly connected to the middle of the bottom of the operating table. The output shaft of the servo motor passes through the inner wall of the operating table and is fixedly connected to the bottom of the rotating disk. A support plate is fixedly connected to the top of the rotating disk. Auxiliary detection mechanisms are provided at the top of both ends of the support plate.

[0005] As a further improvement to this technical solution, the two sets of auxiliary detection mechanisms include support plates symmetrically hinged to the top of the support plate at the end away from the rotation center point. Several columns are uniformly fixedly connected to the top of the two support plates. A placement plate is provided above the top of each of the two support plates. The two placement plates are slidably connected to the outer wall of the top of the multiple columns. Two elastic elements are symmetrically fixedly connected to the top of each of the two support plates at the end away from the hinge point. The top of the elastic elements is fixedly connected to the bottom of the placement plate. A first baffle is fixedly connected to the outer walls on both sides of the two placement plates.

[0006] Under the influence of gravity, the mutton pressing plate slides downwards along the outer wall of the top of multiple columns. When the tops of the columns extend beyond the surface of the plate, they limit and fix the mutton placed on the plate, preventing displacement of the mutton as the support plate rotates. This improves the accuracy of mutton fat detection. At the same time, two support plates are symmetrically set on the top of the support plate, allowing for the detection of another piece of mutton while it is being fed, thus improving the efficiency of detecting fat in large batches of mutton.

[0007] As a further improvement to this technical solution, two legs are symmetrically fixedly connected to the top of each end of the support plate, and the top of each of the multiple legs is in contact with the bottom of the support plate at the end away from the hinge point. A second baffle is fixedly connected to the top of the two support plates at the end away from the hinge point and on one side of the shelf, and the second baffle does not contact the shelf.

[0008] The support feet provide support when the support plate is placed flat, ensuring the stability of the mutton. The second baffle prevents the mutton from shifting due to centrifugal force while it is rotating on the surface of the plate, thus improving the stability of the placement.

[0009] As a further improvement to this technical solution, two material feeding grooves are symmetrically opened on the inner wall of the support plate near the rotation center point, a rectangular groove is opened on the top of the operating table and on the opposite side of the detection equipment body, and a guide slide is fixedly connected to the bottom of the operating table and below the rectangular groove.

[0010] Under the influence of its own weight, the mutton will slide down the surface of the placement plate towards the feeding trough, and finally slide out through the rectangular trough and the guide slide into the outer collection frame, thus facilitating the collection of the mutton after testing.

[0011] As a further improvement to this technical solution, an electric push rod is fixedly connected to the top of the operating table and to one side of the rectangular groove. A lifting block is fixedly connected to the extended end of the electric push rod. The top of the lifting block is designed with a slope, and the lifting block does not interfere with the movement of the support plate in the rotating state.

[0012] The extended end of the electric push rod, along with the lifting block, returns to its original position, causing the lifting block to separate from the support plate. Under the influence of the support plate's own weight, the support plate returns to its original position, making it easy to place new mutton to be tested using a robotic arm or manually.

[0013] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0014] In this mutton fat detection device, an auxiliary detection mechanism is set up. The mutton to be tested is placed on the surface of the placement plate. Under the action of gravity, the mutton presses down on the outer wall of the top of multiple columns and slides downward. When the top of multiple columns exceeds the surface of the placement plate, it plays a limiting and fixing role on the surface of the placement plate, preventing the mutton from being displaced when the support plate rotates with the support plate, thus improving the accuracy of mutton fat detection. At the same time, since two support plates are symmetrically set on the top of the support plate, when one support plate is located below the main body of the detection device, the other support plate is located in the rectangular groove area, which realizes the purpose of detecting another piece of mutton while the mutton is being fed. This not only shortens the mutton loading and unloading time, but also improves the efficiency of detecting mutton fat in large batches. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0016] Figure 2 This is a side view of the overall structure of the utility model;

[0017] Figure 3 This is a partial three-dimensional structural diagram of the relevant components at the support plate of the utility model;

[0018] Figure 4 This is a partial sectional view of the three-dimensional structure of the auxiliary testing mechanism components of the utility model.

[0019] The meanings of the labels in the diagram are as follows:

[0020] 1. Operating table; 2. Testing equipment body; 3. Rotary disk; 31. Servo motor; 32. Support plate; 4. Auxiliary testing mechanism; 41. Support plate; 42. Column; 43. Shelf; 44. Elastic element; 45. First baffle; 51. Support leg; 52. Second baffle; 61. Feed chute; 62. Rectangular chute; 63. Guide slide; 71. Electric push rod; 72. Lifting block. Detailed Implementation

[0021] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0022] In the description of this utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., indicating the orientation or positional relationship are based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing this utility model and simplifying the description, and are not intended to indicate or imply that the device or component referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model.

[0023] Example 1

[0024] Please see Figures 1-4As shown, this embodiment provides a mutton fat detection device, including an operating table 1. A detection device body 2 is fixedly connected to one side of the top of the operating table 1. A rotating disk 3 is rotatably connected to the middle of the top of the operating table 1. A servo motor 31 is fixedly connected to the middle of the bottom of the operating table 1. The output shaft of the servo motor 31 passes through the inner wall of the operating table 1 and is fixedly connected to the bottom of the rotating disk 3. A support plate 32 is fixedly connected to the top of the rotating disk 3. By using the output shaft of the servo motor 31 to rotate the rotating disk 3 and the support plate 32 on the top of the operating table 1, the mutton can be rotated to a position below the detection device body 2 for fat detection. The support plate 32 has two... Each end is equipped with an auxiliary detection mechanism 4. The two sets of auxiliary detection mechanisms 4 include a support plate 41 symmetrically hinged to the top of the support plate 32 at the end away from the rotation center point. Several columns 42 are uniformly fixedly connected to the top of the two support plates 41. A shelf 43 is provided above the top of each of the two support plates 41. The two shelf 43 are slidably connected to the outer wall of the top of the multiple columns 42. Two elastic elements 44 are symmetrically fixedly connected to the top of each of the two support plates 41 at the end away from the hinge point. The top of the elastic elements 44 is fixedly connected to the bottom of the shelf 43. A first baffle 45 is fixedly connected to the outer wall on both sides of the two shelf 43.

[0025] In the initial state, the placement plate 43 is located above the multiple columns 42. By placing the mutton to be tested on the surface of the placement plate 43, gravity causes the mutton to press down on the placement plate 43, causing the placement plate 43 to slide downwards on the outer wall of the top of the multiple columns 42. At the same time, it presses down on the elastic element 44, which is composed of a spring, a limiting element, and a shell. When the top of the multiple columns 42 extends beyond the surface of the placement plate 43, it limits and fixes the mutton placed on the surface of the placement plate 43, preventing the mutton from shifting when the support plate 41 rotates with the support plate 32. At the same time, the first baffle 45 limits the mutton placed on the surface of the placement plate 43, ensuring that the mutton is placed stably. Furthermore, when the support plate 41 contacts the lifting block 72, the support plate 41 will be lifted and flipped, causing the mutton to slide off the surface of the placement plate 43. This results in uneven force on the surface of the placement plate 43. Through the elastic element 44, the spring rebound characteristic allows the placement plate 43 to return to its original position above the multiple columns 42, ensuring that the mutton slides off smoothly. Since two support plates 41 are symmetrically arranged on the top of the support plate 32, when one end of the support plate 41 is below the detection equipment body 2, the other end of the support plate 41 is located in the rectangular groove 62 area. This achieves the purpose of detecting another piece of mutton while the mutton is being fed, which not only shortens the mutton loading and unloading time but also improves the efficiency of detecting fat in large batches of mutton.

[0026] Two support legs 51 are symmetrically fixedly connected to the top of both ends of the support plate 32. The top of the multiple support legs 51 are in contact with the bottom of the support plate 41 away from the hinge point. By setting the support legs 51, the support plate 41 is supported in the flat state, ensuring that the mutton is placed stably. The top of the two support plates 41 away from the hinge point and located on one side of the placement plate 43 is fixedly connected to a second baffle 52. The second baffle 52 does not contact the placement plate 43. The second baffle 52 is used to prevent the mutton from shifting due to centrifugal force when it is placed on the surface of the placement plate 43 and rotated, thereby improving the placement stability and facilitating accurate test results.

[0027] Two symmetrical feeding troughs 61 are opened on the inner wall of the support plate 32 near the rotation center point. A rectangular trough 62 is opened on the top of the operating table 1 and opposite the detection equipment body 2. A guide slide 63 is fixedly connected to the bottom of the operating table 1 and below the rectangular trough 62. The servo motor 31 drives the rotating disk 3 and the support plate 32 to rotate, so that the mutton support plate 41, which is loaded with mutton detected by the detection equipment body 2, rotates to the rectangular trough 62 area. At this time, the feeding trough 61 is located directly above the rectangular trough 62. When the support plate 41 and the placement plate 43 flip towards the feeding trough 61, under the action of the mutton's own weight, it slides down the surface of the placement plate 43 towards the feeding trough 61 and finally slides out through the rectangular trough 62 and the guide slide 63 into the external collection frame, which facilitates the collection of the detected mutton.

[0028] An electric push rod 71 is fixedly connected to the top of the operating table 1 and to one side of the rectangular groove 62. A lifting block 72 is fixedly connected to the extended end of the electric push rod 71. The top of the lifting block 72 is designed with a slope to prevent motion interference with the support plate 32 in the rotating state. A mutton support plate 41, which is detected by the detection equipment body 2, is installed. When the mutton support plate 41 rotates to the area of ​​the rectangular groove 62, the electric push rod 71 is pre-activated by the program, so that the extended end of the electric push rod 71 carries the lifting block 72 to a higher height. As the support plate 32 rotates, the support plate 41 gradually approaches the lifting block 72, causing the support plate 41 to move away from the hinge point. The curved sidewall contacts the surface of the lifting block 72. As the support plate 32 continues to rotate, the support plate 41 slides on the inclined surface of the lifting block 72. By sliding from the low point to the high point of the inclined surface of the lifting block 72, the end of the support plate 41 away from the hinge point is raised, so that the surface of the support plate 41 and the placement plate 43 are in an inclined state, which facilitates the mutton to slide down. Then, the extended end of the electric push rod 71 takes the lifting block 72 back to its original position, so that the lifting block 72 and the support plate 41 are separated. Under the action of the weight of the support plate 41 itself, the support plate 41 is reset, which makes it easy to place new mutton to be tested by a robotic arm or manually.

[0029] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely preferred examples and are not intended to limit the utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A mutton fat detection device, comprising an operating table (1), characterized in that: The top side of the operating table (1) is fixedly connected to the detection equipment body (2), the top middle of the operating table (1) is rotatably connected to the rotating disk (3), the bottom middle of the operating table (1) is fixedly connected to the servo motor (31), the output shaft end of the servo motor (31) passes through the inner wall of the operating table (1) and is fixedly connected to the bottom of the rotating disk (3), the top of the rotating disk (3) is fixedly connected to the support plate (32), and the top of both ends of the support plate (32) are provided with auxiliary detection mechanisms (4).

2. The mutton fat detection device according to claim 1, characterized in that: The two sets of auxiliary detection mechanisms (4) include support plates (41) symmetrically hinged to the top of the support plate (32) at the end away from the rotation center point. Several columns (42) are uniformly fixedly connected to the top of the two support plates (41). A shelf (43) is provided above the top of the two support plates (41). The two shelf (43) are slidably connected to the outer wall of the top of the multiple columns (42). Two elastic elements (44) are symmetrically fixedly connected to the top of the two support plates (41) at the end away from the hinge point. The top of the elastic element (44) is fixedly connected to the bottom of the shelf (43). A first baffle (45) is fixedly connected to the outer walls on both sides of the two shelf (43).

3. The mutton fat detection device according to claim 2, characterized in that: The support plate (32) has two symmetrically fixed feet (51) at both ends, and the tops of the multiple feet (51) are in contact with the bottom of the support plate (41) away from the hinge point.

4. The mutton fat detection device according to claim 2, characterized in that: The two support plates (41) are fixedly connected to a second baffle (52) at the top of the end away from the hinge point and on the side of the shelf (43). The second baffle (52) does not contact the shelf (43).

5. The mutton fat detection device according to claim 1, characterized in that: The support plate (32) has two symmetrical feeding grooves (61) on the inner wall near the rotation center point. The top of the operating table (1) and the opposite side of the detection equipment body (2) have a rectangular groove (62). The bottom of the operating table (1) and below the rectangular groove (62) are fixedly connected to a guide slide (63).

6. The mutton fat detection device according to claim 5, characterized in that: An electric push rod (71) is fixedly connected to the top of the operating table (1) and to one side of the rectangular groove (62), and a lifting block (72) is fixedly connected to the extended end of the electric push rod (71).

7. The mutton fat detection device according to claim 6, characterized in that: The top of the lifting block (72) is designed with a slope, and the lifting block (72) does not interfere with the movement of the support plate (32) in the rotating state.