CN114984794A - Emergent double helix solid-liquid mixture of sewage dissolves mechanism fast - Google Patents

Abstract

The invention discloses a sewage emergency double-helix solid-liquid mixing fast dissolving mechanism, wherein two stirring shafts which are large and small and rotate independently are transversely arranged in a stirring tank, an output shaft of a driving motor is in transmission connection with first transmission gears of a main stirring shaft and an auxiliary stirring shaft through transmission chains, when the stirring mechanism is used, the stirring shafts with different diameters are adopted, the rotation directions of the stirring shafts are in tangential rotation, and a medicine solvent stirred by the main stirring shaft with the large diameter can collide with a medicine solvent stirred by the auxiliary stirring shaft when the auxiliary stirring shaft rotates, so that the medicine solvents in the stirring tank can be fully mixed, and the effect of water pollution emergency treatment is improved.

Description

Emergent double helix solid-liquid mixture of sewage dissolves mechanism fast

Technical Field

The invention relates to the field of emergency sewage treatment devices, in particular to an emergency double-helix solid-liquid mixing and rapid dissolving mechanism for sewage.

Background

At present when dealing with water pollution sudden environment accident, need use the emergency treatment device to mix the water pollution treatment medicament and dissolve the medicine and handle then put in, because of the processing medicament that will use to different pollutants is also different, so mix the stirring and put in again between a plurality of kinds of medicament in the leading step of putting in the medicament to reach the effect of pertinence emergency treatment.

In the existing emergency treatment device, the used mixing and stirring mechanism is of a structure with only one stirring paddle, and in the process of stirring the medicament, if solid or large-particle treatment medicaments (such as calcium oxide and aluminum sulfate) are encountered, the solid medicaments are pushed by the stirring paddles and only move along with the rotation direction of the stirring paddles in a circular manner, so that the medicaments cannot be fully mixed, and the effect of water pollution emergency treatment can be influenced.

Disclosure of Invention

In order to solve the defects in the prior art, the invention provides a sewage emergency double-helix solid-liquid mixing and rapid dissolving mechanism.

The technical scheme of the invention is as follows:

the invention provides an emergency double-helix solid-liquid mixing and rapid dissolving mechanism for sewage, which comprises: the stirring tank is of a frame box structure, a large stirring shaft and a small stirring shaft which are independently rotated are transversely arranged in the stirring tank, the stirring shafts are a main stirring shaft and an auxiliary stirring shaft which are independently rotated, the diameter of the main stirring shaft is larger than that of the auxiliary stirring shaft, the two ends of the main stirring shaft and the two ends of the auxiliary stirring shaft extend out of the stirring tank respectively and are fixed on the outer walls of the head end and the tail end of the stirring tank through bearing seats, driving motors are arranged below the stirring tank, the number of the driving motors corresponds to the main stirring shaft and the auxiliary stirring shaft, the output shafts of the driving motors which correspond to each other are in transmission connection with the main stirring shaft and the auxiliary stirring shaft through transmission parts respectively, the main stirring shaft and the auxiliary stirring shaft are driven to rotate respectively, and the rotation direction between the main stirring shaft and the auxiliary stirring shaft is tangent rotation.

Preferably, one end of the main stirring shaft and one end of the auxiliary stirring shaft extend out of the bearing seat and are respectively sleeved with a first transmission gear, a driving motor is correspondingly installed below the stirring tank, and the output shaft of each corresponding driving motor is in transmission connection with the first transmission gears of the main stirring shaft and the auxiliary stirring shaft through a transmission chain.

Preferably, a feed inlet is formed above the head end of the stirring tank, and a liquid outlet is formed below the tail end of the stirring tank.

Preferably, the main stirring shaft and the auxiliary stirring shaft are helical blade type stirring shafts.

Preferably, a discharge groove is arranged below the liquid outlet and is a frame structure which is communicated up and down, a discharge baffle is arranged in the discharge groove, the size of the discharge baffle is matched with the size of an opening at the bottom of the discharge groove, and the discharge baffle is controlled by a reciprocating motion device to control the starting and closing of the discharge baffle.

Preferably, the reciprocating device comprises auxiliary bearing seats, swing arms, an air cylinder and a fixed plate, wherein the auxiliary bearing seats are respectively and fixedly arranged on the outer walls of the two sides of the discharge baffle corresponding to the outside of the discharge groove, a connecting rod penetrates through the middles of the auxiliary bearing seats at the two sides, the connecting rod is connected with one side below the discharge baffle in the discharge groove, one end of the connecting rod extends out of one of the auxiliary bearing seats, one end of the swing arm is movably connected with the connecting rod extending out of the auxiliary bearing seat through a pin shaft, the fixed plate is arranged on the outer wall of one side face of the discharge groove, and the air cylinder is transversely and fixedly arranged on the fixed plate; and the pushing rod of the air cylinder is movably connected with the other end of the swing arm through a pin shaft.

Preferably, a scattering groove is further arranged on the feeding port, the scattering groove is of a frame structure which is through from top to bottom, a scattering paddle shaft is transversely arranged in the scattering groove, and two ends of the scattering paddle shaft respectively extend out of the scattering groove and are fixed on the outer wall of the stirring groove through a bearing seat.

Preferably, one end of the scattering paddle shaft, which is close to the feeding port, extends out of the bearing seat and is sleeved with a second transmission gear, the auxiliary stirring shaft, which is positioned below the scattering paddle shaft, is sleeved with a third transmission gear at a position corresponding to the second transmission gear of the scattering paddle shaft, the second transmission gear and the third transmission gear are in transmission connection through a transmission chain, and the driving motor drives the auxiliary stirring shaft to rotate and simultaneously synchronously drives the scattering paddle shaft to rotate.

The invention achieves the following beneficial effects: adopt the (mixing) shaft that a major diameter is different, and the direction of rotation is tangent rotation between the (mixing) shaft, can make the medicine solvent that the major stirring axle of diameter stirred up collide with the medicine solvent that stirs up when vice (mixing) shaft is rotatory, consequently can make the inside medicine solvent intensive mixing of stirred tank, and then improve water pollution emergency treatment's effect.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of the agitation tank of the present invention.

FIG. 3 is a schematic side view of the internal structure of the present invention.

FIG. 4 is a schematic side view of another embodiment of the present invention.

Fig. 5 is a schematic cross-sectional view of the overall structure of the present invention.

In the attached figure, 1, a stirring tank; 100. a feeding port; 101. a liquid outlet;

2. a bearing seat;

3. a drive motor;

4. a main stirring shaft;

5. an auxiliary stirring shaft; 50. a third transmission gear;

6. a first drive gear;

7. a discharge tank; 70. a discharge baffle; 71. a sub-bearing housing; 72. swinging arms; 73. a cylinder; 74. a fixing plate;

8. breaking up the groove; 80. breaking up the propeller shaft; 81. a second transmission gear.

Detailed Description

To facilitate an understanding of the present invention by those skilled in the art, specific embodiments thereof are described below with reference to the accompanying drawings.

As shown in FIGS. 1 to 5, the invention provides a sewage emergency double helix solid-liquid mixing rapid dissolving mechanism,

in this embodiment, the stirring device comprises a stirring tank 1 in a frame box structure, wherein a feed port 100 is formed above the head end of the stirring tank 1, and a liquid outlet 101 is formed below the tail end of the stirring tank 1;

a large stirring shaft and a small stirring shaft which rotate independently are transversely arranged in a stirring tank 1, the two stirring shafts are a main stirring shaft 4 and an auxiliary stirring shaft 5 which rotate independently, wherein the diameter of the main stirring shaft 4 is larger than that of the auxiliary stirring shaft 5, two ends of the main stirring shaft 4 and the auxiliary stirring shaft 5 respectively extend out of the stirring tank 1 and are fixed on the outer walls of the head end and the tail end of the stirring tank 1 through bearing seats 2, one ends of the main stirring shaft 4 and the auxiliary stirring shaft 5, which are close to a feeding port 100, extend out of the bearing seats 2 and are respectively sleeved with a first transmission gear 6, a driving motor 3 is arranged at one end, corresponding to the feeding port, below the stirring tank 1, the number of the driving motors 3 is one-to-one corresponding to the main stirring shaft 4 and the auxiliary stirring shaft 5, and output shafts of the driving motors 3, which correspond to each other, are in transmission connection with the first transmission gears 6 of the main stirring shaft 4 and the auxiliary stirring shaft 5 through transmission chains (not shown in the figure), the main stirring shaft 4 and the auxiliary stirring shaft 5 are driven to respectively rotate, and the rotation direction between the main stirring shaft 4 and the auxiliary stirring shaft 5 is tangential rotation;

during stirring, firstly filling a water body into the stirring tank 1, then throwing a plurality of treatment agents needing solid-liquid mixing from the feeding port 100, wherein the main stirring shaft 4 and the auxiliary stirring shaft 5 rotate respectively in the stirring tank 1 in a tangential rotation direction, the medicine solvents stirred up when the main stirring shaft 4 and the auxiliary stirring shaft 5 rotate collide with each other to mix the medicine solvents in the stirring tank 1,

because if the diameters of the two stirring shafts are consistent, the medicine solvent can generate a laminar flow phenomenon, so that the medicine solution only rotates around the outer part of the stirring shaft blade and moves along the circumferential direction of the rotation direction of the stirring shaft blade, and various medicines can not be fully mixed with each other,

according to the technical scheme, the stirring shafts with different diameters are adopted, the rotation directions of the stirring shafts are in tangential rotation, the medicine solvent stirred by the main stirring shaft 4 with the large diameter can collide with the medicine solvent stirred by the auxiliary stirring shaft 5 when the auxiliary stirring shaft 5 rotates, the medicine solvent stirred by the main stirring shaft 4 invades the medicine solvent stirred by the auxiliary stirring shaft 5 to form turbulence, and the medicine solvent does irregular motion at the moment, so that the medicine solvents in the stirring tank 1 can be fully mixed, and the effect of water pollution emergency treatment is improved.

Further, a discharge groove 7 is installed below the liquid outlet 101, the discharge groove 7 is a frame structure which is through from top to bottom, a discharge baffle 70 is arranged inside the discharge groove 7, the size of the discharge baffle 70 is matched with the size of an opening at the bottom of the discharge groove 7, and the discharge baffle 70 is controlled by a reciprocating motion device to control the starting and closing of the discharge baffle 70;

the reciprocating device comprises auxiliary bearing seats 71, a swing arm 72, an air cylinder 73 and a fixing plate 74, wherein the auxiliary bearing seats 71 are respectively and fixedly arranged on the outer walls of the two sides of the discharge baffle 70 corresponding to the outside of the discharge groove 7, a connecting rod penetrates through the middles of the auxiliary bearing seats 71 on the two sides, the connecting rod is connected with one side below the discharge baffle 70 in the discharge groove 7, and one end of the connecting rod extends out of one of the auxiliary bearing seats 71;

one end of the swing arm 72 is movably connected with a connecting rod extending out of the auxiliary bearing seat 71 through a pin shaft, the fixing plate 74 is installed on the outer wall of one side face of the discharge groove 7, the air cylinder 73 is transversely and fixedly installed on the fixing plate 74, and a push rod of the air cylinder 73 is movably connected with the other end of the swing arm 72 through a pin shaft;

when solid-liquid mixing is carried out in the stirring tank 1, a piston rod of the air cylinder 73 contracts, the push rod drives the swing arm 72 to deflect upwards, the swing arm 72 deflects and simultaneously drives the discharge baffle 70 to deflect upwards through the connecting rod, the discharge baffle 70 and an opening at the bottom of the discharge tank 7 are closed, and the medicine solvent in the stirring tank 1 cannot be discharged;

after the solid-liquid mixture finishes, the piston rod of cylinder 73 stretches out, the catch bar drives swing arm 72 and deflects downwards, in the time of swing arm 72 deflection, it deflects downwards to drive discharge baffle 70 through the connecting rod, will discharge the opening separation of baffle 70 and discharge tank 7 bottom, adopt mechanical valve open-close control to handle the medicament play liquid, because of handling the medicament majority be chemical agent, can have certain influence to human health during direct contact, so take mechanical valve open-close control to handle the medicament play liquid, the effectual condition that prevents emergency personnel direct contact and handle the medicament appears, protect emergency personnel's healthy.

Furthermore, a scattering groove 8 is also arranged on the feeding port 100, the scattering groove 8 is a frame structure which is through up and down, a scattering paddle shaft 80 is transversely arranged in the scattering groove 8, and two ends of the scattering paddle shaft 80 respectively extend out of the scattering groove 8 and are fixed on the outer wall of the stirring tank 1 through a bearing seat 2;

one end of the breaking paddle shaft 80, which is close to the feeding port 100, extends out of the bearing seat 2 and is sleeved with a second transmission gear 81, the auxiliary stirring shaft 5, which is positioned below the breaking paddle shaft 80, is sleeved with a third transmission gear 50 at a position corresponding to the second transmission gear 81 of the breaking paddle shaft 80, the second transmission gear 81 and the third transmission gear 50 are connected through transmission chain, the driving motor 3 drives the auxiliary stirring shaft 5 to rotate and synchronously drives the breaking paddle shaft 80 to rotate, and the solid or large-particle treatment medicament is subjected to pre-breaking and breaking treatment, so that solid and liquid mixing among various medicaments is facilitated, the solid and liquid mixing speed can be accelerated in emergency treatment of the whole body, and the efficiency is higher.

When the embodiment is used, when emergency treatment is carried out on water pollution, mixed medicine dissolving treatment of water pollution treatment medicines is required;

firstly, pouring water into the stirring tank 1, then throwing a plurality of treatment agents needing solid-liquid mixing from the feeding port 100, adopting a stirring shaft with different diameters, wherein the rotation direction between the stirring shafts is tangential rotation, so that the medicine solvent stirred by the main stirring shaft 4 with the large diameter collides with the medicine solvent stirred when the auxiliary stirring shaft 5 rotates, the medicine solvent stirred by the main stirring shaft 4 invades the medicine solvent stirred by the auxiliary stirring shaft 5 to form turbulence, and the medicine solvent at the moment does irregular motion, thereby fully mixing the medicine solvents in the stirring tank 1, and further improving the effect of water pollution emergency treatment,

after water pollution treatment medicament intensive mixing, the piston rod of cylinder 73 stretches out, the catch bar drives swing arm 72 and deflects downwards, when swing arm 72 deflects, it deflects downwards to drive discharge baffle 70 through the connecting rod, will discharge the opening separation of baffle 70 and discharge tank 7 bottom, adopt mechanical valve open-close control to handle the medicament and go out the liquid, be chemical agent because of handling the medicament majority, can have certain influence to human health during direct contact, so take mechanical valve open-close control to handle the medicament and go out the liquid, the effectual condition that prevents emergency personnel direct contact and handle the medicament appears, protect emergency personnel's healthy.

The above-described embodiments of the present invention do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (8)

1. The utility model provides an emergent double helix solid-liquid mixture of sewage dissolves mechanism fast which characterized in that includes: the stirring tank is of a frame box structure, a large stirring shaft and a small stirring shaft which are independently rotated are transversely arranged in the stirring tank, the stirring shafts are a main stirring shaft and an auxiliary stirring shaft which are independently rotated, the diameter of the main stirring shaft is larger than that of the auxiliary stirring shaft, the two ends of the main stirring shaft and the two ends of the auxiliary stirring shaft extend out of the stirring tank respectively and are fixed on the outer walls of the head end and the tail end of the stirring tank through bearing seats, driving motors are arranged below the stirring tank, the number of the driving motors corresponds to the main stirring shaft and the auxiliary stirring shaft, the output shafts of the driving motors which correspond to each other are in transmission connection with the main stirring shaft and the auxiliary stirring shaft through transmission parts respectively, the main stirring shaft and the auxiliary stirring shaft are driven to rotate respectively, and the rotation direction between the main stirring shaft and the auxiliary stirring shaft is tangent rotation.

2. The emergency double-helix solid-liquid mixing and rapid dissolving mechanism for sewage according to claim 1, wherein one end of the main stirring shaft and one end of the auxiliary stirring shaft extend out of the bearing seat and are respectively sleeved with a first transmission gear, a driving motor is correspondingly installed below the stirring tank, and the output shaft of each corresponding driving motor is in transmission connection with the first transmission gear of the main stirring shaft and the first transmission gear of the auxiliary stirring shaft through a transmission chain.

3. The sewage emergency double-helix solid-liquid mixing and rapid dissolving mechanism of claim 2, wherein a feed port is arranged above the head end of the stirring tank, and a liquid outlet is arranged below the tail end of the stirring tank.

4. The emergency double-helix solid-liquid mixing and rapid dissolving mechanism for sewage according to claim 1, wherein the main stirring shaft and the auxiliary stirring shaft are helical blade type stirring shafts.

5. The emergency double-helix solid-liquid mixing and rapid dissolving mechanism for sewage according to claim 3, wherein a discharge tank is installed below the liquid outlet, the discharge tank is a frame structure which is through from top to bottom, a discharge baffle is arranged in the discharge tank, the size of the discharge baffle is matched with the size of an opening at the bottom of the discharge tank, and the discharge baffle is controlled by a reciprocating device to control the starting and the closing of the discharge baffle.

6. The emergency double-helix solid-liquid mixing and rapid dissolving mechanism for sewage according to claim 5, wherein the reciprocating device comprises auxiliary bearing seats, swing arms, a cylinder and a fixing plate, the auxiliary bearing seats are respectively and fixedly arranged on the outer walls of the two sides of the discharge baffle outside the discharge groove, a connecting rod is arranged in the middle of the auxiliary bearing seats on the two sides in a penetrating manner, the connecting rod is connected with one side below the discharge baffle in the discharge groove, one end of the connecting rod extends out of one of the auxiliary bearing seats, one end of the swing arm is movably connected with the connecting rod extending out of the auxiliary bearing seat through a pin shaft, the fixing plate is arranged on the outer wall of one side face of the discharge groove, and the cylinder is transversely and fixedly arranged on the fixing plate; the push rod of the cylinder is movably connected with the other end of the swing arm through a pin shaft.

7. The emergency double-helix solid-liquid mixing and rapid dissolving mechanism for sewage according to claim 3, wherein a breaking groove is further arranged on the feeding port, the breaking groove is of a frame structure which is through from top to bottom, a breaking paddle shaft is transversely arranged in the breaking groove, and two ends of the breaking paddle shaft respectively extend out of the breaking groove and are fixed on the outer wall of the stirring groove through bearing seats.

8. The emergency double-helix solid-liquid mixing and rapid dissolving mechanism for sewage according to claim 7, wherein one end of the breaking shaft close to the feeding port extends out of the bearing seat and is sleeved with a second transmission gear, the auxiliary stirring shaft below the breaking shaft is sleeved with a third transmission gear at a position corresponding to the second transmission gear of the breaking shaft, the second transmission gear and the third transmission gear are connected through a transmission chain, and the driving motor drives the auxiliary stirring shaft to rotate and synchronously drives the breaking shaft to rotate.

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