CN201135870Y - Powder material blender - Google Patents

Abstract

The utility model relates to a power material blender, which belongs to the technical field of the blender. The power material blender comprises a cylinder body provided with a feeding inlet opening and a discharging outlet opening, a blending mechanism, a driving mechanism and an electrical controlling device, wherein, the blending mechanism is comprised of a central axle connected with the driving mechanism, a kick-off mechanism on the central axle and a damper. The kick-off mechanism is composed of a group of kick-of mechanism bases fixed on the central axle, a kick-of rod and kick-off blocks, and the distributing way of the kick-off mechanism base adopts two radial surfaces which are mutually vertical and distributed equally and alternately on the central axle. The included angle between the kick-off rod and the central axle is 45 degrees to 135 degrees. The radial included angle between the kick-off blocks and the central axle is 45 degrees to 135 degrees, and the radial directions of adjacent kick-off blocks are opposite. A vertical reinforcing bar and a material returning block are arranged on the kick-off rod. The power blender mechanism has the advantages that the material is uniformly blended, the operation is secure and stable, the abrasion is less, the long term operation is stable, and the power blender mechanism has strong environmental adaptive ability.

Description

Powder material mixer

Technical field

The utility model relates to the batch mixer technical field, particularly a kind of powder material mixer.

Background technology

Batch mixer is widely used in the even mixing of cement, metallurgy, pharmacy, the polynary component dry powder of chemical industry raw material.After being applicable to cement difference grinding, be mixed into the various class g cement of Denging on request, micro mists such as slag powders, flyash are mixed in the cement equably.Currently used batch mixer mostly is the batch-type batch mixer greatly, and operation is trouble, moves reliably inadequately, and production efficiency is lower, can't adapt to the quantity-produced needs.In order to adapt to the quantity-produced needs, must develop a kind ofly have that mixed material is even, reliable, steady, little, the steady in a long-term operation of wearing and tearing, the on-line continuous formula powder batch mixer strong to environment-adapting ability.

Summary of the invention

The purpose of this utility model is to provide that a kind of to have a mixed material even, little, the steady in a long-term operation of reliable, steady, wearing and tearing, the powder material mixer strong to environment-adapting ability, this is a kind of on-line continuous formula batch mixer, can be widely used in industries such as cement, fire-resistant, pharmacy, chemical industry.

The purpose of this utility model realizes by following technical proposals:

Powder material mixer of the present utility model, comprise a cylindrical shell that is provided with charging aperture and discharging opening, be located at the batch mixing mechanism in this cylindrical shell, the driving mechanism that is connected of batch mixing mechanism therewith, the electric control gear that is connected of driving mechanism therewith, it is characterized in that described batch mixing mechanism by the central shaft that is connected with described driving mechanism, be installed in one group of material toggling mechanism on this dress central shaft, the damper that is located at contiguous discharging opening in this cylindrical shell is formed.

Described one group of material toggling mechanism is by the one group of material toggling mechanism base that is fixed on the described central shaft, one group of rod for stiring materials being connected of material toggling mechanism base therewith, one group of material toggling piece being connected of the upper end of one group of rod for stiring materials is formed therewith, and the distribution mode of material toggling mechanism base on described central shaft is for evenly being alternately distributed two orthogonal radial surfaces on central shaft.

Angle between described one group of rod for stiring materials and the described central shaft is 45 °-135 °.

Axial angle between described one group of rod for stiring materials and the described central shaft is 45 °-90 °, and promptly described rod for stiring materials tilts to the charging aperture direction of cylindrical shell.

Having the axial angle between two rod for stiring materials and the central shaft in described one group of rod for stiring materials at least is 90 °-135 °, axial angle between all the other rod for stiring materials and the central shaft is 45 °-90 °, be to have at least two rod for stiring materials to tilt to the discharging opening direction of cylindrical shell in described one group of rod for stiring materials, all the other rod for stiring materials tilt to the charging aperture direction of cylindrical shell.

Radially angle between described one group of material toggling piece and the central shaft is 45 °-135 °, the radially directed in opposite of adjacent material toggling piece.

Described rod for stiring materials is provided with waling, and the middle part of rod for stiring materials is provided with anti-material piece.

Be connected by one group of lower bolt nut between described material toggling mechanism base and rod for stiring materials lower end, be connected by one group of upper bolt nut between the material toggling piece of rod for stiring materials and upper end.

The side of described cylindrical shell is provided with peep hole, and the end face of cylindrical shell is provided with cleaning eye corresponding to the position of described damper, and described central shaft passes the axis of cylindrical shell.

Described driving mechanism is motor-reductor-shaft coupling, and shaft coupling is connected with central shaft, and the bearing of supporting central shaft is arranged on outside the described cylindrical shell.

It is even that powder material mixer of the present invention has mixed material, and reliable, steady, characteristics such as wearing and tearing are little, long-term stability operation are strong to environment-adapting ability.Be widely used in industries such as cement, fire-resistant, pharmacy, chemical industry.

The operation principle of powder material mixer of the present utility model is:

Powder material mixer of the present utility model surplus the per minute cutting material 1800 time, participates in the composition combination of new material then with minimum unit on the cross section, in machine repeatedly, continuous several times mixes, and finally reaches composition, the uniform characteristics of component.According to the GB/T176-1996 sampling standard, it goes out machine standard deviation S≤1.6.This product is applicable to that the cement component behind the difference grinding mixes and the mixing of the polynary component fine powder of other granular material.

The advantage of powder material mixer of the present utility model is:

1, be a kind of on-line continuous formula batch mixer, the scope of application is wide: be applicable to that broadly granular material below 100 ℃ is mixed into polynary component compound body, various composite materials such as particularly suitable slag powders, flyash (dry ash), agstone mix in the cement; Be applicable to the mixing after the proportioning by a certain percentage of pharmacy, the various dry powder shape of chemical industry raw material;

2, because the design of inclination angle, direction and the layout of rod for stiring materials and material toggling piece makes powder material mixer of the present invention can adapt to the requirement of all size, really realize the even batch mixing of powder material;

3, since in cylindrical shell contiguous discharging opening place be provided with damper, make to prevent that powder material from just emitting from discharging opening without fully mixing by the powder material that remains some in the cylindrical shell;

4, because rod for stiring materials is provided with waling, guarantee that rod for stiring materials has enough intensity,, can stir the powder that is in the cylindrical shell centre and stir, guarantee that all powders are all fully mixed because the middle part of rod for stiring materials is provided with anti-material piece;

5, because the bearing of supporting central shaft is arranged on outside the described cylindrical shell, bearing can not polluted by powder, guarantees the safe operation of bearing;

6, because the side of cylindrical shell is provided with peep hole, can observe the mixing situation of powder material in the cylindrical shell at any time, one stops up or other abnormal conditions when material takes place, and the cleaning eye of end face that can be by being located at cylindrical shell is cleared up, and tries to avert accidents.

Batch mixer is by the model difference, and size is slightly variant, can be installed in underground, ground or built on stilts the installation.

Description of drawings

Fig. 1 is a surface structure schematic diagram of the present utility model.

Fig. 2 is the side view of Fig. 1.

Fig. 3 is the structural representation of a kind of embodiment of batch mixing of the present utility model mechanism.

Fig. 4 is the side view of Fig. 3.

Fig. 5 is the structural representation of the another embodiment of batch mixing of the present utility model mechanism.

Fig. 6 is the side view of Fig. 5.

Fig. 7 is the structural representation of rod for stiring materials of the present utility model.

The specific embodiment

Given embodiment further specifies the specific embodiment of the present utility model below in conjunction with accompanying drawing.

As shown in Figure 1 and Figure 2, powder material mixer of the present utility model, comprise a cylindrical shell 1 that is provided with charging aperture 7 and discharging opening 11, be located at the batch mixing mechanism in this cylindrical shell 1, the driving mechanism that is connected of batch mixing mechanism therewith, the electric control gear that is connected of driving mechanism therewith is characterized in that described batch mixing mechanism is by the central shaft 6 that is connected with described driving mechanism, be installed in one group of material toggling mechanism on this dress central shaft 6, the damper 3 that is located at contiguous discharging opening 11 in this cylindrical shell 1 is formed.

As Fig. 3, Fig. 4, Fig. 5, shown in Figure 6, described one group of material toggling mechanism is by the one group of material toggling mechanism base 12 that is fixed on the described central shaft 6, one group of rod for stiring materials 13 being connected of material toggling mechanism base 12 therewith, one group of material toggling piece 14 being connected of the upper end of one group of rod for stiring materials 13 is formed therewith, and the distribution mode of material toggling mechanism base 12 on described central shaft 6 is for evenly being alternately distributed two orthogonal radial surfaces on central shaft.

Angle between described one group of rod for stiring materials and the described central shaft is 45 °-135 °.In Fig. 3, embodiment shown in Figure 4, this angle is 90 °, the relatively suitableeer less batch mixer of this structure; In Fig. 5, embodiment shown in Figure 6, this angle is about 60 °, the relatively suitableeer bigger batch mixer of this structure.

Axial angle between described rod for stiring materials 13 and the described central shaft 6 is 45 °-90 °, and promptly described rod for stiring materials tilts to the charging aperture direction of cylindrical shell.

As Fig. 5, shown in Figure 6, having the axial angle between two rod for stiring materials 13-2 and the central shaft 6 in described one group of rod for stiring materials at least is 90 °-135 °, axial angle between all the other rod for stiring materials 13-1 and the central shaft 6 is 45 °-90 °, be to have at least two rod for stiring materials 13-2 to tilt to the discharging opening direction of cylindrical shell 1 in described one group of rod for stiring materials, all the other rod for stiring materials 13-1 tilt to the charging aperture direction of cylindrical shell 1.

Radially angle between described 1 material toggling piece 14 and the central shaft 6 is 45 °-135 °, the radially directed in opposite of adjacent material toggling piece.

As shown in Figure 7, described rod for stiring materials 13 is provided with waling 16, and the middle part of rod for stiring materials 13 is provided with anti-material piece 15.

As Fig. 3, Fig. 4, Fig. 5, shown in Figure 6, be connected by one group of lower bolt nut 17 between described material toggling mechanism base 12 and rod for stiring materials 13 lower ends, be connected by one group of upper bolt nut 18 between the material toggling piece 14 of rod for stiring materials 13 and upper end.

As shown in Figure 1 and Figure 2, the side of described cylindrical shell 1 is provided with peep hole 5, and the end face of cylindrical shell 1 is provided with cleaning eye 4 corresponding to the position of described damper 3, and described central shaft 6 passes the axis of cylindrical shell 1.

Described driving mechanism is a motor 10-reductor 9-shaft coupling 8, and shaft coupling 8 is connected with central shaft 6, and the bearing 2 of supporting central shaft 6 is arranged on outside the described cylindrical shell 1.

It is even that powder material mixer of the present utility model has mixed material, and reliable, steady, characteristics such as wearing and tearing are little, long-term stability operation are strong to environment-adapting ability.Be widely used in industries such as cement, fire-resistant, pharmacy, chemical industry.

The operation principle of powder material mixer of the present utility model is:

Powder material mixer of the present utility model surplus the per minute cutting material 1800 time, participates in the composition combination of new material then with minimum unit on the cross section, in machine repeatedly, continuous several times mixes, and finally reaches composition, the uniform characteristics of component.According to the GB/T176-1996 sampling standard, it goes out machine standard deviation S≤1.6.This product is applicable to that the cement component behind the difference grinding mixes and the mixing of the polynary component fine powder of other granular material.

Claims (10)

1, a kind of powder material mixer, comprise a cylindrical shell that is provided with charging aperture and discharging opening, be located at the batch mixing mechanism in this cylindrical shell, the driving mechanism that is connected of batch mixing mechanism therewith, the electric control gear that is connected of driving mechanism therewith, it is characterized in that described batch mixing mechanism by the central shaft that is connected with described driving mechanism, be installed in one group of material toggling mechanism on this dress central shaft, the damper that is located at contiguous discharging opening in this cylindrical shell is formed.

2, powder material mixer according to claim 1, it is characterized in that described one group of material toggling mechanism is by the one group of material toggling mechanism base that is fixed on the described central shaft, one group of rod for stiring materials being connected of material toggling mechanism base therewith, one group of material toggling piece being connected of the upper end of one group of rod for stiring materials is formed therewith, and the distribution mode of material toggling mechanism base on described central shaft is for evenly being alternately distributed two orthogonal radial surfaces on central shaft.

3, powder material mixer according to claim 2 is characterized in that the angle between described one group of rod for stiring materials and the described central shaft is 45 °-135 °.

4, powder material mixer according to claim 2 is characterized in that the axial angle between described one group of rod for stiring materials and the described central shaft is 45 °-90 °, and promptly described rod for stiring materials tilts to the charging aperture direction of cylindrical shell.

5, powder material mixer according to claim 2, it is characterized in that having at least in described one group of rod for stiring materials the axial angle between two rod for stiring materials and the described central shaft is 90 °-135 °, axial angle between all the other rod for stiring materials and the described central shaft is 45 °-90 °, be to have at least two rod for stiring materials to tilt to the discharging opening direction of cylindrical shell in described one group of rod for stiring materials, all the other rod for stiring materials tilt to the charging aperture direction of cylindrical shell.

6, powder material mixer according to claim 2 is characterized in that the radially angle between described one group of material toggling piece and the described central shaft is 45 °-135 °, the radially directed in opposite of adjacent material toggling piece.

7, powder material mixer according to claim 2 is characterized in that described rod for stiring materials is provided with waling, and the middle part of rod for stiring materials is provided with anti-material piece.

8, powder material mixer according to claim 2, it is characterized in that being connected by one group of lower bolt nut between described material toggling mechanism base and rod for stiring materials lower end, be connected by one group of upper bolt nut between the material toggling piece of rod for stiring materials and upper end.

9, powder material mixer according to claim 1 is characterized in that the side of described cylindrical shell is provided with peep hole, and the end face of cylindrical shell is provided with cleaning eye corresponding to the position of described damper, and described central shaft passes the axis of cylindrical shell.

10, powder material mixer according to claim 1 is characterized in that described driving mechanism is motor-reductor-shaft coupling, and shaft coupling is connected with central shaft, and the bearing of supporting central shaft is arranged on outside the described cylindrical shell.

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