CN209931335U - Steamed bun shaping equipment - Google Patents

Abstract

The utility model relates to a steamed bun shaping device, which comprises a processing platform, wherein a horizontal conveyor belt is arranged on the processing platform, two vertical conveyor belts are respectively arranged at two sides of the conveying direction of the horizontal conveyor belt, and a dough conveying channel is arranged between the two vertical conveyor belts; the horizontal conveying belt and the two vertical conveying belts are driven by the same power mechanism to realize conveying, and the two vertical conveying belts are driven by the power mechanism to perform different-speed transmission in opposite directions. Two vertical conveying belts with different transmission speeds are arranged on two sides of the horizontal conveying belt respectively, so that the bidirectional rubbing at different speeds is realized, the conveying speed of dough under the unit length is reduced, a good shaping effect can be achieved under the condition that the distance between the conveying belts is short, and the occupied space of equipment is small.

Description

Steamed bun shaping equipment

Technical Field

The utility model relates to a wheaten food processing equipment technical field specifically indicates a steamed bun shaping equipment.

Background

In order to enable the appearance of steamed bread to be more attractive in the steamed bread processing process, dough needs to be shaped before steaming, the structure of the existing steamed bread shaping equipment is shown in an attached drawing figure 1 of the specification, the existing steamed bread shaping equipment mainly comprises a horizontal conveying belt arranged on a workbench, a vertical conveying belt and a forming plate, wherein the vertical conveying belt and the forming plate are positioned above the horizontal conveying belt and keep vertical to the horizontal conveying belt, the vertical conveying belt and the forming plate are respectively arranged on two sides of the horizontal conveying belt, and the dough passes through the vertical conveying belt and the forming plate. The shaping principle is as follows: the dough is conveyed by a horizontal conveyor belt and is shaped by rubbing of a vertical conveyor belt.

The shaping device has the following technical problems through practical use: only carry out the plastic through the vertical conveyer belt that horizontal transfer area one side was equipped with, in order to reach the plastic effect of preferred, need longer with the design of horizontal transfer area and vertical conveyer belt, just so cause equipment to need occupy great space.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to prior art's not enough, provide a steamed bun shaping equipment, through set up two vertical conveyer belts that transmission speed is different respectively in horizontal transfer area both sides, realized two-way different fast rubbing with the hands and move, reduced the conveying speed of dough under the unit length, therefore under the conveyer belt apart from shorter condition, also can reach good plastic effect, equipment occupation space is little.

The utility model is realized by the following technical proposal, the steamed bun shaping device comprises a processing platform, a horizontal conveyor belt is arranged on the processing platform, two vertical conveyor belts are respectively arranged at two sides of the conveying direction of the horizontal conveyor belt, and a dough conveying channel is arranged between the two vertical conveyor belts; the horizontal conveying belt and the two vertical conveying belts are driven by the same power mechanism to realize conveying, and the two vertical conveying belts are driven by the power mechanism to perform different-speed transmission in opposite directions.

Preferably, the horizontal conveyor belt and the vertical conveyor belt respectively comprise a driving shaft for driving the conveyor belts to transmit, the power mechanism is an electric motor, the electric motor is connected with the driving shaft of the horizontal conveyor belt through a first transmission assembly, and the driving shafts of the two vertical conveyor belts are respectively connected with the driving shaft of the horizontal conveyor belt through a second transmission assembly.

Preferably, the first transmission assembly comprises a driving pulley mounted on an output shaft of the motor and a driven pulley I mounted on a driving shaft of the horizontal transmission belt, and the driving pulley and the driven pulley I are connected through a belt.

As preferred, every second transmission assembly all includes and installs at horizontal drive belt driving epaxial driven pulley II and install the driven pulley III at vertical drive belt driving shaft, and driven pulley II is vertical setting, and driven pulley III is the level setting, and driven pulley II and driven pulley III are connected through the belt that twists reverse the cross into "8" font, and driven pulley II and the cooperation of driven pulley III convert vertical transmission into horizontal transmission.

Preferably, the two "8" belts of the two second transmission assemblies have different directions of torsion.

Preferably, the diameters of the two driven pulleys ii are different.

Preferably, the diameter of one driven pulley II is half of the diameter of the other driven pulley II.

Preferably, a plurality of groups of noodle column dumping mechanisms are sequentially arranged along the conveying direction of the horizontal conveying belt, and each group of noodle column dumping mechanism comprises an interception plate erected above the horizontal conveying belt and the two vertical conveying belts and a guide assembly located behind the interception plate and acting on an inner transmission surface of one of the vertical conveying belts to enable the inner transmission surface to protrude to an outer transmission surface.

Preferably, the guide assembly comprises a limiting roller for limiting the inner transmission surface to protrude towards the outer transmission surface and guide rollers arranged on the left side and the right side of the limiting roller and used for guiding the transmission of the inner transmission surface.

The utility model has the advantages that:

two vertical conveying belts with different transmission speeds are arranged on two sides of the horizontal conveying belt respectively, so that the bidirectional rubbing at different speeds is realized, the conveying speed of dough under the unit length is reduced, a good shaping effect can be achieved under the condition that the distance between the conveying belts is short, and the occupied space of equipment is small.

Drawings

FIG. 1 is a schematic view of a top view structure of a conventional steamed bun shaping apparatus;

FIG. 2 is a schematic top view of the present invention;

fig. 3 is a schematic view of the transmission principle of the power mechanism of the present invention;

shown in the figure:

1. horizontal conveyor, 2, processing platform, 3, vertical conveyer belt, 4, dough transfer passage, 5, interception board, 6, bracing piece, 7, spacing roller, 8, guide roll, 9, driving pulley, 10, motor, 11, driven pulley I, 12, driven pulley II, 13, driven pulley III.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the present solution is explained below by way of specific embodiments.

As shown in fig. 2, the utility model discloses a processing platform 2 installs horizontal conveyor 1 on processing platform 2, is equipped with a vertical conveyer belt 3 respectively in horizontal conveyor 1 direction of delivery's both sides, and two vertical conveyer belt 3 parallel arrangement are dough transfer passage 4 between two vertical conveyer belts 3. The horizontal conveying belt 1 and the two vertical conveying belts 3 are driven by the same power mechanism to realize conveying, and the two vertical conveying belts 3 are driven by the power mechanism to perform different-speed transmission in opposite directions. Horizontal conveyor 1 and two vertical conveyor 3 have reduced manufacturing cost on the one hand by the drive of same power unit, and the other party can realize that horizontal conveyor 1 and vertical conveyor 3 synchronous working, synchronous stop.

Horizontal conveyer belt 1 and vertical conveyer belt 3 all include the driving shaft that is used for driving the conveyer belt transmission, power unit is motor 10, as shown in fig. 3, motor 10 is connected through first transmission assembly with the driving shaft of horizontal conveyer belt 1, and the driving shaft of two vertical conveyer belts 3 is connected with the driving shaft of horizontal conveyer belt 1 through a second transmission assembly respectively. The driving shaft of the horizontal conveyor belt 1 is driven to rotate by the motor 10, and then the driving shaft of the horizontal conveyor belt 1 drives the two vertical conveyor belts 3 to transmit.

The first transmission assembly comprises a driving belt wheel 9 arranged on an output shaft of a motor 10 and a driven belt wheel I11 arranged on a driving shaft of the horizontal transmission belt 1, and the driving belt wheel 9 and the driven belt wheel I11 are connected through a belt. Every second drive assembly all includes II 12 of driven pulleys who installs on the 1 driving shaft of horizontal transmission area and installs III 13 of driven pulleys at the 3 driving shafts of vertical conveyer belt, and II 12 of driven pulleys are vertical setting, and III 13 of driven pulleys are the level setting, and II 12 of driven pulleys and III 13 of driven pulleys are connected through the belt that twists reverse the intersection and become "8" font, and II 12 of driven pulleys and the cooperation of III 13 of driven pulleys convert vertical transmission into horizontal transmission. The two 8-shaped belts of the two second transmission assemblies are twisted in different directions, so that the transmission directions of the two vertical transmission belts 3 are opposite.

The diameters of the two driven belt wheels II 12 are different, so that the transmission speeds of the two vertical transmission belts 3 are different. The diameter of one driven pulley II 12 is half of that of the other driven pulley II 12, and the transmission speed of the vertical conveyor belt 3 with the small diameter is one time of that of the vertical conveyor belt 3 with the large diameter. Two-way different speed rubbing is realized to two vertical conveyer belt 3 transmission opposite direction and transmission speed one big one, and the transmission speed of two vertical conveyer belt 3 offsets each other to reduced the actual conveying speed of dough, the rotatory number of turns increases in the group transportation process under the unit length, therefore under the condition that the conveyer belt distance is shorter, also can reach good plastic effect, equipment occupation space is little.

In order to increase dough shaping effect, set up multiunit face post along 1 direction of delivery of horizontal conveyor in proper order and empty the mechanism, every group face post is emptyd the mechanism and is all including erectting the interception board 5 in horizontal conveyor 1 and two vertical conveyor 3 tops and being located interception board 5 rear and acting on the direction subassembly that the interior driving surface of one of them vertical conveyor 3 made the protruding outside driving surface of interior driving surface, direction subassembly is used for restricting the protruding outside driving surface's of interior driving surface spacing roller 7 and sets up the direction roller 8 that is used for playing the guide effect to the transmission of interior driving surface in the 7 left and right sides of spacing roller, and spacing roller 7 and two direction rollers 8 all rotate with processing platform 2 and are connected. The two ends of the interception plate 5 are fixedly connected with the upper table-board of the processing platform 2 through the support rods 6. The working principle of the face column dumping mechanism is as follows: the dough column can be lengthened under the rubbing action of the two vertical conveying belts 3 in the forward conveying process along the horizontal conveying belt 1, when the dough column moves to the position of the blocking plate 5, the vertical conveying belts 3 on one sides of the dough column do not act on the dough column due to the fact that the inner transmission surfaces of the vertical conveying belts 3 on one sides of the dough column protrude outwards, the dough column can be knocked down under the action of the blocking plate 5, the dough column is rubbed for a long time through the matching of the two vertical conveying belts 3, and the dough column is rubbed for a long time through the next dough column pouring mechanism, so that the dough shaping effect is improved.

Of course, the above description is not limited to the above examples, and technical features of the present invention that are not described in the present application may be implemented by or using the prior art, and are not described herein again; the above embodiments and drawings are only used for illustrating the technical solutions of the present invention and are not intended to limit the present invention, and the present invention has been described in detail with reference to the preferred embodiments, and those skilled in the art should understand that changes, modifications, additions or substitutions made by those skilled in the art within the spirit of the present invention should also belong to the protection scope of the claims of the present invention.

Claims (9)

1. The utility model provides a steamed bun shaping equipment, includes processing platform (2), installs horizontal conveyor (1), its characterized in that on processing platform (2): two sides of the conveying direction of the horizontal conveyor belt (1) are respectively provided with a vertical conveyor belt (3), and a dough conveying channel (4) is arranged between the two vertical conveyor belts (3); the horizontal conveying belt (1) and the two vertical conveying belts (3) are driven by the same power mechanism to realize conveying, and the two vertical conveying belts (3) are driven by the power mechanism to perform different-speed transmission in opposite directions.

2. The steamed bun shaping apparatus of claim 1, wherein: horizontal conveyer belt (1) and vertical conveyer belt (3) all are including being used for driving the driven driving shaft of conveyer belt, power unit is motor (10), and motor (10) are connected through first transmission assembly with the driving shaft of horizontal conveyer belt (1), and the driving shaft of two vertical conveyer belts (3) is connected with the driving shaft of horizontal conveyer belt (1) through a second transmission assembly respectively.

3. The steamed bun shaping apparatus of claim 2, wherein: the first transmission assembly comprises a driving belt wheel (9) arranged on an output shaft of the motor (10) and a driven belt wheel I (11) arranged on a driving shaft of the horizontal transmission belt (1), and the driving belt wheel (9) is connected with the driven belt wheel I (11) through a belt.

4. A steamed bun shaping device as claimed in claim 3, wherein: every second drive assembly all includes and installs II (12) of driven pulleys on horizontal transfer area (1) driving shaft and installs III (13) of driven pulleys in vertical conveyer belt (3) driving shaft, and II (12) of driven pulleys are vertical setting, and III (13) of driven pulleys are horizontal setting, and II (12) of driven pulleys and III (13) of driven pulleys are connected through twisting the belt that crosses into "8" font.

5. The steamed bun shaping apparatus of claim 4, wherein: the two 8-shaped belts of the two second transmission assemblies are different in torsion direction.

6. The steamed bun shaping apparatus of claim 5, wherein: the diameters of the two driven pulleys II (12) are different in size.

7. The steamed bun shaping apparatus of claim 6, wherein: the diameter of one driven pulley II (12) is half of the diameter of the other driven pulley II (12).

8. The steamed bun shaping apparatus of claim 1, wherein: the noodle column pouring mechanism comprises a plurality of groups of noodle column pouring mechanisms sequentially arranged along the conveying direction of a horizontal conveying belt (1), each group of noodle column pouring mechanisms comprises an interception plate (5) erected above the horizontal conveying belt (1) and two vertical conveying belts (3) and a guide assembly located behind the interception plate (5) and acting on an inner driving surface of one vertical conveying belt (3) to enable the inner driving surface to protrude to an outer driving surface.

9. The steamed bun shaping apparatus of claim 8, wherein: the guide assembly comprises a limiting roller (7) used for limiting the inner transmission surface to protrude to the outer transmission surface and guide rollers (8) arranged on the left side and the right side of the limiting roller (7) and used for guiding the transmission of the inner transmission surface.

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