CN208757484U - A kind of mixing equipment - Google Patents

Abstract

The utility model discloses a kind of mixing equipments, box house is separated to form the first mixed material area by first partition component and second partition component from top to bottom, second mixed material area and discharge zone, first partition component is equipped with multiple first material-dropping holes, second partition component is equipped with multiple second material-dropping holes, guide tube end is slidably mounted on cabinet and is connected to by strip-shaped hole with the first mixed material area, hydraulic cylinder is connect for driving guide tube end to move back and forth along strip-shaped hole with guide tube end, first impeller and the second impeller are mounted in the first mixed material area for being stirred to a variety of inorganic minerals, first helical-blade bobbin and the second helical-blade bobbin are mounted in the second mixed material area for being stirred to a variety of inorganic minerals, third helical-blade bobbin is mounted in discharge zone for being stirred to a variety of inorganic minerals；The utility model discloses a kind of mixing equipments, realize the mixing three times of a variety of inorganic minerals, and a variety of inorganic minerals are thoroughly mixed in the mouth uniformly.

Description

A kind of mixing equipment

Technical field

The utility model relates to glass production equipment technology more particularly to a kind of mixing equipments.

Background technique

Glass is to be obtained by a variety of inorganic minerals by processing, first has to pass through a variety of inorganic minerals before processing Batch mixer is mixed, and mixing uniformity is higher, and the glass final product quality processed is also higher, existing batch mixer Mixing efficiency is low, and mixing uniformity is low, it would be highly desirable to improve.

Utility model content

To solve technical problem present in background technique, the utility model proposes a kind of mixing equipments.

The utility model proposes a kind of mixing equipment, including cabinet, first partition component, second partition component, guide Pipe, hydraulic cylinder, the first impeller, the second impeller, first motor, the second motor, the first helical-blade bobbin, the second helical-blade bobbin, Third motor, the 4th motor, third helical-blade bobbin and the 5th motor；

First partition component and second partition component are mounted in cabinet and box house are separated to form to the from top to bottom One mixed material area, the second mixed material area and discharge zone, first partition component are equipped with multiple first material-dropping holes, set on second partition component There are multiple second material-dropping holes；

Top of the box and bottom offer strip-shaped hole and discharge hole respectively, and passage is made of soft material, passage End is slidably mounted on cabinet and is connected to by strip-shaped hole with the first mixed material area, and hydraulic cylinder is connect with guide tube end for driving Dynamic guide tube end is moved back and forth along strip-shaped hole；

First impeller and the second impeller are mounted in the first mixed material area, and the first impeller and the second impeller are long axially along strip-shaped hole Direction setting is spent, the first impeller and the second impeller are located in the same horizontal plane, and first motor output shaft connect use with the first impeller In driving the first wheel rotation, the second motor output shaft is connect for driving the second wheel rotation, the first impeller with the second impeller It is turned to the second impeller opposite；

First helical-blade bobbin and the second helical-blade bobbin are mounted in the second mixed material area, the first helical-blade bobbin and second Helical-blade bobbin is arranged axially along strip-shaped hole length direction, and the first helical-blade bobbin and the second helical blade axle position are in same level In face, for driving the rotation of the first helical-blade bobbin, the 4th motor is defeated for third motor output shaft and the first helical blade axis connection Shaft and the second helical blade axis connection are for driving the rotation of the second helical-blade bobbin, the first helical-blade bobbin and the second helical-blade Bobbin drives material contrary；

Third helical-blade bobbin is mounted in discharge zone, and third helical-blade bobbin is arranged along the vertical direction, and the 5th motor is defeated For driving third helical-blade bobbin to rotate, third helical-blade bobbin send material for driving for shaft and third helical blade axis connection It moves up.

Preferably, first partition component includes first partition and second partition, and first partition is equipped with multiple first through hole, Second partition is equipped with multiple second through-holes, and multiple first through hole and multiple second through-holes are respectively communicated with to form the first material-dropping hole, The horizontal position of first partition and/or second partition is removable.

Preferably, second partition component includes third partition and the 4th partition, and third partition is equipped with multiple third through-holes, 4th partition is equipped with multiple fourth holes, and multiple third through-holes and multiple fourth holes are respectively communicated with to form the second material-dropping hole, The horizontal position of third partition and/or the 4th partition is removable.

Preferably, strip-shaped hole is between the first impeller and the second impeller.

Preferably, the first helical-blade bobbin and the second helical blade rotational axis direction on the contrary, the first helical-blade bobbin leaf Piece rotation direction is identical as the blade rotation direction on the second helical-blade bobbin.

Preferably, the first helical-blade bobbin and the second helical blade rotational axis direction are identical, the leaf of the first helical-blade bobbin Piece rotation direction and the blade on the second helical-blade bobbin are oppositely oriented.

Preferably, third helical-blade bobbin axis and discharge hole axis collinear.

In the utility model, the mixing equipment proposed, passage will be used to prepare a variety of inorganic minerals of glass, together When guide tube end moved back and forth under the driving of hydraulic cylinder so that a variety of inorganic minerals that guide tube end transports out are uniform It trickles down in the first mixed material area, realizes that the first time of a variety of inorganic minerals mixes by the stirring of the first impeller and the second impeller, A variety of inorganic minerals while mixing in the first mixed material area enter in the second mixed material area by the first material-dropping hole, in the second mixing In area under the stirring of the first helical-blade bobbin and the second helical-blade bobbin, second of mixing of a variety of inorganic minerals, mixing are realized While the second mixed material area in a variety of inorganic minerals enter in discharge zone by the second material-dropping hole, the third spiral in discharge zone Under the stirring of sharf, the third time mixing of a variety of inorganic minerals is realized, mixing while, a variety of inorganic minerals were arranged through discharge hole Out；It is mixed three times by above-mentioned, a variety of inorganic minerals are thoroughly mixed in the mouth uniformly.

Detailed description of the invention

Fig. 1 be the utility model proposes a kind of mixing equipment internal structure front view；

Fig. 2 be the utility model proposes a kind of mixing equipment internal structure side view；

Fig. 3 be the utility model proposes first partition component structural schematic diagram.

Specific embodiment

As shown in Figure 1-3, Fig. 1 be the utility model proposes a kind of mixing equipment internal structure front view, Fig. 2 be this Utility model propose a kind of mixing equipment internal structure side view, Fig. 3 be the utility model proposes first partition component Structural schematic diagram.

Referring to Fig.1-2, the utility model proposes a kind of mixing equipment, including cabinet 1, first partition component 2, second every Board group part 3, passage 4, hydraulic cylinder 5, the first impeller 61, the second impeller 62, first motor 71, the second motor, the first helical-blade Bobbin 81, the second helical-blade bobbin 82, third motor 72, the 4th motor, third helical-blade bobbin 83 and the 5th motor 73；

1 top of cabinet is in rectangular parallelepiped structure, and 1 lower part of cabinet is in chamfered edge platform structure, first partition component 2 and second partition group Part 3 is mounted in cabinet 1 and setting up and down, and second partition component 3 is located at the rectangular parallelepiped structure and the chamfered edge platform structure Junction, first partition component 2 and second partition component 3 will be separated to form from top to bottom the first mixed material area, second inside cabinet 1 Mixed material area and discharge zone, first partition component 2 are equipped with multiple first material-dropping holes, and second partition component 3 is equipped with multiple second Material-dropping hole, the first material-dropping hole and the second material-dropping hole pass through for a variety of inorganic minerals；

1 top and bottom of cabinet offer strip-shaped hole and discharge hole respectively, and passage 4 is used to transmit a variety of inorganic minerals, Passage 4 is made of soft material, is made in the present embodiment of rubber material, 4 end of passage extends through strip-shaped hole It extends into the first mixed material area, is connect by 4 end of passage with 5 piston rod of hydraulic cylinder, hydraulic cylinder 5 drives 4 end of passage Portion is moved along strip-shaped hole length direction, and under working condition, passage 4 continuously conveys into the first mixed material area a variety of inorganic Mineral, hydraulic cylinder 5 drives 4 end of passage to move back and forth along strip-shaped hole, so that a variety of inorganic minerals that passage 4 transports out Uniformly trickle down in the first mixed material area；

First impeller 61 and the second impeller 62 are rotatably installed in the first mixed material area, and the first impeller 61 and the second impeller 62 are long Direction to be spent to be arranged along strip-shaped hole length direction, the first impeller 61 and 62 both ends of the second impeller are born against on 1 inner wall of cabinet, the One impeller 61 and the second impeller 62 are located in the same horizontal plane, and 71 output shaft of first motor is connect with the first impeller 61 for driving The rotation of first impeller 61, the second motor output shaft are connect for driving the rotation of the second impeller 62, the first impeller with the second impeller 62 61 and second impeller 62 turn on the contrary, into a variety of inorganic minerals in the first mixed material area, in the first impeller 61 and the second impeller Under 62 stirring, the first mixing is realized, while mixing, a variety of inorganic minerals in the first mixed material area pass through the first material-dropping hole Into in the second material-dropping hole；

First helical-blade bobbin 81 and the second helical-blade bobbin 82 are mounted in the second mixed material area, the first helical-blade bobbin 81 It is arranged with the second helical-blade bobbin 82 axially along strip-shaped hole length direction, the first helical-blade bobbin 81 and the second helical-blade bobbin 82 Both ends bear against on 1 inner wall of cabinet, the first helical-blade bobbin 81 and the second helical-blade bobbin 82 are located at same level Interior, 72 output shaft of third motor is connect for driving the rotation of the first helical-blade bobbin 81, the 4th electricity with the first helical-blade bobbin 81 Machine output shaft is connect for driving the rotation of the second helical-blade bobbin 82,81 He of the first helical-blade bobbin with the second helical-blade bobbin 82 Second helical-blade bobbin 82 drives the contrary of a variety of inorganic minerals, and a variety of inorganic mineral mixing are more uniform and a variety of Inorganic mineral will not be deposited in second mixed material area one end, in the stirring of the first helical-blade bobbin 81 and the second helical-blade bobbin 82 Under, a variety of inorganic minerals are realized second and are mixed, and while mixing, a variety of inorganic minerals in the second mixed material area pass through second Material-dropping hole enters in discharge zone；

Third helical-blade bobbin 83 is mounted in discharge zone, and third helical-blade bobbin 83 is arranged along the vertical direction, third spiral shell It is resisted against at the top of vane bobbin 83 on second partition component 3,73 output shaft of the 5th motor connect use with third helical-blade bobbin 83 It is rotated in driving third helical-blade bobbin 83, the drive of third helical-blade bobbin 83 send a variety of inorganic minerals to move up, so that a variety of Inorganic mineral mixing is more uniform, and under the stirring of third helical-blade bobbin 83, a variety of inorganic minerals realize that third time mixes, While mixing, a variety of inorganic minerals in discharge zone are discharged by discharge hole.

Referring to Fig. 3, in the present embodiment, first partition component 2 includes first partition 21 and second partition 22, first partition 21 Setting up and down with second partition 22 and abut each other, first partition 21 is equipped with multiple first through hole, and second partition 22 is equipped with Multiple second through-holes, multiple first through hole and multiple second through-holes are respectively communicated with to form the first material-dropping hole, first partition 21 and/or Second every plate horizontal position it is removable, by adjusting the horizontal position of first partition 21 and/or second partition 22, so that first The size of material-dropping hole changes；Referring to Fig. 3, in the present embodiment, second partition 22 is fixedly connected with cabinet 1, first partition 21 Multiple waist-shaped holes are equipped with, bolt passes through waist-shaped hole and is spirally connected with second partition 22, when needing to adjust the size of the first material-dropping hole, Unscrew spiral and move first partition 21 again, i.e., the size of adjustable first material-dropping hole meets the inorganic mineral of variable grain size It can be entered in the second mixed material area by the first material-dropping hole, and realize different blanking speed by adjusting the first material-dropping hole size Degree.

In the present embodiment, second partition component 3 includes third partition and the 4th partition, above and below third partition and the 4th partition It is arranged and abuts each other, third partition is equipped with multiple third through-holes, and the 4th partition is equipped with multiple fourth holes, multiple thirds Through-hole and multiple fourth holes are respectively communicated with to form the second material-dropping hole, third partition and/or the 4th every plate horizontal position it is removable It is dynamic, by adjusting the horizontal position of third partition and/or the 4th partition, so that the size of the second material-dropping hole changes；This reality It applies in example, the 4th partition is fixedly connected with cabinet 1, and third partition is equipped with multiple waist-shaped holes, and bolt passes through waist-shaped hole and the 4th Partition is spirally connected, and when needing to adjust the size of the second material-dropping hole, unscrews spiral and moves third partition again, i.e., adjustable second blanking The size in hole, the inorganic mineral for meeting variable grain size can be entered in discharge zone by the second material-dropping hole, and pass through tune It saves the second material-dropping hole size and realizes different blanking speed.

In the present embodiment, strip-shaped hole is between the first impeller 61 and the second impeller 62, the inorganic mineral of the output of passage 4 Just it falls between the first impeller 61 and the second impeller 62, the inorganic mineral of the first impeller 61 and the second impeller 62 by between is upward It stirs, so that a variety of inorganic minerals are mutually mixed.

Specifically, in the present embodiment, the first helical-blade bobbin 81 and 82 rotation direction of the second helical-blade bobbin are on the contrary, The blade rotation direction of one helical-blade bobbin 81 is identical as the blade rotation direction on the second helical-blade bobbin 82, realizes the first helical-blade bobbin 81 and second helical-blade bobbin 82 drive send the contrary of inorganic mineral.

In another design method, the first helical-blade bobbin 81 is identical with 82 rotation direction of the second helical-blade bobbin, The blade rotation direction of first helical-blade bobbin 81 and the blade on the second helical-blade bobbin 82 are oppositely oriented, equally may be implemented first The contrary of inorganic mineral is sent in helical-blade bobbin 81 and the drive of the second helical-blade bobbin 82.

In the present embodiment, 83 axis of third helical-blade bobbin and discharge hole axis collinear, the inorganic mineral near discharge hole It is continuously agitated, avoidable inorganic mineral is got lodged at discharge hole.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (7)

1. a kind of mixing equipment, which is characterized in that including cabinet (1), first partition component (2), second partition component (3), lead Expects pipe (4), hydraulic cylinder (5), the first impeller (61), the second impeller (62), first motor (71), the second motor, the first helical-blade Bobbin (81), the second helical-blade bobbin (82), third motor (72), the 4th motor, third helical-blade bobbin (83) and the 5th electricity Machine (73)；

First partition component (2) and second partition component (3) are mounted in cabinet (1) and will divide from top to bottom inside cabinet (1) Every forming the first mixed material area, the second mixed material area and discharge zone, first partition component (2) is equipped with multiple first material-dropping holes, and second Baffle assembly (3) is equipped with multiple second material-dropping holes；

Strip-shaped hole and discharge hole are offered respectively at the top and bottom of cabinet (1), and passage (4) is made of soft material, guide Pipe (4) end is slidably mounted on cabinet (1) and is connected to by strip-shaped hole with the first mixed material area, hydraulic cylinder (5) and passage (4) End connection is for driving passage (4) end to move back and forth along strip-shaped hole；

First impeller (61) and the second impeller (62) are mounted in the first mixed material area, the first impeller (61) and the second impeller (62) axis It is arranged to along strip-shaped hole length direction, the first impeller (61) and the second impeller (62) are located in the same horizontal plane, first motor (71) output shaft is connect for driving the first impeller (61) rotation, the second motor output shaft and the second impeller with the first impeller (61) (62) for driving the second impeller (62) rotation, the first impeller (61) and the second impeller (62) turn to opposite for connection；

First helical-blade bobbin (81) and the second helical-blade bobbin (82) are mounted in the second mixed material area, the first helical-blade bobbin (81) it is arranged with the second helical-blade bobbin (82) axially along strip-shaped hole length direction, the first helical-blade bobbin (81) and the second spiral Sharf (82) is located in the same horizontal plane, and third motor (72) output shaft is connect with the first helical-blade bobbin (81) for driving The rotation of first helical-blade bobbin (81), the 4th motor output shaft are connect for driving the second spiral with the second helical-blade bobbin (82) Sharf (82) rotation, the first helical-blade bobbin (81) and the second helical-blade bobbin (82) driving material are contrary；

Third helical-blade bobbin (83) is mounted in discharge zone, and third helical-blade bobbin (83) is arranged along the vertical direction, the 5th electricity Machine (73) output shaft is connect for driving third helical-blade bobbin (83) to rotate with third helical-blade bobbin (83), third helical-blade Bobbin (83) send material to move up for driving.

2. mixing equipment according to claim 1, which is characterized in that first partition component (2) includes first partition (21) With second partition (22), first partition (21) is equipped with multiple first through hole, and second partition (22) is equipped with multiple second through-holes, Multiple first through hole and multiple second through-holes are respectively communicated with to form the first material-dropping hole, first partition (21) and/or second partition (22) horizontal position is removable.

3. mixing equipment according to claim 1, which is characterized in that second partition component (3) includes third partition and Four partitions, third partition are equipped with multiple third through-holes, and the 4th partition is equipped with multiple fourth holes, multiple third through-holes and more A fourth hole is respectively communicated with to form the second material-dropping hole, and the horizontal position of third partition and/or the 4th partition is removable.

4. mixing equipment according to claim 1, which is characterized in that strip-shaped hole is located at the first impeller (61) and the second impeller (62) between.

5. mixing equipment according to claim 1, which is characterized in that the first helical-blade bobbin (81) and the second helical blade Axis (82) rotation direction is on the contrary, the blade on the blade rotation direction of the first helical-blade bobbin (81) and the second helical-blade bobbin (82) revolves To identical.

6. mixing equipment according to claim 1, which is characterized in that the first helical-blade bobbin (81) and the second helical blade Axis (82) rotation direction is identical, and the blade in the blade rotation direction of the first helical-blade bobbin (81) and the second helical-blade bobbin (82) revolves To opposite.

7. mixing equipment according to claim 1, which is characterized in that third helical-blade bobbin (83) axis and discharging hole axle Line is conllinear.