CN210203202U - Cooling box for processing protein rods - Google Patents

Abstract

The utility model relates to a albumen stick production and processing equipment technical field, concretely relates to a cooler bin for albumen stick processing, the power distribution box comprises a box body, feeding web and ejection of compact conveyer belt, the semi-manufactured goods material of last process passes through in the feeding web gets into the cooler bin, dial the material wheel at the uniform velocity and rotate and dial the material once on the different first guipure conveyer belt, then the material is dialled the material mechanism again from the end of first guipure conveyer belt and is dialled on the second guipure conveyer belt, then carry the operation distance that the equipment that carries out this scheme of processing on next step on the ejection of compact conveyer belt needs refrigerated material through adjusting, make it fully cool off, thereby effectively utilize limited workshop place, the production cost is reduced, automated processing has effectively improved production efficiency when having reduced workman's intensity of labour simultaneously.

Description

Cooling box for processing protein rods

Technical Field

The utility model relates to a albumen stick production and processing equipment technical field, concretely relates to a cooler bin for albumen stick processing.

Background

The protein stick is a popular instant snack, the processing of the protein stick needs to mix a plurality of raw materials such as soybean protein powder, fiber powder, starch and the like according to a proportion, some products also need to be added with some fruits, vegetable extracts or protein components, the raw materials need to be screened to a certain particle size in the processing of the protein stick, all the raw materials need to be stirred and mixed uniformly, after the steps of extrusion, drying and the like, the semi-finished product needs to be cooled and bagged, the cooling generally adopts a fan for heat dissipation, the cooling of the semi-finished product protein stick needs a longer time, so that larger equipment or a longer processing period is needed, and the production cost is increased.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the application provides a cooling box, the semi-finished product material of the previous procedure enters the cooling box through a feeding conveyer belt, a material stirring wheel rotates at a constant speed to stir the material on different first net belt conveyer belts for one time, then the material is stirred on a second net belt conveyer belt by a material stirring mechanism from the tail end of the first net belt conveyer belt, and then the material is conveyed to a discharging conveyer belt to be processed on the next step.

The specific scheme provided by the application for solving the problems is as follows: a cooling box for processing protein rods comprises a box body, a feeding conveyer belt and a discharging conveyer belt, wherein the box body is in a hollow cube shape, a feeding hole is formed in the front surface of the box body, the conveying tail end of the feeding conveyer belt arranged outside the box body penetrates through the feeding hole and is arranged inside the box body, a discharging hole is formed below the feeding hole, and the conveying head end of the discharging conveyer belt arranged outside the box body penetrates through the discharging hole and is arranged inside the box body; the both sides of feeding conveyer belt are equipped with the reciprocal conveying mechanism of multiunit, and the material on the feeding conveyer belt passes through on the reciprocal conveying mechanism conveyer belt ejection of compact conveyer belt of multiunit, the box top is equipped with the fan that is used for to the internal input cooling gas of box and a plurality of kickoff that are used for adjusting the material direction of transportation constructs.

Reciprocating conveying mechanism is including the first guipure conveyer belt and the second guipure conveyer belt that set up side by side, and the conveying face of first guipure conveyer belt is not higher than the conveying face of feeding conveyer belt to the direction of delivery of first guipure conveyer belt is perpendicular with the direction of first guipure conveyer belt, and the slope of second guipure conveyer belt sets up and direction of delivery is towards ejection of compact conveyer belt, and the transport head end of second guipure conveyer belt is not higher than the transport end of first guipure conveyer belt, and carries the end and be not less than ejection of compact conveyer belt's conveying face.

And a plurality of groups of reciprocating conveying mechanisms are arranged on the two sides of the feeding conveying belt along the conveying direction, and the reciprocating conveying mechanisms on the two sides of the feeding conveying belt are arranged in a staggered manner.

The material shifting mechanism comprises a material shifting wheel and a micro motor, the material shifting wheel is installed on an output shaft of the micro motor, and a material shifting plate is arranged on the circumferential surface of the material shifting wheel.

The micro motor is a stepping motor or a servo motor.

The box body is provided with a plurality of material shifting mechanisms for shifting materials from the feeding conveyer belt to the conveying head end of the first mesh belt conveyer belt and shifting materials from the conveying tail end of the first mesh belt conveyer belt to the conveying head end of the second mesh belt conveyer belt.

The box back corresponds the feed inlet position and has seted up the opening, and the box back corresponds the opening part and is equipped with the collecting hopper.

This application and prior art contrast have beneficial effect do: the feeding conveyer belt is arranged above the discharging conveyer belt, a plurality of groups of reciprocating conveying mechanisms are arranged in the box body and positioned on two sides of the feeding conveyer belt along the conveying direction, each reciprocating conveying mechanism comprises a first mesh belt conveyer belt and a second mesh belt conveyer belt which are arranged along the conveying direction of the feeding conveyer belt, the first mesh belt conveyer belt horizontally conveys materials from the feeding conveyer belt to the side face of the box body, the second mesh belt conveyer belt inclines and is used for conveying the materials at the tail end of the first mesh belt conveyer belt to the discharging conveyer belt, the conveying surface of the first mesh belt conveyer belt is not higher than the conveying surface of the feeding conveyer belt, the conveying head end of the second mesh belt conveyer belt is not higher than the conveying tail end of the first mesh belt conveyer belt, the conveying tail end is not lower than the conveying surface of the discharging conveyer belt, the materials are convenient to be received and transferred, the internal space of the box body is effectively utilized, the running time of the, the cooling effect is improved.

Drawings

FIG. 1 is an external overall structure diagram of the present solution;

FIG. 2 is a schematic view of the installation structure of the scheme;

FIG. 3 is a schematic view of the internal top view structure of the present solution;

FIG. 4 is a schematic sectional view of the present solution at the center line of the long side of the case;

the labels in the figure are: 1. the device comprises a box body, 2, a feeding conveyer belt, 3, a discharging conveyer belt, 4, a material stirring wheel, 5, a first mesh belt conveyer belt, 6, a second mesh belt conveyer belt, 7 and a collecting hopper.

Detailed Description

The present solution is further explained below with reference to the attached drawings, which are only illustrative of the present solution and not limiting to the same:

a cooling box for processing protein rods comprises a box body, a feeding conveyer belt and a discharging conveyer belt, wherein the box body is in a hollow cube shape, a feeding hole is formed in the front face of the box body, the conveying tail end of the feeding conveyer belt arranged outside the box body penetrates through the feeding hole to be arranged inside the box body, a discharging hole is formed below the feeding hole, the conveying head end of the discharging conveyer belt arranged outside the box body penetrates through the discharging hole to be arranged inside the box body, a feeding conveyer belt 2 and a discharging conveyer belt 3 are supported and arranged through self supports, the feeding end of the feeding conveyer belt 2 is arranged at the discharging hole of a front-end process, and a material cooled in the box body 1 is conveyed to a processing position of a next; the two sides of the feeding conveyer belt are provided with a plurality of groups of reciprocating conveying mechanisms, materials on the feeding conveyer belt pass through the discharging conveyer belt of the plurality of groups of reciprocating conveying mechanisms, each reciprocating conveying mechanism comprises a first net belt conveyer belt and a second net belt conveyer belt which are arranged side by side along the conveying direction of the feeding conveyer belt 2, the conveyer belts of the first net belt conveyer belt 5 and the second net belt conveyer belt 6 are food-grade net belts, hollow holes are arranged on the net belts to facilitate the circulation of cooling gas in the box body 1, the conveying surface of the first net belt conveyer belt is not higher than the conveying surface of the feeding conveyer belt, the conveying direction of the first net belt conveyer belt is vertical to the direction of the first net belt conveyer belt, the first net belt conveyer belt 5 conveys the materials received from the feeding conveyer belt 5 to the side surface of the box body 1, the second net belt conveyer belt is arranged in an inclined way and faces the discharging, the conveying tail end is not lower than the conveying surface of the discharging conveying belt, and the second mesh belt conveying belt 6 is used for conveying the materials on the first mesh belt conveying belt 5 to the discharging conveying belt 3; both sides of feeding conveyer belt all have along direction of delivery to be equipped with multiunit reciprocating conveying mechanism to the reciprocating conveying mechanism dislocation set of feeding conveyer belt both sides makes 2 continuous conveying's of feeding conveyer belt polylith materials can dial different reciprocating conveying mechanism simultaneously on, increases the stability of device work.

The utility model discloses a material conveying device, including box 1, micro motor, driving wheel 4, set up material mechanism, material conveying belt 2, box top is equipped with a plurality of kickoff mechanisms that are used for adjusting material direction of transportation, and the kickoff mechanism includes kickoff wheel and micro motor, and micro motor is through connecting in box 1 axle fixed mounting, and micro motor can be servo motor or step motor, is connected with kickoff wheel 4 on micro motor's the power shaft, and the bone is guarded against even kickoff on the periphery of kickoff wheel 4, the kickoff is the soft board, and a plurality of kickoff mechanisms distribute in feeding conveying belt 2 tops and first guipure conveyer belt 5's top for dial the material on the feeding conveying belt 2 to first guipure conveyer belt 5's transport head end, and dial the terminal material of first guipure conveyer belt 5 to the transport head end of.

The box top is equipped with the fan that is used for inputing cooling gas in to the box, and the air exit of fan is connected with the pipeline, makes the vertical downward diffusion of cooling air to the gas vent discharge from box 1 bottom, the back of box 1 corresponds the feed inlet position and is equipped with the opening, and the 1 back of box corresponds the opening position and is equipped with collecting hopper 7, avoids the system disorder to lead to the material on the feeding conveyer belt 2 to fail to dial completely and cause 1 internal blockage of box on reciprocating transport mechanism.

By respectively adjusting and adjusting the material shifting action frequency of the material shifting mechanism above the feeding conveyer belt 2 and the material spacing on the feeding conveyer belt 2, when a plurality of adjacent materials completely enter the box body 1, the material shifting wheel 4 of the material shifting mechanism above the feeding conveyer belt 2 simultaneously rotates or simultaneously rotates to the working angle of the material shifting plate, the materials are simultaneously shifted to different first mesh belt conveyer belts 5, when the materials move to the tail end along the first mesh belt conveyer belt 5, the material shifting mechanism above the first mesh belt conveyer belt 5 acts to shift the materials to the corresponding second mesh belt conveyer belt 6 to be conveyed to the discharging conveyer belt 3 and then conveyed to the processing position of the next process, by controlling the operation speed of the feeding conveyer belt 2, the material feeding spacing and the conveying speed of the first mesh belt 5, the action frequency of every adjustable kickoff constructs realizes stable processing, and the equipment of this scheme makes it fully cool off through the operation distance of adjusting the material that needs the refrigerated to effectively utilize limited workshop place, reduced manufacturing cost, automated processing has effectively improved production efficiency when having reduced workman's intensity of labour simultaneously.

The preferred embodiments and examples of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the embodiments and examples, and various changes can be made without departing from the concept of the present invention within the knowledge of those skilled in the art.

Claims (7)

1. The utility model provides a cooler bin for albumen stick processing, includes box (1), feeding conveyer belt (2) and ejection of compact conveyer belt (3), its characterized in that: the box body (1) is in a hollow cube shape, a feed inlet is formed in the front of the box body (1), the conveying tail end of a feeding conveying belt (2) arranged outside the box body (1) penetrates through the feed inlet and is arranged inside the box body (1), a discharge outlet is formed below the feed inlet, and the conveying head end of a discharging conveying belt (3) arranged outside the box body (1) penetrates through the discharge outlet and is arranged inside the box body (1); the both sides of feeding conveyer belt (2) are equipped with the reciprocal conveying mechanism of multiunit, and the material on feeding conveyer belt (2) is through on the reciprocal conveying mechanism conveyer belt ejection of compact conveyer belt (3) of multiunit, box (1) top is equipped with the fan that is used for inputing cooling gas in box (1) and a plurality of group that is used for adjusting the material direction of transportation constructs.

2. A cooling box for protein rod processing according to claim 1, wherein: reciprocating conveying mechanism is including first guipure conveyer belt (5) and second guipure conveyer belt (6) that set up side by side, the transport face of first guipure conveyer belt (5) is not higher than the transport face of feeding conveyer belt (2), and the direction of delivery of first guipure conveyer belt (5) is perpendicular with the direction of first guipure conveyer belt (5), second guipure conveyer belt (6) slope sets up and direction of delivery is towards ejection of compact conveyer belt (3), the transport head end of second guipure conveyer belt (6) is not higher than the transport end of first guipure conveyer belt (5), and transport end is not less than the transport face of ejection of compact conveyer belt (3).

3. A cooling box for protein rod processing according to claim 2, characterized in that: the two sides of the feeding conveying belt (2) are provided with a plurality of groups of reciprocating conveying mechanisms along the conveying direction, and the reciprocating conveying mechanisms on the two sides of the feeding conveying belt (2) are arranged in a staggered mode.

4. A cooling box for protein rod processing according to claim 2, characterized in that: the material shifting mechanism comprises a material shifting wheel (4) and a micro motor, the material shifting wheel (4) is installed on an output shaft of the micro motor, and a material shifting plate is arranged on the circumferential surface of the material shifting wheel (4).

5. A cooling box for protein rod processing according to claim 4, characterized in that: the micro motor is a stepping motor or a servo motor.

6. A cooling box for protein rod processing according to claim 4, characterized in that: the material poking device is characterized in that a plurality of material poking mechanisms are installed on the box body (1) and used for poking materials from the feeding conveying belt (2) to the conveying head end of the first mesh belt conveying belt (5) and poking materials from the conveying tail end of the first mesh belt conveying belt (5) to the conveying head end of the second mesh belt conveying belt (6).

7. A cooling box for protein rod processing according to claim 1, wherein: the back of the box body (1) is provided with an opening corresponding to the position of the feed inlet, and the back of the box body (1) is provided with a material collecting hopper (7) corresponding to the opening.

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