CN206121588U - Material mixing device - Google Patents

Abstract

The utility model relates to a petrochemical field, the utility model discloses a material mixing device, it includes hybrid chamber (1), respectively with powder chamber (2) and inlet means (3) of hybrid chamber intercommunication, the powder intracavity is provided with and is used for controlling the material discharging component that the powder ration got into the hybrid chamber, wherein, material discharging component includes ejection of compact piece (21) and rotatory laminating square hold material (22) above that, be provided with discharge gate (211) on the ejection of compact piece, it is formed with powder ration check (221) on to hold the material, wherein, it rotates for ejection of compact piece to hold the material piece, when making powder ration check move discharge gate department, powder ration check communicate with each other with the discharge gate so that the powder in the powder ration check passes through discharge gate entering hybrid chamber. Compare with traditional material mixing equipment, the utility model discloses a material mixing device can realize continuous production, greatly improves production efficiency, reduces intensity of labour, simultaneously, the in -process that the material is mixing all goes on in airtight space, and mixing process does not have the raise dust and produces, and operation environment is friendly.

Description

Material mixing device

Technical field

This utility model is related to petrochemical industry, in particular it relates to a kind of material mixing device.

Background technology

In petrochemical industry, it will usually run into the situation for needing to be mixed to powder, liquid.For example carry in hydrogenation catalyst In the production process of body, need for dry glue powder and peptizer/expanding agent to be sufficiently mixed aftershaping, whether dry glue powder is mixed with solution Fully, the uniform quality to catalyst prod has important impact, is to ensure mixing effect using suitable material mixing device The important prerequisite of fruit.

At present, the production of catalyst carrier for hydrgenating has no special material mixing device, is the thing for using for reference other industry Material mixing arrangement.Its production process is that advance load weighted dry glue powder is put into material mixing device in proportion, and it is fixed to be subsequently adding The solution of amount starts mixing, and the production process is batch production in batches, and hand labor intensity is big；Mixed process is also easy to produce Airborne dust, operating environment are unfriendly.

For the deficiencies in the prior art, those skilled in the art wishes to seek a kind of material mixing device, and the material is mixed Attach together and put the continuous mixing that can be realized to powder, liquid, so as to drastically increase production efficiency.

Utility model content

The purpose of this utility model is to provide a kind of material mixing device that can realize the continuous mixing to powder, liquid, should Material mixing device drastically increases production efficiency.

To achieve these goals, this utility model provides a kind of material mixing device.The material mixing device includes Hybrid chamber, the powder chamber for being connected with the hybrid chamber respectively and feeding device, the powder intracavity are provided with for controlling powder Quantitatively into the discharge component of the hybrid chamber,

Wherein, the discharge component includes outlet and rotation is fitted in bearing material part above the outlet, it is described go out Discharging opening is provided with materials and parts, on the bearing material part, quantitative powder lattice is formed with, wherein,

The bearing material part is rotated relative to the outlet so that the quantitative powder lattice move to the discharge outlet When, the quantitative powder lattice are communicated with the discharging opening so that the powder in the quantitative powder lattice is entered by the discharging opening The hybrid chamber.

Preferably, the bottom of the outlet is provided with weight sensor.

Preferably, bearing material part includes multiple circumferentially spaced quantitative powder lattice, and the bottom surface of each quantitative powder lattice opens Open and area and the discharging opening of the bottom surface of each powder lattice area equation.

Preferably, powder intracavity is additionally provided with the feed pieces above the discharge component, and the feed pieces are used Supplement to the supplementary powder of the bearing material part in carrying, wherein, the feed pieces can control the supplementary powder and at the uniform velocity enter Enter the bearing material part.

Preferably, feeding device be big opening end upwards, the downward taper cone barrel in osculum end, formed at the osculum end it is described enter The liquid outlet of liquid device, wherein, the entrance of the discharging opening, the liquid outlet of the feeding device and the hybrid chamber in the powder chamber It is coaxially set.

Preferably, mix intracavity and the liquid for disperseing to be entered by the liquid outlet is provided with the position of the entrance The discrete part of body and/or the powder entered by the discharging opening.

Preferably, the bottom of hybrid chamber is provided with the electric hybrid module being coaxially disposed with the discrete part.

Preferably, electric hybrid module includes the mixed plate being coaxially disposed and positioned at the top of the mixed plate and positioned at described mixed Stirrer gear on the central axis of plywood, wherein multiple projections are provided with the edge of the mixed plate.

Preferably, hybrid chamber also includes the mixture outlet positioned at the lower section of the mixed plate.

Preferably, the scraper plate for rotating, the mixture that will be flowed out by the mixed plate are provided with mixture outlet The mixture outlet is discharged with the rotation of the scraper plate.

By above-mentioned technical proposal, the material of powder intracavity can realize by discharge component that powder amount is quantitative and continuously enters Enter hybrid chamber.Specifically, the quantitative powder lattice for arranging on bearing material part for carrying out to powder quantitatively, such as each quantitative powder lattice Powder amount of the interior powder for needed for, and the rotation of bearing material part is fitted on outlet, is provided with discharging opening, quantitative powder on outlet Lattice are communicated with discharging opening so that the powder in quantitative powder lattice enters required in hybrid chamber, i.e. quantitative powder lattice by discharging opening Powder enters hybrid chamber by discharging opening, it is achieved thereby that powder can quantitatively enter hybrid chamber.Meanwhile, by controlling bearing material Part is coincided with discharging opening controlling a quantitative powder lattice in certain interval relative to the rotary speed of outlet, with reality Existing powder can continuously, equally enter hybrid chamber, and the wherein material in each quantitative powder lattice is entered with feeding device and mixed The quantitative liquid of intracavity is mutually mixed in the time interval such that it is able to is realized the continuous of material mixing device and is fully mixed Close.

Other features and advantages of the utility model will be described in detail in subsequent specific embodiment part.

Description of the drawings

Accompanying drawing is further understood to of the present utility model for providing, and constitutes a part for description, and following Specific embodiment be used for together explaining this utility model, but do not constitute to restriction of the present utility model.In the accompanying drawings：

Fig. 1 is the structural representation according to material mixing device of the present utility model；

Fig. 2 is the top view of the outlet shown in Fig. 1；

Fig. 3 is the top view of the bearing material part shown in Fig. 1；

Fig. 4 is the top view of the feed pieces shown in Fig. 1；

Fig. 5 is the top view of the mixed plate shown in Fig. 1；

Fig. 6 is the top view of the mixed material outlet shown in Fig. 1.

Description of reference numerals

1 hybrid chamber, 2 powder chamber

3 feeding device, 21 outlet

22 bearing material part, 221 quantitative powder lattice

211 discharging opening, 4 weight sensor

23 feed pieces, 31 liquid outlet

24 discharging opening, 11 entrance

12 discrete part, 13 mixed plate

14 stirrer gears 131 are raised

15 mixture outlet, 16 scraper plate

232 material-feeding port, 231 feed supplement scraper plate

Specific embodiment

Specific embodiment of the present utility model is described in detail below in conjunction with accompanying drawing.It should be appreciated that herein Described specific embodiment is merely to illustrate and explains this utility model, is not limited to this utility model.

Fig. 1 shows a kind of structural representation of the material mixing device provided according to this utility model.With reference to Fig. 1 to figure Shown in 3, the material mixing device includes hybrid chamber 1, the powder chamber 2 for connecting with hybrid chamber 1 respectively and feeding device 3, powder chamber 2 Inside it is provided with for controlling quantitative powder into the discharge component of hybrid chamber 1.Wherein, discharge component includes outlet 21 and rotation The bearing material part 22 being fitted in above outlet 21, is provided with discharging opening 211 (see Fig. 3) on outlet 21, formed on bearing material part 22 There are quantitative powder lattice 221 (see Fig. 2).Wherein, bearing material part 22 is rotated relative to outlet 21 so that quantitative powder lattice 221 are moved During at discharging opening 211, quantitative powder lattice 221 are communicated with discharging opening 211 so that the powder in quantitative powder lattice 221 is by discharging Mouth 211 enters hybrid chamber 1.

By above-mentioned technical proposal, the material in powder chamber 2 can realize by discharge component that powder amount is quantitative and continuously Into hybrid chamber 1.Specifically, the quantitative powder lattice 221 for arranging on bearing material part 22 for carrying out to powder quantitatively, such as each powder Powder amount of the powder in materials quantitative lattice 221 for needed for, and the rotation of bearing material part 22 is fitted on outlet 21, is arranged on outlet 21 There is discharging opening 211, quantitative powder lattice 221 are communicated with discharging opening 211 so that the powder in quantitative powder lattice 221 passes through discharging opening The 211 required powders entered in hybrid chamber 1, i.e. quantitative powder lattice 221 enter hybrid chamber 1 by discharging opening 211, so as to realize Powder can quantitatively enter hybrid chamber 1.Meanwhile, by controlling rotary speed of the bearing material part 22 relative to outlet 21 controlling A quantitative powder lattice 221 are coincided with discharging opening 211 in certain interval, to realize that powder continuously, equally can enter Enter hybrid chamber 1, the quantitative liquid that wherein material in each quantitative powder lattice 221 is entered in hybrid chamber 1 with feeding device 3 is at this It is mutually mixed in time interval such that it is able to realize material in the continuous of material mixing device and be sufficiently mixed.

Preferably, the bottom of outlet 21 is provided with weight sensor 4.The weight sensor 4 is for by discharge component The signal of weight change be converted into the rate signal of the powder flowed out by discharging opening 211, specifically, the weight sensor 4 will The signal of the weight change on discharge component is converted into the signal of the rotary speed of bearing material part 22, so as to controlling quantitative powder, connecting Hybrid chamber 1 is flowed into continuously, further to improve powder into the weight accuracy in hybrid chamber 1.

It is preferably carried out in mode at one, bearing material part 22 includes multiple quantitative powder lattice 221 circumferentially.It is preferred that Ground, quantitative powder lattice 221 be set to it is equally circumferentially spaced along bearing material part 22, the bottom surface of each quantitative powder lattice 221 open wide and The area of the bottom surface of each quantitative powder lattice 221 and the area equation of discharging opening 211.This is provided for making quantitative powder lattice Powder in 221 completely and quickly can flow into hybrid chamber 1 by discharging opening 211, so as to shorten incorporation time, improve Mixing efficiency.

Preferably, the feed pieces 23 being additionally provided with powder chamber 2 above discharge component, feed pieces 23 are used to hold Carry and supplement to the supplementary powder of the bearing material part 22.Wherein, feed pieces 23 can control to supplement powder at the uniform velocity into bearing material part 22。

Specifically, the feed pieces 23 can be structure as shown in Figure 4, and feed pieces 23 are one at the uniform velocity can to rotate Flat board, which includes material-feeding port 232 and feed supplement scraper plate 231, and material-feeding port 232 can be with the quantitative powder lattice on bearing material part 22 when rotating 221 is relative, so that supplementing powder enters quantitative powder lattice 221 by material-feeding port 232.By controlling the rotating speed of scraper plate 231 come real The existing continuous feeding to quantitative powder lattice 221, the quantitative powder lattice 221 after feed supplement are rotated to hybrid chamber is entered during charging aperture 211 1.In addition, the rotation of feed pieces 23 also can be controlled by above-mentioned weight sensor 4 by individually motor control, now, The weight change signal of weight sensor can be converted into the rate signal that supplementary powder flows out simultaneously.Certainly, feed pieces 23 Can also be that other can supplement the structure in powder continuous supplementation to quantitative powder lattice 221, for example, can be directed at automatically powder Motion arm of materials quantitative lattice 221 blanking etc..

According to this utility model, for big opening end upwards, the downward taper cone barrel in osculum end, osculum are formed at end feeding device 3 The liquid outlet 31 of feeding device, wherein, the entrance of the discharging opening 24 in powder chamber 2, the liquid outlet 31 of feeding device 3 and hybrid chamber 1 11 are coaxially set.The setting causes the powder entered in hybrid chamber 1 by discharging opening 24 and is entered in hybrid chamber 1 by liquid outlet 31 Liquid just mixed at the entrance 11 of hybrid chamber 1, so as to increased path and the incorporation time of mixing, in order to powder With being sufficiently mixed for liquid.

It is preferably carried out in mode at one, is provided with for dispersion by going out at the position of entrance 11 in hybrid chamber 1 Liquid and/or the discrete part 12 of the powder entered by discharging opening 24 that liquid mouth 31 is entered.Preferably, discrete part is rotation at a high speed Turn the bullet that ground has taper surface, the entrance 11 of the miner diameter end of the bullet towards hybrid chamber 1, the liquid that liquid outlet 31 is flowed into The powder entered with discharging opening 24 is broken up on the taper surface of the discrete part 12, realizes powder preliminary mixed with liquid Close, in order to further improve mixing efficiency.

Preferably, the opening of discharging opening 24 less than liquid outlet 31 opening, i.e., the opening of discharging opening 24 closer to Discrete part 12, now, the powder into the entrance 11 in hybrid chamber 1 is broken up by discrete part 12 first, after breaing up Powder subsequently with enter liquid further mix, the setting can prevent heap of the mixture of powder, liquid in discrete part 12 Product, further to improve mixing efficiency.

According to this utility model, as shown in figure 1, the bottom of hybrid chamber 1 is provided with and mixing that discrete part 12 is coaxially disposed Seaming element.The electric hybrid module is broken up by discrete part 12 and carries out preliminary mixing for the secondary mixing to powder and liquid Mixture drops down onto electric hybrid module, the mixture of the preliminary mixing is more fully mixed on electric hybrid module.

Preferably, as shown in figure 1, electric hybrid module include the mixed plate 13 being coaxially disposed and positioned at the top of mixed plate 13 simultaneously Multiple raised 131 are provided with stirrer gear 14 on the central axis of mixed plate 13, the wherein edge of mixed plate 13.Enter one Preferably, electric hybrid module is also configured as rotation at a high speed to step, and stirrer gear 14 is pointed to the mixture on the centre of mixed plate 13 Mixed, and multiple raised 131 on the edge of mixed plate 13 for the edge to mixed plate 13 mixed material enter advance One step mixes, and the mixed material at the edge can be the edge that mixed plate 13 is directly dropped down onto by entrance 11 and discrete part 12, The centrifugal force that can be produced with the rotation due to mixed plate 13 itself causes material to be got rid of to mixing by the centre of mixed plate 13 The edge of plate 13.

With reference to shown in Fig. 1 and Fig. 6, hybrid chamber 1 also includes the mixture outlet 15 positioned at the lower section of mixed plate 13.In mixing Mixed material is thrown away mixed plate 13 in the case where mixed plate 13 itself rotates at a high speed and drops down onto which by the mixed material on plate 13 On the base plate with mixture outlet 15 of lower section, and flow out eventually through mixture outlet.

Preferably, the scraper plate 16 for rotating, the mixing that will be flowed out by mixed plate 13 are provided with mixture outlet 15 Thing discharges mixture outlet 15 with the rotation of scraper plate 16.

Compared with traditional material mixing equipment, material mixing device of the present utility model is capable of achieving continuous production, greatly Improve production efficiency, reduces labor intensity；Meanwhile, material is carried out in confined space during mixing, mixed process Produce without airborne dust, operating environment is friendly.

Preferred implementation of the present utility model is described in detail above in association with accompanying drawing, but, this utility model is not limited Detail in above-mentioned embodiment, in range of the technology design of the present utility model, can be to skill of the present utility model Art scheme carries out various simple variants, and these simple variants belong to protection domain of the present utility model.

It is further to note that each particular technique feature described in above-mentioned specific embodiment, in not lance In the case of shield, can be combined by any suitable means.In order to avoid unnecessary repetition, this utility model is to each Plant possible compound mode no longer separately to illustrate.

Additionally, combination in any between a variety of embodiments of the present utility model, can also be carried out, as long as which is not disobeyed Thought of the present utility model is carried on the back, which should equally be considered as content disclosed in the utility model.

Claims (10)

1. a kind of material mixing device, it is characterised in that including hybrid chamber (1), the powder for connecting with the hybrid chamber (1) respectively It is provided with chamber (2) and feeding device (3), the powder chamber (2) for controlling quantitative powder going out into the hybrid chamber (1) Material component,

Wherein, the discharge component includes the bearing material part that outlet (21) and rotation are fitted in above the outlet (21) (22) discharging opening (211) is provided with the outlet (21), on the bearing material part (22), quantitative powder lattice (221) is formed with, Wherein,

The bearing material part (22) is rotated relative to the outlet (21) so that the quantitative powder lattice (221) move to described During discharging opening (211) place, the quantitative powder lattice (221) communicate with the discharging opening (211) so that the quantitative powder lattice (221) powder in passes through the discharging opening (211) into the hybrid chamber (1).

2. material mixing device according to claim 1, it is characterised in that the bottom of the outlet (21) is provided with weight Quantity sensor (4).

3. material mixing device according to claim 1 and 2, it is characterised in that the bearing material part (22) is including multiple weeks To spaced apart quantitative powder lattice (221), the bottom surface of each quantitative powder lattice (221) is opened wide and each quantitative powder lattice (221) area equation of the area of bottom surface and the discharging opening (211).

4. material mixing device according to claim 1 and 2, it is characterised in that is additionally provided with position in the powder chamber (2) Feed pieces (23) above the discharge component, the feed pieces (23) are supplemented to the bearing material part (22) for carrying Supplementary powder, wherein, the feed pieces (23) can control the supplementary powder at the uniform velocity enter the bearing material part (22).

5. material mixing device according to claim 1 and 2, it is characterised in that the feeding device (3) for big opening end to On, the downward taper cone barrel in osculum end forms the liquid outlet (31) of the feeding device at the osculum end, wherein, the powder Entrance (11) coaxial line of the discharging opening (24) in chamber (2), the liquid outlet (31) of the feeding device (3) and the hybrid chamber (1) Arrange.

6. material mixing device according to claim 5, it is characterised in that near the entrance in the hybrid chamber (1) (11) liquid for disperseing to be entered by the liquid outlet (31) is provided with position and/or is entered by the discharging opening (24) Powder discrete part (12).

7. material mixing device according to claim 6, it is characterised in that the bottom of the hybrid chamber (1) be provided with The electric hybrid module that the discrete part (12) is coaxially disposed.

8. material mixing device according to claim 7, it is characterised in that it is mixed that the electric hybrid module includes being coaxially disposed Plywood (13) and be located at the mixed plate (13) top and positioned at the mixed plate (13) central axis on stirrer gear (14), wherein multiple projections (131) are provided with the edge of the mixed plate (13).

9. material mixing device according to claim 8, it is characterised in that the hybrid chamber (1) is also included positioned at described The mixture outlet (15) of the lower section of mixed plate (13).

10. material mixing device according to claim 9, it is characterised in that mixture outlet (15) place is provided with The scraper plate (16) that can be rotated, will discharge institute with the rotation of the scraper plate (16) by the mixture that the mixed plate (13) flow out State mixture outlet (15).