CN113907099B - Vacuum extrusion tilter for dough - Google Patents

Abstract

The invention belongs to the field of food processing, and relates to a vacuum extrusion tilter for dough, which comprises a shell and is characterized in that a hinge is arranged on the upper right side of the shell, an air extractor is arranged on the lower left side of the shell, a cavity is arranged in the shell, a middle platform is fixedly arranged in the middle of the cavity, a lower motor is arranged on the lower side of the shell, a square rotary table is fixedly arranged at the tail end of the output end of the lower motor, an extrusion device is arranged in the cavity, and the extrusion device is used for extruding the dough put into a machine. The invention can discharge the air and water contained in the dough by extruding the dough in a vacuum state, and then evenly extrude the surface of the dough by turning over, and solves the problem that the dough is not fully agglomerated due to the kneading of the water-blended flour in the dough.

Description

Vacuum extrusion tilter for dough

Technical Field

The invention belongs to the field of food processing, and particularly relates to a vacuum extrusion turnover machine for dough.

Background

As is known, the dough is a mixture of flour and other ingredients including liquid, has enough hardness for kneading or winding, contains protein, fat, carbohydrate, a small amount of vitamins and minerals such as calcium, potassium, magnesium, zinc, and the like, has various tastes, is easy to digest and absorb, is convenient to eat, and is well favored by people in daily life.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a vacuum extrusion turnover machine for dough, which can perform moisture fusion and air extrusion discharge on the dough when the dough is put in and can uniformly extrude the dough.

The purpose of the invention can be realized by the following technical scheme: the utility model provides a vacuum extrusion upset machine for dough, includes the casing, its characterized in that, the upper right side of casing is equipped with the hinge, the left side below of casing is equipped with the air extractor, be equipped with the cavity in the casing, the fixed middle platform that is equipped with of cavity intermediate position, the downside of casing is equipped with the downside motor, the fixed square revolving stage that is equipped with of output end of downside motor, be equipped with extrusion device in the cavity, extrusion device is used for carrying out the extruded effect to the dough of putting into machinery.

Preferably, extrusion device includes the articulated upper shell that is equipped with on the hinge, the fixed upside motor that is equipped with on the upper shell, the fixed input gear that is equipped with on the upside motor output, the fixed short cylinder that is equipped with on the upper shell, be equipped with the rectangular chamber in the short cylinder, it is equipped with T shape pole to slide on the upper shell, the fixed upper pole that is equipped with of upper surface annular array of T shape pole, the upper pole is in rectangular intracavity sliding connection is connected with the upside spring between the two.

Preferably, be equipped with the slip chamber in the middle of the middle platform, annular array is equipped with the spout in the middle platform, it is equipped with the slider all to slide in the spout, the equal vertical fixed arc piece that is equipped with in upper end of slider, all fixed elastic material that is equipped with between the arc piece annular array, the slider surface with all be connected with between the middle platform elastic material, the fixed downside stock that is equipped with of lower extreme of slider.

Preferably, the lower extreme of downside stock all articulates and is equipped with hollow cylinder, the last fixed L shape pole that is equipped with of hollow cylinder, the other end of L shape pole is fixed with hollow cylinder, hollow cylinder all articulates and is equipped with short layer pole, short layer pole is fixed on the square revolving stage, be equipped with turning device in the middle platform, turning device is used for carrying out the effect of turn-over to it after the extrusion with the dough.

Preferably, turning device includes the fixed horizontal pole that is equipped with on the downside stock, the terminal fixed square piece that is equipped with of horizontal pole, the fixed left side post that is equipped with on the square piece, the articulated V type pole that is equipped with of left side post, the articulated quarter butt that is equipped with of intermediate position of V type pole, the terminal fixed square pole that is equipped with of quarter butt, fixed square pole is fixed on the middle platform, be equipped with the loculus in the V type pole, it is equipped with the intermediate lever to slide in the loculus, the intermediate lever with be connected with lower floor's spring between the connecting rod two, the terminal articulated upper side pole that is equipped with of intermediate lever, the terminal fixed middle square that is equipped with of upper side pole.

Preferably, the fixed sliding stand that is equipped with of middle square, the sliding stand is in sliding chamber sliding connection, be equipped with the convex groove in the sliding stand, the convex inslot internal fixation is equipped with interior side lever, it is equipped with arc ratch to rotate on the inboard pole, be equipped with interior round bar on the sliding stand, the articulated connecting rod that is equipped with on the interior round bar, the other end of connecting rod articulates and is equipped with the transfer line, the terminal fixed upside square that is equipped with of transfer line, the fixed upset platform that is equipped with on the upside square, be equipped with the pole chamber in the upset platform, it is equipped with the mobile jib to slide in the pole chamber, the mobile jib with be connected with intermediate spring between the pole chamber, the mobile jib lower extreme with arc ratch passes through the tooth and meshes mutually.

When the extrusion tilter works, the lower motor starts to be electrified and rotated at the moment, the square rotary table fixed on the output end starts to be rotated, the short-layer rod fixed on the square rotary table rotates along with the short-layer rod, the hollow cylinder is hinged on the short-layer rod and fixed on the L-shaped rod, the energy is transmitted to the L-shaped rod at the moment, the L-shaped rod starts to rotate, the hollow cylinder is also fixed at the other end of the L-shaped rod, the hollow cylinder is hinged on the lower long rod, the sliding block is fixed at the upper end of the lower long rod and slides in the sliding groove, the lower long rod moves towards the center along the track of the sliding groove at the moment, the arc-shaped block is fixed at the upper end of the sliding block and moves towards the center, the cross rod fixed on the lower long rod moves towards the right, the left rod column is fixed on the square block and is hinged with the V-shaped rod, because the middle of the V-shaped rod is hinged with the short rod and the short rod is fixed on the fixed square rod, the V-shaped rod starts to rotate by taking the short rod as the center in the centripetal movement of the long rod at the lower side, the middle rod which is positioned at the tail end of the V-shaped rod and slides in the small cavity starts to rotate along with the short rod, and the tail end of the middle rod is hinged with the upper side rod and the tail end of the upper side rod is fixed on the middle square block.

Because the middle square block is fixed on the sliding table and the sliding table slides in the sliding cavity, the middle rod starts to compress the lower layer spring at the moment, the middle rod starts to move downwards to drive the sliding table to move downwards, the inner side rod fixed on the convex groove in the sliding table moves downwards, the arc-shaped toothed rod connected with the inner side rod starts to rotate, the main rod meshed with the teeth starts to move downwards in the rod cavity, the upper square block fixed on the overturning platform and the transmission rod start to rotate and reset through the inner round rod hinged with the connection rod under the action of downward movement of the main rod, at the moment, the upper side motor starts to be electrified and rotates, the input gear fixed on the output end rotates, the T-shaped rod moves downwards due to tooth meshing between the input gear and the surface of the T-shaped rod, the upper layer rod column is fixed on the upper surface of the T-shaped rod, and in the process that the upper layer rod column moves downwards in the T-shaped rod, the upper layer rod column is connected in the rectangular cavity in a sliding way and compresses the upper side spring to move downwards, as the upper pole column starts to move downwards, the air pump starts to be electrified to change the cavity into the vacuum cavity until the T-shaped pole is in contact with the dough.

Compared with the prior art, the vacuum extrusion tilter for dough has the following advantages:

1. in the extrusion process, air bubbles in the working dough can be separated out under the vacuum environment, and the caking in the dough is fully kneaded with the flour through extrusion, so that the taste of the dough-made food is improved, and the yield of the dough-made food is improved.

2. The turning device turns the dough to ensure that the surface of the extruded dough is uniformly pressed when the dough is turned, so that the flexibility of the dough is improved.

3. The dough is extruded to effectively discharge the air in the dough and fully knead the liquid into the dough, so that the prepared food has better mouthfeel.

Drawings

FIG. 1 is a schematic diagram of a vacuum extrusion tilter for dough.

Fig. 2 is a sectional view taken along a line a-a in fig. 1.

Fig. 3 is a sectional view taken along line B-B in fig. 2.

Fig. 4 is a sectional view taken along line C-C in fig. 2.

Fig. 5 is an enlarged view of the structure at D in fig. 2.

Fig. 6 is an enlarged view of the structure at E in fig. 2.

Fig. 7 is an enlarged view of the structure at F in fig. 2.

In the figure, 10, the housing; 11. a cavity; 12. a T-shaped rod; 13. an air extractor; 14. an upper side motor; 15. an input gear; 16. an upper spring; 17. a hinge; 18. an arc-shaped block; 19. a slider; 20. an elastic material; 21. a chute; 22. a left side pole; 23. overturning the platform; 24. a lower long rod; 25. a lower cavity; 26. a cross bar; 27. a square block; 28. an intermediate lever; 29. fixing the square rod; 30. a V-shaped rod; 31. a middle square block; 32. an upper side rod; 33. a short bar; 34. an upper square block; 35. a bottom side cavity; 36. a lower motor; 37. an L-shaped rod; 38. an intermediate platform; 39. a square turntable; 40. a connecting rod; 41. a sliding cavity; 43. a middle spring; 44. a main rod; 45. a hollow cylinder; 46. a small cavity; 47. a lower spring; 49. a short-layer rod; 50. a sliding table; 51. a rod cavity; 52. a convex groove; 53. an inner side rod; 54. an arc-shaped toothed bar; 55. a rectangular cavity; 56. an upper pole; 57. an upper shell; 58. a short cylinder; 59. an inner round bar; 60. and a transmission rod.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, a vacuum extrusion tilter for dough, which comprises a shell 10 and is characterized in that a hinge 17 is arranged on the upper right side of the shell 10, an air extractor 13 is arranged on the lower left side of the shell 10, a cavity 11 is arranged in the shell 10, a middle platform 38 is fixedly arranged in the middle of the cavity 11, a lower motor 36 is arranged on the lower side of the shell 10, a square rotary table 39 is fixedly arranged at the tail end of the output end of the lower motor 36, and an extrusion device is arranged in the cavity 11 and used for extruding the dough put into a machine.

As shown in fig. 1, 2 and 6, the extruding device comprises an upper shell 57 hinged on a hinge 17, an upper motor 14 is fixedly arranged on the upper shell 57, an input gear 15 is fixedly arranged on the output end of the upper motor 14, a short cylinder 58 is fixedly arranged on the upper shell 57, a rectangular cavity 55 is arranged in the short cylinder 58, a T-shaped rod 12 is slidably arranged on the upper shell 57, an upper rod column 56 is fixedly arranged on the upper surface of the T-shaped rod 12 in an annular array manner, the upper rod column 56 is slidably connected in the rectangular cavity 55, and an upper spring 16 is connected between the upper shell 57 and the rectangular cavity.

As shown in fig. 1, 2 and 4, a sliding cavity 41 is arranged in the middle of the middle platform 38, a sliding groove 21 is formed in the middle platform 38 in an annular array mode, a sliding block 19 is arranged in the sliding groove 21 in a sliding mode, an arc block 18 is vertically and fixedly arranged at the upper end of the sliding block 19, an elastic material 20 is fixedly arranged between the annular arrays of the arc blocks 18, the elastic material 20 is connected between the surface of the sliding block 19 and the middle platform 38, and a lower long rod 24 is fixedly arranged at the lower end of the sliding block 19.

As shown in fig. 1, 2 and 3, the lower end of the lower long rod 24 is hinged with a hollow cylinder 45, an L-shaped rod 37 is fixedly arranged on the hollow cylinder 45, the other end of the L-shaped rod 37 is fixed with the hollow cylinder 45, the hollow cylinder 45 is hinged with a short rod 49, the short rod 49 is fixed on the square rotary table 39, and a turnover device is arranged in the middle platform 38 and used for turning over dough after being extruded.

As shown in fig. 1, 2, 5 and 7, the turnover device comprises a transverse rod 26 fixedly arranged on a lower long rod 24, a square block 27 is fixedly arranged at the tail end of the transverse rod 26, a left rod post 22 is fixedly arranged on the square block 27, a V-shaped rod 30 is hinged to the left rod post 22, a short rod 33 is hinged to the middle position of the V-shaped rod 30, a fixed square rod 29 is fixedly arranged at the tail end of the short rod 33, the fixed square rod 29 is fixed on a middle platform 38, a small cavity 46 is arranged in the V-shaped rod 30, a middle rod 28 is slidably arranged in the small cavity 46, a lower spring 47 is connected between the middle rod 28 and a connecting rod 40, an upper rod 32 is hinged to the tail end of the middle rod 28, and a middle block 31 is fixedly arranged at the tail end of the upper rod 32.

As shown in fig. 1, 2 and 5, the middle block 31 is fixedly provided with a sliding table 50, the sliding table 50 is slidably connected with the sliding cavity 41, a convex groove 52 is arranged in the sliding table 50, an inner side rod 53 is fixedly arranged in the convex groove 52, an arc-shaped toothed rod 54 is rotatably arranged on the inner side rod 53, an inner round rod 59 is arranged on the sliding table 50, a connecting rod 40 is hinged on the inner round rod 59, a transmission rod 60 is hinged at the other end of the connecting rod 40, an upper side block 34 is fixedly arranged at the tail end of the transmission rod 60, the overturning platform 23 is fixedly arranged on the upper side block 34, a rod cavity 51 is arranged in the overturning platform 23, a main rod 44 is slidably arranged in the rod cavity 51, a middle spring 43 is connected between the main rod 44 and the rod cavity 51, and the lower end of the main rod 44 is engaged with the arc-shaped toothed rod 54 through teeth.

When the extrusion tilter works, at the moment, the lower side motor 36 starts to be electrified and rotated, the square rotary table 39 fixed on the output end starts to be rotated, the short layer rod 49 fixed on the square rotary table 39 rotates along with the short layer rod 49, the hollow cylinder 45 is hinged on the short layer rod 49 and the hollow cylinder 45 is fixed on the L-shaped rod 37, at the moment, the energy is transmitted to the L-shaped rod 37, the L-shaped rod 37 starts to rotate, as the other end of the L-shaped rod 37 is also fixed with the hollow cylinder 45 and the hollow cylinder 45 is hinged on the lower side long rod 24, the upper end of the lower side long rod 24 is fixed with the sliding block 19 and the sliding block 19 slides in the sliding groove 21, at the moment, the lower side long rod 24 moves towards the center along the track of the sliding groove 21, as the arc-shaped block 18 is fixed at the upper end of the sliding block 19, at the moment, the arc-shaped block 18 also moves towards the center, the cross rod 26 fixed on the lower side long rod 24 moves towards the right, as the square block 27 is fixed on the lower side long rod 24 and the left side rod 22 is fixed on the square block 27, and the left side pole post 22 is hinged with the V-shaped rod 30, because the middle of the V-shaped rod 30 is hinged with the short rod 33 and the short rod 33 is fixed on the fixed square rod 29, the V-shaped rod 30 starts to rotate by taking the short rod 33 as the center in the centripetal movement of the long lower rod 24, and the middle rod 28 which is positioned at the tail end of the V-shaped rod 30 and slides in the small cavity 46 starts to rotate together.

Since the end of the middle rod 28 is hinged with the upper rod 32 and the end of the upper rod 32 is fixed on the middle block 31, when the middle block 31 is fixed on the sliding table 50 and the sliding table 50 slides in the sliding cavity 41, at this time, the middle rod 28 starts to compress the lower spring 47, the middle rod 28 starts to move downwards to drive the sliding table 50 to move downwards, the inner rod 53 fixed on the inner convex groove 52 of the sliding table 50 moves downwards, the arc-shaped toothed rod 54 connected with the inner rod starts to rotate, the main rod 44 engaged with the teeth starts to move downwards in the rod cavity 51, because the upper block 34 fixed on the turnover platform 23 and the transmission rod 60 start to rotate and reset by taking the inner rod 59 hinged with the connecting rod 40 as the center under the action of the downward movement of the main rod 44, at this time, the upper motor 14 starts to rotate by electrifying, the input gear 15 fixed on the output end rotates, because the input gear 15 and the surface of the T-shaped rod 12 move downwards through the teeth engagement, because the upper pole 56 is fixed on the upper surface of the T-shaped rod 12, when the upper pole 56 moves downwards in the T-shaped rod 12, the upper pole 56 is connected in the rectangular cavity 55 in a sliding way and compresses the upper spring 16 to move downwards, and because the upper pole 56 starts to move downwards, until the T-shaped rod 12 is in contact with the dough soon, the air pump 13 starts to be electrified to change the cavity 11 into a vacuum cavity.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (2)

1. The vacuum extrusion tilter for the dough comprises a shell (10) and is characterized in that a hinge (17) is arranged on the upper right side of the shell (10), an air extractor (13) is arranged on the lower left side of the shell (10), a cavity (11) is arranged in the shell (10), a middle platform (38) is fixedly arranged in the middle of the cavity (11), a lower motor (36) is arranged on the lower side of the shell (10), a square rotary table (39) is fixedly arranged at the tail end of the output end of the lower motor (36), an extrusion device is arranged in the cavity (11), and the extrusion device is used for extruding the dough put into a machine;

the extrusion device comprises an upper shell (57) hinged on the hinge (17), an upper motor (14) is fixedly arranged on the upper shell (57), an input gear (15) is fixedly arranged on the output end of the upper motor (14), a short cylinder (58) is fixedly arranged on the upper shell (57), a rectangular cavity (55) is arranged in the short cylinder (58), a T-shaped rod (12) is slidably arranged on the upper shell (57), upper rod columns (56) are fixedly arranged on the annular array of the upper surface of the T-shaped rod (12), the upper rod columns (56) are slidably connected in the rectangular cavity (55), and an upper spring (16) is connected between the upper rod columns and the rectangular cavity;

a sliding cavity (41) is arranged in the middle of the middle platform (38), sliding grooves (21) are arranged in the middle platform (38) in an annular array mode, sliding blocks (19) are arranged in the sliding grooves (21) in a sliding mode, arc-shaped blocks (18) are vertically and fixedly arranged at the upper ends of the sliding blocks (19), elastic materials (20) are fixedly arranged between the annular arrays of the arc-shaped blocks (18), the elastic materials (20) are connected between the surface of the sliding block (19) and the middle platform (38), and lower long rods (24) are fixedly arranged at the lower ends of the sliding blocks (19);

the lower end of the lower long rod (24) is hinged with a hollow cylinder (45), an L-shaped rod (37) is fixedly arranged on the hollow cylinder (45), the other end of the L-shaped rod (37) is fixedly provided with the hollow cylinder (45), the hollow cylinder (45) is hinged with a short-layer rod (49), the short-layer rod (49) is fixed on the square rotary table (39), and a turning device is arranged in the middle platform (38) and used for turning dough after being extruded;

the turning device comprises a cross rod (26) fixedly arranged on the lower long rod (24), a square block (27) fixedly arranged at the tail end of the cross rod (26), a left side rod column (22) is fixedly arranged on the square block (27), the left side rod column (22) is hinged with a V-shaped rod (30), a short rod (33) is hinged at the middle position of the V-shaped rod (30), a fixed square rod (29) is fixedly arranged at the tail end of the short rod (33), the fixed square rod (29) is fixed on the middle platform (38), a small cavity (46) is arranged in the V-shaped rod (30), a middle rod (28) is arranged in the small cavity (46) in a sliding way, a lower layer spring (47) is connected between the middle rod (28) and the V-shaped rod (30), the tail end of the middle rod (28) is hinged with an upper side rod (32), and a middle square block (31) is fixedly arranged at the tail end of the upper side rod (32).

2. A vacuum extrusion tilter for dough as defined in claim 1, wherein: middle square (31) is fixed and is equipped with sliding table (50), sliding table (50) is in sliding chamber (41) sliding connection, be equipped with convex groove (52) in sliding table (50), convex groove (52) internal fixation is equipped with inside lever (53), it is equipped with arc ratch (54) to rotate on inside lever (53), be equipped with interior round bar (59) on sliding table (50), articulated on interior round bar (59) is equipped with connecting rod (40), the other end of connecting rod (40) articulates and is equipped with transfer line (60), transfer line (60) end is fixed and is equipped with upside square (34), fixed upset platform (23) that is equipped with on upside square (34), be equipped with pole chamber (51) in upset platform (23), it is equipped with mobile jib (44) to slide in pole chamber (51), mobile jib (44) with be connected with middle spring (43) between pole chamber (51), the lower end of the main rod (44) is meshed with the arc-shaped toothed rod (54) through teeth.

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