Phenylglycine product centrifugal separation and drying integrated equipment

By designing an integrated centrifugal separation and drying device that includes a drying box, heating block, motor and screening frame, the problem of phenylglycine products being powdery and containing impurities during feeding was solved. This device achieves efficient impurity removal and heating drying, improves powder quality and reduces energy consumption.

CN224346077UActive Publication Date: 2026-06-12JIUJIANG ZHONGXING MEDICINE & CHEM CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIUJIANG ZHONGXING MEDICINE & CHEM CO LTD
Filing Date
2025-07-04
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

Existing phenylglycine products are powdery and contain impurities when fed into the centrifuge, making it difficult to improve powder quality. Furthermore, existing equipment cannot effectively remove impurities or perform efficient drying.

Method used

An integrated centrifugal separation and drying device was designed, comprising a drying box, a heating block, a motor, a rotating rod, a spring, and a damper. The motor drives the rotating rod to vibrate and heat the drying box, and the lateral reciprocating movement of the screening frame achieves impurity removal and powder heating and drying.

Benefits of technology

This method achieves efficient impurity removal and heating drying of phenylglycine powder, improving powder quality, increasing production efficiency, and reducing energy consumption.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to phenylglycine product processing technical field provides a kind of phenylglycine product centrifugal separation and drying integrated equipment, comprising: chassis, the outer surface top of the chassis near its periphery is uniformly connected with spring one, the outer surface top of the chassis near its periphery is uniformly connected with damper one, multiple the outer surface top of damper one is fixedly connected with drying box, the outer surface of the drying box is fixedly connected with heating block, the outer surface of the chassis is fixedly connected with motor, the utility model, when using, phenylglycine product is poured into the inside of screening frame, then it is started electric push rod by external power supply, electric push rod pushes and moves push block, push block pushes and moves screening frame in the inside of sliding slot two, under the cooperation of damper two and spring two at this time makes screening frame reciprocatingly move horizontally, to make screening frame realize screening.
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Description

Technical Field

[0001] This utility model relates to the field of phenylglycine product processing technology, and in particular to an integrated centrifugal separation and drying device for phenylglycine products. Background Technology

[0002] To meet the production process requirements of phenylglycine products, developing integrated centrifugal separation and drying equipment can significantly improve production efficiency, reduce energy consumption, and minimize product loss.

[0003] When existing phenylglycine products are fed into the centrifuge, they are in powder form and contain some impurities. In order to improve the quality of the powder, the impurities need to be removed before it enters the centrifuge for processing.

[0004] The above plan. Utility Model Content

[0005] To achieve the above objectives, the present invention adopts the following technical solution: an integrated centrifugal separation and drying device for phenylglycine products, comprising: a base frame, wherein springs are fixedly connected to the top of the outer surface of the base frame near its periphery, dampers are fixedly connected to the top of the outer surface of the base frame near its periphery, a drying box is fixedly connected to the top of the outer surface of multiple dampers, a heating block is fixedly connected to the outer surface of the drying box, a motor is fixedly connected to the outer surface of the base frame, a rotating rod is fixedly connected to the output end of the motor, and an elliptical block is fixedly connected to one end of the rotating rod, the elliptical block being located on the outer surface of the drying box.

[0006] The technical effect of adopting the above-mentioned further solution is as follows: the motor is started by an external power source, and the motor drives the rotating rod to rotate. At this time, the rotating rod rotates on the outer surface of the drying box. Under the limiting action of the bottom spring and damper, the drying box vibrates. At the same time, the heating block can heat the drying box. During the heating process, the vibration makes the heating effect of phenylglycine powder better.

[0007] In a preferred embodiment, the top of the outer surface of the drying box has two sliding grooves, and baffles are slidably connected inside the two sliding grooves. A support plate is fixedly connected to the outer surface of the base frame, and a centrifugal device is fixedly connected to the outer surface of the support plate. A discharge pipe is fixedly connected to the bottom of the outer surface of the centrifugal device.

[0008] The technical effect of adopting the above-mentioned further solution is that by rotating the one-way valve, the powdered material enters the interior of the drying box through the discharge pipe, and then the baffle is pushed to slide inside the slide groove to close the drying box.

[0009] In a preferred embodiment, a one-way valve is provided inside the discharge pipe, a support frame is fixedly connected to the top of the outer surface of the centrifugal device, an electric push rod is fixedly connected to the outer surface of the support frame, a push block is fixedly connected to one end of the electric push rod, a second sliding groove is provided on the top of the outer surface of the support frame, and a screening frame is slidably connected inside the second sliding groove.

[0010] The technical effect of adopting the above-mentioned further solution is that: the phenylglycine product is poured into the inside of the screening frame, and then the electric push rod is started by an external power source. The electric push rod pushes the push block to move, and at this time the push block pushes the screening frame to move inside the slide groove two.

[0011] In a preferred embodiment, two springs are fixedly connected to the outer surface of the support frame, and two dampers are fixedly connected to the outer surface of the support frame. A screening frame is fixedly connected to one end of each of the two dampers and the two springs, and the push block is located on the outer surface of the screening frame.

[0012] The technical effect of adopting the above-mentioned further solution is that, under the combined action of damper two and spring two, the screening box moves laterally back and forth, thereby enabling the screening box to perform screening.

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

[0014] 1. In use, the phenylglycine product is poured into the screening frame, and then the electric push rod is started by an external power source. The electric push rod pushes the push block to move. At this time, the push block pushes the screening frame to move inside the slide groove. Under the cooperation of the damper and the spring, the screening frame moves laterally back and forth, thereby enabling the screening frame to perform screening.

[0015] 2. In use, the motor is started by an external power source, and the motor drives the rotating rod to rotate. At this time, the rotating rod rotates on the outer surface of the drying box. Under the limiting action of the bottom spring and damper, the drying box vibrates. At the same time, the heating block can heat the drying box. The vibration during heating makes the phenylglycine powder heat up better. Attached Figure Description

[0016] Figure 1 This utility model provides a three-dimensional structural schematic diagram of an integrated centrifugal separation and drying device for phenylglycine products;

[0017] Figure 2 This utility model provides a side view of an integrated centrifugal separation and drying device for phenylglycine products.

[0018] Figure 3This utility model provides a schematic diagram of the structure of two dampers in an integrated centrifugal separation and drying device for phenylglycine products.

[0019] Figure 4 This utility model presents a schematic diagram of the discharge pipe of an integrated centrifugal separation and drying device for phenylglycine products.

[0020] Legend: 101. Base frame; 102. Spring 1; 103. Damper 1; 104. Drying box; 105. Motor; 106. Elliptical block; 107. Rotating rod; 108. Slide 1; 109. Baffle; 110. Support plate; 111. Centrifugal device; 112. Spring 2; 113. Damper 2; 114. Screening frame; 115. Support frame; 116. Slide 2; 117. Electric push rod; 118. Pushing block; 119. Heating block; 120. Discharge pipe; 121. One-way valve. Detailed Implementation

[0021] To better understand the above-mentioned objectives, features, and advantages of this utility model, the present utility model will be further described below with reference to the accompanying drawings and embodiments. It should be noted that, unless otherwise specified, the embodiments and features described in these embodiments can be combined with each other.

[0022] Many specific details are set forth in the following description in order to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Therefore, the present invention is not limited to the specific embodiments disclosed in the following specification.

[0023] Please see Figures 1 to 4 This utility model provides an integrated centrifugal separation and drying device for phenylglycine products, comprising: a base frame 101, with springs 102 fixedly connected to the top of the outer surface of the base frame 101 near its periphery, dampers 103 fixedly connected to the top of the outer surface of the base frame 101 near its periphery, a drying box 104 fixedly connected to the top of the outer surface of the multiple dampers 103, a heating block 119 fixedly connected to the outer surface of the drying box 104, a motor 105 fixedly connected to the outer surface of the base frame 101, and a rotor fixedly connected to the output end of the motor 105. The rotating rod 107 has an elliptical block 106 fixedly connected to one end. The elliptical block 106 is located on the outer surface of the drying box 104. The motor 105 is started by an external power source, and the motor 105 drives the rotating rod 107 to rotate. At this time, the rotating rod 107 rotates on the outer surface of the drying box 104. Under the limiting action of the bottom spring 102 and the damper 103, the drying box 104 vibrates. At the same time, the heating block 119 can heat the drying box 104. The vibration during heating makes the heating effect of phenylglycine powder better.

[0024] like Figures 1 to 4 As shown, two grooves 108 are formed on the top of the outer surface of the drying box 104. Baffles 109 are slidably connected inside the two grooves 108. A support plate 110 is fixedly connected to the outer surface of the base frame 101. A centrifugal device 111 is fixedly connected to the outer surface of the support plate 110. A discharge pipe 120 is fixedly connected to the bottom of the outer surface of the centrifugal device 111. By rotating the one-way valve 121, the powdered material enters the interior of the drying box 104 through the discharge pipe 120. Then, the baffles 109 are pushed to slide inside the grooves 108 to close the drying box 104.

[0025] like Figures 1 to 4 As shown, a one-way valve 121 is installed inside the discharge pipe 120. A support frame 115 is fixedly connected to the top of the outer surface of the centrifuge device 111. An electric push rod 117 is fixedly connected to the outer surface of the support frame 115. A push block 118 is fixedly connected to one end of the electric push rod 117. A second slide groove 116 is opened on the top of the outer surface of the support frame 115. A screening frame 114 is slidably connected inside the slide groove 116. Phenylglycine products are poured into the screening frame 114. Then, the electric push rod 117 is started by an external power source. The electric push rod 117 pushes the push block 118 to move. At this time, the push block 118 pushes the screening frame 114 to move inside the slide groove 116.

[0026] like Figures 1 to 4 As shown, two springs 112 are fixedly connected to the outer surface of the support frame 115, and two dampers 113 are fixedly connected to the outer surface of the support frame 115. A screening frame 114 is fixedly connected to one end of the two dampers 113 and the two springs 112. The push block 118 is located on the outer surface of the screening frame 114. Under the combined action of the dampers 113 and the springs 112, the screening frame 114 moves laterally back and forth, thereby enabling the screening frame 114 to perform screening.

[0027] Working principle: Phenylglycine product is poured into the screening frame 114. Then, the electric push rod 117 is activated by an external power source. The electric push rod 117 pushes the push block 118 to move. At this time, the push block 118 pushes the screening frame 114 to move inside the slide groove 116. Under the action of the damper 113 and the spring 112, the screening frame 114 moves laterally back and forth, thereby achieving screening. The screened phenylglycine powder enters the centrifuge 111 for centrifugation. Then, by rotating the one-way valve 121, the powder is further processed. The material enters the drying box 104 through the discharge pipe 120, and then pushes the baffle 109 to slide inside the slide groove 108, thus closing the drying box 104. At this time, the motor 105 is started by an external power source, and the motor 105 drives the rotating rod 107 to rotate. The rotating rod 107 rotates on the outer surface of the drying box 104. Under the limiting action of the bottom spring 102 and the damper 103, the drying box 104 vibrates. At the same time, the heating block 119 can heat the drying box 104. During heating, the vibration improves the heating effect of the phenylglycine powder.

[0028] The above are merely preferred embodiments of this utility model and are not intended to limit the utility model in any other way. Any person skilled in the art may make changes or modifications to the above-disclosed technical content to create equivalent embodiments for application in other fields. However, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of this utility model without departing from the technical solution of this utility model shall still fall within the protection scope of this utility model.

Claims

1. An integrated centrifugal separation and drying device for phenylglycine products, comprising: The base frame (101) is characterized in that springs (102) are fixedly connected to the top of the outer surface of the base frame (101) near its periphery, dampers (103) are fixedly connected to the top of the outer surface of the base frame (101) near its periphery, a drying box (104) is fixedly connected to the top of the outer surface of multiple dampers (103), a heating block (119) is fixedly connected to the outer surface of the drying box (104), a motor (105) is fixedly connected to the outer surface of the base frame (101), a rotating rod (107) is fixedly connected to the output end of the motor (105), an elliptical block (106) is fixedly connected to one end of the rotating rod (107), and the elliptical block (106) is located on the outer surface of the drying box (104).

2. The integrated centrifugal separation and drying equipment for phenylglycine products according to claim 1, characterized in that: The top of the outer surface of the drying box (104) has two grooves (108), and baffles (109) are slidably connected inside the two grooves (108).

3. The integrated centrifugal separation and drying equipment for phenylglycine products according to claim 2, characterized in that: A support plate (110) is fixedly connected to the outer surface of the base frame (101), a centrifugal device (111) is fixedly connected to the outer surface of the support plate (110), and a discharge pipe (120) is fixedly connected to the bottom of the outer surface of the centrifugal device (111).

4. The integrated centrifugal separation and drying equipment for phenylglycine products according to claim 3, characterized in that: The discharge pipe (120) is equipped with a one-way valve (121), and a support frame (115) is fixedly connected to the top of the outer surface of the centrifuge device (111). An electric push rod (117) is fixedly connected to the outer surface of the support frame (115).

5. The integrated centrifugal separation and drying equipment for phenylglycine products according to claim 4, characterized in that: One end of the electric push rod (117) is fixedly connected to a push block (118), and a second sliding groove (116) is provided on the top of the outer surface of the support frame (115). A screening frame (114) is slidably connected inside the second sliding groove (116).

6. The integrated centrifugal separation and drying equipment for phenylglycine products according to claim 5, characterized in that: Two springs (112) are fixedly connected to the outer surface of the support frame (115), and two dampers (113) are fixedly connected to the outer surface of the support frame (115).

7. The integrated centrifugal separation and drying equipment for phenylglycine products according to claim 6, characterized in that: A screening frame (114) is fixedly connected to one end of each of the two dampers (113) and the two springs (112).

8. The integrated centrifugal separation and drying equipment for phenylglycine products according to claim 7, characterized in that: The push block (118) is located on the outer surface of the filter box (114).