CN220831862U - High-speed mixing granulator for food - Google Patents

Abstract

The utility model discloses a high-speed mixing granulator for food, which comprises a machine body and a drying and dispersing device. According to the utility model, the drying dispersing device is arranged, namely, the heat conducting plate and the heating plate can be used for realizing the dry state constitution to assist in the drying treatment of the granular materials, meanwhile, the intermittent pushing of the cam and the cross rod is matched, the connecting rod is used for intermittently supporting the plate to transversely move, and the spring piece arranged at the four corners of the bottom is matched for quick resetting to achieve the left and right shaking, so that the drying of the granular materials is improved, the quick guiding-out of the materials is fully carried out, the auxiliary supporting shaking drying treatment of the granular materials can be achieved, the subsequent mutual adhesion is reduced, and the supporting components are arranged, namely, the supporting pieces distributed at the left side and the right side of the inside of the guide pipe can be used for flexibly supporting the granular materials, and the falling impact force is reduced, so that the auxiliary flexible supporting of the granular materials is achieved, and the falling crushing phenomenon is reduced.

Description

High-speed mixing granulator for food

Technical Field

The utility model relates to the field related to food granulation processing, in particular to a high-speed mixing granulator for food.

Background

The granulation is an operation of processing materials in the state of powder, melt, aqueous solution and the like into granules with a certain shape and size, and the granulation method can be divided into three main types: wet granulation, dry granulation, spray granulation, wherein wet granulation is most widely used;

the method for preparing the granules by adding the adhesive into the medicine powder during wet granulation and agglomerating the powder together by using a bridge or bonding effect of the adhesive has the advantages of good quality, attractive appearance, stronger wear resistance, good compression molding and the like, and is widely applied in the field of food processing;

the high-speed mixer granulator is supported by a machine body, a pot is a container, stirring rotation and cutting fly cutters are driven to be power, materials are stirred by a stirring paddle, the materials are uniformly rolled and mixed in a short time, then the materials are made into particles by the cutting fly cutters, finally the particles are discharged from a discharge hole, and the rotation speeds of the stirring and cutting fly cutters are changed, so that equipment for obtaining particles with different sizes can be obtained;

The prior application number is CN201921485285.7, the high-speed mixing granulator comprises a frame, a controller, a tank container, a stirring device, a cutter device and a discharging device, wherein the stirring device comprises a stirring motor, a stirring rotating shaft and stirring blades, the cutter device comprises a cutter motor, a cutter rotating shaft and a cutter blade set, and the discharging device comprises a discharging frame shell, a discharging cylinder and a discharging plug;

According to the technical scheme, the problems that the particle size of the prepared particle materials is uneven and the particle materials cannot be uniformly mixed in the prior art can be solved, but when the materials are guided out in a wet granulation activity, certain humidity still exists, so that the guided out particles are stacked and then are adhered to each other, the particles are difficult to separate, and the overall granulating effect of the materials is affected.

Disclosure of utility model

Accordingly, in order to solve the above-mentioned disadvantages, the present utility model provides a high-speed mixer-granulator for food.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a high-speed mixer granulator for food, includes the organism, the controller is installed to organism front side upper end, the tight pelletization section of thick bamboo that has in organism left side top, pelletization section of thick bamboo upper end cover is equipped with sealed lid, sealed lid right side end meets there is first cylinder, sealed lid upper end distributes has feeder hopper, slip casting pipe and blast pipe, pelletization section of thick bamboo right side meets there is first motor, first motor installs the cutting knife rest in the left side, and the cutting knife rest is in pelletization section of thick bamboo inside, install the stirring rake in the pelletization section of thick bamboo, and the stirring rake middle part meets with the second motor, the second motor is installed in the inside left side of organism, pelletization section of thick bamboo left side meets there is the discharging pipe, the inside right side of discharging pipe is equipped with the baffle, the baffle left side links to each other with the second cylinder, and the second cylinder is installed in the discharging pipe left side, still including locating the dry dispersion devices of discharging pipe lower extreme, install in the drying box of drying box inside upper end, connect in drying box middle part and connect the drying box in drying box.

Preferably, the shaking drying assembly comprises a supporting shell fastened at the upper end of the inside of the drying box, spring pieces arranged at four corners of the inside of the supporting shell, a bearing plate connected to the upper ends of the spring pieces arranged on the four sides, a heat-conducting plate arranged in the bearing plate, a heating plate correspondingly arranged at the lower end of the heat-conducting plate, and a push-pull structure arranged in the inside of the supporting shell and connected with the spring pieces on one side.

Preferably, the push-pull structure comprises a servo motor connected to the inner bottom of the supporting shell, a cam arranged on the front side of the servo motor, a cross rod propped against the left side of the cam, a moving plate fixedly arranged on the right side of the cross rod, guide rods inserted into the two sides of the inner part of the moving plate, a fixed plate fastened on the right side of the guide rods and fixedly connected with the inner bottom of the supporting shell, a pressure spring correspondingly arranged on the outer side of the guide rods and a connecting rod rotatably connected to the upper end of the moving plate, wherein the left side of the connecting rod is connected with one side of the spring piece.

Preferably, the receiving assembly comprises a guide pipe arranged at the middle end inside the supporting shell, receiving chamfers correspondingly arranged at the upper end of the guide pipe and receiving pieces arranged on two sides inside the guide pipe in an array mode.

Preferably, the bearing piece comprises supporting rods which are fastened and inserted at two sides of the inside of the catheter and cotton strips which are correspondingly sleeved at the outer sides of the supporting rods.

Preferably, the spring piece is fastened and connected with four corners bolts at the bottom of the bearing plate, and the four sides of the spring piece are arranged in a synchronous installation direction.

Preferably, the outer surface of the cam is smooth, the barb-free polishing is carried out, and the right side of the cam props against the left end of the cross rod to form an inclined block.

Preferably, the carrying pieces are arranged in a left-right state along the inside of the catheter, and a space exists between the carrying pieces.

The utility model has the beneficial effects that:

Advantage 1: according to the utility model, the drying dispersing device is arranged, namely, the heat conducting plate and the heating plate can be used for realizing the dry state constitution to assist in drying treatment of the granular materials, meanwhile, the intermittent pushing of the cam and the cross rod is matched, the connecting rod is used for intermittently carrying the plate to transversely move, and the spring pieces arranged at four corners of the bottom are matched for quick resetting to achieve left and right shaking, so that the drying of the granular materials is improved, the quick guiding of the granular materials is fully realized, the auxiliary carrying shaking drying treatment of the granular materials is realized, and the subsequent mutual adhesion is reduced.

Advantage 2: according to the utility model, the receiving components, namely the receiving pieces which are arranged at the left side and the right side of the inside of the guide pipe in an array manner, can flexibly receive the particle materials, and reduce the falling impact force, so that the advantages of flexibly receiving the particle materials in an auxiliary manner and reducing the falling crushing phenomenon are achieved.

Drawings

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

FIG. 2 is a schematic diagram of the internal structure of the present utility model in elevation;

FIG. 3 is a schematic diagram showing the internal structure of the drying and dispersing apparatus according to the present utility model in front view;

FIG. 4 is a schematic elevational view of the shaker drying apparatus of the present utility model;

FIG. 5 is a schematic elevational view of a push-pull structure of the present utility model;

fig. 6 is a schematic elevational view of the receiving assembly of the present utility model.

Wherein: the machine body-1, the controller-2, the granulating cylinder-3, the sealing cover-4, the first cylinder-5, the feeding hopper-6, the grouting pipe-7, the exhaust pipe-8, the first motor-9, the cutting knife rest-10, the stirring paddle-11, the second motor-12, the discharging pipe-13, the baffle-14, the second cylinder-15, the drying and dispersing device-16, the drying box-161, the shaking and drying component-162, the supporting shell-1621, the spring piece-1622, the bearing plate-1623, the heat conducting plate-1624, the heating plate-1625, the push-pull structure-16 a, the servo motor-16 a1, the cam-16 a2, the cross rod-16 a3, the moving plate-16 a4, the guide rod-16 a5, the fixing plate-16 a6, the pressure spring-16 a7, the connecting rod-16 a8, the bearing component-163, the guide tube-1631, the bearing chamfer-1632, the bearing piece-1633, the supporting rod-16331, the cotton strip-16332 and the bearing box-164.

Detailed Description

In order to further explain the technical scheme of the utility model, the following is explained in detail through specific examples.

Referring to fig. 1-2, the utility model provides a high-speed mixer-granulator for food, which comprises a machine body 1, wherein a controller 2 is installed at the upper end of the front side of the machine body 1, a granulating cylinder 3 is tightly fixed at the top of the left side of the machine body 1, a sealing cover 4 is arranged at the upper end cover of the granulating cylinder 3, a first air cylinder 5 is connected at the right end of the sealing cover 4, a feed hopper 6 is distributed at the upper end of the sealing cover 4, a grouting pipe 7 and an exhaust pipe 8 are arranged at the right end of the grouting cylinder 3, a first motor 9 is connected at the right side of the granulating cylinder 3, a cutter rest 10 is installed at the left side of the first motor 9, the cutter rest 10 is positioned in the granulating cylinder 3, a stirring paddle 11 is installed at the bottom of the granulating cylinder 3, the middle of the stirring paddle 11 is connected with a second motor 12, the second motor 12 is installed at the left side of the inside of the machine body 1, a discharging pipe 13 is connected at the left side of the granulating cylinder 3, a baffle 14 is arranged at the right side of the inside of the discharging pipe 13, the baffle 14 is connected with a second air cylinder 15, the second air cylinder 15 is installed at the left side of the discharging pipe 13, and a drying dispersing device 16 is arranged at the lower end of the discharging pipe 13 is also included.

Referring to fig. 3, the drying and dispersing device 16 in this embodiment includes a drying box 161 connected to the lower end of the discharging pipe 13, and a feed inlet is correspondingly formed at the upper end of the right side of the drying box 161, so as to implement rapid drying of the material, a shaking drying assembly 162 mounted at the upper end inside the drying box 161, so as to implement auxiliary shaking drying of the granular material in cooperation with the shaking drying assembly 162, reduce the occurrence of the subsequent phenomenon of adhesion of the granular material, a receiving assembly 163 connected to the middle of the drying box 161, so as to implement auxiliary shock absorption and receiving of the granular material in cooperation with the drying box 161, reduce the occurrence of falling and crushing phenomena at a high position, and a receiving box 164 mounted at the lower end of the drying box 161.

Referring to fig. 4-5, the shake drying assembly 162 in this embodiment includes a supporting shell 1621 fastened to the upper end of the interior of the drying cabinet 161 to achieve stable supporting and matching, a spring plate 1622 correspondingly installed at four corners of the interior of the supporting shell 1621 for elastic return and transmission and matching, a receiving plate 1623 connected to the upper end of the spring plate 1622 provided at four sides, the receiving plate 1623 being integrally provided in a transverse plate shape, and a heat conducting plate 1624 correspondingly installed at the bottom of the lower recess of the upper end of the receiving plate 1623 being provided in a concave shape in the interior of the upper end of the receiving plate 1623, so as to achieve uniform heat conducting and drying and matching with the heat conducting plate 1624, and a heating plate 1625 correspondingly installed at the lower end of the heat conducting plate 1624, and five heating plates 1625 being provided inside the receiving plate 1623 from left to right, thereby achieving efficient drying and matching, a push-pull structure 16a installed inside the supporting shell 1621 and connected to the left spring plate 1622.

The push-pull structure 16a comprises a servo motor 16a1 connected to the inner bottom of the supporting shell 1621, a cam 16a2 installed at the front output end of the servo motor 16a1 to realize circumferential rotation push fit, a cross rod 16a3 transversely propped against the left side of the cam 16a2 to match with transverse pushing movement, a moving plate 16a4 vertically fixedly connected to the right side of the cross rod 16a3, a guide rod 16a5 vertically symmetrically and transversely inserted into the moving plate 16a4 to assist in realizing transverse movement guide fit, and a fixing plate 16a6 fixedly connected to the right side of the guide rod 16a5 and the inner bottom of the supporting shell 1621, so that stable maintenance of transverse movement guide states of the two guide rods 16a5 is realized, a pressure spring 16a7 corresponding to the outer ends of the guide rods 16a5 on two sides to assist in realizing elastic reset transmission is realized, a connecting rod 16a8 connected to the upper end of the moving plate 16a4 in a rotating mode, the left side of the connecting rod 16a8 is connected with the left side of the left side 1622, the connecting rod 16a8 is ensured to be connected with the left side of the left side 1622, and stable intermittent pulling of the left side spring leaf 1622 is realized.

The spring piece 1622 is fastened and connected with four corners of the bottom of the bearing plate 1623 by bolts, and the four-side spring piece 1622 is arranged in a synchronous installation direction, so that the spring piece 1622 is ensured to realize stable elastic reset transmission fit everywhere; the outer surface of the cam 16a2 is smooth and is polished without barbs, the right side of the cam 16a2 is propped against the left end of the cross rod 16a3 to be in an inclined block shape, smooth transmission propped against the outer side of the cam 16a2 and the left side of the cross rod 16a3 is ensured, and smooth and non-blocking of intermittent transverse movement is realized.

Referring to fig. 6, the receiving assembly 163 in this embodiment includes a tube 1631 mounted at the inner middle end of the supporting housing 1621, receiving chamfers 1632 corresponding to the receiving chamfers 1632 disposed at the upper end of the tube 1631 for improving the material guiding smoothness, and receiving members 1633 arranged in an array on the left and right sides of the tube 1631 for achieving a shock absorbing receiving fit.

Specifically, the receiving element 1633 includes a supporting rod 16331 that is fastened and inserted at the left and right sides of the inside of the catheter 1631 to achieve stable supporting and matching, and a cotton strip 16332 that is correspondingly sleeved at the outer side of the supporting rod 16331, so as to match the cotton strip 16332 to achieve flexible receiving and matching of the granular material.

Specifically, the carrying pieces 1633 are arranged in a left-right three-two state along the inside of the catheter 1631, and a space exists between the carrying pieces 1633, so that the mutual matching of the carrying pieces 1633 at a plurality of positions is ensured, and the anti-crushing guide collection of the granular materials is realized.

The working principle is as follows:

When food is to be granulated, food powder can be poured into the granulating cylinder 3 from the feed hopper 6 arranged at the upper end of the sealing cover 4, so that the powder enters the granulating cylinder 3 in advance, then, the operation of the second motor 12 can be realized through the controller 2 arranged at the upper end of the front side of the machine body 1, so that the stirring paddles 11 connected with the upper end of the second motor 12 can rapidly rotate, the operation mixing of the food powder is realized, the powder is enabled to rapidly flip and mix along the inside of the granulating cylinder 3, meanwhile, the exhaust pipe 8 arranged at the other side of the upper end of the sealing cover 4 is needed, the exhaust activity is realized, after the powder is fully mixed, the injection of adhesive can be carried out through the grouting pipe 7, so that the material moving in a fluidized state is wetted to become soft material, meanwhile, the first motor 9 arranged at the right side of the granulating cylinder 3 can realize the operation of the left side connected cutting tool rest 10, the cutting tool rest 10 is matched with the stirring paddles 11 which rapidly rotate, the material can be fully flipped and sheared, so that the material is enabled to be finally stable into a particle state, when the discharging activity is needed, the discharging activity is stopped, the material is enabled to rapidly flipped and the granulating cylinder 13 can be rapidly processed along with the left side of the granulating cylinder 13, the granulating cylinder is enabled to rapidly, the granulating cylinder 13 is enabled to rapidly move along with the left side of the granulating cylinder 13, and the granulating cylinder is enabled to be blocked by the left side of the stirring cylinder 13;

In order to ensure that the derived granular materials are not easy to adhere to each other when being stacked, the shaking drying component 162 is arranged at the lower end of the discharging pipe 13, firstly, the shaking drying component 162 is operated to operate the heating plates 1625 at a plurality of positions, the heating plates 1625 are matched with the heat conducting plate 1624 connected with the top to perform the whole preheating activity of the bearing plate 1623, after the whole heating plate 1623 is preheated to a proper temperature, the granular materials can fall to the upper end of the bearing plate 1623 to realize the auxiliary drying activity, meanwhile, the servo motor 16a1 arranged in the push-pull structure 16a is operated to enable the servo motor 16a1 to perform the circumferential rotation of the front side connecting cam 16a2, so that the cam 16a2 intermittently realizes the pushing of the right side against the cross bar 16a3, the cross bar 16a3 drives the moving plate 16a4 to move right in advance, and cooperates with the guide bar 16a5 which is transversely inserted up and down to realize the stable right movement activity, thus, the pressure spring 16a7 arranged outside the guide bar 16a5 can be extruded, simultaneously, the connecting rod 16a8 with the upper end connected in a rotating way can be matched to pull the spring piece 1622 arranged at the lower end of the left side of the bearing plate 1623, so that the left side spring piece 1622 is inclined integrally and correspondingly realizes the inclination of the right side bottom connected spring piece 1622 along with the right shift of the bearing plate 1623, thus, the spring pieces 1622 arranged at the four corners of the bottom of the bearing plate 1623 are inclined synchronously, when the cam 16a2 is rotated and reset, the transverse pushing force can be relieved, the spring 16a7 and the spring pieces 1622 arranged at the four corners rebound rapidly, the moving plate 16a4 and the bearing plate 1623 move and reset rapidly and leftwards, the bearing plate 1623 reset rapidly can realize transverse shaking movement to correspondingly shake the upper end received particle materials, the outer surface of the particle materials can realize uniform heated and dried movement, secondly, the particle materials driven by the left shaking and right shaking fall out from the left side or the right side of the bearing plate 1623, the convenient discharging movement is realized, so that the advantages of auxiliary carrying, shaking and drying treatment of the granular materials and reduction of the follow-up mutual adhesion can be achieved;

And when the particle material falls out from the bearing plate 1623, in order to avoid the phenomenon of high falling and crushing of the particle material, the bearing assembly 163 is further arranged at the middle end inside the drying box 161, namely, the falling particle material can be contacted with the bearing members 1633 arranged on the left side and the right side inside the guide tube 1631, and the cotton strips 16332 are sleeved on the outer sides of the bearing members 1633, so that the flexible bearing of the particle material can be realized, the falling impact force is reduced, the bearing members 1633 arranged in a manner of being obliquely distributed along a plurality of positions of the bearing particle material can realize stable transmission and guide, so as to quickly fall into the inside of the material receiving box 164 arranged at the lower end of the drying box 161, and the stable collection of the particle material is performed, thereby achieving the advantages of assisting in flexible bearing of the particle material and reducing the phenomenon of falling and crushing.

The utility model provides a high-speed mixing granulator for food, which is provided with a drying and dispersing device 16, namely a heat conducting plate 1624 and a heating plate 1625, so that the drying of granular materials can be assisted, meanwhile, the intermittent pushing of a cam 16a2 and a cross rod 16a3 is matched, a connecting rod 16a8 is enabled to intermittently support a plate 1623 to transversely move, and the rapid resetting is carried out by matching with spring plates 1622 arranged at four corners of the bottom, so that the left and right shaking is achieved, the drying of the granular materials is improved, the rapid guiding of the granular materials is fully carried out, the auxiliary supporting shaking drying treatment of the granular materials is achieved, the subsequent mutual bonding is reduced, and supporting components 163, namely supporting components 1633 distributed on the left side and the right side of the inside of a conduit 1631 are arranged, the flexible supporting of the granular materials can be carried out, and the falling impact force is reduced, so that the advantages of the auxiliary flexible supporting and the falling and crushing phenomena of the granular materials are achieved.

The foregoing is merely a preferred example of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (8)

1. The utility model provides a high-speed mixer granulator for food, includes organism (1), controller (2) are installed to organism (1) front side upper end, an in-process pelletization section of thick bamboo (3) are tightly fixed at organism (1) left side top, pelletization section of thick bamboo (3) upper end cover is equipped with sealed lid (4), sealed lid (4) right side end meets has first cylinder (5), sealed lid (4) upper end distributes has feeder hopper (6), slip casting pipe (7) and blast pipe (8), pelletization section of thick bamboo (3) right side meets first motor (9), cutting knife rest (10) are installed in first motor (9) left side, and cutting knife rest (10) are in pelletization section of thick bamboo (3) inside, agitating vane (11) are installed to pelletization section of thick bamboo (3) bottom, and agitating vane (11) middle part meets with second motor (12), second motor (12) are installed in organism (1) inside left side, pelletization section of thick bamboo (3) left side meets discharging pipe (13), discharging pipe (13) inside right side is equipped with baffle (14), left side and is installed in second cylinder (15) and is connected with second cylinder (15);

The method is characterized in that: the drying and dispersing device (16) is arranged at the lower end of the discharging pipe (13), and the drying and dispersing device (16) comprises a drying box (161) connected to the lower end of the discharging pipe (13), a shaking drying assembly (162) arranged at the upper end inside the drying box (161), a bearing assembly (163) connected to the middle part of the drying box (161) and a material receiving box (164) arranged at the lower end of the drying box (161).

2. A high speed mixer granulator for food products according to claim 1, characterized in that: the shaking drying assembly (162) comprises a supporting shell (1621) fastened at the upper end inside the drying box (161), spring pieces (1622) arranged at four corners inside the supporting shell (1621), a bearing plate (1623) connected to the upper ends of the spring pieces (1622) arranged on four sides, a heat conducting plate (1624) arranged inside the bearing plate (1623), a heating plate (1625) correspondingly arranged at the lower end of the heat conducting plate (1624), and a push-pull structure (16 a) arranged inside the supporting shell (1621) and connected with one side of the spring pieces (1622).

3. A high speed mixer granulator for food according to claim 2, characterized in that: the push-pull structure (16 a) comprises a servo motor (16 a 1) connected to the inner bottom of a supporting shell (1621), a cam (16 a 2) arranged on the front side of the servo motor (16 a 1), a cross rod (16 a 3) propped against the left side of the cam (16 a 2), a movable plate (16 a 4) fixedly arranged on the right side of the cross rod (16 a 3), guide rods (16 a 5) inserted into the two sides of the interior of the movable plate (16 a 4), a fixed plate (16 a 6) fastened on the right side of the guide rods (16 a 5) and fixedly connected with the inner bottom of the supporting shell (1621), a pressure spring (16 a 7) correspondingly arranged on the outer side of the guide rods (16 a 5) and a connecting rod (16 a 8) rotatably connected to the upper end of the movable plate (16 a 4), and the left side of the connecting rod (16 a 8) is connected with one side of the spring piece (1622).

4. A high speed mixer granulator for food products according to claim 1, characterized in that: the receiving assembly (163) comprises a catheter (1631) arranged at the middle end inside the supporting shell (1621), receiving chamfers (1632) correspondingly arranged at the upper end of the catheter (1631), and receiving members (1633) arranged on two sides inside the catheter (1631) in an array mode.

5. The high-speed mixer granulator for food according to claim 4, wherein: the receiving piece (1633) comprises a supporting rod (16331) which is fixedly inserted into the two sides of the interior of the catheter (1631) and cotton strips (16332) which are correspondingly sleeved on the outer sides of the supporting rod (16331).

6. A high speed mixer granulator for food according to claim 2, characterized in that: the spring piece (1622) is connected with four corners of the bottom of the bearing plate (1623) in a bolt fastening way, and the four sides of the spring piece (1622) are arranged in a synchronous installation direction.

7. A high speed mixer granulator for food products according to claim 3, characterized in that: the outer surface of the cam (16 a 2) is smooth and is in barb-free polishing, and the right side of the cam (16 a 2) abuts against the left end of the cross rod (16 a 3) to form an inclined block shape.

8. The high-speed mixer granulator for food according to claim 4, wherein: the bearing pieces (1633) are arranged in a left-right state along the inside of the catheter (1631), and a space exists between the bearing pieces (1633) in connection.