CN112438289B

CN112438289B - Automatic pastry die-pressing equipment for food processing

Info

Publication number: CN112438289B
Application number: CN202011131057.7A
Authority: CN
Inventors: 肖贵明
Original assignee: Fujian Quanzhou Haisiyuan Food Co ltd
Current assignee: Fujian Quanzhou Haisiyuan Food Co ltd
Priority date: 2020-10-21
Filing date: 2020-10-21
Publication date: 2022-04-29
Anticipated expiration: 2040-10-21
Also published as: CN112438289A

Abstract

The invention relates to automatic die-pressing equipment, in particular to automatic die-pressing equipment for pastry for food processing. To provide an automatic molding machine for food-processing dough capable of continuously cutting dough, extruding and distributing dough. The automatic pastry die-pressing equipment for food processing comprises a base and a motor, wherein the motor is connected to one side of the top of the base; the motor is positioned on the side part of the rack; the linear reciprocating mechanism is connected between an output shaft of the motor and the base; the feeding mechanism is connected between the base and the linear reciprocating mechanism; the die pressing mechanism is connected between the frames. Through the cooperation between straight reciprocating motion mechanism, feeding mechanism, die pressing mechanism and the unloading mechanism, can realize constantly cutting, conveying and the shaping of extrusion dough to the dough, just so need not the artifical dough that constantly cuts, improve people's work efficiency.

Description

Automatic pastry die-pressing equipment for food processing

Technical Field

The invention relates to automatic die-pressing equipment, in particular to automatic die-pressing equipment for pastry for food processing.

Background

Before making the pastry, the mixture of the flour and other components needs to be continuously kneaded together to ensure that the mixture has enough hardness and can be kneaded or wound, then the dough is cut into small dough, the small dough is extruded and formed by using a tool, the operation needs to manually and repeatedly cut the dough, then the small dough needs to be extruded by continuously using the tool, the specification of the manufactured pastry is inconsistent due to the fact that the extrusion size is possibly inconsistent, and the operation is troublesome, time-consuming and labor-consuming.

In order to solve the problems of troublesome operation and time and labor waste of the manual pastry making, the automatic pastry die-pressing equipment for food processing is developed, and can realize continuous cutting of dough, extrusion and distribution of the dough.

Disclosure of Invention

In order to overcome the defects of troublesome operation and time and labor waste of manual pastry making, the technical problem to be solved is as follows: to provide an automatic molding machine for food-processing dough capable of continuously cutting dough, extruding and distributing dough.

The technical scheme of the invention is as follows: an automatic molding device for pastry for food processing, comprising:

the motor is connected to one side of the top of the base;

the motor is positioned on the side part of the rack;

the linear reciprocating mechanism is connected between an output shaft of the motor and the base;

the feeding mechanism is connected between the base and the linear reciprocating mechanism;

the die pressing mechanism is connected between the racks;

and the blanking mechanism is connected between the base and the die pressing mechanism.

Further, the linear reciprocating mechanism includes:

the two sides of the top of the base are both connected with guide rods;

the guide rod is rotatably connected with a first rotating shaft between two sides close to the motor, and the first rotating shaft is connected with the feeding mechanism;

the two sides of the first rotating shaft are connected with second gears;

the output shaft of the motor is connected with a first gear which is meshed with a second gear on one side;

the eccentric positions of the outer sides of the second gears are connected with a second rotating shaft;

the second connecting rods are rotatably arranged on the second rotating shafts;

the guide rod is connected with the first connecting rod in a sliding mode, the side, far away from the first rotating shaft, of the guide rod, and the two sides of the first connecting rod are connected with the second connecting rod at the same side in a rotating mode;

the first connecting rod is connected with an umbrella-shaped diagonal rod, and the umbrella-shaped diagonal rod is in extrusion fit with the die pressing mechanism.

Further, feeding mechanism includes:

the four sides of the top of the base are connected with supporting rods, and the fourth rotating shaft is rotatably connected between the longitudinal supporting rods;

the fourth rotating shaft is connected with the conveying assembly;

the supporting rods on the left side of the third rotating shaft are connected with the third rotating shaft in a rotating mode;

the third rotating shaft and the first rotating shaft are connected with the same side of the second rotating shaft through the second connecting rod;

the outer sides of the third rotating shafts are connected with the gear lacking wheels;

and both sides of a fourth rotating shaft on the left side of the third gear are connected with the third gear, and the third gear is meshed with the missing gear on the same side.

Further, the compression molding mechanism includes:

the outer sides of the racks are connected with third connecting rods;

the tops of the third connecting rods are connected with the guide blocks;

the annular inclined rods are connected between the guide blocks in a sliding manner;

the two sides of the top of the annular inclined rod are connected with the fourth connecting rod;

the first fixing rod is connected between the fourth connecting rods;

the top of the first fixing rod is connected with a first U-shaped rod;

the spring rods are connected to the fourth connecting rod in a sliding mode and are connected with the blanking mechanism;

the first springs are connected between the spring rods and the fourth connecting rods on the same side, and are sleeved outside the spring rods;

the fixing plate is connected between the tops of the racks;

the T-shaped pressure rod is connected between the two sides of the fixing plate in a sliding manner;

the two sides of the bottom of the T-shaped pressure rod are connected with the die;

and the second springs are connected between two sides of the upper part of the T-shaped pressing rod and two sides of the top of the fixed plate and are sleeved outside the T-shaped pressing rod.

Further, unloading mechanism is including:

the top of the base is connected with the double-hole fixing block on one side far away from the rack;

the two sides of the double-hole fixing block are connected with the discharging cylinders for placing dough;

the top of the double-hole fixing block is connected with a limiting block;

the limiting block is connected with a fifth connecting rod in a sliding manner;

one end of the fifth connecting rod is connected with a second fixing rod, and the second fixing rod is connected with the left side of the spring rod in a sliding mode;

the second U-shaped rod is connected with the second fixed rod and is in extrusion fit with the umbrella-shaped inclined rod;

both sides of the bottom of the second fixed rod are connected with a sixth connecting rod;

a cutter for cutting dough is connected between the bottoms of the sixth connecting rods;

and the third springs are connected between the two sides of the left part of the second fixing rod and the left side of the spring rod and sleeved outside the spring rod.

Further, the method also comprises the following steps:

the sieve tray is connected in the annular diagonal rod.

Further, still include wetting mechanism, wetting mechanism includes:

the two sides of the outer part of the frame are both connected with a support frame;

the water buckets are connected between the supporting frames on the same side;

the two sides of the upper part of the inner side of the support frame are both connected with a seventh connecting rod;

the wetting brushes are connected between the seventh connecting rods on the same side;

the water pipes are connected between the bottom of the bucket and the wetting brushes on the same side and penetrate through the rack on the same side.

The beneficial effects are that: 1. through the cooperation between straight reciprocating motion mechanism, feeding mechanism, die pressing mechanism and the unloading mechanism, can realize constantly cutting, conveying and the shaping of extrusion dough to the dough, just so need not the artifical dough that constantly cuts, improve people's work efficiency.

2. Through wetting mechanism and sieve tray, can brush the water on the mould, when the mould extrudeed dough like this, can avoid the dough to glue on the mould, remove about the sieve tray and make on the flour interval falls the dough.

Drawings

Fig. 1 is a schematic front perspective view of the present invention.

Fig. 2 is a schematic perspective view of the linear reciprocating mechanism of the present invention.

Fig. 3 is a schematic three-dimensional structure diagram of the feeding mechanism and the die pressing mechanism of the invention.

Fig. 4 is a schematic perspective view of the blanking mechanism of the present invention.

Fig. 5 is a schematic perspective view of the wetting mechanism of the present invention.

In the reference symbols: 1-base, 2-motor, 3-frame, 4-linear reciprocating mechanism, 41-first rotating shaft, 42-first gear, 43-second gear, 44-second rotating shaft, 45-first connecting rod, 46-second connecting rod, 47-guide rod, 48-bevel-shaped oblique rod, 5-feeding mechanism, 51-third rotating shaft, 52-fourth rotating shaft, 53-flat belt component, 54-missing gear, 55-third gear, 56-transmission component, 6-die pressing mechanism, 61-third connecting rod, 62-guide block, 63-annular oblique rod, 64-fourth connecting rod, 65-first fixed rod, 66-first U-shaped rod, 67-spring rod, 68-first spring, 69-fixed plate, 610-T-shaped pressing rod, 611-second spring, 612-die, 7-sieve tray, 8-blanking mechanism, 81-double-hole fixing block, 82-blanking barrel, 83-limiting block, 84-fifth connecting rod, 85-second fixing rod, 86-second U-shaped rod, 87-sixth connecting rod, 88-cutter, 89-third spring, 9-wetting mechanism, 91-supporting frame, 92-water bucket, 93-water pipe, 94-seventh connecting rod and 95-wetting brush.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

Example 1

The utility model provides an automatic moulding-die equipment of millet cake for food processing, as shown in figure 1, including base 1, motor 2, frame 3, straight reciprocating motion mechanism 4, feeding mechanism 5, die pressing mechanism 6 and unloading mechanism 8, the right front side in base 1 top is connected with motor 2, both sides all are connected with frame 3 around base 1 top right part, motor 2 is located the 3 left sides of frame, be connected with straight reciprocating motion mechanism 4 between motor 2 output shaft and the base 1, be connected with feeding mechanism 5 between base 1 and the straight reciprocating motion mechanism 4, be connected with die pressing mechanism 6 between the frame 3, be connected with unloading mechanism 8 between base 1 and the die pressing mechanism 6.

When people need carry out the moulding-die with the millet cake, place the dough on unloading mechanism 8's part, starting motor 2 afterwards, the part that motor 2 output shaft rotated and drives linear reciprocating motion mechanism 4 rotates, unloading mechanism 8 is constantly unloaded, make the dough cut into on the part that little dough fell feeding mechanism 5, make feeding mechanism 5's part with little dough remove right, drive moulding-die mechanism 6 simultaneously and press little dough, after the completion, take out the dough, it can to close motor 2.

Example 2

On the basis of embodiment 1, as shown in fig. 2-3, the linear reciprocating mechanism 4 includes a first rotating shaft 41, a first gear 42, a second gear 43, a second rotating shaft 44, a first connecting rod 45, a second connecting rod 46, a guiding rod 47 and a bevel-shaped slanting rod 48, the guiding rods 47 are connected to the front and rear sides of the middle of the top of the base 1, the first rotating shaft 41 is rotatably connected between the lower portions of the guiding rods 47, the first rotating shaft 41 is connected with the feeding mechanism 5, the second gear 43 is connected to the front and rear sides of the first rotating shaft 41, the first gear 42 is connected to the output shaft of the motor 2, the first gear 42 is engaged with the second gear 43 on the front side, the second rotating shaft 44 is connected to the eccentric position outside of the second gear 43, the second connecting rod 46 is rotatably connected to the second rotating shaft 44, the first connecting rod 45 is slidably connected between the upper portions of the guiding rods 47, the front and rear sides of the first connecting rod 45 are rotatably connected to the upper portions of the second connecting rods 46 on the same side, the middle part of the first connecting rod 45 is connected with an umbrella-shaped inclined rod 48, and the umbrella-shaped inclined rod 48 is in extrusion fit with the die pressing mechanism 6.

The output shaft of the motor 2 rotates to drive the first gear 42, the second gear 43, the first rotating shaft 41 and the second rotating shaft 44 to rotate continuously, and then drives the first connecting rod 45, the second connecting rod 46 and the bevel-shaped inclined rod 48 to move up and down continuously, so that the bevel-shaped inclined rod 48 drives the blanking mechanism 8 to cut dough continuously, and simultaneously drives the die pressing mechanism 6 to extrude the small dough continuously.

Feeding mechanism 5 is including third pivot 51, fourth pivot 52, flat belt subassembly 53, scarce gear 54, third gear 55 and conveying subassembly 56, base 1 top all is connected with the bracing piece all around the four sides, equal rotary type is connected with fourth pivot 52 between the fore-and-aft bracing piece, be connected with conveying subassembly 56 between the fourth pivot 52, the equal rotary type in left bracing piece middle part is connected with third pivot 51, all be connected with flat belt subassembly 53 between third pivot 51 and the 41 homonymies of first pivot, the third pivot 51 outside all is connected with scarce gear 54, both sides all are connected with third gear 55 around the left fourth pivot 52, third gear 55 meshes with the scarce gear 54 of homonymy.

When people need to press the dough points, the cut small dough falls to the left side of the conveying component 56, the first rotating shaft 41 rotates to drive the flat belt component 53, the third rotating shaft 51 and the missing gear 54 to rotate continuously, when the missing gear 54 is meshed with the third gear 55, the fourth rotating shaft 52 and the conveying component 56 are driven to rotate, the small dough is driven to move rightwards, when the missing gear 54 is separated from the third gear 55, the fourth rotating shaft 52, the conveying component 56 and the small dough stop moving, and at the moment, the small dough is pressed and formed by the pressing mechanism 6.

Example 3

On the basis of embodiment 2, as shown in fig. 3-5, the die pressing mechanism 6 includes a third connecting rod 61, a guide block 62, an annular diagonal rod 63, a fourth connecting rod 64, a first fixing rod 65, a first U-shaped rod 66, a spring rod 67, a first spring 68, a fixing plate 69, a T-shaped press rod 610, a second spring 611 and a die 612, the third connecting rod 61 is connected to the upper portion of the outer side of the frame 3, the guide block 62 is connected to the top of the third connecting rod 61, the annular diagonal rod 63 is slidably connected between the guide blocks 62, the fourth connecting rods 64 are connected to the front and rear sides of the left top of the annular diagonal rod 63, the first fixing rod 65 is connected between the fourth connecting rods 64, the first U-shaped rod 66 is connected to the middle of the top of the first fixing rod 65, the spring rod 67 is slidably connected to the upper portion of the fourth connecting rod 64, the spring rod 67 is connected to the blanking mechanism 8, the first spring 68 is connected between the right side of the spring rod 67 and the fourth connecting rod 64 on the same side, first spring 68 all overlaps in the spring lever 67 outside, is connected with fixed plate 69 between the frame 3 top, and slidingly be connected with T type depression bar 610 between the both sides around fixed plate 69, and both sides all are connected with mould 612 around T type depression bar 610 bottom, and both sides around T type depression bar 610 upper portion and fixed plate 69 top all are connected with second spring 611 around between both sides, and second spring 611 all overlaps in the T type depression bar 610 outside.

When the umbrella-shaped inclined rod 48 moves downwards to extrude the first U-shaped rod 66, the first fixed rod 65, the fourth connecting rod 64 and the annular inclined rod 63 move rightwards, the first spring 68 is compressed, the T-shaped pressure rod 610 and the mold 612 are further driven to move downwards to extrude dough for forming, the second spring 611 is compressed, when the umbrella-shaped inclined rod 48 moves upwards to be separated from the first U-shaped rod 66, the annular inclined rod 63, the fourth connecting rod 64, the first fixed rod 65 and the first U-shaped rod 66 are driven to move leftwards to reset under the action of the first spring 68, and the T-shaped pressure rod 610 and the mold 612 are driven to move upwards to reset under the action of the second spring 611, so that dough can be continuously pressed for forming.

The blanking mechanism 8 comprises a double-hole fixing block 81, a blanking cylinder 82, a limiting block 83, a fifth connecting rod 84, a second fixing rod 85, a second U-shaped rod 86, a sixth connecting rod 87, a cutter 88 and a third spring 89, wherein the left side of the top of the base 1 is connected with the double-hole fixing block 81, the front side and the rear side of the double-hole fixing block 81 are both connected with the blanking cylinder 82, the middle of the right side of the top of the double-hole fixing block 81 is connected with the limiting block 83, the limiting block 83 is connected with the fifth connecting rod 84 in a sliding manner, the right end of the fifth connecting rod 84 is connected with the second fixing rod 85, the second fixing rod 85 is connected with the left side of the spring rod 67 in a sliding manner, the middle of the right side of the second fixing rod 85 is connected with the second U-shaped rod 86, the second U-shaped rod 86 is in extrusion fit with the left side of the umbrella-shaped inclined rod 48, the front side and the rear side of the bottom of the second fixing rod 85 are both connected with the sixth connecting rod 87, the cutter 88 is connected between the bottom of the sixth connecting rod 87, the left side of the second fixing rod 85 and the left side of the spring rod 67 are both connected with the third spring 89, the third springs 89 are all sleeved outside the spring rod 67.

When people need to press the pastries, the pastries are placed in the lower charging barrel 82 and slide downwards through the lower charging barrel 82, when the umbrella-shaped inclined rod 48 moves downwards to extrude the second U-shaped rod 86, the second fixing rod 85 and the fifth connecting rod 84 are driven to move leftwards, the third spring 89 is compressed, the sixth connecting rod 87 and the cutter 88 are driven to move leftwards, the cutter 88 cuts the pastries, the small pastries fall onto the conveying assembly 56 after being cut, when the umbrella-shaped inclined rod 48 moves upwards to separate from the second U-shaped rod 86, the second fixing rod 85, the second U-shaped rod 86, the sixth connecting rod 87, the cutter 88 and the fifth connecting rod 84 are driven to move rightwards to reset under the action of the third spring 89, and the pastries can be cut continuously by repeating the above operations.

The screen disc 7 is further included, and the screen disc 7 is connected in the annular inclined rod 63.

One can pour the flour into the sieve tray 7 and move the sieve tray 7 left and right when the annular diagonal rod 63 moves left and right, so that the flour falls onto the small dough through the sieve tray 7.

Still including wetting mechanism 9, wetting mechanism 9 is including support frame 91, cask 92, water pipe 93, seventh connecting rod 94 and moist brush 95, the outside upper portion left and right sides of frame 3 all is connected with support frame 91, all be connected with cask 92 between the support frame 91 of homonymy, the inboard upper portion left and right sides of frame 3 all is connected with a plurality of seventh connecting rods 94, all be connected with moist brush 95 between the seventh connecting rod 94 of homonymy, all be connected with water pipe 93 between the moist brush 95 of cask 92 bottom and homonymy, water pipe 93 all passes on the frame 3 of homonymy.

One can fill the water tank 92 with water, which flows into the wetting brush 95 through the water pipe 93, and brush water on the die 612 when the die 612 is in contact with the wetting brush 95, so that the die 612 can press the dough to prevent the dough from sticking to the die 612.

Although the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made herein without departing from the principles and spirit of the invention as defined by the appended claims. Therefore, the detailed description of the embodiments of the present disclosure is to be construed as merely illustrative, and not limitative of the remainder of the disclosure, but rather to limit the scope of the disclosure to the full extent set forth in the appended claims.

Claims

1. An automatic moulding device of pastry for food processing is characterized by comprising:

the device comprises a base (1) and a motor (2), wherein one side of the top of the base (1) is connected with the motor (2);

the motor is characterized by comprising a rack (3), wherein the rack (3) is connected to two sides of the top of the base (1), and the motor (2) is positioned on the side part of the rack (3);

the linear reciprocating mechanism (4) is connected between the output shaft of the motor (2) and the base (1);

the feeding mechanism (5) is connected between the base (1) and the linear reciprocating mechanism (4);

the die pressing mechanism (6) is connected between the machine frames (3);

the blanking mechanism (8) is connected between the base (1) and the die pressing mechanism (6);

the linear reciprocating mechanism (4) comprises:

the guide rods (47) are connected to the two sides of the top of the base (1);

the guide rod (47) is rotatably connected with the first rotating shaft (41) between the two sides close to the motor (2), and the first rotating shaft (41) is connected with the feeding mechanism (5);

the two sides of the first rotating shaft (41) are connected with the second gear (43);

the output shaft of the motor (2) is connected with the first gear (42), and the first gear (42) is meshed with the second gear (43) on one side;

the eccentric positions of the outer sides of the second rotating shafts (44) and the second gears (43) are connected with the second rotating shafts (44);

the second connecting rods (46) are rotatably arranged on the second rotating shafts (44);

the first connecting rod (45) is connected between one sides, far away from the first rotating shaft (41), of the guide rods (47) in a sliding mode, and the two sides of the first connecting rod (45) are rotatably connected with the second connecting rod (46) on the same side;

the first connecting rod (45) is connected with the umbrella-shaped inclined rod (48), and the umbrella-shaped inclined rod (48) is in extrusion fit with the die pressing mechanism (6);

the feeding mechanism (5) comprises:

the four sides of the top of the base (1) are respectively connected with a support rod, and the fourth rotating shaft (52) is rotatably connected between the longitudinal support rods;

the transmission component (56) is connected between the fourth rotating shafts (52);

the supporting rods on the left side of the third rotating shaft (51) are connected with the third rotating shaft (51) in a rotating mode;

the third rotating shaft (51) and the first rotating shaft (41) are connected with a flat belt component (53) on the same side;

the outer sides of the third rotating shafts (51) are connected with the gear lack (54);

the two sides of a fourth rotating shaft (52) on the left side of the third gear (55) are both connected with the third gear (55), and the third gear (55) is meshed with a gear (54) which is not arranged on the same side;

the die pressing mechanism (6) comprises:

the outer sides of the racks (3) are connected with third connecting rods (61);

the tops of the guide blocks (62) and the third connecting rods (61) are connected with the guide blocks (62);

the annular inclined rods (63) are connected between the guide blocks (62) in a sliding manner;

the two sides of the top of the annular inclined rod (63) are connected with the fourth connecting rod (64);

the first fixing rod (65) is connected between the fourth connecting rods (64);

the top of the first fixing rod (65) is connected with a first U-shaped rod (66);

the spring rods (67) are connected to the fourth connecting rod (64) in a sliding mode, and the spring rods (67) are connected with the blanking mechanism (8);

the first springs (68) are connected between the spring rods (67) and the fourth connecting rods (64) on the same side, and the first springs (68) are sleeved on the outer sides of the spring rods (67);

a fixed plate (69), and the fixed plate (69) is connected between the tops of the machine frames (3);

the T-shaped pressure lever (610) is connected between the two sides of the fixed plate (69) in a sliding manner;

the two sides of the bottom of the T-shaped pressure lever (610) are connected with the die (612);

the second springs (611) are connected between the two sides of the upper part of the T-shaped pressure rod (610) and the two sides of the top of the fixing plate (69), and the second springs (611) are sleeved on the outer side of the T-shaped pressure rod (610);

unloading mechanism (8) including:

the double-hole fixing block (81) is connected to one side, away from the rack (3), of the top of the base (1);

the two sides of the double-hole fixing block (81) are connected with a feeding cylinder (82) for placing dough;

the top of the double-hole fixing block (81) is connected with a limiting block (83);

the limiting block (83) is connected with a fifth connecting rod (84) in a sliding manner;

one end of the fifth connecting rod (84) is connected with the second fixing rod (85), and the second fixing rod (85) is connected with the left side of the spring rod (67) in a sliding mode;

the second U-shaped rod (86), the second fixed rod (85) is connected with the second U-shaped rod (86), and the second U-shaped rod (86) is in extrusion fit with the umbrella-shaped inclined rod (48);

the two sides of the bottom of the second fixing rod (85) are connected with the sixth connecting rod (87);

a cutter (88) for cutting dough is connected between the bottoms of the sixth connecting rods (87);

the third springs (89) are connected between the two sides of the left part of the second fixing rod (85) and the left side of the spring rod (67), and the third springs (89) are sleeved on the outer side of the spring rod (67);

also includes:

the sieve tray (7) is connected in the sieve tray (7) and the annular diagonal rod (63).

2. An automatic molding apparatus for food processing pastry as set forth in claim 1 further comprising a moistening mechanism (9), the moistening mechanism (9) including:

the two sides of the outer part of the frame (3) are both connected with the supporting frames (91);

the water buckets (92) are connected between the supporting frames (91) on the same side;

the two sides of the upper part of the inner side of the supporting frame (91) are connected with the seventh connecting rod (94);

the wetting brushes (95) are connected between the seventh connecting rods (94) on the same side;

the water pipes (93) are connected between the bottoms of the water buckets (92) and the wetting brushes (95) on the same side, and the water pipes (93) penetrate through the rack (3) on the same side.

3. An automatic die-pressing apparatus for food processing pastry as set forth in claim 2 wherein the wetting brush (95) is made of rubber.