CN207698042U - A kind of dust-proof classification packaging system - Google Patents

Abstract

The utility model is related to a kind of conveying and packaging equipment, more particularly to a kind of dust-proof classification packaging system, including the wind turbine being sequentially communicated, first cyclone separator and feed pipe, first cyclone separator is closed feed bin and is vertically arranged, the first discharge nozzle is provided with and communicated with below first cyclone separator, closed pack room is provided with below first cyclone separator, pack interior is placed with pulp-collecting box, first discharge nozzle is inserted into pack interior and above pulp-collecting box, pack room is provided with and communicated with air inlet pipe and aspiration channel, air inlet pipe and atmosphere, aspiration channel is connected to feed pipe.In the present invention, under the suction and conveying effect of wind turbine, there is air to be imported in feed pipe from air inlet pipe into after flowing through pack room and aspiration channel, it will again be recycled in the indoor dust suction and conveying to feed pipe flown upward of pack, achieved the effect that prevent from dust from flying and the dust flown upward can be collected to utilize again.

Description

A kind of dust-proof classification packaging system

Technical field

The utility model is related to a kind of conveying and packaging equipment, more particularly to a kind of dust-proof classification packaging system.

Background technology

When transporting the material of the powdery types such as graphite, generally use spiral conveyer, scratch board conveyor or belt transmission Machine transports, and when using using spiral conveyer or scratch board conveyor, travelling speed is slower, when being transported using belt conveyor, Dust is easy tod produce, therefore air float conveyer can be used, it is more environmentally friendly.Classification packaging system is a kind of shape of air float conveyer Formula.

The classification packaging system of existing transport graphite includes the wind turbine being sequentially communicated, cyclone separator, feed pipe and connects Magazine, cyclone separator is closed feed bin and is vertically arranged, and is provided with and communicated with discharge nozzle below cyclone separator, pulp-collecting box is located at The lower section of discharge nozzle and feed back pipe is used for splicing.Wind turbine provides power, by the material suction and conveying in feed pipe to cyclone separator It is interior, it is settled, opens discharge nozzle later, running underneath to pulp-collecting box from discharge nozzle is collected pack.

It is above-mentioned it is in the prior art be disadvantageous in that, pulp-collecting box is easy tod produce when connecing from material under discharge nozzle stream Part dust from flying can cause the pollution of power house environment, while this partial material is also difficult to collect to be reused.

Utility model content

The purpose of this utility model is to provide a kind of dust-proof classification packaging system, solves the process of splicing in the prior art Middle dust from flying and the problem of be difficult to reuse.

The above-mentioned technical purpose of the utility model technical scheme is that：

A kind of dust-proof classification packaging system, including the wind turbine being sequentially communicated, the first cyclone separator and feed pipe, the first rotation Wind separator is closed feed bin and is vertically arranged, and the first discharge nozzle, the first rotation are provided with and communicated with below the first cyclone separator Closed pack room is provided with below wind separator, pack interior is placed with pulp-collecting box, and it is indoor that the first discharge nozzle is inserted into pack And above pulp-collecting box, pack room is provided with and communicated with air inlet pipe and aspiration channel, air inlet pipe and atmosphere, aspiration channel and charging Pipe is connected to.

Through the above technical solutions, under the suction and conveying effect of wind turbine, air flowing drives the material in feed pipe to enter the It in one cyclone separator, is settled in the first cyclone separator, then enters the indoor splicing of pack along the first discharge nozzle In box, the dust flown upward during pulp-collecting box splicing will not be flown upward into surrounding enviroment under the limitation of pack room, simultaneously Under the suction and conveying effect of wind turbine, there is air to be imported in feed pipe from air inlet pipe into after flowing through pack room and aspiration channel, will pack It is recycled again in the dust suction and conveying to feed pipe that interior is flown upward, having reached prevents dust from flying and can collect the powder flown upward The effect that dirt utilizes again.

Preferably, being provided with breather cheek valve in air inlet pipe.

Through the above technical solutions, packing indoor dust will not drift from air inlet pipe into air.

Preferably, pack interior is provided with the weighing device for pulp-collecting box of weighing.

Through the above technical solutions, the process in splicing can ensure pack by the weight of weighing device metering splicing Precision.

Preferably, weighing device includes weighing frame and pressure sensor, weighing frame claims as above pressure sensor It is rotatably connected to multiple rotating rollers on weight frame.

Pulp-collecting box is removed or is placed on weighing device through the above technical solutions, facilitating, is conveniently replaceable pulp-collecting box.

Preferably, feed pipe and the first cyclone separator connectivity part are less than the connectivity part of wind turbine and the first cyclone separator.

Through the above technical solutions, the material for being conducive to feed pipe entrance settles in the first cyclone separator.

Preferably, the second cyclone separator is provided between the first cyclone separator and wind turbine, the second cyclone separator point It is not connected to the first cyclone separator and wind turbine, the second discharge nozzle is provided with and communicated with below the second cyclone separator.

Through the above technical solutions, the first cyclone separator can collect the larger material of granularity, the second cyclonic separation Device can collect the smaller material of granularity.

Preferably, the connectivity part of the first cyclone separator and the second cyclone separator is less than wind turbine and the second cyclone separator Connectivity part.

Through the above technical solutions, contributing to the material to come from the conveying of the first cyclone separator in the second cyclone separator Interior sedimentation.

Preferably, be provided with collecting bin between the second cyclone separator and wind turbine, collecting bin respectively with the second cyclonic separation Device is connected to wind turbine, and feed back pipe is provided with and communicated with below collecting bin.

Through the above technical solutions, the material for still having fraction after the sedimentation of the second cyclone separator is detached from air Second cyclone separator is filtered sedimentation hence into collecting bin in collecting bin, avoids the waste of material.

Preferably, being both provided with airlock on the first discharge nozzle, the second discharge nozzle and feed back pipe.

Through the above technical solutions, after setting airlock, airlock can be opened while conveying material by the first rotation Material discharge in wind separator, the second cyclone separator and collecting bin, prevents from altering wind.

In conclusion the utility model has the following technical effects：By being arranged below the discharge nozzle of cyclone separator It packs room and pack room to be connected to feed pipe, under the suction and conveying effect of wind turbine, air flowing drives the material entrance in feed pipe It in cyclone separator, is settled, is then entered in the indoor pulp-collecting box of pack along discharge nozzle, in splicing in cyclone separator The dust flown upward during box splicing will not be flown upward into surrounding enviroment under the limitation of pack room, while in the suction and conveying of wind turbine Under effect, there is air to be imported in feed pipe from air inlet pipe into after flowing through pack room and aspiration channel, it will the indoor powder flown upward of pack It is recycled again in dirt suction and conveying to feed pipe, having reached prevents dust from flying and can collect what the dust flown upward utilized again Effect.

Description of the drawings

Fig. 1 is the external structure schematic diagram of the utility model；

Fig. 2 is the schematic diagram that the utility model protrudes the first cyclone separator and the second cyclone separator；

Fig. 3 is pack chamber interior structural schematic diagram；

Fig. 4 is the configuration schematic diagram of the indoor each component of pack.

In figure, 1, wind turbine；2, the first cyclone separator；21, the first discharge nozzle；3, the second cyclone separator；31, second goes out Expects pipe；4, feed pipe；5, collecting bin；51, feed back pipe；52, vibrating motor；6, room is packed；61, air inlet pipe；611, check valve； 62, aspiration channel；7, weighing device；71, weighing frame；72, rotating roller；8, pulp-collecting box；9, airlock.

Specific implementation mode

The utility model is described in further detail below in conjunction with attached drawing.The identical attached drawing of wherein identical parts Label indicates.It should be noted that word "front", "rear" used in the following description, "left", "right", "upper", "lower", " bottom Face " and " top surface " refer to that the direction in attached drawing, word "inner" and "outside" are referred respectively to towards or away from particular elements geometry The direction at center.

As shown in Figure 1, a kind of classification packaging system, including being sequentially communicated the wind turbine 1 of setting, collecting bin 5, the second whirlwind point From device 3, the first cyclone separator 2 and feed pipe 4, collecting bin 5, the first cyclone separator 2 and the second cyclone separator 3 are close It closes feed bin and is vertically arranged on the ground by holder, the inlet scoop of wind turbine 1 is connect with collecting bin 5, in the suction of wind turbine 1 Under, the material in feed pipe 4 is introduced into the first cyclone separator 2, and large granular materials settle, the smaller particle not settled Material enter in the second cyclone separator 3 and settled, more tiny particle enters out of second cyclone separator 3 and gathers materials It is settled in storehouse 5, realize sizing screening and conveys the purpose of dust-like material.

Wherein, as shown in Fig. 2, feed pipe 4 and 2 connectivity part of the first cyclone separator are less than wind turbine 1 and the first cyclonic separation The connectivity part of the connectivity part of device 2, the first cyclone separator 2 and the second cyclone separator 3 is less than wind turbine 1 and the second cyclone separator 3 connectivity part, the second cyclone separator 3 are less than the connectivity part of wind turbine 1 and collecting bin 5 with the connectivity part of collecting bin 5, so more The material sedimentation for facilitating access for the first cyclone separator 2, the second cyclone separator 3 and collecting bin 5, is further convenient for sizing screening And collection material.

As shown in Figure 1, the lower section of collecting bin 5 is provided with and communicated with feed back pipe 51, it is provided with airlock 9 on feed back pipe 51, returns Expects pipe 51 is connected to feed pipe 4.After being arranged in this way, the material in collecting bin 5 is under the action of airlock 9 uniformly from feed back pipe 51 It falls, directly imports feed pipe 4, recycled again.

In addition, as shown in Figure 1, be also connected with vibrating motor 52 on the lateral wall of collecting bin 5, pass through shaking for vibrating motor 52 It is dynamic, so that the material in collecting bin 5 is more uniformly concentrated on the bottom of collecting bin 5, convenient for being flowed out from feed back pipe 51.Collecting bin 5 The connectivity part of wind turbine 1 is provided with filter screen, to prevent the material in collecting bin 5 by 1 suction and conveying to external environment of wind turbine.

Go out as shown in Fig. 2, the lower end of the first cyclone separator 2 and the second cyclone separator 3 is provided with and respectively communicated with first It is both provided with airlock 9 on expects pipe 21 and the second discharge nozzle 31, the first discharge nozzle 21 and the second discharge nozzle 31, airlock 9 can Contribute to the material being uniformly discharged in the first cyclone separator 2 and the second cyclone separator 3, and will not during discharge quilt Moving air is interfered.

First cyclone separator 2 and 3 lower section of the second cyclone separator are both provided with closed pack room 6（As shown in Figure 2）, As shown in figure 3, being provided with weighing device 7 and pulp-collecting box 8 in pack room 6, weighing device 7 is placed in pack room 6, pulp-collecting box 8 On weighing device 7,31 lower end of the second discharge nozzle is located in pack room 6 and positioned at the top of pulp-collecting box 8, packs the one of room 6 It has been hinged at shutter door.In this way, the material to fall out of the first cyclone separator 2 or the second cyclone separator 3 enters splicing In box 8, weighed device 7 acts on the weight of material that can accurately measure in pulp-collecting box 8, and the dust generated in blanking process also can In pack room 6, it will not drift into air.

In conjunction with shown in Fig. 1 and Fig. 4, packs and be communicated with air inlet pipe 61 and aspiration channel 62 on room 6, list is provided in air inlet pipe 61 To valve 611（As shown in Figure 1）, air, which can only enter along air inlet pipe 61 from the external world, to be packed in room 6, aspiration channel 62 and feed pipe 4 The connectivity part of connection, aspiration channel 62 and pack room 6 is located at the lower section of weighing device 7.It is arranged in this way, in the air draught of wind turbine 1 Under effect, there is part wind to enter in pack room 6 from air inlet pipe 61, the dust in room 6 will be packed and suck feed pipe 4 from aspiration channel 62 It is interior, prevent dust accumulation in pack room 6.

As shown in figure 4, weighing device 7 includes weighing frame 71 and pressure sensor, weighing frame 71 is placed in pressure sensing Above device, multiple rotating rollers 72 are rotatably connected on weighing frame 71, pulp-collecting box 8 is packed into and transports to facilitate.

Collecting bin 5 can be bag filter.

The working process of the utility model is as follows：

Wind turbine 1 is opened, under the air draught effect of wind turbine 1, the material in feed pipe 4 is introduced into the first cyclone separator 2, Large granular materials settle, and the material for the smaller particle not settled, which enters in the second cyclone separator 3, to be settled, more refinement Small particle, which enters out of second cyclone separator 3 in collecting bin 5, to be settled, the first cyclone separator 2, the second cyclonic separation Material in device 3 and collecting bin 5 is under the action of airlock 9 respectively through the first discharge nozzle 21, the second discharge nozzle 31 and feed back pipe 51 outflows；

First discharge nozzle 21 or the material of the second discharge nozzle 31 outflow enter in the pulp-collecting box 8 in pack room 6, weighed dress 7 Weighings are set, are packaged after reaching acceptable quality, the dust generated during 8 splicing of pulp-collecting box, the stream in pack room 6 It under dynamic airflow function, is imported in feed pipe 4 after being sucked by aspiration channel 62, carrying out cycle again with the material in feed pipe 4 settles；

The material flowed down from the feed back pipe 51 of 5 lower section of collecting bin directly imports feed pipe 4, with the material one in feed pipe 4 It rises and carries out cycle sedimentation again.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can as needed make the present embodiment the modification of not creative contribution after reading this specification, but As long as all being protected by Patent Law in the right of the utility model.

Claims (9)

1. a kind of dust-proof classification packaging system, including the wind turbine being sequentially communicated（1）, the first cyclone separator（2）And feed pipe （4）, the first cyclone separator（2）It for closed feed bin and is vertically arranged, the first cyclone separator（2）Lower section be provided with and communicated with One discharge nozzle（21）, which is characterized in that the first cyclone separator（2）Lower section be provided with closed pack room（6）, pack room （6）Inside it is placed with pulp-collecting box（8）, the first discharge nozzle（21）It is inserted into pack room（6）It is interior and be located at pulp-collecting box（8）Top packs room （6）It is provided with and communicated with air inlet pipe（61）And aspiration channel（62）, air inlet pipe（61）With atmosphere, aspiration channel（62）With feed pipe （4）Connection.

2. a kind of dust-proof classification packaging system according to claim 1, which is characterized in that air inlet pipe（61）On be provided with list To intake valve（611）.

3. a kind of dust-proof classification packaging system according to claim 1, which is characterized in that pack room（6）Interior setting is useful In pulp-collecting box of weighing（8）Weighing device（7）.

4. a kind of dust-proof classification packaging system according to claim 3, which is characterized in that weighing device（7）Including weighing Frame（71）And pressure sensor, weighing frame（71）As for pressure sensor top, weighing frame（71）On be rotatably connected to Multiple rotating rollers（72）.

5. a kind of dust-proof classification packaging system according to claim 1, which is characterized in that feed pipe（4）With the first whirlwind Separator（2）Connectivity part is less than wind turbine（1）With the first cyclone separator（2）Connectivity part.

6. a kind of dust-proof classification packaging system according to claim 1, which is characterized in that the first cyclone separator（2）With Wind turbine（1）Between be provided with the second cyclone separator（3）, the second cyclone separator（3）Respectively with the first cyclone separator（2）With Wind turbine（1）Connection, the second cyclone separator（3）Lower section is provided with and communicated with the second discharge nozzle（31）.

7. a kind of dust-proof classification packaging system according to claim 1, which is characterized in that the first cyclone separator（2）With Second cyclone separator（3）Connectivity part be less than wind turbine（1）With the second cyclone separator（3）Connectivity part.

8. a kind of dust-proof classification packaging system according to claim 1, which is characterized in that the second cyclone separator（3）With Wind turbine（1）Between be provided with collecting bin（5）, collecting bin（5）Respectively with the second cyclone separator（3）And wind turbine（1）Connection, gathers materials Storehouse（5）Lower section be provided with and communicated with feed back pipe（51）.

9. a kind of dust-proof classification packaging system according to claim 1, which is characterized in that the first discharge nozzle（21）, second Discharge nozzle（31）With feed back pipe（51）On be both provided with airlock（9）.