CN215556569U - Suspension type conveying mechanism of quick-freezing equipment - Google Patents

Abstract

The utility model relates to a suspension type conveying mechanism of quick-freezing equipment, which comprises a material conveying mechanism and an air supply mechanism. The material conveying mechanism is provided with a latticed conveying crawler belt, and the air supply mechanism is arranged below the material conveying mechanism and supplies air to the latticed conveying crawler belt. The beneficial effects are that: the transported materials are not easy to stick on the conveying belt and can move in the air under most conditions; when the part is stuck on the conveying belt, the stuck materials can be vibrated down by the vibrator.

Description

Suspension type conveying mechanism of quick-freezing equipment

Technical Field

The utility model belongs to the technical field of freezing equipment, and particularly relates to a suspension type conveying mechanism of the freezing equipment.

Background

The quick freezing of food materials such as vegetables and fruits is a frozen food prepared by processing fresh food materials and quickly freezing the processed food materials. Its advantages are long storage period, high effect on keeping the original colour and taste of vegetables and vitamines, and high effect on regulating the supply of vegetables in light and vigorous seasons.

When food materials such as vegetables and fruits are carried by the conventional chain belt conveying equipment, the food materials are easily stuck on a conveying chain to cause pollution of the conveying chain.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model adopts the following technical scheme:

the suspension type conveying mechanism of the quick-freezing equipment comprises

The material conveying mechanism is provided with a grid-shaped conveying crawler belt,

and the air supply mechanism is arranged below the material conveying mechanism and supplies air to the latticed conveying crawler belt.

In some forms, the air supply mechanism includes a plurality of air supply fans.

In some modes, the grid-shaped conveying crawler belt is further provided with a vibration assembly in a matched mode, and the vibration assembly is used for vibrating the grid-shaped conveying crawler belt.

In some modes, the vibration component comprises a vibration part rotating shaft, an eccentric wheel is arranged on the vibration part rotating shaft,

when the vibration part rotating shaft drives the eccentric wheel to rotate, the eccentric convex part of the eccentric wheel can be intermittently contacted with the latticed conveying crawler belt.

In some forms, a distance between the eccentric wheel axis and the grid-shaped conveying track is smaller than a distance between the eccentric wheel axis and the outer side of the eccentric convex part.

In some embodiments, the eccentric protrusion is a rolling wheel disposed outside the eccentric wheel.

In some forms, the material transfer mechanism is divided into a first transfer portion and a second transfer portion; the second transmission part has a rotation speed lower than that of the first transmission part.

In some modes, an isolation net bag is arranged between the material conveying mechanism and the air supply mechanism.

In some forms, the air speed of the air supply mechanism is adjustable.

In some modes, a protective mesh enclosure is arranged above the material conveying mechanism.

The utility model has the beneficial effects that:

the transported materials are not easy to stick on the conveying belt and can move in the air under most conditions; when the part is stuck on the conveying belt, the stuck materials can be vibrated down by the vibrator.

Drawings

FIG. 1 is a schematic front view of the present invention;

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

FIG. 3 is a side view of the present invention;

FIG. 4 is a schematic view of an operating state of the vibrating member according to the present invention;

fig. 5 is a schematic view of a transport principle of the present invention.

In the figure:

100 material conveying mechanisms, 110 vibration assemblies, 111 vibration part rotating shafts, 112 eccentric protrusions, 113 eccentric wheels, 120 grid-shaped conveying tracks and 200 air supply mechanisms.

Detailed Description

The utility model is further illustrated below:

the quick-freezing equipment suspension type conveying mechanism, as shown in figure 1, comprises

The material transfer mechanism 100 has a mesh-like conveyor track 120 on which the material is placed during transport, in one case the mesh-like conveyor track 120 imparts a force to the material in the direction of travel.

An air supply mechanism 200 which is arranged below the material conveying mechanism 100 and supplies air to the grid-shaped conveying crawler 120; the air sent by the air supply mechanism 200 blows up the material on the material conveying mechanism 100 to suspend the material.

The material conveying mechanism 100 is provided with a freezing and refrigerating device at the side.

The conveying mechanism is suitable for conveying vegetables, fruits and other food materials, and is also in the application range of the conveying mechanism.

In one embodiment, the air blowing mechanism 200 has an upward wind direction and is inclined in the forward direction; thereby enabling the materials to be similar to a suspension state and keeping moving forwards;

referring to fig. 2, in another embodiment, the air supply mechanism 200 includes a plurality of air supply fans; a spacer is provided between the two air blowing mechanisms 200.

As shown in fig. 5, when the material is fed between the two blowing mechanisms 200, the material falls down onto the mesh-shaped conveying crawler 120 under the influence of the gravity of the material, and after contact, the mesh-shaped conveying crawler 120 applies force to the material to move it forward; so that the material is in a forward state similar to jumping in the whole transportation process.

In conjunction with the description of fig. 1, the lattice-shaped conveyer belt 120 is further provided with a vibration assembly 110, and the vibration assembly 110 is used for vibrating the lattice-shaped conveyer belt 120.

The vibration that vibrations subassembly 110 does not stop to drive latticed conveyer track 120 vibration thereupon, avoided material and latticed conveyer track 120 adhesion, the material residue that will leave over simultaneously shakes and falls.

The vibration assembly 110 described in conjunction with fig. 2 includes a vibration member rotating shaft 111, and the vibration member rotating shaft 111 is driven by a motor to rotate;

the shaking member rotating shaft 111 is provided with an eccentric wheel 113, and the eccentric wheel 113 is not limited to an eccentric mechanism, and other similar structures are within the scope of the present invention. The eccentric wheel 113 is driven to rotate by the rotating shaft 111 of the vibrating piece, the eccentric wheel rotates as shown in figure 4,

when the shaking piece rotating shaft 111 drives the eccentric wheel 113 to rotate, the eccentric convex part 112 of the eccentric wheel 113 can intermittently contact with the grid-shaped conveying crawler 120; in the process, the convex portion of the eccentric wheel 113 is intermittently disengaged from the mesh-type conveying belt 120.

Specifically, in the setting process of the eccentric wheel 113 and the grid-shaped conveying track 120, the distance between the axis of the eccentric wheel 113 and the outer side of the eccentric convex part 112 is smaller than the distance between the axis of the eccentric wheel 113 and the outer side of the eccentric convex part 112.

The rotation direction of the eccentric wheel 113 is perpendicular to the conveying direction of the lattice-like conveying belt 120.

The eccentric protrusion 112 is a rolling wheel disposed outside the eccentric wheel 113. Therefore, the eccentric convex part 112 has better contact effect in the contact process with the latticed conveying crawler 120, friction loss is reduced through roller contact between the eccentric convex part 112 and the latticed conveying crawler 120, rolling wheels roll in the contact process, the latticed conveying crawler 120 can be jacked upwards, and the integral rotation of the vibrating piece is not influenced.

As shown in fig. 2, the material conveying mechanism 100 is divided into a first conveying part and a second conveying part for better freezing; the second transmission part has a rotation speed lower than that of the first transmission part. The first conveying part is positioned in the initial freezing area, the object can move faster, and the object needs to stay for a longer time in the deep freezing area.

An isolation tuck net is arranged between the material conveying mechanism 100 and the air supply mechanism 200, so that excessive food waste is prevented from falling.

The air speed of the air supply mechanism 200 is adjustable, so that different types of materials can be blown up.

The protection net cover is arranged above the material conveying mechanism 100, so that the situation that some materials with smaller weight are blown upwards too high to cause the materials to fly around is avoided.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the utility model. All falling within the scope of protection of the present invention. The protection scheme of the utility model is subject to the appended claims.

Claims (10)

1. The suspension type conveying mechanism of the quick-freezing equipment is characterized by comprising

A material conveying mechanism (100) having a mesh-like conveying track (120),

and the air supply mechanism (200) is arranged below the material conveying mechanism (100) and supplies air to the grid-shaped conveying crawler belt (120).

2. The suspension type conveying mechanism for the quick-freezing equipment as claimed in claim 1, wherein the air supply mechanism (200) comprises a plurality of air supply fans.

3. The suspension type conveying mechanism for the quick-freezing equipment as claimed in claim 1, wherein the grid-shaped conveying track (120) is further provided with a vibration assembly (110), and the vibration assembly (110) is used for vibrating the grid-shaped conveying track (120).

4. The suspension type conveying mechanism of the quick-freezing equipment as claimed in claim 3, wherein the vibration component (110) comprises a vibration member rotating shaft (111), the vibration member rotating shaft (111) is provided with an eccentric wheel (113),

when the vibration part rotating shaft (111) drives the eccentric wheel (113) to rotate, the eccentric convex part (112) of the eccentric wheel (113) can be intermittently contacted with the grid-shaped conveying crawler belt (120).

5. The suspension type conveying mechanism for the quick-freezing equipment as claimed in claim 4, wherein the distance between the axle center of the eccentric wheel (113) and the grid-shaped conveying track (120) is smaller than the distance between the axle center of the eccentric wheel (113) and the outer side of the eccentric convex part (112).

6. The suspension type conveying mechanism of the quick-freezing equipment as claimed in claim 4, wherein the eccentric convex part (112) is a rolling wheel arranged outside the eccentric wheel (113).

7. The suspension type conveying mechanism of the quick-freezing equipment as claimed in claim 1, wherein the material conveying mechanism (100) is divided into a first conveying part and a second conveying part; the second transmission part has a rotation speed lower than that of the first transmission part.

8. The suspension type conveying mechanism for the quick-freezing equipment as claimed in claim 1, wherein an isolation tuck net is arranged between the material conveying mechanism (100) and the air supply mechanism (200).

9. The suspension type conveying mechanism of the quick-freezing equipment as claimed in claim 1, wherein the air speed of the air supply mechanism (200) is adjustable.

10. The suspension type conveying mechanism for the quick-freezing equipment as claimed in claim 1, wherein a protective screen is arranged above the material conveying mechanism (100).

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