CN117138985B - Solid-liquid separation device for food additive raw material treatment - Google Patents

Abstract

The invention provides a solid-liquid separation device for food additive raw material treatment, which relates to the technical field of raw material solid-liquid separation, wherein the main body of a bracket is of a hollow structure, a motor A is arranged on the rear end face of the bracket, a rotary table is arranged on the front end output shaft of the motor A, the problem that the existing solid-liquid separation device is low in efficiency when in solid-liquid separation operation due to the fact that centrifugal separation is adopted for solid-liquid separation, and further storage and packaging are easily caused by incomplete water removal in a powdery additive when in solid-liquid separation, and the rotary table, a guide rod B and a heating assembly are rotatably connected, so that the water evaporation in a material barrel can be accelerated through heat generated when the heating assembly is electrified when the device is used, and the mixing operation of materials in the material barrel can be realized through rotation of the heating assembly.

Description

Solid-liquid separation device for food additive raw material treatment

Technical Field

The invention relates to the technical field of solid-liquid separation of raw materials, in particular to a solid-liquid separation device for treating raw materials of food additives.

Background

The food additive is a chemical synthetic or natural substance added into food for improving the quality and color, fragrance and taste of the food and for the needs of preservation and processing technology, and generally contains liquid in the additive during processing, so that the additive has better service performance during subsequent use, and needs to be subjected to solid-liquid separation for subsequent use.

In view of the above, the present invention has been made in view of the above problems and has an object to provide a solid-liquid separator for treating a raw material of a food additive, which is more practical.

Disclosure of Invention

In order to solve the technical problems, the invention provides a solid-liquid separation device for treating food additive raw materials, which solves the problems that the existing solid-liquid separation device is low in efficiency when in separation and is easy to influence the subsequent storage and packaging due to incomplete removal of water in powdery additives when in solid-liquid separation because the solid-liquid separation is carried out in a centrifugal separation mode.

The invention provides a solid-liquid separation device for food additive raw material treatment, which specifically comprises a bracket, wherein the bracket is fixedly connected to the top end surface of a base, the main body of the bracket is of a hollow structure, a motor A is arranged on the rear end surface of the bracket, a rotary table is arranged on the front end output shaft of the motor A, and the motor A and the rotary table jointly form an adjusting structure.

Further, the inside of the support frame on the right side is inserted with a guide rod A, the guide rod A is hinged with the connecting rod, the turntable, the guide post and the connecting rod form a driving structure for the guide rod A together, and the outside of the guide rod A is fixedly connected with the turntable.

Furthermore, the connecting rod is rotationally connected with the guide post, the guide post and the connecting rod form a reciprocating structure together, and the top end surface of the base is fixedly connected with a supporting frame.

Further, the support frame is equipped with two places altogether, and two support frames are linear array fixed connection in the left and right sides position of base terminal surface, and support frame and base have formed the support structure jointly.

Further, the heating component is rotationally connected to the left end face of the turntable in an annular array, the heating component and the turntable form a heating structure together, and the left end face of the heating component is fixedly connected with the guide rod B.

Further, a guide post is eccentrically and fixedly connected to the front end face of the rotary table, the rotary table and the guide post form a driving structure together, and a connecting rod is installed on the outer side of the guide post.

Further, heating element is located the inboard position of feed cylinder, and guide arm A and guide arm B have formed the bearing structure to the feed cylinder jointly, and the outer peripheral face front end fixedly connected with discharging pipe of feed cylinder, the discharging pipe link up mutually with the feed cylinder, and the discharging pipe is used for ejection of compact and feeding, and the outer peripheral face top fixedly connected with blast pipe of feed cylinder, keep away from the equal fixedly connected with ring flange of one side of feed cylinder and discharging pipe in keeping away from in the blast pipe, and the outer peripheral face front end of blast pipe is installed the pump, the pump is used for following the inside extraction of feed cylinder, the pump has constituteed the exhaust structure jointly with the blast pipe, and the discharging pipe has constituteed ejection of compact structure jointly with the ring flange.

Further, the structure of the guide rod B is consistent with that of the guide rod A, a turntable is fixedly connected to the peripheral surface of the guide rod B, and the guide rod A and the guide rod B are both rotationally connected to the inner position of an annular groove formed in the charging barrel through the turntable fixedly connected to the outer side of the guide rod A and the guide rod B.

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

1. through mutually supporting of guide arm B and heating element, be in the in-process that the heating element was gasified with continuous heating in the state of being in the circular telegram, realize rotating drive to heating element through guide arm B for heating element can follow the inside circular motion of feed cylinder, realizes rotating type cooperation contact with the material in the feed cylinder, makes heating element can realize the omnidirectional contact with the material of feed cylinder inside, can laminate in order to avoid causing the raw materials to miss with the inner wall of feed cylinder through heating element's rotation, thereby accelerate solid-liquid separation efficiency.

2. Through feed cylinder and the drive cooperation of drive's connecting rod and motor A to it, when the heating element is along the inside circular motion realization of feed cylinder with the omnidirectional contact of material, the synchronous realization reciprocating rectilinear motion of feed cylinder for heating element can realize lasting rotation to the inside raw materials of feed cylinder and throw, throws the raw materials through rocking of feed cylinder and can be favorable to centrifugal force's assistance through throwing the raw materials to heating element, in order to realize accelerating the solid-liquid separation efficiency of raw materials in the feed cylinder.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

In the drawings:

FIG. 1 is a schematic view showing a front side view in a partially sectioned state of a solid-liquid separation device according to an embodiment of the present invention;

FIG. 2 is a schematic diagram showing a schematic view of a side view of a solid-liquid separation device according to an embodiment of the present invention in a partially cut-away state;

FIG. 3 is a schematic diagram showing a front side view of a solid-liquid separation device according to an embodiment of the present invention;

FIG. 4 is a schematic diagram showing a front view of a solid-liquid separation device according to an embodiment of the present invention;

FIG. 5 shows a schematic diagram of an assembly structure of a bracket and a motor A of a solid-liquid separation device according to an embodiment of the present invention;

FIG. 6 is a schematic diagram showing an assembly structure of a heating assembly and a turntable of a solid-liquid separation apparatus according to an embodiment of the present invention;

FIG. 7 is an enlarged schematic view of the solid-liquid separation device according to the embodiment of the present invention at A in FIG. 2;

fig. 8 is an enlarged schematic view of the solid-liquid separation device according to the embodiment of the present invention at B in fig. 2.

List of reference numerals

1. A base; 2. a bracket; 3. a motor A; 4. a rotating disc; 5. a guide post; 6. a connecting rod; 7. a support frame; 8. a guide rod A; 9. a turntable; 10. a heating assembly; 11. a guide rod B; 12. a guide rod; 13. a base; 14. a motor B; 15. a bevel gear A; 16. a bevel gear B; 17. a charging barrel; 18. a discharge pipe; 19. an exhaust pipe; 20. a flange plate; 21. and (3) a pump.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples.

Embodiment one: as shown in fig. 1 to 8:

the invention provides a solid-liquid separation device for treating food additive raw materials, which comprises: the bracket 2, the bracket 2 is fixedly connected on the top end face of the base 1, the main body of the bracket 2 is a hollow structure, a motor A3 is arranged on the rear end face of the bracket 2, a rotating disc 4 is arranged on the front end output shaft of the motor A3, the motor A3 and the rotating disc 4 jointly form an adjusting structure, the heating component 10 is positioned at the inner side of the charging barrel 17, the guide rod A8 and the guide rod B11 jointly form a supporting structure for the charging barrel 17, the front end of the outer peripheral surface of the charging barrel 17 is fixedly connected with a discharging pipe 18, the discharging pipe 18 is communicated with the charging barrel 17, the discharging pipe 18 is used for discharging and feeding, the top end of the outer peripheral surface of the charging barrel 17 is fixedly connected with an exhaust pipe 19, one side, far away from the charging barrel 17, of the exhaust pipe 19 is fixedly connected with a flange 20, the front end of the outer peripheral surface of the exhaust pipe 19 is provided with an extraction pump 21, the extraction pump 21 is used for extracting air from the inner part of the charging barrel 17, the suction pump 21 and the exhaust pipe 19 together form an air suction structure, the discharge pipe 18 and the flange plate 20 together form a discharge structure, when solid-liquid separation is carried out, the motor B14 arranged on the bottom end surface of the seat body 13 can be started to rotationally drive the bevel gear A15, when the bevel gear A15 rotates, the bevel gear A15 can be synchronously driven to be meshed with the bevel gear B16 arranged on the outer side of the guide rod B11 to realize that the guide rod B11 is driven to rotate in the feed cylinder 17, and the guide rod B11 drives the heating component 10 fixedly connected on the outer side of the guide rod B to correspondingly rotate and drive the heating component 10 around the left side surface of the guide rod A8, so that the heating component 10 can perform efficient heating operation through the heating wire arranged in the guide rod to promote rapid solid-liquid separation of raw materials in the feed cylinder 17, the heating assembly 10 can be driven to rotate in the charging barrel 17 through the guide rod B11 to continuously rotate and throw the raw materials in the charging barrel 17, and the solid-liquid separation efficiency of the raw materials in the charging barrel 17 is accelerated synchronously by the aid of centrifugal force, so that the aim of being more practical is fulfilled.

Wherein, be annular array rotation on the left end face of carousel 9 and be connected with heating element 10, heating element 10 and carousel 9 have formed heating structure jointly, and fixedly connected with guide arm B11 on the left end face of heating element 10, the structure of guide arm B11 is unanimous with the structure of guide arm A8, and also fixedly connected with carousel 9 on the outer peripheral face of guide arm B11, the carousel 9 rotation that guide arm A8 and guide arm B11 all are through its outside fixed connection is connected in the inside position of the ring channel of seting up in feed cylinder 17, peg graft in the inside of support frame 7 has guide bar 12, and be connected with pedestal 13 through guide bar 12.

When in use, the utility model is characterized in that: firstly, when solid-liquid separation operation is required for food additive raw materials, the raw materials required for solid-liquid separation can be put into the inner side position of the charging barrel 17 by utilizing the discharging pipe 18 arranged on the front end face of the charging barrel 17, and the discharging pipe 18 arranged on the front end face of the charging barrel 17 is synchronously closed, and when solid-liquid separation operation is required, the heating assembly 10 arranged on the inner side of the guide rod A8 and the guide rod B11 can be started, and when the heating assembly 10 is started, the liquid in the charging barrel 17 can be quickly gasified to be changed into gas by generating high temperature, and the pipeline arranged on the outside is synchronously connected with the discharging pipe 19 arranged on the top end face of the charging barrel 17, and the air outlet side of the discharging pipe 19 arranged on the top end face of the charging barrel 17 is synchronously connected with corresponding condensing equipment and a container, and the gasified liquid is again condensed and liquefied to be changed into liquid again, so that the purpose of preliminary solid-liquid separation operation for the food additive raw materials is achieved;

embodiment two: the solid-liquid separation device for food additive raw material treatment provided based on the first embodiment can realize rapid condensation separation of solid and liquid, but still cannot realize auxiliary separation of raw materials, so the device is further provided with the following technical scheme.

Wherein, the two supporting frames 7 are arranged at two positions in total, the two supporting frames 7 are in linear array and fixedly connected at the left side and the right side of the top end face of the base 1, the supporting frames 7 and the base 1 form a supporting structure together, a guide rod A8 is inserted in the supporting frame 7 at the right side, the guide rod A8 is hinged with a connecting rod 6, a rotating disc 4, a guide rod 5 and the connecting rod 6 form a driving structure for the guide rod A8 together, the outer side of the guide rod A8 is fixedly connected with a rotating disc 9, when solid-liquid separation operation is carried out, the rotating disc 4 can be driven to rotate by starting a motor A3 arranged at the rear side of the bracket 2, the guide rod 5 fixedly connected to the front end face of the rotating disc 4 can be synchronously driven to rotate when the rotating disc 4 rotates, and the connecting rod 6 arranged at the outer side of the guide rod 5 can be synchronously driven to carry out reciprocating rotation operation when the guide rod 5 rotates, and when the connecting rod 6 rotates, the connecting rod A8 connected with the connecting rod is synchronously driven to drive the charging barrel 17 arranged between the connecting rod A8 and the connecting rod B11 to carry out reciprocating linear motion operation, and the charging barrel 17 carries out reciprocating linear motion on the inner sides of the two supporting frames 7 fixedly connected to the top end surface of the base 1 to realize rapid auxiliary throwing operation of materials positioned in the charging barrel 17, and the output shaft of the bevel gear B16 passes through the connecting rod B11 and is connected with the rotatable turntable 9 and the heating assembly 10, so that the aim of more efficient and mutually matched rapid solid-liquid separation of the materials can be realized when the device rotates, the reliability and the stability of the whole device are further improved, the whole processing efficiency of the device can be greatly improved when the device is used, thereby achieving the purposes of more practicability and stability.

When the rotary type solid-liquid separation device is used, when solid-liquid separation is carried out, the motor B14 arranged on the bottom end face of the seat body 13 can be started to drive the bevel gear A15 to rotate, and when the bevel gear A15 rotates, the rotary type solid-liquid separation device can synchronously drive the bevel gear B16 arranged on the outer side of the guide rod B11 to rotate in the feed cylinder 17, and the guide rod B11 drives the heating component 10 fixedly connected on the outer side of the heating component to correspondingly rotate and drive the heating component 10 around the left side face of the guide rod A8, so that the heating component 10 can carry out efficient heating operation through the heating wire arranged in the heating component to promote the raw materials in the feed cylinder 17 to carry out rapid solid-liquid separation, and on the other hand, the heating component 10 can be driven by the guide rod B11 to rotate in the feed cylinder 17 to realize continuous rotation of the raw materials in the feed cylinder 17, and the solid-liquid separation efficiency of the raw materials in the feed cylinder 17 is accelerated by the aid of centrifugal force synchronously, and the purpose of more practical is achieved.

Embodiment III: the solid-liquid separation device for food additive raw material treatment provided based on the second embodiment can realize auxiliary separation of liquid contained in raw materials, but still cannot realize sufficient solid-liquid separation of the materials, so the solid-liquid separation device is also provided with the following technical scheme.

Wherein, eccentric fixedly connected with guide pillar 5 on the preceding terminal surface of rolling disc 4, rolling disc 4 and guide pillar 5 have constituted driving structure jointly, and link 6 is installed in the outside of guide pillar 5, link 6 and guide pillar 5 are rotation connection, and link 5 and link 6 have constituted reciprocating motion structure jointly, and fixedly connected with support frame 7 on the terminal surface of base 1, when needing to carry out solid-liquid separation operation to the food additive raw materials, can be through throwing into the inboard position of feed cylinder 17 with the raw materials that need carry out solid-liquid separation through utilizing discharging pipe 18 that sets up on the preceding terminal surface of feed cylinder 17, and synchronous to the discharging pipe 18 that sets up on the preceding terminal surface of feed cylinder 17 seal, and when carrying out solid-liquid separation operation, can start through setting up the heating element 10 inboard at guide arm A8 and guide arm B11, and when heating element 10 starts, can make the gasification of the liquid that is located in feed cylinder 17 become gaseous through producing high temperature, and synchronous with setting up the pipeline and the blast pipe 19 that set up on the terminal surface on the top of feed cylinder 17 to carry out the solid-liquid separation device through setting up on the side and the corresponding gas outlet of feed cylinder 17 and the liquid that will carry out the gasification again in order to carry out the liquid separation to the corresponding to the liquid that the condensation device.

During the use, when carrying out solid-liquid separation operation, still can be through starting the motor A3 of installing at support 2 rear side and rotate driving to carousel 4, and when carousel 4 rotates, can be synchronous drive fixed connection the guide pillar 5 on the preceding terminal surface of carousel 4 and rotate, and when guide pillar 5 rotates, can synchronous drive the connecting rod 6 that sets up in the guide pillar 5 outside and carry out reciprocal rotation operation, and when connecting rod 6 rotates, can synchronous drive the guide arm A8 that is connected rather than rotating and drive the feed cylinder 17 that sets up between guide arm A8 and guide arm B11 and carry out reciprocal rectilinear motion operation, and carry out reciprocal rectilinear motion through feed cylinder 17 in the inboard of two support frames 7 of fixed connection on base 1 terminal surface and realize carrying out quick auxiliary lifting operation with the material that is arranged in feed cylinder 17, and because helical gear B16's output shaft passes guide arm B11 and can carry out pivoted carousel 9 and heating element 10 and connect, therefore it can realize more high-efficient when rotating to carry out the connecting rod 6 and carry out reciprocal matched with each other quick solid-liquid separation's of material, and further the purpose that can reach the overall and stable device that can reach the purpose and further improve the practicality and further is stable when carrying out the overall processing.

Claims (1)

1. A solid-liquid separation device for food additive raw material treatment is characterized by comprising a support (2), wherein the support (2) is fixedly connected to the top end face of a base (1), a main body of the support (2) is of a hollowed-out structure, a motor A (3) is mounted on the rear end face of the support (2), a rotating disc (4) is mounted on the front end output shaft of the motor A (3), the motor A (3) and the rotating disc (4) jointly form an adjusting structure, a guide post (5) is eccentrically and fixedly connected to the front end face of the rotating disc (4), the rotating disc (4) and the guide post (5) jointly form a driving structure, a connecting rod (6) is mounted on the outer side of the guide post (5), the connecting rod (6) and the guide post (5) are in rotary connection, the guide post (5) and the connecting rod (6) jointly form a reciprocating motion structure, a supporting frame (7) is fixedly connected to the top end face of the base (1), the supporting frame (7) is jointly provided with two positions, the two supporting frames (7) are in a linear array and fixedly connected to the left side and right side and the right side of the supporting frame (7) of the base (1) at the left side and the right side of the supporting frame (7) are fixedly connected to the supporting frame (7) at the right side of the supporting frame (8) and are in a joint structure, the connecting rod (8) is arranged on the inner side of the supporting frame (8) and the connecting rod (8) is in a joint structure, the rotary disc (4), the guide post (5) and the connecting rod (6) form a driving structure for the guide rod A (8), the outer side of the guide rod A (8) is fixedly connected with a rotary disc (9), the left end face of the rotary disc (9) is connected with a heating assembly (10) in a ring-shaped array in a rotary mode, the heating assembly (10) and the rotary disc (9) form a heating structure together, the left end face of the heating assembly (10) is fixedly connected with a guide rod B (11), the structure of the guide rod B (11) is consistent with that of the guide rod A (8), the outer peripheral surface of the guide rod B (11) is fixedly connected with the rotary disc (9) fixedly connected with the outer side of the guide rod A (8) and the guide rod B (11) in a rotary mode, and the guide rod A (11) is connected with the inner position of an annular groove formed in the feed cylinder (17); the heating assembly (10) is located at the inner side of the charging barrel (17), the guide rod A (8) and the guide rod B (11) form a supporting structure for the charging barrel (17) together, the front end of the outer peripheral surface of the charging barrel (17) is fixedly connected with the discharging pipe (18), the discharging pipe (18) is communicated with the charging barrel (17), the discharging pipe (18) is used for discharging and feeding, the top end of the outer peripheral surface of the charging barrel (17) is fixedly connected with the exhaust pipe (19), one side, far away from the charging barrel (17), of the discharging pipe (19) is fixedly connected with the flange plate (20), of the side, far away from the charging barrel (17), of the discharging pipe (18), of the discharging pipe (19), the front end of the outer peripheral surface of the exhaust pipe (19) is provided with the extraction pump (21), the extraction pump (21) and the exhaust pipe (19) form an extraction structure together, the discharging pipe (18) and the flange plate (20) form a discharging structure together, the inside of the support frame (7) is spliced with the guide rod (12), and the guide rod (12) is connected with the seat (13) through the guide rod (12); during the use, when carrying out solid-liquid separation operation, still can drive rotary disk (4) through starting motor A (3) of installing in support (2) rear side, and when rotary disk (4) rotates, can be synchronous drive guide pillar (5) of fixed connection on rotary disk (4) front end face rotate, and when guide pillar (5) rotate, can synchronous drive connecting rod (6) that set up in guide pillar (5) outside and carry out reciprocating rotation operation, and when connecting rod (6) rotate, can synchronous drive guide arm A (8) that are connected with its rotation drive feed cylinder (17) that set up between guide arm A (8) and guide arm B (11) and carry out reciprocating rectilinear motion operation, and through feed cylinder (17) reciprocating rectilinear motion in the inboard of two places support frame (7) of fixed connection on base (1) top end face, realize carrying out quick auxiliary throwing operation with the material that is arranged in feed cylinder (17), and because helical gear output shaft B (16) and guide arm B (11) pass can carry out the purpose and increase mutually in order at the quick separation of the rotation of the cooperation of the rotatable turntable (10) and can realize.