CN211051296U - Mechanical stirrer for mixed pool water treatment - Google Patents

Abstract

The utility model discloses a mechanical stirrer for water treatment of a mixing tank, which comprises a mixing tank, wherein a rotating motor is fixedly arranged at the bottom end of the mixing tank, the rotating motor is connected with a rotating mechanism positioned in the mixing tank in a transmission way, and a V-shaped stirring impeller is arranged on the rotating mechanism; the tail end of the V-shaped stirring impeller is fixedly provided with a first pressing ball which is movably contacted with the transverse reciprocating mechanism; the topmost end of the V-shaped stirring impeller is fixedly provided with a connecting rod, the connecting rod fixedly penetrates through a bearing disc positioned at the top end of the mixing tank, and the top end of the connecting rod is fixedly connected with a cam material sucking mechanism; the cam material sucking mechanism comprises a piston cylinder, one end of the piston cylinder is communicated with a material sucking pipe, the outer side wall of the piston cylinder is communicated with a material feeding pipe, a one-way valve is arranged in the material feeding pipe, and the tail end of the one-way valve extends to the inner cavity of the mixing tank; the utility model discloses the operation effect of material stirring and material absorption integrative work has been formed, has optimized working structure, has promoted the stirring effect of material in the hybrid pool, and need not to wait for the material to fill, has saved the activity duration.

Description

Mechanical stirrer for mixed pool water treatment

Technical Field

The utility model relates to a mixed pond field of handling especially relates to a mixed pond is mechanical mixer for water treatment.

Background

The mixing tank is used for mixing chemical purifiers such as polyaluminium chloride and the like with sewage, and then performing electrochemistry, coagulation, adsorption, precipitation and the like on the sewage to achieve the purpose of purification. Before the medicament is used, the medicament needs to be diluted and put into a water treatment system. Diluting device is mostly dissolving the feed cylinder, through dissolving the stirring effect back in the feed cylinder, realizes the intensive mixing of medicament.

When the existing mixing pool is used for mixing, mechanical stirring equipment is required to be used for stirring the existing mixing pool so as to realize full mixing of materials; however, in the prior art, when stirring, the materials need to be filled first, and the stirring can be carried out only after the materials are filled; or blanking and stirring; however, in this case, a plurality of driving elements are required to drive the driving device, and the plurality of driving elements cause the problems of a large number of driving devices, a large occupied space and high use cost.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a mechanical stirrer for mixed pool water treatment, which can solve the technical defects existing in the background technology.

In order to solve the technical problem, the utility model provides a following technical scheme: a mechanical stirrer for water treatment in a mixing pool comprises the mixing pool, wherein a rotating motor is fixedly arranged at the bottom end of the mixing pool through a support, the rotating motor is in transmission connection with a rotating mechanism positioned in the mixing pool, and a plurality of V-shaped stirring impellers distributed at equal intervals are arranged on the rotating mechanism; the tail end of the V-shaped stirring impeller is fixedly provided with a first pressing ball which is movably contacted with the transverse reciprocating mechanism; the topmost end of the V-shaped stirring impeller is fixedly provided with a connecting rod, the connecting rod fixedly penetrates through a bearing disc positioned at the top end of the mixing tank, and the top end of the connecting rod is fixedly connected with a cam material sucking mechanism; the cam material sucking mechanism comprises a piston cylinder, one end of the piston cylinder is communicated with a material sucking pipe, the outer side wall of the piston cylinder is communicated with a material feeding pipe, a one-way valve is arranged in the material feeding pipe, and the tail end of the one-way valve extends to the inner cavity of the mixing tank.

Preferably, slewing mechanism includes that the bearing wears to locate the axis of rotation of mixing the pond inner chamber, the symmetrical V type impeller of axis of rotation both sides fixed connection, just fixed connection is controlled and is equipped with a plurality ofly to V type impeller.

Preferably, the transverse reciprocating mechanism reports a sleeve fixedly embedded in the inner wall of the mixing pool, a telescopic rod is connected in the sleeve in a sliding manner, and an inner cavity of the sleeve is fixedly connected with the telescopic rod through a return spring; a second pressing ball is fixedly arranged at the tail end of the telescopic rod and is movably contacted with the first pressing ball; the top surface of the tail end of the telescopic rod is fixedly provided with an installation plate, and the top surface of the installation plate is fixedly connected with the hourglass cavity; the through groove of the hourglass cavity is consistent with the telescopic direction of the telescopic rod, and the height of the bottom surface of the hourglass cavity is larger than that of the top surface of the V-shaped stirring impeller.

Preferably, the cam material suction mechanism comprises a bearing inner ring which is rotatably connected with a bearing disc, the top surface of the bearing inner ring is fixedly connected with a turntable through a connecting rod, a cam rotating rod is arranged on one side of the top surface of the turntable, the top end of the cam rotating rod is hinged with a rotating pin disc, the rotating pin disc is fixedly connected with a transverse swing rod, the swing rod is hinged with a connecting seat at the tail end of the swing rod, the connecting seat is fixedly arranged at one end of a piston rod, and the other end of the piston rod is slidably arranged in.

Preferably, the first pressing ball and the second pressing ball are both of a hemispherical structure, and the axes of the first pressing ball and the second pressing ball are superposed and are in mirror symmetry at the tangent position.

Preferably, the feeding pipe is a hard pipe, and the piston cylinder is suspended above the V-shaped stirring impeller in the inclined direction through the hard feeding pipe.

Compared with the prior art, the utility model discloses the beneficial effect that can reach is: the utility model forms the operation effect of the integrated operation of material stirring and material adsorption by the design mode of the transmission of the cam material absorbing mechanism and the transverse reciprocating mechanism through the rotating structure, and optimizes the working structure; the stirring effect of materials in the mixing tank is improved through the integrated design of the V-shaped stirring impeller and the hourglass cavity; when mixing the pond and not loading, convert the rotation stirring of axis of rotation into the absorption to the material, need not to wait for the material to fill up, saved the activity duration, be fit for using widely in the field of mixing the pond stirring.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the installation structure of the cam material suction mechanism and the mixing tank of the present invention;

fig. 3 is a schematic structural view of the transverse reciprocating mechanism of the present invention;

wherein: 1. a mixing tank; 2. a rotating mechanism; 3. a cam material suction mechanism; 5. a transverse reciprocating mechanism; 11. a support; 21. rotating the motor; 22. a rotating shaft; 23. a V-shaped stirring impeller; 31. a connecting rod; 32. a bearing disk; 33. a bearing inner race; 34. a turntable; 35. a cam rotating rod; 36. rotating the pin disc; 37. a swing rod; 38. a connecting seat; 39. a piston rod; 40. a piston cylinder; 41. a material suction pipe; 42. a feeding pipe; 43. a one-way valve; 51. a first compression ball; 52. a telescopic rod; 53. a sleeve; 54. a second compression ball; 55. a return spring; 56. mounting a plate; 57. hourglass cavity.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the functions of the invention easy to understand, the invention is further explained below with reference to the specific embodiments, but the following embodiments are only the preferred embodiments of the invention, not all. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative work belong to the protection scope of the present invention. The experimental methods in the following examples are conventional methods unless otherwise specified, and materials, reagents and the like used in the following examples are commercially available unless otherwise specified.

Embodiment 1, please refer to fig. 1-3, the utility model provides a mechanical agitator for mixed pool water treatment, which comprises a mixed pool 1, wherein a rotating motor 21 is fixedly arranged at the bottom end of the mixed pool 1 through a bracket 11, the rotating motor 21 is in transmission connection with a rotating mechanism 2 positioned in the mixed pool 1, and a plurality of V-shaped agitating impellers 23 are arranged on the rotating mechanism 2 and are distributed at equal intervals up and down; the tail end of the V-shaped stirring impeller 23 is fixedly provided with a first pressing ball 51, and the first pressing ball 51 is movably contacted with the transverse reciprocating mechanism 5; the topmost end of the V-shaped stirring impeller 23 is fixedly provided with a connecting rod 31, and the connecting rod 31 fixedly penetrates through a bearing disc 32 positioned at the top end of the mixing tank 1 and is fixedly connected with the cam material sucking mechanism 3 at the top end; the cam material sucking mechanism 3 comprises a piston cylinder 40, one end of the piston cylinder 40 is communicated with a material sucking pipe 41, the outer side wall of the piston cylinder is communicated with a material feeding pipe 42, a one-way valve 43 is arranged in the material feeding pipe 42, and the tail end of the one-way valve extends to the inner cavity of the mixing pool 1.

The rotating mechanism 2 comprises a rotating shaft 22 with a bearing penetrating through the inner cavity of the mixing pool 1, symmetrical V-shaped stirring impellers 23 are fixedly connected to two sides of the rotating shaft 22, and a plurality of V-shaped stirring impellers 23 are fixedly connected to the left and the right; under the action of the rotating shaft 22, the plurality of V-shaped stirring impellers 23 fixedly connected with each other enable the material in the mixing tank 1 to have stirring force in the vertical direction and the rotating direction during stirring, so that the stirring effect is enhanced.

The transverse reciprocating mechanism 5 reports a sleeve 53 fixedly embedded in the inner wall of the mixing pool 1, a telescopic rod 52 is connected in the sleeve 53 in a sliding manner, and the inner cavity of the sleeve 53 is fixedly connected with the telescopic rod 52 through a return spring 55; the tail end of the telescopic rod 52 is fixedly provided with a second pressing ball 54, and the second pressing ball 54 is movably contacted with the first pressing ball 51; the top surface of the tail end of the telescopic rod 52 is fixedly provided with a mounting plate 56, and the top surface of the mounting plate 56 is fixedly connected with an hourglass cavity 57; the through grooves of the hourglass cavity 57 are consistent with the telescopic direction of the telescopic rod 52, and the height of the bottom surface of the hourglass cavity 57 is greater than that of the top surface of the V-shaped stirring impeller 23; the transverse reciprocating mechanism 5 drives the hourglass cavity 57 on the transverse reciprocating mechanism to reciprocate left and right through the telescopic action of the telescopic rod 52, so that the hourglass-shaped through groove in the hourglass cavity 57 can mix the damping effect on the materials, and the material stirring effect is further enhanced.

The cam material sucking mechanism 3 comprises a bearing inner ring 33 which is rotationally connected with a bearing disc 32, the top surface of the bearing inner ring 33 is fixedly connected with a rotary disc 34 through a connecting rod 31, one side of the top surface of the rotary disc 34 is provided with a cam rotating rod 35, the top end of the cam rotating rod 35 is hinged with a rotating pin disc 36, the rotating pin disc 36 is fixedly connected with a transverse swing rod 37, the tail end of the swing rod 37 is hinged with a connecting seat 38, the connecting seat 38 is fixedly arranged at one end of a piston rod 39, and the other end of the piston rod; the rotating shaft 22 can absorb the external materials when stirring through the cam material absorbing mechanism 3, and the design mode of integral connection ensures that the stirring device can be directly started to absorb the materials without waiting for the materials in the mixing tank 1 to be full,

the first pressing ball 51 and the second pressing ball 54 are both of a hemispherical structure, and the axes of the first pressing ball 51 and the second pressing ball 54 are superposed and are in mirror symmetry at the tangent position; the first pressing ball 51 and the second pressing ball 54 are used for driving the telescopic rod 52, and when the first pressing ball 51 is far away from the second pressing ball 54, the second pressing ball 54 is reset under the action of the reset spring 55; through the rotation of the rotating shaft 22, the reciprocating driving of the hourglass cavity 57 is formed.

The feeding pipe 42 is a hard pipe, and the piston cylinder 40 is suspended above the V-shaped stirring impeller 23 in the inclined direction through the hard feeding pipe 42; the hard material inlet pipe 42 is used for suspending the hourglass cavity 57, so that the collision between the V-shaped stirring impeller 23 and the hourglass cavity 57 is avoided.

The specific principle is as follows: when the utility model is used, the driving motor is started, the driving motor drives the rotating shaft 22 to rotate, and the rotating shaft 22 drives the plurality of V-shaped stirring impellers 23 on the rotating shaft to stir the mixed materials; the vertical driving and the annular driving of the materials are formed through the design of a V-shaped structure, so that the stirring effect is improved; when the first pressing ball 51 at the tail end of the V-shaped stirring impeller 23 rotates to be in contact with the second pressing ball 54, the first pressing ball 51 drives the second pressing ball 54 to move outwards, so that the telescopic rod 52 is driven to move towards the inside of the sleeve 53, and the hourglass cavity 57 on the telescopic rod is driven to move outwards, at the moment, edge materials in a mixing and stirring state are driven by the through groove with the damping effect in the hourglass cavity 57, and the mixing effect of the materials is further enhanced; further, the V-shaped stirring impeller 23 at the topmost end drives the bearing inner ring 33 to rotate through the connecting rod 31, the bearing inner ring 33 drives the rotary table 34 to rotate through the connecting rod 31 at the topmost end, the rotary table 34 drives the rotary pin disc 36 hinged with the rotary table to rotate, the rotary table is further displaced through the swing rod 37 and the hinged connecting seat 38, the connecting seat 38 drives the piston rod 39 in the transverse direction, external materials are adsorbed to enter the piston cylinder 40 through the piston adsorption effect of the piston rod 39 and the piston cylinder 40, and then the external materials enter the mixing tank 1 through the one-way valve 43 in the feeding pipe 42.

The utility model forms the operation effect of the integrated operation of material stirring and material adsorption by the design mode of the transmission of the cam material absorbing mechanism and the transverse reciprocating mechanism through the rotating structure, and optimizes the working structure; the stirring effect of the materials in the mixing tank is improved through the integrated design of the V-shaped stirring impeller 23 and the hourglass cavity; when mixing the pond and not loading, convert the rotation stirring of axis of rotation into the absorption to the material, need not to wait for the material to fill up, saved the activity duration, be fit for using widely in the field of mixing the pond stirring.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the description in the above embodiments and the description is only preferred examples of the present invention, and is not intended to limit the present invention, and that the present invention can have various changes and modifications without departing from the spirit and scope of the present invention, and these changes and modifications all fall into the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a mechanical mixer is used in mixed pond water treatment, includes mixed pond (1), its characterized in that: the bottom end of the mixing tank (1) is fixedly provided with a rotating motor (21) through a support (11), the rotating motor (21) is in transmission connection with a rotating mechanism (2) positioned in the mixing tank (1), and the rotating mechanism (2) is provided with a plurality of V-shaped stirring impellers (23) which are distributed at equal intervals from top to bottom; a first pressing ball (51) is fixedly arranged at the tail end of the V-shaped stirring impeller (23), and the first pressing ball (51) is movably contacted with the transverse reciprocating mechanism (5); a connecting rod (31) is fixedly arranged at the topmost end of the V-shaped stirring impeller (23), and the connecting rod (31) fixedly penetrates through a bearing disc (32) positioned at the topmost end of the mixing tank (1) and is fixedly connected with a cam material suction mechanism (3); the cam material sucking mechanism (3) comprises a piston cylinder (40), one end of the piston cylinder (40) is communicated with a material sucking pipe (41), the outer side wall of the piston cylinder is communicated with a material feeding pipe (42), a one-way valve (43) is arranged in the material feeding pipe (42), and the tail end of the cam material sucking mechanism extends to the inner cavity of the mixing tank (1).

2. A mixer-tank water treatment machine agitator as claimed in claim 1, wherein: slewing mechanism (2) are worn to locate rotation axis (22) of mixing pond (1) inner chamber including the bearing, rotation axis (22) both sides fixed connection symmetrical V type impeller (23), just fixed connection is controlled and is equipped with a plurality ofly about V type impeller (23).

3. A mixer-tank water treatment machine agitator as claimed in claim 1, wherein: the transverse reciprocating mechanism (5) is fixedly embedded in a sleeve (53) on the inner wall of the mixing pool (1) in a reporting mode, a telescopic rod (52) is connected in the sleeve (53) in a sliding mode, and the inner cavity of the sleeve (53) is fixedly connected with the telescopic rod (52) through a return spring (55); a second pressing ball (54) is fixedly arranged at the tail end of the telescopic rod (52), and the second pressing ball (54) is movably contacted with the first pressing ball (51); the top surface of the tail end of the telescopic rod (52) is fixedly provided with a mounting plate (56), and the top surface of the mounting plate (56) is fixedly connected with an hourglass cavity (57); the through groove of the hourglass cavity (57) is consistent with the telescopic direction of the telescopic rod (52), and the height of the bottom surface of the hourglass cavity (57) is larger than that of the top surface of the V-shaped stirring impeller (23).

4. A mixer-tank water treatment machine agitator as claimed in claim 1, wherein: the cam material suction mechanism (3) comprises a bearing inner ring (33) rotatably connected with a bearing disc (32), the top surface of the bearing inner ring (33) passes through a connecting rod (31) and is fixedly connected with a turntable (34), one side of the top surface of the turntable (34) is provided with a cam rotating rod (35), the top end of the cam rotating rod (35) is hinged with a rotating pin disc (36), the rotating pin disc (36) is fixedly connected with a transverse oscillating rod (37), the oscillating rod (37) is hinged with a connecting seat (38) at the tail end, the connecting seat (38) is fixedly arranged at one end of a piston rod (39), and the other end of the piston rod (39) is slidably arranged in an inner cavity of a piston cylinder.

5. A mixer-tank water treatment machine agitator as claimed in claim 1, wherein: the first pressing ball (51) and the second pressing ball (54) are both of a hemispherical structure, and the axes of the first pressing ball (51) and the second pressing ball (54) are superposed and are in mirror symmetry at the tangent position.

6. A mixer-tank water treatment machine agitator as claimed in claim 1, wherein: the feeding pipe (42) is a hard pipe, and the piston cylinder (40) is suspended above the V-shaped stirring impeller (23) obliquely through the hard feeding pipe (42).

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