Dehydrator for processing edible fungi

By combining a handheld dehydration drum with an electric blower, rapid dehydration and automatic cleaning of edible fungi are achieved, solving the problems of low installation efficiency and difficult cleaning of traditional dehydrators, and improving dehydration and cleaning efficiency.

CN224402842UActive Publication Date: 2026-06-26BEIQISHEN GRP DAXINGANLING XINLIN GREEN IND CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
BEIQISHEN GRP DAXINGANLING XINLIN GREEN IND CO LTD
Filing Date
2025-06-26
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Traditional edible mushroom dehydrators have low dehydration cylinder installation efficiency and are difficult to clean and maintain the inner wall of the machine casing.

Method used

It uses a handheld spin dryer and an electric heating blower, combining centrifugal rotation and hot air drying. The spin dryer can be quickly installed via a handle and locking rod, and a cleaning strip is set on the E-shaped frame to achieve automatic cleaning.

Benefits of technology

It improves dehydration efficiency, simplifies the installation and disassembly process of the dehydration drum, and reduces the maintenance and cleaning work of the inner wall of the machine casing.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224402842U_ABST
    Figure CN224402842U_ABST
Patent Text Reader

Abstract

The application discloses a kind of edible fungi processing dehydrator, belong to the technical field of dehydrator.It includes shell, the shell upper end is rotatably connected with end cover, and the shell is rotatably connected with two electric cylinders between end cover, the end cover is fixedly installed with electric heating type air blower equipment by bolt, the shell is installed with rotating mechanism, for centrifugal type rotation installation dehydration cylinder, the dehydration cylinder is rotated at high speed in shell, so that the moisture of edible fungi inside dehydration cylinder is thrown out by centrifugal, cooperate the air blowing of electric heating type air blower equipment and can quickly realize the dehydration of edible fungi and utilize hot air blow dry purpose, dehydration cylinder can be hand-held lifting handle along drive rod insertion installation shell, only need to use lock rod locking drive rod and lifting handle, dismounting is convenient, dehydration efficiency is greatly improved, and dehydration cylinder is rotatably arranged on the three E-shaped frames along circumference, and each is equipped with cleaning strip, can realize automatic cleaning effect to shell inner wall, reduce the maintenance cleaning work of shell inner wall.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This application relates to the field of dehydrator technology, and more specifically, to a dehydrator for processing edible fungi. Background Technology

[0002] Dehydration processing of edible fungi is used to remove water from the fungi, causing denaturation or inactivation of the cell protoplasm, preventing further decomposition and metabolism, and increasing the concentration of soluble substances to a level that microorganisms and storage pests cannot utilize, thus enabling long-term storage of edible fungi products. Dehydration machines are typically used for this process. However, traditional dehydration machines require numerous bolts to secure the dehydration cylinders inside the machine casing, resulting in low installation efficiency. Furthermore, stubborn water stains adhere to the inner wall of the machine casing during dehydration, necessitating regular maintenance and cleaning. Therefore, we propose a dehydration machine for edible fungi processing. Utility Model Content

[0003] 1. Technical problems to be solved

[0004] The purpose of this application is to provide a dehydrator for edible fungi processing, which solves the technical problems mentioned in the background art. The dehydrator achieves high-speed rotation of the dehydration cylinder inside the machine casing, causing the water in the edible fungi inside the dehydration cylinder to be centrifugally ejected. Combined with the blowing of an electric heating blower, the edible fungi can be quickly dehydrated and dried with hot air. The dehydration cylinder can be inserted into the machine casing by hand along the drive rod. It can be easily disassembled and assembled by simply locking the drive rod and the handle with a locking rod, which greatly improves the dehydration efficiency. In addition, the three E-shaped frames fixed around the circumference of the dehydration cylinder are equipped with cleaning strips, which can achieve an automatic cleaning effect on the inner wall of the machine casing, reducing the technical effect of maintenance and cleaning of the inner wall of the machine casing.

[0005] 2. Technical Solution

[0006] This application provides a dehydrator for edible fungi processing, comprising: a housing, an end cover rotatably hinged to the upper end of the housing, and two electric cylinders rotatably connected between the housing and the end cover, an electric heating blower fixedly mounted on the end cover by bolts, and a rotating mechanism mounted on the housing for centrifugally rotating the dehydration cylinder;

[0007] The rotating mechanism includes a motor, which is fixedly mounted on the bottom of the machine casing. The output end of the motor is connected to a drive rod. A cross-shaped frame is fixedly mounted inside the upper end of the dehydration cylinder. A handle is fixedly mounted on the cross-shaped frame. The cross-shaped frame is movably sleeved on the outside of the drive rod. A locking rod is threadedly connected between the handle and the drive rod. Three E-shaped frames are fixedly mounted on the circumference of the dehydration cylinder. A cleaning strip is fixedly mounted on each E-shaped frame. The cleaning strip is attached to the inner wall of the machine casing.

[0008] By adopting the above technical solution, when using this dehydrator, edible fungi can be added into the dehydration cylinder. The dehydration cylinder is inserted into the machine housing by moving along the drive rod using the hand handle. Then, the drive rod is threadedly fixed to the handle using a locking rod, and the end cover is closed using an electric cylinder. The electric heating blower can blow air into the machine housing, so that the motor can drive the dehydration cylinder to rotate inside the machine housing through the drive rod. This causes the edible fungi in the dehydration cylinder to lose water through centrifugal rotation. Combined with the blowing of the electric heating blower, the edible fungi can be quickly dehydrated and dried with hot air. The dehydration cylinder is very easy to install and disassemble, reducing the disassembly and assembly time and greatly improving the dehydration efficiency. In addition, the three E-shaped frames fixed around the circumference of the dehydration cylinder are equipped with cleaning strips, which can realize the automatic cleaning function of the inner wall of the machine housing, reducing the maintenance and cleaning work of the inner wall of the machine housing.

[0009] Optionally, four support seats are fixedly provided along the circumference at the bottom of the housing, the bottom surface of the housing is inclined, and a drain outlet is provided at the bottom of the housing.

[0010] By adopting the above technical solution, the machine casing can be stably placed on the ground through four support seats. The water thrown out by the edible fungi flows from the bottom slope of the machine casing to the drain outlet and is discharged from the drain outlet.

[0011] Optionally, the end cap is provided with a circular opening, and the electric heating blower is fixedly installed at the circular opening by bolts.

[0012] By adopting the above technical solution, the electric heating blower can be fixedly installed at the circular opening of the end cover using bolts. The electric heating blower blows air into the machine casing, which can dry the edible fungi in the dehydration cylinder.

[0013] Optionally, a dust filter disc and a grid disc are fixedly installed on the housing of the electric heating blower from the inside out by screws.

[0014] By adopting the above technical solution, the electric heating blower equipment can prevent debris and dust from entering the machine casing by installing dust filter discs and grille discs. By regularly replacing the grille discs and maintaining the electric heating blower equipment, the air entering the machine casing can be kept dust-free.

[0015] Optionally, a hexagonal connector is fixedly provided at the upper end of the drive rod, and a through hole is provided on the hexagonal connector for installing the locking rod.

[0016] By adopting the above technical solution, a locking rod is threaded between the hexagonal connector at the upper end of the drive rod and the handle, so that the drive rod can drive the dehydration cylinder to rotate through the handle and the cross-shaped frame.

[0017] Optionally, a tray is fixedly mounted on the drive rod, and four positioning blocks are fixedly mounted on the tray along its circumference. A bottom ring is fixedly sleeved at the bottom end of the dewatering cylinder, and four positioning grooves matching the positioning blocks are provided along the circumference of the bottom ring.

[0018] By adopting the above technical solution, the dewatering cylinder is inserted into the machine housing along the drive rod, and the positioning block of the tray is engaged in the positioning groove of the corresponding bottom ring. Thus, the bottom ring is supported by the tray, and the positioning block can assist in driving the dewatering cylinder to rotate.

[0019] Optionally, the dehydration cylinder is provided with water-permeable holes evenly distributed along its circumference.

[0020] By adopting the above technical solution, the dehydration cylinder forms a hollow cylindrical structure by setting water-permeable holes. When the dehydration cylinder rotates at high speed, the edible fungi inside can be centrifuged and shaken out the water.

[0021] 3. Beneficial effects

[0022] One or more technical solutions provided in this application have at least the following technical effects or advantages: The dehydrator rotates at high speed inside the casing, causing the water in the edible fungi inside the dehydrator to be centrifugally ejected. Combined with the blowing of an electric heating blower, the edible fungi can be quickly dehydrated and dried with hot air. The dehydrator can be inserted into the casing by hand along the drive rod. Only the drive rod and the handle need to be locked with a locking rod, making disassembly and assembly convenient and greatly improving the dehydration efficiency. In addition, the three E-shaped frames fixed around the circumference of the dehydrator are equipped with cleaning strips, which can achieve automatic cleaning of the inner wall of the casing, reducing the maintenance and cleaning work of the inner wall of the casing. Attached Figure Description

[0023] Figure 1 This is a schematic diagram of the overall structure of a dehydrator for edible fungi processing disclosed in a preferred embodiment of this application;

[0024] Figure 2 This application discloses a preferred embodiment of a dehydrator for edible fungi processing, including a cross-sectional view of the casing and an exploded view of an electric heating blower.

[0025] Figure 3 This is a schematic diagram of the rotating mechanism of a dehydrator for edible fungi processing disclosed in a preferred embodiment of this application;

[0026] Figure 4 This is a schematic diagram of the dehydration cylinder structure of a dehydrator for edible fungi processing disclosed in a preferred embodiment of this application;

[0027] The following are the labels in the diagram: 1. Casing; 11. Support base; 12. Drain outlet; 2. Electric cylinder; 3. End cover; 31. Circular opening; 4. Electric heating blower; 41. Dust filter disc; 42. Grille disc; 5. Rotating mechanism; 51. Motor; 52. Drive rod; 521. Hexagonal connector; 53. Tray; 531. Positioning block; 6. Dehydration cylinder; 61. Bottom ring; 611. Positioning groove; 62. Water permeable hole; 63. Cross-shaped frame; 64. Handle; 65. Locking rod; 66. E-shaped frame; 661. Cleaning strip. Detailed Implementation

[0028] The present application will be further described in detail below with reference to the accompanying drawings.

[0029] Reference Figures 1 to 4 This application provides a dehydrator for edible fungi processing, comprising: a housing 1, an end cover 3 rotatably hinged to the upper end of the housing 1, and two electric cylinders 2 rotatably connected between the housing 1 and the end cover 3, an electric heating blower 4 fixedly mounted on the end cover 3 by bolts, and a rotating mechanism 5 mounted on the housing 1 for centrifugally rotating the dehydration cylinder 6.

[0030] The rotating mechanism 5 includes a motor 51, which is fixedly mounted at the bottom of the housing 1. The output end of the motor 51 is connected to a drive rod 52. A cross-shaped frame 63 is fixedly mounted inside the upper end of the dehydration cylinder 6, and a handle 64 is fixedly mounted on the cross-shaped frame 63. The cross-shaped frame 63 is movably sleeved on the outside of the drive rod 52, and a locking rod 65 is threadedly connected between the handle 64 and the drive rod 52. Three E-shaped frames 66 are fixedly mounted around the circumference of the dehydration cylinder 6, and cleaning strips 661 are fixedly mounted on each E-shaped frame 66. The cleaning strips 661 are attached to the inner wall of the housing 1. When using the dehydrator, edible fungi can be added into the dehydration cylinder 6. By holding the handle 64, the dehydration cylinder 6 is inserted into the housing 1 along the drive rod 52, and then used. The locking rod 65 threadedly fixes the drive rod 52 to the handle 64, and the electric cylinder 2 closes the end cover 3. The electric heating blower 4 can blow air into the housing 1, so the motor 51 can drive the dehydration cylinder 6 to rotate inside the housing 1 through the drive rod 52. This causes the edible fungi in the dehydration cylinder 6 to lose water through centrifugal rotation. Combined with the blowing of the electric heating blower 4, the edible fungi can be quickly dehydrated and dried with hot air. The dehydration cylinder 6 is very easy to install and disassemble, reducing the disassembly and assembly time and greatly improving the dehydration efficiency. In addition, the three E-shaped frames 66 fixed around the circumference of the dehydration cylinder 6 are equipped with cleaning strips 661, which can realize the automatic cleaning function of the inner wall of the housing 1, reducing the maintenance and cleaning work of the inner wall of the housing 1.

[0031] Reference Figure 2 and Figure 3The bottom of the casing 1 is fixed with four support seats 11 along the circumference. The bottom surface of the casing 1 is set with an incline. The casing 1 is provided with a drain outlet 12 at the bottom. The casing 1 can be placed stably on the ground through the four support seats 11. The water thrown out by the edible fungi flows from the bottom incline of the casing 1 to the drain outlet 12 and is discharged from the drain outlet 12.

[0032] Reference Figure 2 and Figure 3 The end cap 3 is provided with a circular opening 31. The electric heating blower 4 is fixedly installed at the circular opening 31 by bolts. The electric heating blower 4 can be fixedly installed at the circular opening 31 of the end cap 3 by bolts. The electric heating blower 4 blows air into the machine casing 1, which can dry the edible fungi in the dehydration cylinder 6.

[0033] Reference Figure 2 and Figure 3 The electric heating blower 4 has a dust filter disc 41 and a grille disc 42 fixedly installed on its housing from the inside out by screws. By installing the dust filter disc 41 and the grille disc 42, the electric heating blower 4 can prevent debris and dust from entering the housing 1. By regularly replacing the grille disc 42 and maintaining the electric heating blower 4, the air entering the housing 1 can be kept dust-free.

[0034] Reference Figure 2 and Figure 3 A hexagonal connector 521 is fixedly provided at the upper end of the drive rod 52. The hexagonal connector 521 has a through hole for installing a locking rod 65. The locking rod 65 is threaded between the hexagonal connector 521 at the upper end of the drive rod 52 and the handle 64, so that the drive rod 52 can drive the dehydration cylinder 6 to rotate through the handle 64 and the cross-shaped frame 63.

[0035] Reference Figure 3 and Figure 4 A tray 53 is fixedly mounted on the drive rod 52. Four positioning blocks 531 are fixedly mounted on the tray 53 along its circumference. A bottom ring 61 is fixedly sleeved on the bottom end of the dewatering cylinder 6. The bottom ring 61 has four positioning grooves 611 that match the positioning blocks 531 along its circumference. The dewatering cylinder 6 is movably inserted into the machine housing 1 along the drive rod 52. The positioning blocks 531 of the tray 53 are engaged in the corresponding positioning grooves 611 of the bottom ring 61, thereby using the tray 53 to support the bottom ring 61. The positioning blocks 531 can assist in driving the dewatering cylinder 6 to rotate.

[0036] Reference Figure 2 and Figure 4 The dehydration cylinder 6 is evenly provided with water-permeable holes 62 along its circumference. The dehydration cylinder 6 forms a hollow cylindrical structure by providing water-permeable holes 62. When the dehydration cylinder 6 rotates at high speed, the edible fungi inside can be centrifuged and shaken out the water.

[0037] Working principle: When using this dehydrator, edible fungi can be added into the dehydration cylinder 6. By holding the handle 64, the dehydration cylinder 6 is inserted into the machine housing 1 along the drive rod 52 until the positioning block 531 of the tray 53 is engaged into the positioning groove 611 of the corresponding bottom ring 61, so that the tray 53 supports the bottom ring 61. Then, the locking rod 65 is used to thread the drive rod 52 and the handle 64, and the electric cylinder 2 is used to close the end cover 3. The electric heating blower 4 can blow air into the machine housing 1, so that the motor 51 drives the drive rod 52 and the tray 63 to operate. The rotation of disc 53 drives the dehydration cylinder 6 to rotate at high speed inside the casing 1, causing the edible fungi inside the dehydration cylinder 6 to expel water through centrifugal rotation. Combined with the blower of the electric heating blower 4, the edible fungi can be quickly dehydrated and dried with hot air. The dehydration cylinder 6 is very easy to install and disassemble, reducing the disassembly and assembly time and greatly improving the dehydration efficiency. In addition, the three E-shaped frames 66 fixed around the circumference of the dehydration cylinder 6 are equipped with cleaning strips 661, which can realize the automatic cleaning function of the inner wall of the casing 1, reducing the maintenance and cleaning work of the inner wall of the casing 1.

Claims

1. A dehydrator for processing edible fungi, characterized in that: Includes: a housing (1), an end cap (3) is rotatably hinged to the upper end of the housing (1), and two electric cylinders (2) are rotatably connected between the housing (1) and the end cap (3), an electric heating blower (4) is fixedly installed on the end cap (3) by bolts, and a rotating mechanism (5) is installed on the housing (1) for centrifugally rotating the dewatering cylinder (6); The rotating mechanism (5) includes a motor (51), which is fixedly installed at the bottom of the housing (1). The output end of the motor (51) is connected to a drive rod (52). A cross-shaped frame (63) is fixedly installed inside the upper end of the dehydration cylinder (6). A handle (64) is fixedly installed on the cross-shaped frame (63). The cross-shaped frame (63) is movably sleeved on the outside of the drive rod (52). A locking rod (65) is threaded between the handle (64) and the drive rod (52). Three E-shaped frames (66) are fixedly installed around the circumference of the dehydration cylinder (6). A cleaning strip (661) is fixedly installed on each of the E-shaped frames (66). The cleaning strip (661) is attached to the inner wall of the housing (1).

2. The dehydrator for edible fungi processing according to claim 1, characterized in that: The bottom of the housing (1) is fixed with four support seats (11) along the circumference. The bottom surface of the housing (1) is inclined, and the bottom of the housing (1) is provided with a drain outlet (12).

3. The dehydrator for edible fungi processing according to claim 1, characterized in that: The end cap (3) is provided with a circular opening (31), and the electric heating blower (4) is fixedly installed at the circular opening (31) by bolts.

4. A dehydrator for edible fungi processing according to claim 3, characterized in that: The electric heating blower (4) has a dust filter disc (41) and a grid disc (42) fixedly installed on its housing from the inside out by screws.

5. A dehydrator for edible fungi processing according to claim 1, characterized in that: The upper end of the drive rod (52) is fixedly provided with a hexagonal connector (521), and the hexagonal connector (521) is provided with a through hole for installing the lock rod (65).

6. A dehydrator for edible fungi processing according to claim 1, characterized in that: A tray (53) is fixedly mounted on the drive rod (52). Four positioning blocks (531) are fixedly mounted on the tray (53) along the circumference. A bottom ring (61) is fixedly sleeved on the bottom end of the dewatering cylinder (6). The bottom ring (61) is provided with four positioning grooves (611) that match the positioning blocks (531) along the circumference.

7. A dehydrator for edible fungi processing according to claim 1, characterized in that: The dehydration cylinder (6) is provided with water-permeable holes (62) evenly arranged along its circumference.