CN218790136U - Selenium-enriched biscuit rapid forming device - Google Patents

Abstract

The utility model discloses a selenium-enriched biscuit rapid forming device, which comprises an extruder and a rapid forming device, wherein the rapid forming device is arranged at the discharge end of the extruder and comprises a material distribution strip, a forming strip, an adjusting device and a fixing frame, the fixing frame is arranged on the extruder, the adjusting device is arranged on the fixing frame and used for the displacement of the forming strip, the material distribution strip is arranged on the discharge hole of the extruder and used for leading the extrusion material into the forming strip, and the forming strip is arranged on the adjusting device; the material distribution strip comprises an extrusion strip, a rodless cylinder, a cutting steel wire, a sealing slide block and an adjusting screw rod, and one side of the extrusion strip is provided with a material guide chute; the utility model discloses a selenium-enriched biscuit rapid prototyping device, its simple structure, convenient and practical through material separating strip and shaping strip cooperation batch shaping biscuit, the biscuit of producing different appearances simultaneously as required is more changed into shaping piece and quantity to the realization goes out the biscuit of different appearances and quantity at every turn.

Description

Selenium-enriched biscuit rapid forming device

Technical Field

The utility model belongs to quick forming device field, concretely relates to quick forming device of rich selenium biscuit.

Background

The selenium-rich biscuit is prepared by a series of fermentations of vegetable raw materials under the action of selenium-rich yeast, the toxic and side effects are small, and the selenium-rich biscuit is safe and safe to eat; the selenium-rich biscuit has new functions on the basis of the biscuit. The dietary high-fiber selenium-rich biscuit can better promote digestion of food by stomach and is convenient for nutrient absorption.

Generally can adopt the extruder during the production of selenium-enriched biscuit, cut into the equal amount of ball with the biscuit in advance, through make-up machine with the material ball directly on the conveyer belt pressure system design, this processing is although convenient, but this kind of pressing mode need adopt an solitary pressing equipment to process, its area is great relatively, and cost of maintenance is higher relatively, and the phenomenon of material adhesion appears easily when high-speed suppression.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a selenium-enriched biscuit rapid prototyping device is provided, its simple structure, convenient and practical through material separating strip and shaping strip cooperation batch shaping biscuit, the biscuit of the different appearance of production is changed forming block and quantity as required simultaneously to the realization goes out the biscuit of different appearance and quantity at every turn.

A selenium-rich biscuit rapid forming device comprises an extruder and a rapid forming device, wherein the rapid forming device is arranged at the discharge end of the extruder and comprises a material distributing strip, a forming strip, an adjusting device and a fixing frame, the fixing frame is arranged on the extruder, the adjusting device is arranged on the fixing frame and used for displacement of the forming strip, the material distributing strip is arranged on the discharge hole of the extruder and used for leading an extruding material into the forming strip, and the forming strip is arranged on the adjusting device; divide the material strip including extrusion strip, rodless cylinder, cutting off steel wire, sealing slide and adjusting screw, the guide spout has been seted up to extrusion strip one side, set up the discharge opening with extruder discharge gate intercommunication in the guide spout, the screw has all been seted up on the lateral wall of guide spout both ends, two sealing slide sets up in the guide spout and is located the discharge opening both sides, two adjusting screw's one end and the sealing slide swing joint that corresponds and the other end pass and correspond the complex screw, two rodless cylinder is installed respectively in extrusion strip upper and lower both sides, two rodless cylinder's piston rod is through cutting off the steel wire and connecting.

Preferably, adjusting device is including adjusting cylinder, regulation pole, dead lever, commentaries on classics board, fixed plate and high accuracy locating lever, adjusting cylinder one end swing joint on the mount and piston rod and regulation pole swing joint, two change board swing joint on the dead lever, change board one end and adjust pole swing joint and the other end and be connected with the displacement cylinder, the displacement cylinder piston rod is connected with the fixed plate, the dead lever is fixed on the mount, 2 at least high accuracy locating lever both ends run through corresponding fixed plate, the shaping strip is connected on the high accuracy locating lever.

Preferably, the molding strip comprises a strip molding block, a positioning hole for the high-precision positioning rod to pass through penetrates through the strip molding block, and at least one molding cavity is formed in one side, close to the material distribution strip, of the strip molding block.

Preferably, the strip-shaped forming blocks comprise a locking screw and a plurality of forming blocks, the forming blocks are connected in a sliding mode and are connected in a sliding mode, a plurality of locking holes for the locking screw to penetrate through are formed in the forming blocks, and locking nuts are arranged on the locking screw.

Preferably, a buffer pad is arranged on the fixing plate.

Preferably, the steel wire is arranged against the extruded strip.

Preferably, including the displacement frame, the dead lever both ends are connected with on the no pole displacement cylinder piston rod, no pole displacement cylinder is installed on the mount, adjust cylinder swing joint is on the displacement frame, the displacement frame both ends are fixed on no pole displacement cylinder piston rod.

Has the advantages that:

(1) The utility model discloses a quick forming device of selenium-enriched biscuit, its simple structure, convenient and practical through material separating strip and shaping strip cooperation shaping biscuit in batches, the biscuit of the different appearance of production is changed forming block and quantity as required simultaneously to the realization goes out the biscuit of different appearance and quantity at every turn.

(2) The utility model discloses a quick forming device of rich selenium biscuit rotates through adjusting device control shaping strip for the shaping strip carries out the quick drawing of patterns and extrudes a cooperation filling material, reaches to accomplish the biscuit shaping action fast.

Drawings

FIG. 1 is a schematic structural view of a rapid prototyping apparatus;

FIG. 2 is a schematic view of the structure of the adjusting device;

FIG. 3 is a schematic side view of the adjustment device;

FIG. 4 is a schematic structural view of a molding bar;

FIG. 5 is a schematic structural view of a material distribution bar;

1-extruder, 2-material distribution strip, 21-extrusion strip, 22-screw hole, 23-rodless cylinder, 24-cutting steel wire, 25-guide chute, 26-discharge hole, 27-sealing slide block, 28-adjusting screw rod, 3-forming strip, 31-strip forming block, 32-positioning hole, 33-locking hole, 34-locking screw rod, 35-forming block, 36-forming cavity, 4-adjusting device, 41-adjusting cylinder, 42-adjusting rod, 43-fixing rod, 44-rotating plate, 45-displacement cylinder, 46-fixing plate, 47-cushion pad, 48-high-precision positioning rod, and 5-fixing frame.

Detailed Description

The following further describes the embodiments of the present invention with reference to the drawings.

Example 1

As shown in fig. 1; a selenium-rich biscuit rapid forming device comprises an extruder 1 and a rapid forming device, wherein the rapid forming device is installed at the discharge end of the extruder 1 and comprises a material distribution strip 2, a forming strip 3, an adjusting device 4 and a fixing frame 5, the fixing frame 5 is installed on the extruder 1, the adjusting device 4 is installed on the fixing frame 5 and used for displacing the forming strip 3, the material distribution strip 2 is installed on the discharge port of the extruder 1 and used for guiding an extrusion material into the forming strip 3, and the forming strip 3 is installed on the adjusting device 4; the material distribution strip 2 comprises an extrusion strip 21, rodless cylinders 23, cutting steel wires 24, sealing slide blocks 27 and adjusting screw rods 28, a material guide chute 25 is formed in one side of the extrusion strip 21, discharge holes 26 communicated with a discharge port of the extruder 1 are formed in the material guide chute 25, screw holes 22 are formed in side walls of two ends of the material guide chute 25, the two sealing slide blocks 27 are arranged in the material guide chute 25 and located on two sides of the discharge holes 26, one end of each of the two adjusting screw rods 28 is movably connected with the corresponding sealing slide block 27, the other end of each of the two adjusting screw rods passes through the corresponding matched screw hole 22, the two rodless cylinders 23 are respectively installed on the upper side and the lower side of the extrusion strip 21, and piston rods of the two rodless cylinders 23 are connected through the cutting steel wires 24; the adjusting device 4 comprises an adjusting cylinder 41, an adjusting rod 42, a fixing rod 43, rotating plates 44, fixing plates 46 and a high-precision positioning rod 48, one end of the adjusting cylinder 41 is movably connected to the fixing frame 5, a piston rod is movably connected with the adjusting rod 42, the two rotating plates 44 are movably connected to the fixing rod 43, one end of each rotating plate 44 is movably connected with the adjusting rod 42, the other end of each rotating plate 44 is connected with a displacement cylinder 45, a piston rod of each displacement cylinder 45 is connected with the fixing plate 46, the fixing rod 43 is fixed on the fixing frame 5, two ends of at least 2 high-precision positioning rods 48 penetrate through the corresponding fixing plates 46, and the molding strips 3 are connected to the high-precision positioning rods 48; the forming strip 3 comprises a strip forming block 31, a positioning hole 32 through which a high-precision positioning rod 48 penetrates is arranged on the strip forming block 31, and at least one forming cavity 36 is formed in one side, close to the distributing strip 2, of the strip forming block 31; the strip-shaped forming blocks 31 comprise locking screws 34 and a plurality of forming blocks 35, the adjacent forming blocks 35 are connected in a sliding manner, locking holes 33 for the locking screws 34 to pass through penetrate through the plurality of forming blocks 35, and locking nuts are arranged on the locking screws 34; a cushion pad 47 is arranged on the fixing plate 46; the steel wire 24 is arranged close to the extrusion strip 21; including the displacement frame, dead lever 43 both ends are connected with on the no pole displacement cylinder piston rod, no pole displacement cylinder installs on mount 5, adjust cylinder 41 swing joint is on the displacement frame, the displacement frame both ends are fixed on no pole displacement cylinder piston rod.

The extruder 1 mixes and extrudes various materials, and the extruder is the prior art and is not described herein in any greater detail; specifically, after the extruder 1 extrudes the material, the material enters the corresponding forming cavity 36 through the discharge hole 26 and the material guide chute 25, and the displacement cylinder 45 drives the fixing plate 46 and the high-precision positioning rod 48 to move, so that the strip-shaped forming block 31 is separated from the extruded strip 21 by a certain distance, the distance is provided for the cut steel wire 24 to pass through, and the two rodless cylinders 23 drive the cut steel wire 24 to cut off the material between the strip-shaped forming block 31 and the extruded strip 21, thereby completing biscuit forming; when the biscuit is demoulded, the adjusting cylinder 41 drives the adjusting rod 42 to move, the moving track of the adjusting rod 42 moves around the fixing rod 43, so that the forming cavity 36 of the strip-shaped forming block 31 turns downwards towards the material distribution strip 2, the belt conveyor is arranged below the forming cavity, the fixing plate 46 and the high-precision positioning rod 48 are driven to move through the displacement cylinder 45, the strip-shaped forming block 31 is attached to the belt conveyor, preferably, a striking block is arranged on the belt conveyor to improve the inertia force of biscuit demoulding, mainly, a cushion pad 47 on the fixing plate 46 strikes on the striking block, and when the strip-shaped forming block 31 moves downwards, the biscuit formed in the forming cavity 36 is suddenly stopped due to striking to inertia to continue moving so as to realize demoulding; the positioning holes 32 are matched with the high-precision positioning rods 48, so that the plurality of forming blocks 35 are positioned on the same horizontal plane, when the forming blocks 35 are attached to the extrusion strips 21 tightly, gaps can not appear to cause material to climb out, the adjacent forming blocks 35 are preferably connected in a dovetail groove mode, if the forming blocks 35 are attached to or not connected, the plurality of forming blocks 35 are tightly pressed together through the matching of locking screw rods and locking nuts, and the positions of the sealing sliding blocks 27 are adjusted by rotating the adjusting screw rods 28 according to the number of the forming blocks 35; the position of the molding strip 3 after rotation can also move transversely by arranging the rodless displacement cylinder, so that molded biscuits can be directly and orderly demoulded in the baking tray to carry out the next process when the baking tray is arranged on the belt conveyor.

The above detailed description of the embodiments of the present invention is only for exemplary purposes, and the present invention is not limited to the above detailed description. Any equivalent modifications and substitutions for the present invention are within the scope of the present invention for those skilled in the art. Accordingly, variations and modifications in equivalents may be made without departing from the spirit and scope of the invention, which is intended to be covered by the following claims.

Claims (7)

1. The utility model provides a selenium-enriched biscuit rapid prototyping device, including extruder (1) and rapid prototyping device, rapid prototyping device installs on extruder (1) discharge end, its characterized in that: the rapid forming device comprises a distributing strip (2), a forming strip (3), an adjusting device (4) and a fixing frame (5), wherein the fixing frame (5) is installed on the extruder (1), the adjusting device (4) is installed on the fixing frame (5) and used for displacement of the forming strip (3), the distributing strip (2) is installed on a discharge port of the extruder (1) and used for guiding an extruded material into the forming strip (3), and the forming strip (3) is installed on the adjusting device (4); divide material strip (2) including extrusion strip (21), rodless cylinder (23), cut off steel wire (24), sealing slide (27) and adjusting screw (28), guide spout (25) have been seted up to extrusion strip (21) one side, discharge opening (26) with extruder (1) discharge gate intercommunication have been seted up in guide spout (25), screw (22) have all been seted up on guide spout (25) both ends lateral wall, two sealing slide (27) set up in guide spout (25) and lie in discharge opening (26) both sides, two the one end of adjusting screw (28) and corresponding sealing slide (27) swing joint and the other end pass and correspond complex screw (22), two rodless cylinder (23) are installed respectively in extrusion strip (21) upper and lower both sides, two the piston rod of rodless cylinder (23) is connected through cutting off steel wire (24).

2. The selenium-rich biscuit rapid molding device as claimed in claim 1, characterized in that: adjusting device (4) are including adjusting cylinder (41), regulation pole (42), dead lever (43), commentaries on classics board (44), fixed plate (46) and high accuracy locating lever (48), adjusting cylinder (41) one end swing joint is on mount (5) and piston rod and regulation pole (42) swing joint, two change board (44) swing joint on dead lever (43), change board (44) one end and regulation pole (42) swing joint and the other end and be connected with displacement cylinder (45), displacement cylinder (45) piston rod is connected with fixed plate (46), dead lever (43) are fixed on mount (5), 2 at least high accuracy locating lever (48) both ends run through corresponding fixed plate (46), shaping strip (3) are connected on high accuracy locating lever (48).

3. The selenium-rich biscuit rapid forming device as claimed in claim 2, characterized in that: the forming strip (3) comprises a strip forming block (31), a positioning hole (32) for a high-precision positioning rod (48) to penetrate through the strip forming block (31), and at least one forming cavity (36) is formed in one side, close to the distributing strip (2), of the strip forming block (31).

4. The selenium-enriched biscuit rapid prototyping device of claim 3, characterized in that: strip-shaped forming block (31) is including locking screw (34) and a plurality of shaping piece (35), and is adjacent shaping piece (35) sliding connection, a plurality of it has locking hole (33) that supply locking screw (34) to pass to run through on shaping piece (35), be provided with lock nut on locking screw (34).

5. The selenium-rich biscuit rapid forming device of claim 4, characterized in that: the fixing plate (46) is provided with a buffer pad (47).

6. The selenium-rich biscuit rapid forming device as claimed in claim 5, characterized in that: the steel wire (24) is arranged in close contact with the extrusion strip (21).

7. The selenium-rich biscuit rapid prototyping device of claim 2 or 6, characterized in that: including the displacement frame, dead lever (43) both ends are connected with on the no pole displacement cylinder piston rod, no pole displacement cylinder installs on mount (5), adjust cylinder (41) swing joint is on the displacement frame, the displacement frame both ends are fixed on no pole displacement cylinder piston rod.

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