Automatic metering and conveying linkage device for rice processing raw materials

By designing an automatic metering and conveying linkage device for rice processing raw materials, the problems of insufficient metering equipment accuracy and high energy consumption were solved, achieving accurate metering and automatic conveying, optimizing equipment layout, and improving production efficiency and energy conservation and emission reduction effects.

CN224449264UActive Publication Date: 2026-07-03SWEET FAYAN IND LTD CO OF GUANGDONG PROVINCE

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SWEET FAYAN IND LTD CO OF GUANGDONG PROVINCE
Filing Date
2025-07-24
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing rice processing equipment lacks automatic metering and linkage conveying functions. The metering equipment is not accurate enough, occupies a large area and consumes a lot of energy, making it difficult to meet the precise metering requirements of modern rice processing, and is not conducive to energy conservation, emission reduction and space optimization.

Method used

An automatic metering and conveying linkage device for rice processing raw materials was designed. The device achieves automatic quantitative conveying of raw materials through a motor-driven threaded rod and gear transmission. Combined with a weighing platform and conveyor belt, it realizes accurate metering and linkage conveying. It is equipped with an electric telescopic rod and a cleaning plate for cleaning and optimizes the equipment layout.

Benefits of technology

It enables precise metering and automatic conveying of raw materials, reduces equipment footprint and energy consumption, improves production efficiency and equipment automation, and supports enterprises in achieving energy conservation, emission reduction and space optimization.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a rice processing raw material automatic metering and conveying linkage device, including frame, the top fixed mounting of frame has the discharge box, the top fixed mounting of discharge box has the feed pipe, the both sides fixed mounting of discharge box top have first motor through support, the output fixed mounting of first motor has the second screw rod, the positive surface screw mounting of second screw rod has the second screw bush, the top fixed mounting of second screw bush has the material port baffle block through support. The utility model discloses the above technical scheme, has solved the existing rice processing and does not have the function of automatic metering and linkage conveying to raw material, and the measuring equipment has certain limitation in precision control aspect, is difficult to satisfy modern rice processing industry's demand for raw material accurate measurement, in addition, the measuring and conveying equipment of independent operation has increased equipment floor space and energy consumption, is not favorable for enterprise to realize the goal of energy saving and emission reduction and space optimization's problem.
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Description

Technical Field

[0001] This utility model relates to the field of rice processing technology, specifically to an automatic metering and conveying linkage device for rice processing raw materials. Background Technology

[0002] As people pay increasing attention to food safety and nutrition, rice processing technology is also developing towards green, environmentally friendly, and nutritionally fortified directions. For example, technologies such as low-temperature rice milling and moderate processing are used to retain the nutrients in rice; fortified rice is being developed by adding vitamins, minerals, and other nutrients to improve its nutritional value. Meanwhile, intelligent and automated processing equipment and production lines are increasingly being applied to the rice processing industry to improve production efficiency and product quality stability. However, existing rice processing equipment lacks the function of automatic metering and linked conveying of raw materials. Metering equipment has limitations in precision control, making it difficult to meet the modern rice processing industry's demand for accurate raw material metering. Furthermore, independently operating metering and conveying equipment increases equipment footprint and energy consumption, hindering enterprises from achieving energy conservation, emission reduction, and space optimization goals. Therefore, it is necessary to develop an automatic metering and conveying linkage device for rice processing raw materials that can achieve automatic metering and conveying linkage, improve metering accuracy and production efficiency, and reduce energy consumption. Utility Model Content

[0003] The purpose of this invention is to provide an automatic metering and conveying linkage device for rice processing raw materials, which has the advantages of automatic metering and conveying linkage.

[0004] To achieve the above objectives, this utility model provides the following technical solution: an automatic metering and conveying linkage device for rice processing raw materials, comprising a frame, a discharge box fixedly installed on the top of the frame, a feed pipe fixedly installed on the top of the discharge box, a first motor fixedly installed on both sides of the top of the discharge box via brackets, a second threaded rod fixedly installed on the output end of the first motor, a second threaded sleeve threadedly installed on the front surface of the second threaded rod, a feed port stop fixedly installed on the top of the second threaded sleeve via brackets, a weighing platform fixedly installed at the bottom of the inner cavity of the discharge box, a second motor fixedly installed on the left end of the front surface of the frame, a second gear fixedly installed on the output end of the second motor, a first gear meshing on the front surface of the second gear, and a conveyor belt connected to the inner surface of the first gear via a rotating shaft.

[0005] As a preferred embodiment, electric telescopic rods are fixedly installed on both sides of the outer surface of the frame, and a cleaning plate is fixedly installed on the output end of the electric telescopic rods via a bracket.

[0006] As a preferred embodiment, support columns are fixedly installed around the bottom of the frame, and anti-slip sleeves are fixedly installed at the bottom of the support columns.

[0007] As a preferred embodiment, guide grooves are provided on both sides of the top of the discharge box, and guide blocks are slidably installed in the inner cavity of the guide grooves. The top of the guide blocks is fixedly installed on the bottom of the second threaded sleeve.

[0008] As a preferred embodiment, a third motor is fixedly installed on both sides of the inner cavity of the discharge box, and a first threaded rod is fixedly installed on the output end of the third motor.

[0009] As a preferred embodiment, a first threaded sleeve is threaded onto the positive surface of the first threaded rod, and a push plate is fixedly mounted on one end of the first threaded sleeve that is close to the other end by a bracket.

[0010] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0011] This utility model solves the problems of existing rice processing equipment lacking automatic metering and linkage conveying functions, and metering equipment having certain limitations in precision control, making it difficult to meet the needs of the modern rice processing industry for accurate metering of raw materials. In addition, the independent operation of metering and conveying equipment increases the equipment's footprint and energy consumption, which is not conducive to enterprises achieving the goals of energy conservation, emission reduction and space optimization. Attached Figure Description

[0012] Figure 1 This is a schematic diagram of the structure of this utility model;

[0013] Figure 2 This is a partial structural cross-sectional view of the present invention;

[0014] Figure 3 This is an enlarged view of section A of this utility model;

[0015] Figure 4 This is a schematic diagram of the feed pipe structure in this utility model.

[0016] In the diagram: 1. Frame; 2. Electric telescopic rod; 3. Support column; 4. Conveyor belt; 5. Cleaning plate; 6. Discharge box; 7. First motor; 8. Feed pipe; 9. Second motor; 10. First gear; 11. Second gear; 12. Third motor; 13. First threaded sleeve; 14. First threaded rod; 15. Push plate; 16. Weighing platform; 17. Second threaded rod; 18. Second threaded sleeve; 19. Guide groove; 20. Guide block. Detailed Implementation

[0017] 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.

[0018] Secondly, the term "an embodiment" or "embodiment" as used herein refers to a specific feature, structure, or characteristic that may be included in at least one implementation of the present invention. The phrase "in one embodiment" appearing in different places in this specification does not necessarily refer to the same embodiment, nor is it a single or selective embodiment that excludes other embodiments.

[0019] Example 1:

[0020] Please see Figures 1-3 As shown, this utility model provides an automatic metering and conveying linkage device for rice processing raw materials, including a frame 1. A discharge box 6 is fixedly installed on the top of the frame 1. A feed pipe 8 is fixedly installed on the top of the discharge box 6. A first motor 7 is fixedly installed on both sides of the top of the discharge box 6 through brackets. A second threaded rod 17 is fixedly installed at the output end of the first motor 7. A second threaded sleeve 18 is threadedly installed on the front surface of the second threaded rod 17. A feed port stop is fixedly installed on the top of the second threaded sleeve 18 through a bracket. A weighing platform 16 is fixedly installed at the bottom of the inner cavity of the discharge box 6. A second motor 9 is fixedly installed on the left end of the front surface of the frame 1. A second gear 11 is fixedly installed at the output end of the second motor 9. A first gear 10 is meshed on the front surface of the second gear 11. A conveyor belt 4 is connected to the inner surface of the first gear 10 through a rotating shaft.

[0021] This technical solution addresses the shortcomings of existing rice processing equipment, which lacks the functions of automatic metering and coordinated conveying of raw materials. The metering equipment also has limitations in terms of precision control, making it difficult to meet the demand for accurate metering of raw materials in the modern rice processing industry. Furthermore, the independent operation of metering and conveying equipment increases the equipment's footprint and energy consumption, hindering enterprises from achieving their goals of energy conservation, emission reduction, and space optimization.

[0022] Example 2:

[0023] Based on Embodiment 1, this utility model is as follows: Figure 1 As shown, electric telescopic rods 2 are fixedly installed on both sides of the outer surface of the frame 1. The output end of the electric telescopic rod 2 is fixedly installed with a cleaning plate 5 through a bracket. Support columns 3 are fixedly installed around the bottom of the frame 1. Anti-slip sleeves are fixedly installed at the bottom of the support columns 3.

[0024] By adopting the above technical solution, the electric telescopic rod 2 and the cleaning plate 5 are used to achieve the effect of automatic cleaning of the conveyor belt 4, and the support column 3 and the anti-slip sleeve are used to achieve the effect of overall support.

[0025] Example 3:

[0026] This utility model is as follows Figures 2-4 As shown, guide grooves 19 are provided on both sides of the top of the discharge box 6. Guide blocks 20 are slidably installed in the inner cavity of the guide grooves 19. The top of the guide blocks 20 is fixedly installed on the bottom of the second threaded sleeve 18. A third motor 12 is fixedly installed on both sides of the inner cavity of the discharge box 6. A first threaded rod 14 is fixedly installed at the output end of the third motor 12. A first threaded sleeve 13 is threaded on the front surface of the first threaded rod 14. A push plate 15 is fixedly installed at one end of the first threaded sleeve 13 that is close to each other through a bracket.

[0027] By adopting the above technical solution, the third motor 12 is used to rotate the first threaded rod 14, the first threaded rod 14 is used to adjust the first threaded sleeve 13 back and forth, the first threaded sleeve 13 is used to adjust the push plate 15, the push plate 15 is used to discharge the raw materials in the counterweight 16, and the guide block 20 and guide groove 19 are used to limit the second threaded sleeve 18.

[0028] The working principle of this utility model is as follows: The first motor 7 is started to drive the second threaded rod 17 to rotate. The rotation of the second threaded rod 17 causes the second threaded sleeve 18 to move left and right through the guide groove 19 and guide block 20. The left and right movement of the second threaded sleeve 18 causes the material outlet stop block to move. The material outlet stop blocks are arranged in pairs, and their relative mirror motion causes the feed pipe 8 to open and close, achieving the effect of timed material discharge. The discharged material falls onto the top of the weighing platform 16. When the material reaches a specified value, the discharge stops. Then, the third motor 12 is started to drive the first threaded rod 14 to rotate. The first threaded rod 14 rotates, driving the first threaded sleeve 13 to adjust back and forth. The adjustment of the first threaded sleeve 13 drives the push plate 15 to adjust back and forth. The adjustment of the push plate 15 conveys the raw material to the top of the conveyor belt 4. Then, the second motor 9 is started to drive the second gear 11 to rotate. The rotation of the second gear 11 drives the first gear 10 to rotate. The rotation of the first gear 10 drives the conveyor belt 4 to work. After the conveying is completed, the electric telescopic rod 2 can be started to drive the cleaning plate 5 to move to the surface of the conveyor belt 4. Then, the cleaning plate 5 cleans the surface of the conveyor belt 4.

[0029] It is important to note that the constructions and arrangements of this application shown in several different exemplary embodiments are merely illustrative. Although only a few embodiments are described in detail in this disclosure, those who consult this disclosure will readily understand that many modifications are possible (e.g., changes in the size, dimensions, structure, shape and proportion of various elements, as well as parameter values ​​(e.g., temperature, pressure, etc.), mounting arrangements, use of materials, color, orientation, etc.) without substantially departing from the novel teachings and advantages of the subject matter described in this application). For example, an element shown as integrally formed may be composed of multiple parts or elements, the position of elements may be inverted or otherwise altered, and the nature or number or position of discrete elements may be changed or altered. Therefore, all such modifications are intended to be included within the scope of this utility model. The order or sequence of any process or method steps may be changed or reordered according to alternative embodiments. In the claims, any "device plus function" clause is intended to cover the structure described herein that performs the function, and not only structural equivalents but also equivalent structures. Without departing from the scope of this invention, other substitutions, modifications, alterations, and omissions may be made in the design, operation, and arrangement of the exemplary embodiments. Therefore, this invention is not limited to the specific embodiments, but extends to various modifications that still fall within the scope of the appended claims.

[0030] Furthermore, in order to provide a concise description of exemplary embodiments, not all features of actual embodiments (i.e., those features that are not relevant to the best mode of carrying out the present invention as currently considered, or those features that are not relevant to implementing the present invention) may be omitted.

[0031] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model, and are not intended to limit the scope of protection of this utility model. Although this utility model has been described in detail with reference to preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions can be made to the technical solutions of this utility model without departing from the essence and scope of the technical solutions of this utility model.

Claims

1. An automatic metering and conveying linkage device for rice processing raw materials, comprising a frame (1), characterized in that: A discharge box (6) is fixedly installed on the top of the frame (1), and a feed pipe (8) is fixedly installed on the top of the discharge box (6). A first motor (7) is fixedly installed on both sides of the top of the discharge box (6) via a bracket. A second threaded rod (17) is fixedly installed at the output end of the first motor (7). A second threaded sleeve (18) is threaded on the front surface of the second threaded rod (17). A material outlet block is fixedly installed on the top of the second threaded sleeve (18) via a bracket. A weighing platform (16) is fixedly installed at the bottom of the inner cavity of the discharge box (6). A second motor (9) is fixedly installed on the left end of the front surface of the frame (1). A second gear (11) is fixedly installed at the output end of the second motor (9). A first gear (10) is meshed on the front surface of the second gear (11). A conveyor belt (4) is connected to the inner surface of the first gear (10) via a rotating shaft.

2. The automatic metering and conveying linkage for rice processing raw materials according to claim 1, characterized in that: Electric telescopic rods (2) are fixedly installed on both sides of the outer surface of the frame (1), and a cleaning plate (5) is fixedly installed at the output end of the electric telescopic rod (2) through a bracket.

3. The automatic metering and conveying linkage for rice processing raw materials according to claim 1, characterized in that: Support columns (3) are fixedly installed around the bottom of the frame (1), and anti-slip sleeves are fixedly installed at the bottom of the support columns (3).

4. The automatic metering and conveying linkage for rice processing raw materials according to claim 1, characterized in that: The top of the discharge box (6) is provided with guide grooves (19) on both sides. A guide block (20) is slidably installed in the inner cavity of the guide groove (19). The top of the guide block (20) is fixedly installed on the bottom of the second threaded sleeve (18).

5. The automatic metering and conveying linkage for rice processing raw materials according to claim 1, characterized in that: The discharge box (6) has a third motor (12) fixedly installed on both sides of its inner cavity, and the output end of the third motor (12) has a first threaded rod (14) fixedly installed.

6. The automatic metering and conveying linkage device for rice processing raw materials according to claim 5, characterized in that: The first threaded rod (14) has a first threaded sleeve (13) threaded on its positive surface. The first threaded sleeve (13) has a push plate (15) fixedly installed at one end close to the other by a bracket.