A honey raw material pretreatment device

By designing a flipping mechanism and a dilution mechanism in the honey raw material pretreatment device, efficient dilution of honey and preservation of its nutritional value are achieved, making it easier to pour out the honey and solving the problems of low dilution efficiency and loss of nutritional value in existing devices.

CN224462599UActive Publication Date: 2026-07-07XINJIANG JIKANG BEE IND TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XINJIANG JIKANG BEE IND TECH CO LTD
Filing Date
2025-06-26
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing honey dilution devices have low dilution efficiency, the nutritional value of honey is easily damaged near the heating element, and the diluted honey is not easy to remove.

Method used

A honey raw material pretreatment device was designed, which includes a frame, a heating furnace, a vessel body, a tilting mechanism, and a dilution mechanism. The device achieves uniform dilution by driving the liquid inlet pipe to rotate and scraping the inner wall of the vessel body with a scraper, and the tilting mechanism facilitates the pouring out of the honey.

Benefits of technology

It improves the efficiency of honey dilution, protects the nutritional value of honey, and makes the diluted honey easier to remove from the device.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224462599U_ABST
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Abstract

The utility model belongs to the pretreatment device technical field, concretely relates to a honey raw material pretreatment device, including frame, the surface fixed mounting of frame has heating furnace, the upper end of heating furnace contacts has cauldron body, be provided with turnover mechanism on the frame, the upper end middle part fixed mounting of frame has motor, the output of motor penetrates frame and is connected with frame rotation, be provided with dilution mechanism on the output of motor, be provided with apron on dilution mechanism, apron and cauldron body contact. The scheme passes through spring elasticity effect, and then makes the slide plate drive the support axle to go up, makes cauldron body motor drive transmission shaft drive gear rotation, and then makes the gear disc drive cauldron body rotation, can make cauldron body overturn, and then makes the honey in cauldron body convenient to pour out.
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Description

Technical Field

[0001] This solution belongs to the technical field of pretreatment devices, specifically relating to a honey raw material pretreatment device. Background Technology

[0002] Utility model patent CN217221167U discloses a heating, dilution, and blending device for raw materials before brewing mead and fruit wine. The device includes an outer casing with a stirring chamber inside. An electric heating element and molten iron are located between the outer casing and the stirring chamber. A motor is located at the bottom of the stirring chamber and is mounted on the inner side of the bottom of the outer casing via a sealed mounting base. The motor's output shaft is connected to a rotating shaft, a stirring support, and a scraper. An inlet is fixedly located at the top of the stirring chamber. A support column and a water tank are fixedly located to the left of the inlet at the upper left corner of the outer casing. An outlet and a flow valve are fixedly located at the lower right corner of the water tank. An outlet is fixedly located at the lower right corner of the stirring chamber, extending through the bottom of the outer casing, and is equipped with a butterfly valve. An operating platform is fixedly located in the middle of the left side of the outer casing. The advantages of this utility model compared to existing technologies are: it provides a heating, dilution, and blending device for raw materials before brewing mead and fruit wine with a double-layered structure that significantly improves heating efficiency and allows for uniform dilution and blending with water.

[0003] However, the device has some shortcomings. When in use, the honey dilution efficiency is low. Also, the honey near the heating element is prone to having its nutritional value destroyed by high temperature. In addition, the diluted honey is not easy to remove from the device. Utility Model Content

[0004] The purpose of this solution is to provide a honey raw material pretreatment device to solve the problems of low honey dilution efficiency, honey near the heating element being easily damaged by high temperature, and the difficulty in removing diluted honey from the device.

[0005] To achieve the above objectives, this solution provides a honey raw material pretreatment device, including a frame, a heating furnace fixedly mounted on the surface of the frame, a vessel body contacting the upper end of the heating furnace, a tilting mechanism provided on the frame, a motor fixedly mounted in the middle of the upper end of the frame, the output end of the motor passing through the frame and rotatably connected to the frame, a dilution mechanism provided on the output end of the motor, a cover plate provided on the dilution mechanism, and the cover plate contacting the vessel body.

[0006] The principle of this solution is as follows: During use, honey is introduced into the vessel. The cylinder is activated, driving the cylinder rod to extend. The cylinder rod moves the sliding pin, which in turn moves the turntable. The turntable moves the sliding tube, which in turn moves the perforated tube. This causes the scraper to move into the vessel and contact the inner wall. Simultaneously, the cover plate contacts the vessel, causing it to move downwards. This moves the support shaft, causing the sliding plate to press the spring. The vessel then moves downwards and contacts the heating furnace. The motor is then activated, driving the inlet pipe to rotate. The inlet pipe moves the sliding tube, which in turn moves the perforated tube. This causes the scraper to scrape against the inner wall of the vessel. Through electrical... The machine drives the inlet pipe to rotate, and the water pump introduces water into the inlet pipe, allowing the perforated pipe to evenly stir and distribute water into the honey inside the pot, making the honey dilution more efficient and complete. The scraper scrapes against the inner wall of the pot to prevent the honey from being heated too high and damaging its nutritional value. After processing, the cylinder drives the cylinder rod to reset, which separates the scraper from the pot. Through the elasticity of the spring, the slide plate moves the support shaft upward, which drives the transmission shaft of the pot to rotate the gear, which in turn drives the gear plate to rotate the pot, allowing the pot to flip over and making it easier to pour out the honey inside.

[0007] The technical effect of this solution is that, through the elastic action of the spring, the sliding plate moves the support shaft upward, which in turn causes the electric motor in the vessel to drive the transmission shaft to rotate the gear, which in turn causes the gear plate to rotate the vessel, allowing the vessel to flip over and making it easier to pour out the honey inside the vessel.

[0008] The motor drives the inlet pipe to rotate, and the water pump introduces water into the inlet pipe, allowing the perforated pipe to evenly stir and distribute water into the honey inside the pot, making the honey dilution more efficient and complete. In addition, the scraper scrapes against the inner wall of the pot to prevent the honey on the pot wall from being heated to an excessively high temperature, which would damage the nutritional value of the honey.

[0009] Furthermore, the flipping mechanism includes a sliding plate, which is slidably connected inside the frame. A support shaft is mounted inside the sliding plate via bearings. The support shaft is fixedly connected to the vessel body. A gear plate is fixedly connected to the outer side of the support shaft. A guide rod is fixedly connected inside the frame and slidably connected to the sliding plate. A spring is provided on the outer side of the guide rod. A motor is fixedly mounted at the left end of the sliding plate. The motor's shaft passes through the sliding plate and is rotatably connected to it. A transmission shaft is fixedly connected to the end of the motor's shaft and is rotatably connected to the sliding plate. Through the elastic action of the spring, the sliding plate drives the support shaft to move upward, causing the motor in the vessel body to drive the transmission shaft to rotate the gear, which in turn causes the gear plate to rotate the vessel body, thus flipping the vessel body and making it easier to pour out the honey inside.

[0010] Furthermore, one end of the spring is fixedly connected to the frame, and the other end of the spring is fixedly connected to the slide plate. The spring design facilitates the slide plate's return to its original position.

[0011] Furthermore, a gear is fixedly connected to the outer side of the drive shaft, and the gear meshes with the gear disk. By setting the gear, the gear disk can be easily rotated.

[0012] Furthermore, the dilution mechanism includes an inlet pipe, with the inlet pipe fixedly connected to the lower end of the motor output. An annular groove is formed on the outer side of the inlet pipe. A water pump is fixedly installed at the upper end of the frame and to the left of the motor. The inlet pipe of the water pump passes through the frame and is fixedly connected to the frame. The inlet pipe of the water pump is slidably connected to the annular groove. A sliding tube is slidably connected to the outer side of the inlet pipe. The sliding tube is fixedly connected to a cover plate. A turntable is fixedly connected to the outer side of the sliding tube. A cylinder is fixedly installed at the upper end of the frame and to the right of the motor. The cylinder rod of the cylinder passes through the frame and is slidably connected to the frame. A perforated tube is fixedly connected inside the sliding tube. A scraper is fixedly connected to the end of the perforated tube. The scraper is slidably connected to the auxiliary vessel body. The motor drives the inlet pipe to rotate, and the water pump introduces water into the inlet pipe, allowing the perforated pipe to evenly stir and distribute water into the honey inside the pot, making the honey dilution more efficient and complete. In addition, the scraper scrapes against the inner wall of the pot to prevent the honey on the pot wall from being heated to an excessively high temperature, which would damage the nutritional value of the honey.

[0013] Furthermore, a baffle is fixedly connected to the outside of the water pump's inlet pipe, and the baffle is rotatably connected to the water pump's inlet pipe. The baffle seals the annular groove.

[0014] Furthermore, a sliding pin is fixedly connected to the surface of the cylinder rod, and the sliding pin is slidably connected to the turntable. The movement of the turntable is controlled by the sliding pin. Attached Figure Description

[0015] Figure 1 This is a perspective view of the overall structure of a honey raw material pretreatment device according to an embodiment of the present invention;

[0016] Figure 2 This invention provides a honey raw material pretreatment device according to an embodiment of the present invention. Figure 1 A three-dimensional view of the local structure;

[0017] Figure 3 This invention provides a honey raw material pretreatment device according to an embodiment of the present invention. Figure 1 A three-dimensional view of a partial structure of the central liquid inlet pipe;

[0018] Figure 4 This invention provides a honey raw material pretreatment device according to an embodiment of the present invention. Figure 1 A cross-sectional view of the vessel body.

[0019] The following detailed explanation illustrates the specific implementation methods:

[0020] The reference numerals in the accompanying drawings of the instruction manual include: 1. Frame; 2. Heating furnace; 3. Kettle body; 4. Tilting mechanism; 5. Motor; 6. Dilution mechanism; 7. Cover plate; 41. Slide plate; 42. Support shaft; 43. Gear plate; 44. Guide rod; 45. Spring; 46. Motor; 47. Drive shaft; 48. Gear; 61. Liquid inlet pipe; 62. Annular groove; 63. Water pump; 64. Baffle; 65. Slide tube; 66. Turntable; 67. Cylinder; 68. Sliding pin; 69. Hollow tube; 610. Scraper. Detailed Implementation

[0021] The implementation examples are basically as follows Figure 1 As shown, this embodiment provides a honey raw material pretreatment device, including a frame 1, a heating furnace 2 fixedly installed on the surface of the frame 1, a pot body 3 in contact with the upper end of the heating furnace 2, a flipping mechanism 4 provided on the frame 1, a motor 5 fixedly installed in the middle of the upper end of the frame 1, the output end of the motor 5 passing through the frame 1 and rotatably connected to the frame 1, a dilution mechanism 6 provided on the output end of the motor 5, a cover plate 7 provided on the dilution mechanism 6, and the cover plate 7 in contact with the pot body 3.

[0022] like Figure 1 , Figure 2 As shown, the tilting mechanism 4 includes a slide plate 41. The slide plate 41 is slidably connected inside the frame 1. A support shaft 42 is mounted inside the slide plate 41 via bearings. The support shaft 42 is fixedly connected to the vessel body 3. A gear plate 43 is fixedly connected to the outside of the support shaft 42. A guide rod 44 is fixedly connected inside the frame 1. The guide rod 44 is slidably connected to the slide plate 41. A spring 45 is provided on the outside of the guide rod 44. One end of the spring 45 is fixedly connected to the frame 1, and the other end of the spring 45 is fixedly connected to the slide plate 41. By providing the spring 45, the slide plate 41 can be easily reset. A motor 46 is fixedly mounted on the left end of the slide plate 41. The rotating shaft of motor 46 passes through the slide plate 41 and is rotatably connected to the slide plate 41. The end of the rotating shaft of motor 46 is fixedly connected to the transmission shaft 47, which is rotatably connected to the slide plate 41. A gear 48 is fixedly connected to the outside of the transmission shaft 47. The gear 48 meshes with the gear disk 43. By setting the gear 48, the gear disk 43 can be easily rotated. Through the elastic action of the spring 45, the slide plate 41 drives the support shaft 42 to move upward, so that the motor 46 of the pot body 3 drives the transmission shaft 47 to drive the gear 48 to rotate, which in turn causes the gear disk 43 to drive the pot body 3 to rotate, which can make the pot body 3 flip over, thus making it easier to pour out the honey in the pot body 3.

[0023] like Figure 1 , Figure 3 , Figure 4As shown, the dilution mechanism 6 includes an inlet pipe 61. The lower end of the output end of the motor 5 is fixedly connected to the inlet pipe 61. An annular groove 62 is provided on the outer side of the inlet pipe 61. A water pump 63 is fixedly installed on the upper end of the frame 1 and to the left of the motor 5. The inlet pipe of the water pump 63 passes through the frame 1 and is fixedly connected to the frame 1. The inlet pipe of the water pump 63 is slidably connected to the annular groove 62. A baffle 64 is fixedly connected to the outer side of the inlet pipe of the water pump 63. The baffle 64 and the inlet pipe of the water pump 63 are rotatably connected. By setting the baffle 64, the annular groove 62 is closed. A slide tube 65 is slidably connected to the outer side of the inlet pipe 61. The slide tube 65 is fixedly connected to the cover plate 7. A turntable 66 is fixedly connected to the outer side of the slide tube 65. A cylinder is fixedly installed on the upper end of the frame 1 and to the right of the motor 5. 67. The cylinder rod of cylinder 67 passes through frame 1 and is slidably connected to frame 1. A sliding pin 68 is fixedly connected to the surface of the cylinder rod of cylinder 67. The sliding pin 68 is slidably connected to turntable 66. The movement of turntable 66 is controlled by setting the sliding pin 68. A hollow tube 69 is fixedly connected inside the slide tube 65. A scraper 610 is fixedly connected to the end of the hollow tube 69. The scraper 610 is slidably connected to the auxiliary vessel 3. The inlet pipe 61 is driven to rotate by motor 5. Water pump 63 enters water into the inlet pipe 61, so that the hollow tube 69 can evenly stir and distribute water into the honey in the vessel 3, making the honey dilution more efficient and complete. The scraper 610 scrapes against the inner wall of the vessel 3 to prevent the honey at the vessel wall from being heated to an excessively high temperature, which would damage the nutritional value of the honey.

[0024] The specific implementation process of this utility model is as follows: In use, honey is introduced into the pot body 3. The cylinder 67 is activated, driving the cylinder rod to extend. The cylinder rod moves the sliding pin 68, which in turn moves the turntable 66. The turntable 66 moves the sliding tube 65, which in turn moves the perforated tube 69. This causes the scraper 610 to move into the pot body 3 and contact the inner wall of the pot body 3. Simultaneously, the cover plate 7 contacts the pot body 3, causing the pot body 3 to move downwards. This causes the support shaft 42 to move, causing the sliding plate 41 to move and squeeze the spring 45. The pot body 3 then moves downwards and contacts the heating furnace 2. Then, the motor 5 is activated, driving the inlet pipe 61 to rotate. The inlet pipe 61 moves the sliding tube 65, which in turn moves the perforated tube 69. This causes the scraper 610 to contact the pot body 3. The inner wall is scraped, and the motor 5 drives the liquid inlet pipe 61 to rotate. The water pump 63 introduces water into the liquid inlet pipe 61, so that the perforated pipe 69 can evenly stir and distribute water into the honey in the pot body 3, making the honey dilution more efficient and complete. The scraper 610 scrapes the inner wall of the pot body 3 to prevent the honey at the pot wall from being heated to an excessively high temperature, which would damage the nutritional value of the honey. After processing, the cylinder 67 drives the cylinder rod to reset, thereby separating the scraper 610 from the pot body 3. Through the elastic action of the spring 45, the slide plate 41 drives the support shaft 42 to move upward, so that the motor 46 of the pot body 3 drives the transmission shaft 47 to drive the gear 48 to rotate, which in turn drives the gear plate 43 to rotate the pot body 3, which can make the pot body 3 flip over, making it easier to pour out the honey in the pot body 3.

[0025] The elastic action of the spring 45 causes the slide plate 41 to move the support shaft 42 upward, which in turn causes the motor 46 of the vessel 3 to drive the transmission shaft 47 to rotate the gear 48, which in turn causes the gear plate 43 to rotate the vessel 3, allowing the vessel 3 to flip over, thus making it easier to pour out the honey inside the vessel 3.

[0026] The motor 5 drives the inlet pipe 61 to rotate, and the water pump 63 introduces water into the inlet pipe 61, so that the perforated pipe 69 can evenly stir and distribute water into the honey in the pot 3, making the honey dilution more efficient and complete. In addition, the scraper 610 scrapes the inner wall of the pot 3 to prevent the honey on the pot wall from being heated to an excessively high temperature, which would damage the nutritional value of the honey.

[0027] The above descriptions are merely embodiments of this utility model, and common knowledge regarding specific structures and characteristics is not elaborated upon here. It should be noted that those skilled in the art can make various modifications and improvements without departing from the structure of this utility model, and these should also be considered within the scope of protection of this utility model. These modifications will not affect the effectiveness of the implementation of this utility model or the practicality of the patent. The scope of protection claimed in this application shall be determined by the content of its claims, and the specific embodiments described in the specification can be used to interpret the content of the claims.

Claims

1. A honey raw material pretreatment device, comprising a frame, characterized in that: A heating furnace is fixedly installed on the surface of the frame, and the upper end of the heating furnace contacts the vessel body. A flipping mechanism is provided on the frame, and a motor is fixedly installed in the middle of the upper end of the frame. The output end of the motor passes through the frame and is rotatably connected to the frame. A dilution mechanism is provided on the output end of the motor, and a cover plate is provided on the dilution mechanism. The cover plate contacts the vessel body.

2. The honey raw material pretreatment device according to claim 1, characterized in that: The flipping mechanism includes a slide plate, which is slidably connected inside the frame. A support shaft is mounted inside the slide plate via a bearing. The support shaft is fixedly connected to the vessel body. A gear plate is fixedly connected to the outside of the support shaft. A guide rod is fixedly connected inside the frame. The guide rod is slidably connected to the slide plate. A spring is provided on the outside of the guide rod. A motor is fixedly mounted at the left end of the slide plate. The rotating shaft of the motor passes through the slide plate and is rotatably connected to it. A transmission shaft is fixedly connected to the end of the rotating shaft of the motor. The transmission shaft is rotatably connected to the slide plate.

3. The honey raw material pretreatment device according to claim 2, characterized in that: One end of the spring is fixedly connected to the frame, and the other end of the spring is fixedly connected to the slide plate.

4. The honey raw material pretreatment device according to claim 2, characterized in that: A gear is fixedly connected to the outside of the drive shaft, and the gear meshes with the gear disc.

5. The honey raw material pretreatment device according to claim 1, characterized in that: The dilution mechanism includes an inlet pipe. The lower end of the motor output is fixedly connected to the inlet pipe. An annular groove is formed on the outer side of the inlet pipe. A water pump is fixedly installed at the upper end of the frame and at the left end of the motor. The water pump inlet pipe passes through the frame and is fixedly connected to the frame. The water pump inlet pipe is slidably connected to the annular groove. A slide tube is slidably connected to the outer side of the inlet pipe. The slide tube is fixedly connected to a cover plate. A turntable is fixedly connected to the outer side of the slide tube. A cylinder is fixedly installed at the upper end of the frame and at the right side of the motor. The cylinder rod passes through the frame and is slidably connected to the frame. A perforated tube is fixedly connected inside the slide tube. A scraper is fixedly connected to the end of the perforated tube. The scraper is slidably connected to the auxiliary vessel body.

6. The honey raw material pretreatment device according to claim 5, characterized in that: A baffle is fixedly connected to the outside of the water inlet pipe of the water pump, and the baffle is rotatably connected to the water inlet pipe of the water pump.

7. A honey raw material pretreatment device according to claim 5, characterized in that: A sliding pin is fixedly connected to the surface of the cylinder rod of the cylinder, and the sliding pin is slidably connected to the turntable.