CN203638760U - Vacuum feeding equipment - Google Patents

Abstract

Vacuum feeding equipment comprises a raw material portion, a material storage portion, a material sucking portion, a bottom compartment and a control device. The raw material portion is connected with the material storage compartment through a conveying pipeline, a feed port is formed in the lateral wall of the material storage compartment, the upper end of the material storage compartment is communicated with the material sucking portion, a discharge port is formed in the bottom of the material storage compartment, the lower end of the material storage compartment is communicated with a bottom compartment, and the control device is connected with the raw material portion, the material storage compartment, the material sucking portion and the bottom compartment. The vacuum feeding equipment can effectively solve the problems of layering and uneven conveying efficiency in the vacuum conveying process, and can further reduce the influences of relevant equipment and improve the stability in the vacuum conveying process.

Description

A kind of vacuum feeding equipment

Technical field

The utility model relates to a kind of material transport equipment, is specifically related to a kind of vacuum feeding equipment of anti-layering.

Background technology

Vacuum feeding widely uses as a kind of conventional mass transport mode, but vacuum handling also exists puzzlement simultaneously, and such as easily cause material layering in vacuum feeding process, the mass transport efficiency that causes raw meal particle size to differ greatly is different; Cause the inhomogeneous problem that causes uniformity of dosage units of mass transport of compound composition; In vacuum handling process, the blowback process of filter can cause the fugitiveness of associated device simultaneously.

Therefore,, in order to address the above problem, need to research and solve the transfer rate of vacuum feeding equipment and lamination problem.

Utility model content

The purpose of this utility model is, a kind of vacuum feeding equipment is provided, to overcome the existing above-mentioned shortcoming and defect of prior art.

A kind of vacuum feeding equipment comprises: raw material portion, storing cabin, suction portion, cabin, bottom and control setup, described raw material portion is connected with storing cabin by transmission pipeline, upper end, described storing cabin is communicated with suction portion, lower end, described storing cabin is communicated with cabin, bottom, and described control setup is connected with raw material portion, storing cabin, suction portion and cabin, bottom;

Described storing cabin comprises: cabin and discharging opening in the middle of inlet point, material, and described inlet point is located at storing cabin sidewall, and in the middle of described material, cabin is located in storing cabin, and described discharging opening is located at storing bilge end.

Further, in the middle of described material, cabin is funnel type structure, and in the middle of described material, the upper end in cabin is connected with the inwall in storing cabin, and in the middle of described material, the lower end in cabin is provided with discharge valve, described discharge valve is provided with electronic scales, and described discharge valve is connected with control setup with electronic scales.

Further, described raw material portion comprises: Raw material pail, transmission pipeline and regulate the valves, one end of described transmission pipeline is connected with Raw material pail plug-in type, the other end of described transmission pipeline is connected with inlet point, described in regulate the valves and be located at transmission pipeline middle part.

Further, described suction portion comprises: suction cabin and vacuum pump, and described suction cabin is communicated with storing cabin, and described vacuum pump is fixed in suction cabin, and described vacuum pump is connected with control setup.

Further, the bottom in cabin, described bottom is provided with rotovalve.

Further, described control setup comprises: operation control and intelligent controller, the mouth of described operation control is connected with the input end of intelligent controller, in the load-bearing data input intelligent controller in cabin in the middle of default material, the input end of described intelligent controller is connected with electronic scales, receive in the middle of material weight of material data in cabin, the mouth of described intelligent controller with regulate the valves, the input end of discharge valve, vacuum pump and rotovalve is connected.

The beneficial effects of the utility model:

The utility model is by setting up the middle cabin of material, effectively solve the problem of the layering in vacuum handling process, by the load-bearing in cabin in the middle of material is monitored, can adjust at any time transfer rate, solve transport efficiency problem of non-uniform and can also reduce the impact of institute's relevant device, improving the stability of vacuum handling process.

Accompanying drawing explanation

Fig. 1 is constructional drawing of the present utility model.

Fig. 2 is the utility model control flow chart.

Reference numeral:

Raw material portion 100, Raw material pail 110, transmission pipeline 120 and regulate the valves 130.

Cabin 220, discharge valve 221, electronic scales 222 and discharging opening 230 in the middle of storing cabin 200, inlet point 210, material.

Suction portion 300, suction cabin 310 and vacuum pump 320.

Cabin 400, bottom and rotovalve 410.

Control setup 500, operation control 510 and intelligent controller 520.

The specific embodiment

Below in conjunction with specific embodiment, the utility model is done to progressive explanation.Should be understood that following examples are only for the utility model is described but not for limiting scope of the present utility model.

Embodiment 1

Fig. 1 is constructional drawing of the present utility model.Fig. 2 is the utility model control flow chart.

As shown in Figure 1, a kind of vacuum feeding equipment comprises: raw material portion 100, storing cabin 200, suction portion 300, cabin, bottom 400 and control setup 500.

Raw material portion 100 comprises: Raw material pail 110, transmission pipeline 120 and regulate the valves 130.One end of transmission pipeline 120 is connected with Raw material pail 110 plug-in types, and the other end of transmission pipeline 120 is connected with inlet point 210, and raw material portion 100 is connected with storing cabin 200 by transmission pipeline 120, and raw material transfers to storing cabin 200 by transmission pipeline 120.Regulate the valves and 130 be located at transmission pipeline 120 middle parts, its design objective is to realize transport efficiency suitable in raw material transmitting procedure and delivery speed.

Storing cabin 200 comprises: cabin 220 and discharging opening 230 in the middle of inlet point 210, material.Inlet point 210 is located at storing cabin 200 sidewalls, and raw material enters storing cabin 200 from inlet point 210.Cabin 220 is located in storing cabin 200 in the middle of material, its mid point station as storing cabin 200 and cabin, bottom 400 and existing.Discharging opening 230 is located at 200 bottoms, storing cabin, and raw material leaves storing cabin 200 from discharging opening 230 and enters cabin 400, bottom.

Wherein, in the middle of material, cabin 220 is funnel type structure, in the middle of material, the wider part in upper end in cabin 220 is fixedly connected with the inwall in storing cabin 200, the lower end of stating the middle cabin 220 of material is provided with discharge valve 221, discharge valve 221 is controlled the discharging speed in the middle cabin 220 of material, guarantees can too much not cause transportation to be stopped up because of buildup, also can be not too fast because of discharging speed, lose the function in the middle cabin 220 of material, continue to occur lamination problem.Discharge valve 221 is provided with electronic scales 222, discharge valve 221 is connected with control setup 500 with electronic scales 222, electronic scales 222 is Data Sources of whole equipment, and what the utility model mainly relied on is the judgement by the logistics weight in cabin 220 in the middle of material being carried out to suction and discharging.

In the middle of material, cabin 220 is main innovate point of this practicality, the buffer portion with cabin, bottom 400 as storing cabin 200 on the one hand, can effectively solve vacuum lamination problem, the adjusting of material and discharging is taken out in easier realization on the other hand, traditional vacuum apparatus generally has very large difficulty in data acquisition, because container volume problem causes data acquisition difficulty, in the middle of material, the volume in cabin 220 is less than traditional storing cabin 200, make the weight data of material more easily collected, and by control setup 500, the transfer rate of whole equipment can not be affected.

200 upper ends, storing cabin are communicated with suction portion 300, suction portion 300 comprises: suction cabin 310 and vacuum pump 320, and suction cabin 310 is communicated with storing cabin 200, and vacuum pump 320 is fixed in suction cabin 310, vacuum pump 320 is connected with control setup 500, controls switching and the power of vacuum pump 320.

200 lower ends, storing cabin are communicated with cabin, bottom 400, and the bottom in cabin, bottom 400 is provided with rotovalve 410.Rotovalve 410 can prevent the impact on upstream device that purge gas causes due to hypertonia.

As shown in Figure 2, control setup 500 is connected with raw material portion 100, storing cabin 200, suction portion 300 and cabin, bottom 400.Control setup 500 comprises: operation control 510 and intelligent controller 520, the mouth of operation control 510 is connected with the input end of intelligent controller 520, staff is by the load-bearing data input intelligent controller 520 in cabin 220 in the middle of default material, in the present embodiment, we adopt default 30KG to be used as load-bearing data.

The input end of intelligent controller 520 is connected with electronic scales 222, and the data in cabin 220 in the middle of the material of collection are sent to intelligent controller 520 by electronic scales 222, and intelligent controller 520 is compared to the information of collecting and default 30KG data.Receive in the middle of material weight of material data in cabin 220, the mouth of intelligent controller 520 with regulate the valves 130, the input end of discharge valve 221, vacuum pump 320 and rotovalve 410 is connected.Already described above, the vitals of 130 regulation and control raw materials from raw material portion 100 to storing portion that regulate the valves, after load-bearing comparing, 130 openings that regulate the valves away from more from 30KG are larger, and speed of transmission is accelerated, otherwise slows down.The switching of discharge valve 221 is also subject to the control of intelligent controller 520, and in the time that load-bearing data equal 30KG, discharge valve 221 just can be opened.The switching of vacuum pump 320 and power regulation are also subject to the control of intelligent controller 520.Rotovalve 410 is controlled by intelligent controller 520, after discharge valve 221 is opened, raw material is fallen into cabin 400, bottom from the middle cabin 220 of material, after the load-bearing zero clearing in the middle cabin 220 of material, be subject to intelligent controller 520 can close discharge valve 221, open rotovalve 410 simultaneously, raw material is discharged from cabin, bottom 400, design can prevent the impact on upstream device that purge gas causes due to hypertonia like this.

Above the specific embodiment of the present utility model is illustrated, but the utility model is as limit, only otherwise depart from aim of the present utility model, the utility model can also have various variations.

Claims (6)

1. a vacuum feeding equipment comprises: raw material portion (100), storing cabin (200), suction portion (300), cabin, bottom (400) and control setup (500), described raw material portion (100) is connected with storing cabin (200) by transmission pipeline (120), upper end, described storing cabin (200) is communicated with suction portion (300), lower end, described storing cabin (200) is communicated with cabin, bottom (400), and described control setup (500) and raw material portion (100), storing cabin (200), suction portion (300) and cabin, bottom (400) are connected;

Described storing cabin (200) comprising: cabin (220) and discharging opening (230) in the middle of inlet point (210), material, described inlet point (210) is located at storing cabin (200) sidewall, in the middle of described material, cabin (220) are located in storing cabin (200), and described discharging opening (230) is located at bottom, storing cabin (200).

2. a kind of vacuum feeding equipment according to claim 1, it is characterized in that: in the middle of described material, cabin (220) are funnel type structure, in the middle of described material, the upper end of cabin (220) is connected with the inwall of storing cabin (200), in the middle of described material, the lower end of cabin (220) is provided with discharge valve (221), described discharge valve (221) is provided with electronic scales (222), and described discharge valve (221) is connected with control setup (500) with electronic scales (222).

3. a kind of vacuum feeding equipment according to claim 1, it is characterized in that: described raw material portion (100) comprising: Raw material pail (110), transmission pipeline (120) and regulate the valves (130), one end of described transmission pipeline (120) is connected with Raw material pail (110) plug-in type, the other end of described transmission pipeline (120) is connected with inlet point (210), described in regulate the valves (130) be located at transmission pipeline (120) middle part.

4. a kind of vacuum feeding equipment according to claim 1, it is characterized in that: described suction portion (300) comprising: suction cabin (310) and vacuum pump (320), described suction cabin (310) is communicated with storing cabin (200), described vacuum pump (320) is fixed in suction cabin (310), and described vacuum pump (320) is connected with control setup (500).

5. a kind of vacuum feeding equipment according to claim 1, is characterized in that: the bottom in cabin, described bottom (400) is provided with rotovalve (410).

6. a kind of vacuum feeding equipment according to claim 1, it is characterized in that: described control setup (500) comprising: operation control (510) and intelligent controller (520), the mouth of described operation control (510) is connected with the input end of intelligent controller (520), in the load-bearing data input intelligent controllers (520) of cabin (220) in the middle of default material, the input end of described intelligent controller (520) is connected with electronic scales (222), receive weight of material data in the middle cabin of material (220), the mouth of described intelligent controller (520) and regulate the valves (130), discharge valve (221), vacuum pump (320) is connected with the input end of rotovalve (410).

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