CN205397558U - Fluid dynamic prevents that stifled raw materials adds equipment - Google Patents

Abstract

The utility model discloses a fluid dynamic prevents that stifled raw materials adds equipment, prevent stifled device including hopper, unloading chamber, material pipeline, product pump and fluid dynamic, the unloading chamber is connected with the hopper, the material pipeline was connected with unloading perpendicular intercommunication of chamber, the material pipeline sets up fluid dynamic with unloading chamber junction and prevents stifled device, the fixed product pump that sets up of exit end of material pipeline. It is the same with traditional raw materials interpolation equipment application method, can avoid moreover because of the moist phenomenon that takes place the jam in unloading chamber to save operating personnel clearance unloading chamber and the work load of extravagant time, guaranteed the continuity of production, thereby improved production efficiency. The utility model discloses an avoid using two traditional raw materialss to add equipment and added the circumstances solid -state and two kind liquid materials respectively, reduced the configuration cost of equipment. The utility model discloses a simple structure, degree of automation is high, convenience simple to use.

Description

A kind of anti-blocking raw material of fluid dynamic adds equipment

Technical field

This utility model relates to food additive oil (gas) filling device technical field, is specifically related to a kind of anti-blocking raw material of fluid dynamic and adds equipment.

Background technology

In food service industry, particularly liquid form product, there is the processing step of material in process of production.The raw material of the different conditions such as solid, liquid need to be added to when material in the hopper that raw material adds equipment.Make various raw material add equipment by raw material to enter in material tank.And then make material processing step be accomplished.

In actual raw material adding procedure, easily make the blanking chamber that raw material adds equipment result in blockage in the process adding raw material owing to feed states and feed stock qualitative factor cause, and then affect production efficiency.Pulverulent solids raw material owing to adding is stabilizer for foods or thickening agent, and such raw material is respectively provided with the characteristic of imbibition.Therefore there are being moisture or wet environment meeting moisture absorption and luming rapidly and adhere in the blanking chamber that raw material adds equipment.That is, first a small amount of caking adheres to blanking cavity wall, and increase viscosity caking constantly accumulates in blanking chamber and blanking chamber blocking the most at last in time.It is usually formed the main cause of blocking: 1, when adding raw material to hopper, owing to the liquid material solvent of raw material (liquid material be) flow velocity in material pipeline is not sufficiently stable, makes liquid enter in blanking chamber.Grume is constantly formed, until being blocked in blanking chamber after stabilizer water suction.2, solid material and liquid charging stock alternately add so that the blanking chamber that raw material adds equipment is moist, and then cause powder solid raw material form agglomerate in the moisture absorption of position, blanking chamber and constantly accumulate.

And the solution in producing at present has: 1, moist in order to avoid making raw material add equipment due to adding liquid raw material, and use two raw materials to add equipment and add the raw material of solid, liquid two states respectively, configuring two equipment, to have resulted in cost of a relatively high.2, after raw material adds the blanking chamber blocking of equipment, first the raw material having added in hopper is all taken out, then again the stabilizer grume got lodged in because of moisture absorption in blanking chamber is drawn out, again add dry solid material, so can affect production efficiency.

Traditional raw material adds equipment and solves raw material blocking generally by two kinds of forms: the first is as it is shown on figure 3, be that raw material is constantly pressed in material pipeline by the self gravitation by adding material bin Raw.The second as shown in Figure 4, sets up motor and rotating vane on hopper top, and the blade that the motor start-up on hopper top and then drive are operationally arranged in blanking chamber rotates, it is possible to prevent blanking chamber blockage phenomenon.The first also has blocking unavoidably after using time length at present, and the second adds equipment and there is problems of, it is necessary to setting up a motor, actually used middle energy consumption increases relatively, and motor is positioned at raw material and adds hopper top, is first unfavorable for adding raw material.Secondly the parts of motor, machine oil fall with raw material and add the risk of equipment hopper.

Accordingly, it is desirable to provide a kind of anti-blocking raw material of fluid dynamic adds equipment, there is fluid dynamic anti-block apparatus, the generation of clogging can be avoided when adding solid, liquid two states material.Thus reinforced process can be made to remain smooth and easy, improve production efficiency.

Utility model content

The technical problems to be solved in the utility model is to provide a kind of anti-blocking raw material of fluid dynamic and adds equipment, utilize the transmission of the fluid dynamic gear in fluid dynamic anti-block apparatus and driven gear, driven gear blade on driven gear rotates in blanking chamber, plays anti-blocking effect.

For solving above-mentioned technical problem, this utility model adopts following technical proposals:

A kind of anti-blocking raw material of fluid dynamic adds equipment, including hopper, blanking chamber, material pipeline, product pump and fluid dynamic anti-block apparatus, described blanking chamber is connected with hopper, described material pipeline is connected with blanking chamber vertical connection, described material pipeline and junction, blanking chamber arrange fluid dynamic anti-block apparatus, and the port of export of described material pipeline is fixedly installed product pump.Material pipeline adds the material of liquid, is made by the power of product pump the material of liquid flow in material pipeline high speed.

Preferably, described fluid dynamic anti-block apparatus includes fluid dynamic gear and driven gear, and described fluid dynamic gear and driven gear are bevel gear, described fluid dynamic gear and driven gear Vertical Meshing.Fluid dynamic gear and driven gear Vertical Meshing can by the power transmission of horizontal direction to vertical direction.

Preferably, the rotation axis horizontal of described fluid dynamic gear is arranged, and described fluid dynamic gear is fixedly installed fluid dynamic gear blade, and described fluid dynamic gear blade is arranged in material pipeline.When the material high-speed of liquid is through material pipeline, fluid can produce power by convection cell power gear blade, thus carry fluid power gear rotates.

Preferably, the quantity of described fluid dynamic gear blade is 3-6.Preferred amount is 4, in order to obtain fluid dynamic equilibrium establishment point between blade drag better.

Preferably, the rotating shaft of described driven gear is vertically arranged, and described driven gear arranges driven gear blade, and described driven gear blade is arranged on blanking intracavity.Fluid dynamic gear rotarily drive driven gear, due to fluid dynamic gear and driven gear Vertical Meshing, so horizontally rotating of fluid dynamic gear is delivered to vertically rotating of driven gear, thus driving driven gear blade to rotate, owing to driven gear blade is arranged in blanking chamber, so the little agglomerate produced in blanking chamber can be swept and be fallen in material pipeline by blanking chamber by the rotation of driven gear blade, and taken away by swiftly flowing liquid material, thus without forming big agglomerate, so the phenomenon in blocking blanking chamber also would not there occurs.

Preferably, described fluid dynamic gear is provided with fluid dynamic gear stand, described fluid dynamic gear can hydrodynamic form power gear holder pivots, the inwall of described fluid dynamic gear stand and material pipeline is fixing to be connected.By fluid dynamic gear stand, fluid dynamic gear is fixed on the inwall of material pipeline, but fluid dynamic gear stand can not affect the rotation of fluid dynamic gear

Preferably, described driven gear is provided with driven gear support, and described driven gear can around driven gear holder pivots, and described driven gear support is fixing with the inwall of material pipeline to be connected.By driven gear support, driven gear is fixed on the inwall of material pipeline, but driven gear support can not affect the transmission of driven gear.

Preferably, described hopper is funnel type.The hopper of funnel type can add solid material better to blanking chamber.

The beneficial effects of the utility model are as follows:

A kind of anti-blocking raw material of fluid dynamic of the present utility model adds equipment owing to have employed above technical scheme, equipment using method is added identical with traditional raw material, and can avoid occurring the phenomenon of blocking because blanking chamber is moist, thus saving operator to clear up blanking chamber and the workload of time wasted, ensure that the seriality of production, thus improve production efficiency.This utility model avoids two traditional raw materials interpolation equipment of use and adds solid-state and the situation of two kinds of materials of liquid respectively, reduces the deployment cost of equipment.This utility model simple in construction, automaticity is high, easy to use.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described in further detail.

Fig. 1 illustrates that the anti-blocking raw material of a kind of fluid dynamic of the present utility model adds the structural representation of equipment.

Fig. 2 illustrates that the anti-blocking raw material of a kind of fluid dynamic of the present utility model adds the fluid dynamic anti-block apparatus structural representation of equipment.

Fig. 3 illustrates that the anti-blocking raw material of a kind of fluid dynamic of the present utility model adds the structural representation of the background technology of equipment.

Fig. 4 illustrates that the anti-blocking raw material of a kind of fluid dynamic of the present utility model adds the rotating vane structural representation of the background technology of equipment.

In figure, each labelling is as follows: 1 fluid dynamic anti-block apparatus, 11 fluid dynamic gears, 12 fluid dynamic gear blades, 13 fluid dynamic gear stands, 14 driven gears, 15 driven gear blades, 16 driven gear supports, 2 hoppers, 3 blanking chambeies, 4 material pipelines, 5 product pumps.

Detailed description of the invention

In order to be illustrated more clearly that this utility model, below in conjunction with preferred embodiments and drawings, this utility model is described further.Parts similar in accompanying drawing are indicated with identical accompanying drawing labelling.It will be appreciated by those skilled in the art that following specifically described content is illustrative and be not restrictive, protection domain of the present utility model should do not limited with this.

As it is shown in figure 1, a kind of anti-blocking raw material of fluid dynamic adds equipment, including hopper 2, blanking chamber 3, material pipeline 4, product pump 5 and fluid dynamic anti-block apparatus 1, described hopper 2 is funnel type.Described blanking chamber 3 is connected with hopper 2, and described material pipeline 4 is connected with blanking chamber 3 vertical connection, and described material pipeline 4 arranges fluid dynamic anti-block apparatus 1 with junction, blanking chamber 3, and the port of export of described material pipeline 4 is fixedly installed product pump 5.

As in figure 2 it is shown, described fluid dynamic anti-block apparatus 1 includes fluid dynamic gear 11 and driven gear 14, described fluid dynamic gear 11 and driven gear 14 are bevel gear, described fluid dynamic gear 11 and driven gear 14 Vertical Meshing.The rotation axis horizontal of described fluid dynamic gear 11 is arranged, and described fluid dynamic gear 11 is fixedly installed fluid dynamic gear blade 12, and described fluid dynamic gear blade 12 is arranged in material pipeline 4.The quantity of described fluid dynamic gear blade 12 is 3-6.In order to obtain fluid dynamic equilibrium establishment point between blade drag better, it is preferable that quantity is 4.The rotating shaft of described driven gear 14 is vertically arranged, and described driven gear 14 arranges driven gear blade 15, and described driven gear blade 15 is arranged in blanking chamber 3.

Described fluid dynamic gear 11 is provided with fluid dynamic gear stand 13, and described fluid dynamic gear 11 can rotate by hydrodynamic form power gear support 13, and described fluid dynamic gear stand 13 is fixing with the inwall of material pipeline 4 to be connected.Described driven gear 14 is provided with driven gear support 16, and described driven gear 14 can rotate around driven gear support 16, and described driven gear support 16 is fixing with the inwall of material pipeline 4 to be connected.

During use, adding solid material in hopper 2, add liquid material in material pipeline 4, solid material moves downward due to gravity, and liquid material flows in material pipeline high speed due to the power of product pump 5.When the material high-speed of liquid is through material pipeline 4, fluid can produce power by convection cell power gear blade 12, thus carry fluid power gear 11 rotates.Fluid dynamic gear 11 rotarily drive driven gear 14, due to fluid dynamic gear 11 and driven gear 14 Vertical Meshing, so horizontally rotating of fluid dynamic gear 11 is delivered to vertically rotating of driven gear 14, thus driving driven gear blade 15 to rotate, owing to driven gear blade 15 is arranged in blanking chamber 3, so the little agglomerate produced in blanking chamber 3 can be swept and be fallen in material pipeline 4 by blanking chamber 3 by the rotation of driven gear blade 15, and taken away by swiftly flowing liquid material, thus without forming big agglomerate, so the phenomenon in blocking blanking chamber also would not there occurs.

Obviously; above-described embodiment of the present utility model is only for clearly demonstrating this utility model example; and it is not the restriction to embodiment of the present utility model; for those of ordinary skill in the field; can also make other changes in different forms on the basis of the above description; here cannot all of embodiment be given exhaustive, every belong to apparent change that the technical solution of the utility model extended out or the variation row still in protection domain of the present utility model.

Claims (8)

1. the anti-blocking raw material of fluid dynamic adds equipment, it is characterized in that: include hopper (2), blanking chamber (3), material pipeline (4), product pump (5) and fluid dynamic anti-block apparatus (1), the upper end of described blanking chamber (3) is connected with hopper (2), the lower end of described blanking chamber (3) is connected with material pipeline (4) vertical connection, described material pipeline (4) and blanking chamber (3) junction arrange fluid dynamic anti-block apparatus (1), and the port of export of described material pipeline (4) is fixedly installed product pump (5).

2. a kind of anti-blocking raw material of fluid dynamic according to claim 1 adds equipment, it is characterized in that: described fluid dynamic anti-block apparatus (1) includes fluid dynamic gear (11) and driven gear (14), described fluid dynamic gear (11) and driven gear (14) are bevel gear, described fluid dynamic gear (11) and driven gear (14) Vertical Meshing.

3. a kind of anti-blocking raw material of fluid dynamic according to claim 2 adds equipment, it is characterized in that: the rotation axis horizontal of described fluid dynamic gear (11) is arranged, being fixedly installed fluid dynamic gear blade (12) on described fluid dynamic gear (11), described fluid dynamic gear blade (12) is arranged in material pipeline (4).

4. a kind of anti-blocking raw material of fluid dynamic according to claim 3 adds equipment, it is characterised in that: the quantity of described fluid dynamic gear blade (12) is 3-6.

5. a kind of anti-blocking raw material of fluid dynamic according to claim 2 adds equipment, it is characterized in that: the rotating shaft of described driven gear (14) is vertically arranged, arranging driven gear blade (15) on described driven gear (14), described driven gear blade (15) is arranged in blanking chamber (3).

6. a kind of anti-blocking raw material of fluid dynamic according to claim 2 adds equipment, it is characterized in that: described fluid dynamic gear (11) is provided with fluid dynamic gear stand (13), described fluid dynamic gear (11) can rotate by hydrodynamic form power gear support (13), and described fluid dynamic gear stand (13) is fixing with the inwall of material pipeline (4) to be connected.

7. a kind of anti-blocking raw material of fluid dynamic according to claim 2 adds equipment, it is characterized in that: described driven gear (14) is provided with driven gear support (16), described driven gear (14) can rotate around driven gear support (16), and described driven gear support (16) is fixing with the inwall of material pipeline (4) to be connected.

8. a kind of anti-blocking raw material of fluid dynamic according to claim 1 adds equipment, it is characterised in that: described hopper (2) is funnel type.