CN207915758U - Slurry feed proportioning system for producing aerated bricks - Google Patents

Abstract

The utility model is related to aerated bricks manufacturing fields, and in particular to be a kind of for producing the slurry feed proportioning systems of aerated bricks, including pre- blender and measurer, pre- blender are connect with measurer, the discharge port of measurer is connected to by cloth tube with distributing device.Demarcation strip is provided in pre- blender, the internal cavity of pre- blender is divided into the first stir chamber being located above and underlying second stir chamber by demarcation strip.The first feed pipe that pre- whip topping is connected with the first stirring motor and is connected to the first stir chamber, pre- blender side wall are connected with the first delivery pipe being connected to the first stir chamber, the second feed pipe being connected to the second stir chamber and the second delivery pipe.Solving existing slurry feed proportioning system, there are higher energy dissipations, and follow-up the problem of also needing to be unfavorable for the reasonable distribution of energy to heating such as the slags that blends again.

Description

Slurry feed proportioning system for producing aerated bricks

Technical field

The utility model is related to aerated bricks manufacturing fields, and in particular to be a kind of slurry dispensing system for producing aerated bricks System.

Background technology

Autoclave aerated concrete building block, also referred to as aerated bricks are with slag charcoal, lime, cement, gypsum, and slag etc. is main former Material, is added appropriate foaming agent, conditioning agent, and bubble stabilizer is stirred through dispensing, cast, quiet to stop, the techniques such as cutting and high-pressure steaming and cultivating Process and a kind of manufactured celluar concrete product.

Aerated bricks need the materials such as cement, lime carrying out mixing dispensing in production, and add foaming substance, such as Aluminium cream, feeds them into slurry, generates hydrogen, forms cellular air hole, this process needs in the environment of 50 DEG C or so It can just smoothly complete.

Existing slurry feed proportioning system uses multiple independent single-chamber blenders more, and one is used for bulks such as slag charcoal, slags Raw material are mixed and are blended, another mixes the raw material such as lime, cement and addition liquor, this two classes raw material disposal After, then heated, and will be reprocessed in the injection measurer after heating, due to lime, cement and add the anti-of liquor Exothermic reaction is should be, the heat generated directly evaporates into air, causes the waste of energy, and subsequently also need to again to stirring The heating such as broken slag are unfavorable for the reasonable distribution of energy.

Therefore it needs one kind simple in structure, by setting pre- blender to double cavity structure, is carried out in advance to two class materials When stir process, moreover it is possible to a part is transferred to slag charcoal and slag in the heat generated when by lime, cement and addition liquor processing, It is allowed to shorten the subsequent heat time, reduce energy expenditure and simultaneously promote working efficiency there are certain initial temperature after stirring A kind of slurry feed proportioning system for producing aerated bricks.

Utility model content

There are higher energy dissipations for existing slurry feed proportioning system for the utility model, and subsequently also need to again to blending The heating such as slag, the problem of being unfavorable for the reasonable distribution of energy, provide a kind of slurry feed proportioning system for producing aerated bricks.

The utility model solves above-mentioned technical problem, the technical solution adopted is that, the slurry dispensing for producing aerated bricks System includes pre- blender and measurer, and pre- blender is connect with measurer, and the discharge port of measurer passes through cloth tube and cloth Device is connected to.Demarcation strip is provided in pre- blender, the internal cavity of pre- blender is divided into first be located above by demarcation strip Stir chamber and underlying second stir chamber.Pre- whip topping is connected with the first stirring motor and is connected to the first stir chamber The first feed pipe, pre- blender side wall is connected with the first delivery pipe being connected to the first stir chamber, is connected to the second stir chamber The second feed pipe and the second delivery pipe.Pre- stirrer bottom is provided with the second stirring motor, and is provided in the first stir chamber One shaft and the first vane in first rotating shaft, first rotating shaft are connect with the first stirring motor.Setting in second stir chamber There is the second shaft and the second vane in the second shaft, the second shaft to be connect with the second stirring motor, the first delivery pipe and Second delivery pipe is connected to the feed inlet of measurer.

The purpose designed in this way is, by setting pre- blender to double cavity structure, is stirred in advance to two class materials When mixing processing, moreover it is possible to which a part is transferred to slag charcoal and slag in the heat generated when by lime, cement and addition liquor processing, makes Stirring after there are certain initial temperature, shorten the subsequent heat time, reduce energy expenditure and simultaneously promote working efficiency.

Meanwhile demarcation strip is the good material of heat transfer property, such as iron, alloy and other materials, user is by lime, cement It is input in the first stir chamber by the first feed pipe with addition liquor, first rotating shaft carries out under the drive of the first stirring motor Raw material are carried out pre- stir process by stirring, and the heat part during which generated is transferred to the slag charcoal and slag of the second stir chamber In, be allowed to temperature and get a promotion, solving existing slurry feed proportioning system, there are higher energy dissipations, and it is follow-up also need to again it is right The heating such as the slag blended, the problem of being unfavorable for the reasonable distribution of energy.

It should be noted that before entering pre- blender, raw material have carried out pulverization process, and particle diameter meets Delivery pipe conveying requires, and delivery pipe can be carried out based on wind-force conveying or based on its internal auger being arranged to raw material into Row conveying.

Further, demarcation strip is curved-surface structure, and the radian size of curved surface is increased by both ends towards demarcation strip middle part.

The purpose designed in this way is, by setting demarcation strip to curved-surface structure, can promote the first stir chamber and the The contact area of two stir chambers improves heat transference efficiency.

Optionally, the first delivery pipe and the first stir chamber connectivity part are located at the first stir chamber bottom, the second feed pipe and the Two stir chamber connectivity parts are located at the top of the second stir chamber, and the second delivery pipe is located at the second stir chamber bottom with the second stir chamber connectivity part Portion, and the second feed pipe and the second delivery pipe are located at homonymy.

The purpose designed in this way is, by the way that delivery pipe and feed pipe are carried out arrangement above, can improve and stir in advance Efficiency, while convenient for the export and importing of raw material.

Optionally, it is provided with first flow control valve in the first delivery pipe, second flow control is provided in the second delivery pipe Valve processed.

The purpose designed in this way is, can be in order to working by the way that first flow control valve and second flow control valve is arranged Personnel regulate and control each material conveying capacity, improve the precision of dispensing.

Optionally, the path length of the second vane successively decreases along the second shaft lower end to upper end, and the path length of the first vane is along first turn Successively decrease axis upper end to lower end.

The purpose designed in this way is, when raw material have just enter into stir chamber, hardness is larger, needs to carry out more with vane Adequately contact can just make the working efficiency that pre- blender is improved to stirring evenly.

Further, it is connected with third stirring motor at the top of measurer, dispensing chamber is equipped in measurer and is located at dispensing chamber Third shaft that is interior and being connect with third stirring motor, blade is connected in third shaft, and the path length of blade bottom is more than blade The path length at top.

Optionally, dispensing chamber is arc-shaped, and the discharge port of measurer is located at arc-shaped dispensing chamber minimum point.

The purpose designed in this way is, by the way that dispensing chamber is set as arc-shaped, convenient for ingredients raw material with Material bottom of chamber portion is accumulated, and is imported in distributing device again so as to can smoothly enter into discharge port.

The beneficial effects of the utility model include at least following one；

1, by setting pre- blender to double cavity structure, when carrying out pre- stir process to two class materials, moreover it is possible to by stone A part is transferred to slag charcoal and slag in the heat generated when ash, cement and addition liquor processing, is allowed to exist after stirring Certain initial temperature shortens the subsequent heat time, reduces energy expenditure and promotes working efficiency.

2, demarcation strip is the good material of heat transfer property, such as iron, alloy and other materials, user by lime, cement and Addition liquor is input to by the first feed pipe in the first stir chamber, and first rotating shaft is stirred under the drive of the first stirring motor It mixes, raw material is subjected to pre- stir process, the heat part during which generated is transferred in the slag charcoal and slag of the second stir chamber, It is allowed to temperature to get a promotion, solving existing slurry feed proportioning system, there are higher energy dissipations, and subsequently also need to again to stirring The heating such as broken slag, the problem of being unfavorable for the reasonable distribution of energy.

3, by setting demarcation strip to curved-surface structure, the contact surface of the first stir chamber and the second stir chamber can be promoted Product improves heat transference efficiency.

4, by the way that delivery pipe and feed pipe are carried out arrangement above, the efficiency stirred in advance can be improved, while being convenient for former material The export and importing of material.

It 5, can be defeated in order to each material of staff's regulation and control by the way that first flow control valve and second flow control valve is arranged The amount of sending improves the precision of dispensing.

6, it by the way that dispensing chamber is set as arc-shaped, is accumulated in dispensing bottom of chamber portion convenient for the raw material of ingredients, It is imported in distributing device again so as to can smoothly enter into discharge port.

Description of the drawings

Fig. 1 is the slurry feed proportioning system structural schematic diagram for producing aerated bricks；

In figure label for：1 is pre- blender, 2 be measurer, 3 be the first stir chamber, 4 be the second stir chamber, 5 be first Feed pipe, 6 be the second feed pipe, 7 be the second delivery pipe, 8 be the first delivery pipe, 9 be third stirring motor, 10 be the second stirring Motor, 11 be the first stirring motor, 12 be the second shaft, 13 be first rotating shaft, 14 be the second vane, 15 be the first vane, 16 It is first flow control valve for second flow control valve, 17,18 be third shaft, 19 be dispensing chamber, 20 be blade, 21 is cloth Pipe, 22 are demarcation strip.

Specific implementation mode

It is clear in order to enable the purpose of this utility model, technical solution and advantage to be more clear, below in conjunction with attached drawing and The present invention will be further described in detail for embodiment.It should be appreciated that specific embodiment described herein is only used to It explains the utility model, is not used to limit the utility model protection content.

Embodiment 1

As shown in Figure 1, including pre- blender 1 and measurer 2, pre- blender for producing the slurry feed proportioning system of aerated bricks 1 connect with measurer 2, and the discharge port of measurer 2 is connected to by cloth tube 21 with distributing device, it is characterised in that：In pre- blender 1 It is provided with demarcation strip 22, the internal cavity of pre- blender 1 is divided into the first stir chamber 3 being located above and is located at by demarcation strip 22 Second stir chamber 4 of lower section, the top of pre- blender 1 be connected with the first stirring motor 11 and be connected to the first stir chamber 3 first Feed pipe 5,1 side wall of pre- blender is connected with the first delivery pipe 8 being connected to the first stir chamber 3, is connected to the second stir chamber 4 Second feed pipe 6 and the second delivery pipe 7,1 bottom of pre- blender are provided with the second stirring motor 10.Setting in first stir chamber 3 There are first rotating shaft 13 and the first vane 15 in first rotating shaft 13, first rotating shaft 13 to be connect with the first stirring motor 11, the The second shaft 12 and the second vane 14 in the second shaft 12 are provided in two stir chambers 4, the second shaft 12 is stirred with second Mix the connection of motor 10.First delivery pipe 8 and the second delivery pipe 7 are connected to the feed inlet of measurer 2.

In use, pre- blender is set to double cavity structure, when carrying out pre- stir process to two class materials, moreover it is possible to by stone A part is transferred to slag charcoal and slag in the heat generated when ash, cement and addition liquor processing, is allowed to exist after stirring Certain initial temperature shortens the subsequent heat time, reduces energy expenditure and promotes working efficiency.Demarcation strip is that heat transfer property is good Material, such as iron, alloy and other materials, lime, cement and addition liquor are input to the by user by the first feed pipe In one stir chamber, first rotating shaft is stirred under the drive of the first stirring motor, raw material is carried out pre- stir process, during which A heat part for generation is transferred in the slag charcoal and slag of the second stir chamber, is allowed to temperature and is got a promotion, and solves existing material Starching feed proportioning system, there are higher energy dissipations, and follow-up also need to be unfavorable for the conjunction of energy to heating such as the slags that blends again The problem of reason distribution.

Embodiment 2

Based on embodiment 1, demarcation strip 22 is curved-surface structure, and the radian size of curved surface by both ends towards 22 middle part of demarcation strip Increase.

In use, setting demarcation strip to curved-surface structure, the contact surface of the first stir chamber and the second stir chamber can be promoted Product improves heat transference efficiency.

Embodiment 3

Based on embodiment 1, the first delivery pipe 8 and 3 connectivity part of the first stir chamber are located at 3 bottom of the first stir chamber, second into Expects pipe 6 and 4 connectivity part of the second stir chamber are located at 4 top of the second stir chamber, 4 connectivity part position of the second delivery pipe 7 and the second stir chamber In 4 bottom of the second stir chamber, and the second feed pipe 6 and the second delivery pipe 7 are located at homonymy.

In use, delivery pipe and feed pipe are carried out arrangement above, the efficiency stirred in advance can be improved, while being convenient for former material The export and importing of material.

Embodiment 4

Based on embodiment 1, it is provided with first flow control valve 17 in the first delivery pipe 8, is provided in the second delivery pipe 7 Two flow control valves 16.

Embodiment 5

Based on embodiment 1, the path length of the second vane 14 successively decreases along 12 lower end of the second shaft to upper end, the diameter of the first vane 15 Length is successively decreased along 13 upper end of first rotating shaft to lower end.

Embodiment 6

Based on embodiment 1,2 top of measurer is connected with third stirring motor 9, and dispensing chamber 19 and position are equipped in measurer 2 The third shaft 18 connecting in the dispensing chamber 19 and with third stirring motor 9 is connected with blade 20, blade 20 in third shaft 18 The path length of bottom is more than the path length at 20 top of blade.

Embodiment 7

Based on embodiment 6, dispensing chamber 19 is arc-shaped, and the discharge port of measurer 2 is located at arc-shaped dispensing chamber 19 most Low spot.

In use, dispensing chamber is set as arc-shaped, accumulated in dispensing bottom of chamber portion convenient for the raw material of ingredients, It is imported in distributing device again so as to can smoothly enter into discharge port.

Claims (7)

1. the slurry feed proportioning system for producing aerated bricks, including pre- blender（1）And measurer（2）, pre- blender（1）With with Glassware（2）Connection, measurer（2）Discharge port pass through cloth tube（21）It is connected to distributing device, it is characterised in that：The pre- stirring Device（1）Inside it is provided with demarcation strip（22）, demarcation strip（22）By pre- blender（1）Internal cavity be divided into first be located above Stir chamber（3）With underlying second stir chamber（4）, pre- blender（1）Top is connected with the first stirring motor（11）With with First stir chamber（3）First feed pipe of connection（5）, pre- blender（1）Side wall is connected with and the first stir chamber（3）The of connection One delivery pipe（8）And the second stir chamber（4）Second feed pipe of connection（6）With the second delivery pipe（7）, pre- blender（1）Bottom It is provided with the second stirring motor（10）；

First stir chamber（3）Inside it is provided with first rotating shaft（13）With positioned at first rotating shaft（13）On the first vane（15）, First rotating shaft（13）With the first stirring motor（11）Connection, second stir chamber（4）Inside it is provided with the second shaft（12）The position and In the second shaft（12）On the second vane（14）, the second shaft（12）With the second stirring motor（10）Connection；

First delivery pipe（8）With the second delivery pipe（7）And measurer（2）Feed inlet connection.

2. the slurry feed proportioning system according to claim 1 for producing aerated bricks, it is characterised in that：The demarcation strip （22）For curved-surface structure, and the radian size of curved surface by both ends towards demarcation strip（22）Middle part increases.

3. the slurry feed proportioning system according to claim 1 for producing aerated bricks, it is characterised in that：First conveying Pipe（8）With the first stir chamber（3）Connectivity part is located at the first stir chamber（3）Bottom, second feed pipe（6）With the second stir chamber （4）Connectivity part is located at the second stir chamber（4）Top, the second delivery pipe（7）With the second stir chamber（4）Connectivity part is located at the second stirring Chamber（4）Bottom, and the second feed pipe（6）With the second delivery pipe（7）Positioned at homonymy.

4. the slurry feed proportioning system according to claim 3 for producing aerated bricks, it is characterised in that：First conveying Pipe（8）On be provided with first flow control valve（17）, the second delivery pipe（7）On be provided with second flow control valve（16）.

5. the slurry feed proportioning system according to claim 1 for producing aerated bricks, it is characterised in that：Second vane （14）Path length along the second shaft（12）Lower end to upper end is successively decreased, the first vane（15）Path length along first rotating shaft（13）Upper end is extremely Successively decrease lower end.

6. the slurry feed proportioning system according to claim 1 for producing aerated bricks, it is characterised in that：The measurer （2）Top is connected with third stirring motor（9）, measurer（2）It is interior to be equipped with dispensing chamber（19）With positioned at dispensing chamber（19）It is interior and with Third stirring motor（9）The third shaft of connection（18）, the third shaft（18）On be connected with blade（20）, blade（20）Bottom The path length in portion is more than blade（20）The path length at top.

7. the slurry feed proportioning system according to claim 6 for producing aerated bricks, it is characterised in that：The dispensing chamber （19）To be arc-shaped, and measurer（2）Discharge port be located at arc-shaped dispensing chamber（19）Minimum point.