CN117179343A - Food processing is with outside powder device that spreads out of food - Google Patents

Abstract

The invention relates to a food external powdering device for food processing, and belongs to the technical field of food production. Including receiving powder case and powdering device, set up to last unloading workspace between finished product conveyer and the last glassware, set up to the powder workspace between powdering device and the powder case that connects, the one side that the finished product conveyer was kept away from to the powder case is provided with the transfer mechanism who is used for transferring the material between the workspace, transfer mechanism is including being in the actuating mechanism mounting bracket that connects powder case one side and can remove the material that is used for transferring the thing between last unloading workspace and the powder workspace and load the basket, install the actuating mechanism who drives the material and load the basket and shift between last unloading workspace and the powder workspace on the actuating mechanism mounting bracket. The invention has the following beneficial effects: the material loading basket and the driving mechanism for transferring the objects are moved between the feeding and discharging working areas and the powder adding working areas, so that food in the material loading basket rolls along with the shaking of the material loading basket, and powder scattering is more uniform.

Description

Food processing is with outside powder device that spreads out of food

Technical Field

The invention relates to a food external powdering device for food processing, and belongs to the technical field of food production.

Background

At present, a lot of instant food flavoring technologies adopt a powdering and flavoring mode, wherein instant food is firstly powdered and flavored by a powdering device, and then enters a packaging machine for packaging, and granular crispy noodles are taken as an example: and (5) taking the dried crisp noodles out of the oil pot after frying, powdering and flavoring by using a powdering and flavoring device, and packaging.

Patent application number CN202020639930.2 discloses a convenient food flavoring powdering production line. The production line comprises: a packaging film inlet for introducing a packaging film; the powdering device is used for powdering and flavoring the instant food; the bag making device is used for making and packaging the packaging film carrying the instant food; the powder scattering device is positioned between the packaging film inlet and the bag making device, the packaging film is guided by the packaging film inlet and then bears the instant food, and the instant food is subjected to powder scattering and flavoring by the powder scattering device.

Although the powder spraying function of the food can be realized in the above patent, the prior art is not fully considered, and has the following defects: when convenient food powder scattering processes, mostly manual work carries out auxiliary operation (turns over food), when influencing work efficiency, also causes the inhomogeneous condition emergence in convenient food powder scattering process.

In order to solve one of the above problems, there is a need for an external powdering device for food processing.

Disclosure of Invention

According to the defects in the prior art, the technical problems to be solved by the invention are as follows: how to utilize and go up unloading workspace and add and remove material loading basket and actuating mechanism that is used for transferring the thing between the powder workspace and realize that the food in the material loading basket rolls along with the rocking of material loading basket for it is more even to scatter the powder, provides a food outside powdering device for this.

The invention relates to a food external powdering device for food processing, which comprises a powder receiving box and a powdering device, and is characterized in that: the powder collecting device comprises a powder collecting box, a finished product conveying device is arranged below a powder scattering device, the powder collecting box and the finished product conveying device are supported on the ground and are adjacently arranged, a feeding working area and a discharging working area are arranged between the finished product conveying device and the powder scattering device, a powder adding working area is arranged between the powder scattering device and the powder collecting box, a transferring mechanism for transferring materials between the working areas is arranged on one side, away from the finished product conveying device, of the powder collecting box, the transferring mechanism comprises a driving mechanism mounting frame on one side of the powder collecting box and a material loading basket capable of moving between the feeding working area and the discharging working area and the powder adding working area, and a driving mechanism for driving the material loading basket to transfer between the feeding working area and the discharging working area is arranged on the driving mechanism mounting frame.

Further, the finished product conveyer is a belt conveyer, and comprises a conveying frame body, a group of belt conveying mechanisms are arranged on the conveying frame body along the length direction of the conveying frame body, a belt driving mechanism is arranged on the conveying frame body, and the belt driving mechanism can drive a belt of the belt conveying mechanism to circularly rotate along the length direction of the conveying frame body.

Further, actuating mechanism includes the guide bar that the level set up and follows the reciprocal gliding long rack of guide bar length direction, the one end of guide bar is installed on the actuating mechanism mounting bracket, follows the length direction of guide bar is provided with the spout, the upper surface of long rack has the meshing tooth of equidistance range, the lower surface of long rack is provided with the gliding T type slider of spout cooperation, T type slider embeds in the spout, the first driving motor of drive long rack motion for the guide bar is still installed to one side of guide bar, be provided with the main driving gear with the meshing tooth of long rack on the power output shaft of first driving motor.

Further, the front end of the long rack is provided with a material loading basket through the shaking matching assembly, and one end of the guide rod, which is close to the mounting frame of the driving mechanism, is also provided with a stop block for preventing the long rack from continuously sliding along the guide rod.

Further, the shake matching component comprises a first sliding rod connected to the end part of the long rack, a first sliding sleeve is arranged on the first sliding rod in a sliding manner, a first end part of the first sliding rod for blocking the first sliding sleeve from sliding out of the first sliding rod is arranged at the other end of the first sliding rod, a short rack meshed with the main driving gear is arranged on the upper surface of the first sliding sleeve, a first compression spring is further sleeved on the first sliding rod between the first sliding sleeve and the long rack, and the first compression spring provides thrust for pushing the first sliding sleeve to be far away from the long rack; the novel sliding rod comprises a first sliding rod, and is characterized by further comprising a second sliding rod which is arranged in parallel with the first sliding rod, one end of the second sliding rod is connected with a long rack through a tail connecting rod, a second sliding sleeve is arranged on the second sliding rod in a sliding mode, a second end portion of the second sliding sleeve, which is blocked from sliding out of the second sliding rod, is blocked, a second compression spring is further sleeved on the second sliding rod between the second sliding sleeve and the tail connecting rod, the second compression spring provides a pushing force for pushing the second sliding sleeve to keep away from the tail connecting rod, the first sliding sleeve is connected with the second sliding sleeve through an intermediate connecting rod, and a gap is preset between the first sliding sleeve and the long rack and is 2 times or 3 times or 4 times of the tooth pitch of the long rack.

Further, the tail end of the guide rod is rotatably arranged at the top of the driving mechanism mounting frame through a bearing, a second driving device for driving the guide rod to rotate is arranged on the driving mechanism mounting frame, and a power output shaft of the second driving device is connected with the guide rod.

Further, the second driving device is a gear motor.

Further, the material loading basket is formed by enclosing a low grid plate and four groups of side grid plates, wherein one side grid plate is provided with an end connecting rod connected with the middle connecting rod; the feeder comprises a storage box, and the bottom of the storage box is provided with a discharge hole with a gate valve.

The invention also discloses a method for producing food by using the food external powdering device for food processing, which is characterized by comprising the following steps,

s1, a first driving motor is started initially, the first driving motor is controlled to rotate positively, and a main driving gear on the first driving motor is meshed with a long rack, so that a long rack animal material loading basket is pushed to slide towards a finished product conveying device and a feeder until the material loading basket is pushed to a loading and unloading working area between the finished product conveying device and the feeder;

s2, opening a gate valve at the bottom of the feeder, transferring part of materials in the feeder to a material loading basket, and transferring the materials to the bottom in the material loading basket from an opening at the upper part of the material loading basket;

s3, starting a first driving motor, controlling the first driving motor to rotate reversely, enabling a main driving gear on the first driving motor to be meshed with a long rack, enabling the long rack to be pushed to drive a material loading basket to slide towards a powder receiving box and a powder spraying device until the material loading basket is pushed to a position between the powder spraying device and the powder receiving box to be set into a powder adding working area, enabling the right end of the long rack to be abutted against a stop block, and enabling the main driving gear to pass through a first compression spring to be meshed with a short rack;

s4, starting a powdering device, enabling powder in the powdering device to fall into a powder receiving box from the bottom of the powdering device, and powdering food in a material loading basket between the powder receiving box and the powdering device;

s5, the first driving motor is still controlled to rotate reversely while the step 4 is operated, the short racks are stirred through the main driving gear to enable the short racks to compress the first compression springs to approach the long racks, the short racks are disengaged from the main driving gear after being far away from the main driving gear, after the short racks are disengaged from the main driving gear, the first compression springs and the second compression springs respectively push the corresponding sliding sleeves to reset, so that the main driving gear can be engaged with the short racks again, further, the short racks, the first sliding sleeves and the second sliding sleeves are realized to drive the end connecting rods to do small-frequency reciprocating drawing, the end connecting rods are enabled to drive the material loading basket to shake, and food in the material loading basket rolls along with the shaking of the material loading basket, so that powder scattering is more uniform;

s6, after the powder is completely dusted, controlling the first driving motor to rotate positively, enabling the main driving gear to be meshed with the short racks, then switching to be meshed with the long racks, enabling the long-rack animal material loading basket to be pushed to slide towards the finished product conveying device and the feeder through the main driving gear on the first driving motor and the long racks until the material loading basket is pushed to an upper and lower working area between the finished product conveying device and the feeder,

s7, controlling the second driving device to enable the guide rod and the material loading basket to integrally overturn by 180 degrees, and transferring food in the material loading basket to the finished product conveying device;

s8, controlling the second driving device to enable the guide rod and the material loading basket to integrally overturn for 180 degrees, and re-receiving the discharging of the feeder;

and (5) circulating the steps S2 to S8 to realize continuous operation.

Preferably, the upper surface of the short rack has one or two sets of engagement teeth.

Compared with the prior art, the invention has the following beneficial effects:

according to the food external powdering device for food processing, disclosed by the invention, the food in the material loading basket rolls along with the shaking of the material loading basket by utilizing the material loading basket and the driving mechanism which are used for transferring objects to move between the feeding and discharging working areas and the powdering working area, so that the powdering is more uniform.

According to the food external powdering device for food processing, the gate valve at the bottom of the feeder is opened, part of materials in the feeder are transferred to the opening of the material loading basket from the upper part of the material loading basket, and the materials are transferred to the inner bottom of the material loading basket, so that automatic feeding is realized.

According to the food external powdering device for food processing, the second driving device is controlled, so that the guide rod and the material loading basket are integrally turned over for 180 degrees, food in the material loading basket is transferred to the finished product conveying device, automatic discharging is achieved, and continuous operation is achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the external structure of the driving mechanism of the present invention;

FIG. 3 is an assembly view of a chute and a T-shaped slider of the present invention;

in the figure: 1. the powder receiving box 2, the powder scattering device 3, the finished product conveying device 4, the feeder 5, the material loading basket 6, the driving mechanism mounting frame 7, the driving mechanism 7.1, the guide rod 7.2, the long rack 7.3, the sliding chute 7.4, the T-shaped sliding block 7.5, the first driving motor 7.6, the main driving gear 8, the second driving device 9, the end connecting rod 10, the stop block 11, the first sliding rod 12, the first sliding sleeve 13, the first end blocking 14, the short rack 15, the second sliding rod 16, the second sliding sleeve 17, the second end blocking 18, the middle connecting rod 19, the first compression spring 20, the second compression spring 21 and the tail connecting rod.

Detailed Description

The invention is further described below with reference to the accompanying drawings: the present invention is further illustrated by the following examples, which are not intended to be limiting, but any modifications, equivalents, improvements, etc. within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Embodiment 1, as shown in fig. 1-3, an external food powdering device for food processing comprises a powder receiving box 1 and a powdering device 2, wherein the powder receiving box 1 is arranged below the powdering device 2, a finished product conveying device 3 is arranged below a loading device 4, the powder receiving box 1 and the finished product conveying device 3 are both supported on the ground and adjacently arranged, a loading and unloading working area is arranged between the finished product conveying device 3 and the loading device 4, a powdering working area is arranged between the powdering device 2 and the powder receiving box 1, a transferring mechanism for transferring materials between the working areas is arranged on one side, away from the finished product conveying device 3, of the powder receiving box 1, the transferring mechanism comprises a driving mechanism mounting frame 6 on one side of the powder receiving box 1 and a material loading basket 5 capable of moving between the loading and unloading working areas, a driving mechanism 7 for driving the material loading basket 5 to transfer between the loading and unloading working areas is arranged on the driving mechanism mounting frame 6, and the driving mechanism 5 is arranged at the end of the driving mechanism 7.

Embodiment 2, as shown in fig. 1-3, an external food powdering device for food processing comprises a powder receiving box 1 and a powdering device 2, wherein the powder receiving box 1 is arranged below the powdering device 2, a finished product conveying device 3 is arranged below a loading device 4, the powder receiving box 1 and the finished product conveying device 3 are both supported on the ground and adjacently arranged, a loading and unloading working area is arranged between the finished product conveying device 3 and the loading device 4, a powdering working area is arranged between the powdering device 2 and the powder receiving box 1, a transferring mechanism for transferring materials between the working areas is arranged on one side, away from the finished product conveying device 3, of the powder receiving box 1, the transferring mechanism comprises a driving mechanism mounting frame 6 on one side of the powder receiving box 1 and a material loading basket 5 capable of moving between the loading and unloading working areas, a driving mechanism 7 for driving the material loading basket 5 to transfer between the loading and unloading working areas is arranged on the driving mechanism mounting frame 6, and the driving mechanism 5 is arranged at the end of the driving mechanism 7.

Further, the finished product conveying device 3 is a belt conveyor and comprises a conveyor frame body, a group of belt conveying mechanisms are arranged on the conveyor frame body along the length direction of the conveyor frame body, a belt driving mechanism is arranged on the conveyor frame body, and the belt driving mechanism can drive a belt of the belt conveying mechanism to circularly rotate along the length direction of the conveyor frame body.

Further, the actuating mechanism 7 includes the guide bar 7.1 that the level set up and along the reciprocating gliding long rack 7.2 of guide bar 7.1 length direction, the one end of guide bar 7.1 is installed on actuating mechanism mounting bracket 6, follows the length direction of guide bar 7.1 is provided with spout 7.3, the upper surface of long rack 7.2 has the meshing tooth of equidistance range, the lower surface of long rack 7.2 is provided with the T type slider 7.4 that cooperates gliding with spout 7.3, T type slider 7.4 embeds in spout 7.3, the first driving motor 7.5 of drive long rack 7.2 motion for guide bar 7.1 is still installed to one side of guide bar 7.1, be provided with the main driving gear 7.6 that meshes with the meshing tooth of long rack 7.2 on the power output shaft of first driving motor 7.5.

Further, the front end of the long rack 7.2 is provided with a material loading basket 5 through a shaking matching component, and one end of the guide rod 7.1, which is close to the driving mechanism mounting frame 6, is also provided with a stop block 10 for preventing the long rack 7.2 from sliding along the guide rod 7.1.

Further, the shake matching assembly comprises a first sliding rod 11 connected to the end part of the long rack 7.2, a first sliding sleeve 12 is slidably arranged on the first sliding rod 11, a first end plug 13 for blocking the first sliding sleeve 12 from sliding out of the first sliding rod 11 is arranged at the other end of the first sliding rod 11, a short rack 14 meshed with the main driving gear 7.6 is arranged on the upper surface of the first sliding sleeve 12, a first compression spring 19 is further sleeved on the first sliding rod 11 between the first sliding sleeve 12 and the long rack 7.2, and the first compression spring 19 provides thrust for pushing the first sliding sleeve 12 to be far away from the long rack 7.2; the novel sliding rod structure is characterized by further comprising a second sliding rod 15 which is arranged in parallel with the first sliding rod 11, one end of the second sliding rod 15 is connected with the long rack 7.2 through a tail connecting rod 21, a second sliding sleeve 16 is arranged on the second sliding rod 15 in a sliding mode, a second end portion blocking 17 which blocks the second sliding sleeve 16 from sliding out of the second sliding rod 15 is arranged at the other end of the second sliding rod 15, a second compression spring 20 is further sleeved on the second sliding rod 15 between the second sliding sleeve 16 and the tail connecting rod 21, the second compression spring 20 provides thrust for pushing the second sliding sleeve 16 to be far away from the tail connecting rod 21, the first sliding sleeve 12 is connected with the second sliding sleeve 16 through an intermediate connecting rod 18, and a gap is preset between the first sliding sleeve 12 and the long rack 7.2 and is 2 times or 3 times or 4 times of the tooth pitch of the long rack 7.2.

Further, the tail end of the guide rod 7.1 is rotatably mounted on the top of the driving mechanism mounting frame 6 through a bearing, a second driving device 8 for driving the guide rod 7.1 to rotate is mounted on the driving mechanism mounting frame 6, and a power output shaft of the second driving device 8 is connected with the guide rod 7.1.

Further, the second driving device 8 is a gear motor.

Further, the material loading basket 5 is formed by enclosing a low grid plate and four groups of side grid plates, wherein one side grid plate is provided with an end connecting rod 9 connected with an intermediate connecting rod 18; the feeder 4 comprises a storage box, and the bottom of the storage box is a discharge hole with a gate valve.

Example 3A method for producing a food product using the above-mentioned food external powdering device for food processing, comprising the steps of,

s1, a first driving motor 7.5 is started initially, the first driving motor 7.5 is controlled to rotate positively, and the long rack 7.2 is meshed with a main driving gear 7.6 on the first driving motor 7.5, so that the long rack 7.2 is pushed to drive a material loading basket 5 to slide towards a finished product conveying device 3 and a material loading device 4 until the material loading basket 5 is pushed to a loading and unloading working area between the finished product conveying device 3 and the material loading device 4;

s2, opening a gate valve at the bottom of the feeder 4, transferring part of materials in the feeder 4 to a material loading basket 5, and transferring the materials to the bottom in the material loading basket 5 from an opening at the upper part of the material loading basket 5;

s3, starting a first driving motor 7.5, controlling the first driving motor 7.5 to reversely rotate, and meshing with a long rack 7.2 through a main driving gear 7.6 on the first driving motor 7.5, so that the long rack 7.2 is pushed to drive a material loading basket 5 to slide towards a powder receiving box 1 and a powder spraying device 2 until the material loading basket 5 is pushed to a position between the powder spraying device 2 and the powder receiving box 1 to be set as a powder adding working area, wherein the right end of the long rack 7.2 is abutted against a stop block 10 at the moment, and the main driving gear 7.6 is meshed with a short rack 14 beyond a first compression spring 19;

s4, starting the powdering device 2, enabling powder in the powdering device 2 to fall into the powder receiving box 1 from the bottom of the powdering device 2, and powdering food in the material loading basket 5 between the powder receiving box 1 and the powdering device 2;

s5, the first driving motor 7.5 is still controlled to rotate reversely while the step 4 is operated, the short rack 14 is stirred through the main driving gear 7.6, so that the short rack 14 compresses the first compression spring 19 to approach the long rack 7.2, the short rack 14 is separated from the main driving gear 7.6 and then is meshed with the main driving gear 7.6, after the short rack 14 is separated from the main driving gear 7.6, the first compression spring 19 and the second compression spring 20 respectively push the corresponding sliding sleeve to reset, so that the main driving gear 7.6 can be meshed with the short rack 14 again, further, the short rack 14, the first sliding sleeve 12 and the second sliding sleeve 16 drive the end connecting rod 9 to reciprocate at a small frequency, the end connecting rod 9 drives the material loading basket 5 to shake, and food in the material loading basket 5 rolls along with the material loading basket 5, so that powder scattering is more uniform;

s6, after the powder is completely scattered, the first driving motor 7.5 is controlled to rotate positively, the main driving gear 7.6 is meshed with the short rack 14 first and then is meshed with the long rack 7.2, the main driving gear 7.6 on the first driving motor 7.5 is meshed with the long rack 7.2, so that the long rack 7.2 is pushed to drive the material loading basket 5 to slide towards the finished product conveying device 3 and the feeder 4 until the material loading basket 5 is pushed to an upper and lower working area between the finished product conveying device 3 and the feeder 4,

s7, controlling the second driving device 8 to enable the guide rod 7.1 and the material loading basket 5 to integrally overturn by 180 degrees, and transferring food in the material loading basket 5 to the finished product conveying device 3;

s8, controlling the second driving device 8 to enable the guide rod 7.1 and the material loading basket 5 to integrally overturn for 180 degrees, and re-receiving the discharge of the feeder 4;

and (5) circulating the steps S2 to S8 to realize continuous operation.

Further, the short rack 14 has one or two sets of engagement teeth on its upper surface.

According to the food external powdering device for food processing, the material loading basket for transferring objects and the driving mechanism are moved between the feeding and discharging working areas and the powdering working areas, so that food in the material loading basket rolls along with shaking of the material loading basket (no need of turning over granular food), and powder scattering is more uniform.

According to the food external powdering device for food processing, the gate valve at the bottom of the feeder is opened, part of materials in the feeder are transferred to the opening of the material loading basket from the upper part of the material loading basket, and the materials are transferred to the inner bottom of the material loading basket, so that automatic feeding is realized.

According to the food external powdering device for food processing, the second driving device is controlled, so that the guide rod and the material loading basket are integrally turned over for 180 degrees, food in the material loading basket is transferred to the finished product conveying device, automatic discharging is achieved, and continuous operation is achieved.

The foregoing has shown and described the basic principles, main features and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

The present invention is not described in detail in the present application, and is well known to those skilled in the art.

Claims (8)

1. The utility model provides a food processing is with food outside dusting device, includes that connects powder case and dusting device, its characterized in that: the powder collecting device comprises a powder collecting box, a finished product conveying device is arranged below a powder scattering device, the powder collecting box and the finished product conveying device are supported on the ground and are adjacently arranged, a feeding working area and a discharging working area are arranged between the finished product conveying device and the powder scattering device, a powder adding working area is arranged between the powder scattering device and the powder collecting box, a transferring mechanism for transferring materials between the working areas is arranged on one side, away from the finished product conveying device, of the powder collecting box, the transferring mechanism comprises a driving mechanism mounting frame on one side of the powder collecting box and a material loading basket capable of moving between the feeding working area and the discharging working area and the powder adding working area, and a driving mechanism for driving the material loading basket to transfer between the feeding working area and the discharging working area is arranged on the driving mechanism mounting frame.

2. The food external powdering device according to claim 1, wherein the product conveying device is a belt conveyor and comprises a conveyor frame body, a group of belt conveying mechanisms are arranged on the conveyor frame body along the length direction of the conveyor frame body, a belt driving mechanism is arranged on the conveyor frame body, and the belt driving mechanism can drive a belt of the belt conveying mechanism to circularly rotate along the length direction of the conveyor frame body.

3. The food external powdering device for food processing according to claim 2, wherein the driving mechanism comprises a horizontally arranged guide rod and a long rack which slides reciprocally along the length direction of the guide rod, one end of the guide rod is arranged on the driving mechanism mounting frame, a sliding groove is arranged along the length direction of the guide rod, meshing teeth which are equidistantly arranged are arranged on the upper surface of the long rack, a T-shaped sliding block which slides in cooperation with the sliding groove is arranged on the lower surface of the long rack, the T-shaped sliding block is arranged in the sliding groove in a built-in manner, a first driving motor which drives the long rack to move relative to the guide rod is further arranged on one side of the guide rod, and a main driving gear which is meshed with the meshing teeth of the long rack is arranged on a power output shaft of the first driving motor.

4. A food external powdering device according to claim 3, wherein the front end of the long rack is provided with a material loading basket via a shake fit assembly, and the end of the guide bar adjacent to the drive mechanism mounting frame is further provided with a stopper for preventing the long rack from continuing to slide along the guide bar.

5. The external food powdering device according to claim 4, wherein the shake fit assembly comprises a first slide bar connected to the end of the long rack, a first slide sleeve is slidably arranged on the first slide bar, a first end plug for blocking the first slide sleeve from sliding out of the first slide bar is arranged at the other end of the first slide bar, a short rack meshed with the main driving gear is arranged on the upper surface of the first slide sleeve, a first compression spring is further sleeved on the first slide bar between the first slide sleeve and the long rack, and the first compression spring provides thrust for pushing the first slide sleeve away from the long rack; the novel sliding rod comprises a first sliding rod, and is characterized by further comprising a second sliding rod which is arranged in parallel with the first sliding rod, one end of the second sliding rod is connected with a long rack through a tail connecting rod, a second sliding sleeve is arranged on the second sliding rod in a sliding mode, a second end portion of the second sliding sleeve, which is blocked from sliding out of the second sliding rod, is blocked, a second compression spring is further sleeved on the second sliding rod between the second sliding sleeve and the tail connecting rod, the second compression spring provides a pushing force for pushing the second sliding sleeve to keep away from the tail connecting rod, the first sliding sleeve is connected with the second sliding sleeve through an intermediate connecting rod, and a gap is preset between the first sliding sleeve and the long rack and is 2 times or 3 times or 4 times of the tooth pitch of the long rack.

6. The food external powdering device for food processing according to claim 5, wherein the rear end of the guide bar is rotatably mounted on the top of the driving mechanism mounting frame via a bearing, a second driving device for driving the guide bar to rotate is mounted on the driving mechanism mounting frame, and a power output shaft of the second driving device is connected to the guide bar.

7. The food external powdering device for food processing of claim 6, wherein the second driving means is a reduction motor.

8. The food external powdering device of claim 7, wherein the material loading basket is formed by enclosing a lower grid plate and four sets of side grid plates, wherein one side grid plate is provided with an end connecting rod connected with a middle connecting rod; the feeder comprises a storage box, and the bottom of the storage box is provided with a discharge hole with a gate valve.