CN213286878U - Stirring equipment for horizontal binder production - Google Patents

Abstract

The utility model discloses a horizontal agitated vessel for binder production belongs to chemical industry stirring technical field, throw the material structure, the additive throws the material structure including mounting structure, reation kettle structure, binder, the additive is thrown the material structure and is established in the binder throws the material structure, the binder is thrown the material structure and is established in the reation kettle structure, mounting structure establishes in reation kettle structure below and both fixed connection, reation kettle structure, binder are thrown the material structure and the additive and are thrown the material structure coaxial line setting, under the stirring state, the binder is thrown the material structure and the additive and is thrown the material structure syntropy and rotate, reation kettle structure pivoted direction and binder are thrown the rotation direction that the material structure and additive were thrown the material structure and in opposite directions. The structure can feed materials at any time in the production process, the additive and the binder are uniformly distributed, the reaction is more sufficient, and the feeding port and the inner wall of the bonding reaction chamber are not easy to block.

Description

Stirring equipment for horizontal binder production

Technical Field

The utility model belongs to the technical field of the chemical industry stirring technique and specifically relates to a agitated vessel is used in production of horizontal binder.

Background

In the process of modern production of the adhesive, some additives are often required to be added into the adhesive, and due to high viscosity, common stirring equipment is not uniformly stirred in a reaction kettle only through stirring blades and is easy to block, and the existing special stirring equipment for the adhesive can be used for uniformly adding the additives, but has some defects.

In the prior art, patent number CN206853687U discloses a horizontal stirring device for producing a binder, which comprises a first vertical supporting rod; a first bearing seat is arranged on the right side of the first supporting vertical rod; a driving device is arranged on the left side of the first supporting vertical rod; and the right end of the first bearing seat is provided with a reaction chamber. The device has simple structure, reasonable design and convenient use; the motor can drive the driving wheel to move so as to drive the driven wheel, so that the reaction chamber rotates, the mixing reaction of materials is quicker, and the stirring resistance of the stirring device can be greatly reduced due to the rotation of the reaction chamber; the stirring device can stir the materials, so that the materials are stirred more thoroughly and react more quickly; the rotation of reaction chamber cooperates the motion of agitating unit for the material mixes more evenly, and the reaction is more abundant.

The above device has the following disadvantages:

first, the device allows for the additive to be dispensed evenly, but the adhesive itself is poured through only one inlet, which can result in a large amount of adhesive being deposited beneath the inlet, which if reacted with the additive, can completely block the adhesive beneath the inlet.

Secondly, the additive pipeline outlet of the device is too small to be easily blocked in the reaction process.

Thirdly, the device can only put in the additive midway but not put in the adhesive during the working process, if the machine is stopped and put in, the adhesive in the reaction kettle is probably adhered to the inner wall of the reaction kettle.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a horizontal agitated vessel for binder production to solve among the prior art easy blockking up of dog-house, throw the material uneven distribution and can not midway reinforced technical problem.

The utility model provides a horizontal agitated vessel for binder production, throw material structure, additive including mounting structure, reation kettle structure, binder and throw the material structure, the additive is thrown the material structure and is established in the binder throws the material structure, the binder is thrown the material structure and is established in the reation kettle structure, mounting structure establishes in reation kettle structure below and both fixed connection, reation kettle structure, binder are thrown the material structure and the additive and are thrown the coaxial line setting of material structure, under the stirring state, the binder is thrown the material structure and the additive and is thrown material structure syntropy, reation kettle structure pivoted direction and binder are thrown the rotation direction of material structure and additive and throw the material structure in opposite directions.

Furthermore, the additive feeding structure comprises an additive rotating pipeline, an additive feeding pipeline, an additive fixing pipeline, an additive feeding pipeline and a material conveying pump, the additive rotating pipeline is of a cylindrical pipeline structure, one end, far away from the additive fixing pipeline, of the additive rotating pipeline is of a closed structure, all the additive feeding pipelines are divided into three groups with the same number and are uniformly distributed around the axis direction of the additive rotating pipeline, the number of the additive feeding pipelines in each group is three, the additive feeding pipelines in each group are distributed at equal intervals along the axis of the additive rotating pipeline, the feeding port of the rotary additive pipeline is provided with a small round pipe orifice, the fixed additive pipeline is sleeved outside the small round pipe orifice, the additive feeding pipeline is of a square pipe structure and is arranged on the upper portion of one end, away from the additive rotating pipeline, of the additive fixing pipeline, and the material conveying pump is arranged on the upper portion of the additive feeding pipeline.

Furthermore, the binder feeding structure comprises a binder rotary pipeline, a binder feeding pipeline, a binder fixing pipeline, a driven gear, a binder feeding pipeline, an air pump, a driving gear and a first motor, wherein the additive rotary pipeline is of a cylindrical pipeline structure, one end of the additive rotary pipeline, which is far away from the binder fixing pipeline, is of a closed structure, the binder feeding pipeline is arranged on the outer side of the binder rotary pipeline and corresponds to the additive feeding pipeline one by one, the binder feeding pipeline is sleeved outside the additive feeding pipeline, the size of the binder feeding pipeline is twice that of the additive feeding pipeline, the driven gear is arranged on the outer side of the feeding port of the binder rotary pipeline, the inner wall of the feeding end of the binder rotary pipeline is connected with the outer wall of the feeding end of the additive rotary pipeline through three connecting rods, the binder fixing pipeline is sleeved in the feeding port of the binder rotary pipeline, the air pump is established in the one end that the rotatory pipeline of binder was kept away from to the fixed pipeline of binder, the binder charge-in pipeline is the tubular shape and establishes on the upper portion that the rotatory pipeline end of binder was kept away from to the fixed pipeline of binder, the driving gear is established in driven gear's left side, driving gear and driven gear meshing, driving gear and driven gear are equipped with a rectangle box outward, first motor is installed on the rectangle box and is kept away from on the lateral wall of driving gear one section, the output shaft of first motor is connected with the driving gear.

Further, the reation kettle structure includes reacting chamber, driven shaft, follows driving wheel, belt, action wheel, second motor, rectangular plate and discharge gate, the reacting chamber is cylindrical barreled structure and throws the material structure with the binder and is coaxial, the one end centre of a circle department in the reacting chamber outside is established to the driven shaft, establish the reacting chamber end of keeping away from at the driven shaft from the driving wheel, the one end of belt cover is established on following driving wheel and other pot head establish on the action wheel, and the output shaft of second motor is connected to the action wheel, the output shaft of driven shaft and second motor all runs through the rectangular plate and uses the rectangular plate as the support, the one end that is close to the reacting chamber on the rectangular plate is fixed to the second motor, the binder is thrown the material structure and is run through the one end of keeping away from the second motor of reacting chamber, the lateral wall that the downside and.

Further, supporting structure includes landing leg, bottom plate, crosspiece and strengthening rib, landing leg quantity is four, four the landing leg is rectangle distribution and perpendicular to ground, the bottom plate is two and establishes respectively in the below of rectangle box and rectangular plate, four the landing leg be connected with the below of bottom plate respectively, crosspiece quantity is four, the crosspiece level is established between two adjacent landing legs and with landing leg looks fixed connection, the strengthening rib is established between the bottom plate of air pump end and the contained angle of landing leg and is interconnected fixedly.

Compared with the prior art, the beneficial effects of the utility model reside in that:

firstly, the device is improved in the aspect of the feeding of the adhesive, and compared with other feeding from a feeding port, the adhesive can be more uniformly distributed in a reaction chamber with an additive, so that the reaction is more balanced, the product proportion is more coordinated, and the equipment can run more smoothly.

Secondly, the additive feeding port of the device is designed in the binder feeding port and is enlarged to some extent, so that the additive is more easily thrown out by centrifugal force in the reaction process, and the phenomenon of blocking the feeding port is avoided.

Thirdly, the binder can be directly added through the fixed binder feed inlet in the operation process by the device, and other devices can be added only by stopping the whole device, so that the binder in the reaction chamber can be rapidly solidified or stick internal parts due to short stop, and the whole production is influenced.

Fourthly, because the feeding structure of the device rotates clockwise and the reaction chamber rotates anticlockwise, and the feeding port is in a fan-blade type layout, two rotating forces play a role in hedging in the production process, so that the reaction of the binder and the additive in the reaction chamber is more sufficient, and the inner wall of the reaction chamber is not easy to bond.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a three-dimensional exploded view of the reaction kettle structure, the binder feeding structure and the additive feeding structure of the present invention;

fig. 3 is a top view of the present invention;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 3;

fig. 5 is a schematic perspective view of the binder feeding structure and the additive feeding structure of the present invention;

fig. 6 is a partially exploded view of the present invention.

Reference numerals: the device comprises a support structure 1, a reaction kettle structure 2, a binder feeding structure 3, an additive feeding structure 4, an additive rotating pipeline 5, an additive feeding pipeline 6, an additive fixing pipeline 7, an additive feeding pipeline 8, a material conveying pump 9, a small round pipe opening 10, a binder rotating pipeline 11, a binder feeding pipeline 12, a binder fixing pipeline 13, a driven gear 14, a binder feeding pipeline 15, an air pump 16, a driving gear 17, a first motor 18, a rectangular box body 19, a connecting rod 20, a reaction chamber 21, a driven shaft 22, a driven wheel 23, a belt 24, a driving wheel 25, a second motor 26, a rectangular plate 27, supporting legs 28, a bottom plate 29, a crosspiece 30, a reinforcing rib 31 and a discharge hole 32.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention.

The components of the embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

It is shown below with combining fig. 1 to fig. 6, the embodiment of the utility model provides a horizontal agitated vessel for binder production, throw material structure 3 and additive including supporting structure 1, reation kettle structure 2, binder and throw material structure 4, the additive is thrown material structure 4 and is established the binder is thrown in the material structure 3, the binder is thrown material structure 3 and is established in reation kettle structure 2, supporting structure 1 is established in reation kettle structure 2 below and both fixed connection.

The additive feeding structure comprises an additive rotating pipeline 5, an additive feeding pipeline 6, an additive fixing pipeline 7, an additive feeding pipeline 8 and a material conveying pump 9, wherein the additive rotating pipeline 5 is of a cylindrical pipeline structure, the additive feeding pipeline 6 is of a square pipe structure and is 9 in number, the feeding ports are not easy to block, the additive feeding pipelines 6 are all arranged on the outer side of the additive rotating pipeline 5, all the additive feeding pipelines 6 are divided into three groups with the same number and are uniformly distributed around the axis direction of the additive rotating pipeline 5, the number of the additive feeding pipelines 6 in each group is three, the additive feeding pipelines are distributed at equal intervals along the axis of the additive rotating pipeline 5, a small circular pipe orifice 10 is arranged at the feeding port along the additive rotating pipeline 5, the additive fixing pipeline 7 is sleeved outside the small circular pipe orifice 10, under operating condition, small-size round pipe mouth 10 follows additive rotary pipeline 5 and rotates together, but additive fixed pipeline 7 is motionless, additive charge-in pipeline 8 is square tubular construction and establishes the upper portion of keeping away from additive rotary pipeline 5 one end at additive fixed pipeline 7, defeated material pump 9 is established on the upper portion of additive charge-in pipeline 8, can send the additive into additive rotary pipeline 5 under operating condition.

The adhesive feeding structure comprises an adhesive rotating pipeline 11, an adhesive feeding pipeline 12, an adhesive fixing pipeline 13, a driven gear 14, an adhesive feeding pipeline 15, an air pump 16, a driving gear 17 and a first motor 18, wherein the additive rotating pipeline 5 is of a cylindrical pipeline structure, the adhesive feeding pipeline 12 is arranged on the outer side of the adhesive rotating pipeline 11 and corresponds to the additive feeding pipeline 6 one by one, the adhesive feeding pipeline 12 is sleeved outside the additive feeding pipeline 6, the size of the adhesive feeding pipeline 12 is twice that of the additive feeding pipeline 6, because the adhesive feeding pipeline 12 and the additive feeding pipeline 12 are of square structures, the adhesive feeding pipeline and the additive feeding pipeline are more fit in the process, the adhesive feeding pipeline and the additive feeding pipeline are not easy to shake in the working process, so that the adhesive and the additive can be more uniformly distributed and can be fed out at the same position, the driven gear 14 is arranged on the outer side of the feeding port, the inner wall of the feeding end of the binder rotating pipeline 11 is connected with the outer wall of the feeding end of the additive rotating pipeline 5 through three connecting rods 20, the binder fixing pipeline 13 is sleeved in the feeding port of the binder rotating pipeline 11, the air pump 16 is arranged at one end, far away from the binder rotating pipeline 11, of the binder fixing pipeline 13, the binder feeding pipeline 15 is in a circular tube shape and is arranged at the upper part, far away from the binder rotating pipeline 11, of the binder fixing pipeline 13, the driving gear 17 is arranged on the left side of the driven gear 14, the driving gear 17 is meshed with the driven gear 14, a rectangular box 19 is arranged outside the driving gear 17 and the driven gear 14, the first motor 18 is arranged on the outer side wall, far away from one section of the driving gear 17, of the rectangular box 19, the output shaft of the first motor 18 is connected with the driving gear 17, the air pump 16 starts to send the adhesive into the adhesive rotary pipeline 11, the first motor 18 is started, the driven gear 14 can be driven by the driving gear 17, the driven gear 14 drives the adhesive rotary pipeline 11 and the additive rotary pipeline 5 to rotate clockwise, the adhesive feeding structure 3 and the additive feeding structure 4 move coaxially and are not communicated with each other, so that the adhesive can be correspondingly fed in sections while the additive is fed in sections, the adhesive and the additive can be mixed and reacted uniformly in time, the unilateral accumulation is not easy, the outlets of the additive and the adhesive are not easy to block, and the adhesive feeding structure 3 and the additive feeding structure 4 are both provided with a fixed structure and a rotary structure, so that the adhesive can be fed into the feeding pipeline directly during working.

The reaction kettle structure 2 comprises a reaction chamber 21, a driven shaft 22, a driven wheel 23, a belt 24, a driving wheel 25, a second motor 26, a rectangular plate 27 and a discharge port 32, wherein the reaction chamber 21 is of a cylindrical barreled structure and is coaxial with the binder feeding structure 3, the driven shaft 22 is arranged at the center of a circle at one end outside the reaction chamber 21, the driven wheel 23 is arranged at the end of the driven shaft 22 far away from the reaction chamber 21, one end of a belt 24 sleeve is arranged on the driven wheel 23, the other end of the belt 24 sleeve is sleeved on the driving wheel 25, the driving wheel 25 is connected with an output shaft of the second motor 26, the output shafts of the driven shaft 22 and the second motor 26 penetrate through the rectangular plate 27 and are supported by the rectangular plate 27, the second motor 26 is fixed at one end of the rectangular plate 27 close to the reaction chamber 21, the binder feeding structure penetrates through one end of the reaction chamber 21 far away from the second motor 26, the discharge port 32 is arranged, the whole second motor 26 can drive the reaction chamber 21 to rotate anticlockwise when being started, so that the inner wall of the reaction chamber 21 can be in opposite impact with the binder in the feeding process by rotating in the opposite direction of the binder feeding structure, and the sufficiency of the whole reaction can be increased, so that the binder is not easy to adhere to the inner wall of the reaction chamber 21.

Support structure 1 includes landing leg 28, bottom plate 29, crosspiece 30, strengthening rib 31, landing leg 28 quantity is four, four landing leg 28 is rectangle distribution and perpendicular to ground, bottom plate 29 is two and establishes respectively in the below of rectangle box 19 and rectangular plate 27, four landing leg 28 be connected with bottom plate 29's below respectively, crosspiece 30 quantity is four, crosspiece 30 level is established between two adjacent landing leg 28 and with landing leg 28 looks fixed connection, strengthening rib 31 is established between the bottom plate 29 of 16 ends of air pump and landing leg 28's contained angle and interconnect fixedly, and such structure makes whole support structure 1 more firm, is difficult to rock in process of production.

The working principle is as follows: when the equipment is started to work, the reaction chamber 21 rotates anticlockwise, the adhesive rotating pipeline 11 rotates clockwise, then the adhesive is input from the adhesive feeding pipeline 15, the additive is input from the additive feeding pipeline 8, the input proportion of the additive and the adhesive can be advanced, the adhesive and the additive are conveyed to one end far away from the material inlet through the air pump 16 and the material conveying pump 9 along the respective pipelines, then the adhesive and the additive are uniformly input into the reaction chamber 21 through the respective rectangular material inlet by utilizing centrifugal force to be mixed, the adhesive feeding pipeline 12 can also serve as a stirring fan blade to more fully stir the substances in the whole reaction chamber 21, if necessary, the adhesive or the additive is continuously added midway, the adhesive or the additive can be directly added from the material inlet until the stirring reaction is finished, and then the adhesive or the additive is discharged from the material outlet 32.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (5)

1. The utility model provides a stirring equipment is used in production of horizontal binder which characterized in that: throw material structure (3) and additive including mounting structure (1), reation kettle structure (2), binder and throw material structure (4), the additive is thrown material structure (4) and is established in binder is thrown material structure (3), the binder is thrown material structure (3) and is established in reation kettle structure (2), mounting structure (1) is established in reation kettle structure (2) below and both fixed connection, reation kettle structure (2), binder are thrown material structure (3) and additive and are thrown material structure (4) coaxial line setting, under the stirring state, the binder is thrown material structure (3) and additive and is thrown material structure (4) syntropy, reation kettle structure (2) pivoted direction and binder are thrown the rotation direction that material structure (3) and additive throw material structure (4) and are in opposite directions.

2. The stirring apparatus for horizontal binder production according to claim 1, wherein: additive feeding structure (4) comprises an additive rotating pipeline (5), an additive feeding pipeline (6), an additive fixing pipeline (7), an additive feeding pipeline (8) and a material conveying pump (9), wherein the additive rotating pipeline (5) is of a cylindrical pipeline structure and one end of the additive fixing pipeline (7) is far away from is of a closed structure, all the additive feeding pipeline (6) is divided into three groups with the same quantity and evenly distributed along the axis direction of the additive rotating pipeline (5), the quantity of each group of additive feeding pipelines (6) is three and evenly distributed along the axis of the additive rotating pipeline (5), a small circular pipe orifice (10) is reduced along the feeding port of the additive rotating pipeline (5), the additive fixing pipeline (7) is sleeved outside the small circular pipe orifice (10), the additive feeding pipeline (8) is of a square pipe structure and is arranged on the additive fixing pipeline (7) and far away from the additive rotating pipeline (7) The upper part of one end of the pipeline (5) is provided with a material conveying pump (9) which is arranged at the upper part of the additive feeding pipeline (8).

3. The stirring apparatus for horizontal binder production according to claim 2, wherein: the adhesive feeding structure (3) comprises an adhesive rotary pipeline (11), an adhesive feeding pipeline (12), an adhesive fixing pipeline (13), a driven gear (14), an adhesive feeding pipeline (15), an air pump (16), a driving gear (17) and a first motor (18), the additive rotary pipeline (5) is of a cylindrical pipeline structure, one end, far away from the adhesive fixing pipeline (13), of the additive rotary pipeline is of a closed structure, the adhesive feeding pipeline (12) is arranged on the outer side of the adhesive rotary pipeline (11) and corresponds to the additive feeding pipeline (6) one by one, the adhesive feeding pipeline (12) is sleeved outside the additive feeding pipeline (6), the size of the adhesive feeding pipeline (12) is twice that of the additive feeding pipeline (6), the driven gear (14) is arranged on the outer side of the feeding port of the adhesive rotary pipeline (11), the inner wall of the end fed by the binder rotary pipeline (11) is connected with the outer wall of the end fed by the additive rotary pipeline (5) through three connecting rods (20), the binder fixing pipeline (13) is sleeved in the feed port of the binder rotary pipeline (11), the air pump (16) is arranged at one end of the binder fixing pipeline (13) far away from the binder rotary pipeline (11), the binder feed pipeline (15) is in a round tube shape and is arranged at the upper part of the binder fixing pipeline (13) far away from the end of the binder rotary pipeline (11), the driving gear (17) is arranged on the left side of the driven gear (14), the driving gear (17) is meshed with the driven gear (14), a rectangular box body (19) is arranged outside the driving gear (17) and the driven gear (14), and the first motor (18) is arranged on the outer side wall of the rectangular box body (19) far away from one section of the driving gear (17), the output shaft of the first motor (18) is connected with the driving gear (17).

4. The stirring apparatus for horizontal binder production according to claim 3, wherein: the reaction kettle structure (2) comprises a reaction chamber (21), a driven shaft (22), a driven wheel (23), a belt (24), a driving wheel (25), a second motor (26), a rectangular plate (27) and a discharge hole (32), wherein the reaction chamber (21) is of a cylindrical barrel-shaped structure and is coaxial with the binder feeding structure (3), the driven shaft (22) is arranged at the center of a circle at one end of the outer side of the reaction chamber (21), the driven wheel (23) is arranged at the end of the driven shaft (22) far away from the reaction chamber (21), one end of a belt (24) sleeve is arranged on the driven wheel (23), the other end of the belt sleeve is sleeved on the driving wheel (25), the driving wheel (25) is connected with an output shaft of the second motor (26), the output shafts of the driven shaft (22) and the second motor (26) penetrate through the rectangular plate (27) and are supported by the rectangular plate (27), and the second motor (26) is fixed at one end of the rectangular plate (27) close to the reaction, the adhesive feeding structure (3) penetrates through one end, far away from the second motor (26), of the reaction chamber (21), and the discharge port (32) is arranged on the lower side of the reaction chamber (21) and penetrates through the side wall of the reaction chamber (21).

5. The stirring apparatus for horizontal binder production according to claim 4, wherein: support structure (1) includes landing leg (28), bottom plate (29), crosspiece (30) and strengthening rib (31), landing leg (28) quantity is four, four landing leg (28) are rectangle distribution and perpendicular to ground, bottom plate (29) are two and establish respectively in the below of rectangle box (19) and rectangular plate (27), four landing leg (28) be connected with the below of bottom plate (29) respectively, crosspiece (30) quantity is four, crosspiece (30) level is established between two adjacent landing leg (28) and with landing leg (28) looks fixed connection, it is fixed just to interconnect between the contained angle of bottom plate (29) of air pump (16) end and landing leg (28) that strengthening rib (31) were established.

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