CN221421012U - Novel cooling device after calcination of calcium oxide raw material - Google Patents

Abstract

The utility model discloses a novel cooling device after calcining a calcium oxide raw material, which comprises the following components: the novel cooling device comprises a tank body, wherein a tank cover is arranged at the upper end of the tank body, a feed hopper is further arranged at the upper end of the tank cover, a discharging pipe is further arranged at the lower end of the tank body, a first rotary joint is arranged at the lower end of the tank body, a second rotary joint is arranged at the upper end of the tank cover, and a cooling pipe is rotatably arranged between the first rotary joint and the second rotary joint; the crushing mechanism is arranged in the feed hopper and is used for crushing the calcium oxide raw material; the cooling mechanism is arranged below the tank body and is used for conveying cooling liquid into the cooling pipe; the driving mechanism is arranged on the tank cover and used for driving the cooling pipe to rotate, the novel calcium oxide calcining tank is reasonable in structure, calcium oxide calcined can be crushed, the crushed calcium oxide can be cooled, and the use requirement can be better met.

Description

Novel cooling device after calcination of calcium oxide raw material

Technical Field

The utility model relates to the technical field of calcium oxide processing, in particular to a novel cooling device for calcined calcium oxide raw materials.

Background

The calcium oxide raw materials need to be cooled after being produced at high temperature, most of the existing calcium oxide is only cooled by wind after being produced and discharged, but a large amount of calcium oxide can be piled up in the discharging process, a good cooling effect cannot be achieved, and the quality of the calcium oxide can be influenced by waste heat in the calcium oxide.

In order to solve the problems, the Chinese patent publication No. CN213778356U discloses a cooling device for producing calcium oxide, which can effectively scatter the accumulated calcium oxide by scattering the vibration of the blades and the heat exchange plate, thereby improving the cooling effect of the calcium oxide.

However, when the device is specifically used, the heat dissipation effect on the calcium oxide is limited, the rapid heat dissipation of the calcium oxide is difficult to realize in time, and the use requirement cannot be well met.

Disclosure of utility model

The utility model aims to provide a novel cooling device for calcined calcium oxide raw materials, so as to solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

A novel post-calcination cooling device for calcium oxide raw materials, comprising: the novel cooling device comprises a tank body, wherein a tank cover is arranged at the upper end of the tank body, a feed hopper is further arranged at the upper end of the tank cover, a discharging pipe is further arranged at the lower end of the tank body, a first rotary joint is arranged at the lower end of the tank body, a second rotary joint is arranged at the upper end of the tank cover, and a cooling pipe is rotatably arranged between the first rotary joint and the second rotary joint; the crushing mechanism is arranged in the feed hopper and is used for crushing the calcium oxide raw material; the cooling mechanism is arranged below the tank body and is used for conveying cooling liquid into the cooling pipe; the driving mechanism is arranged on the tank cover and used for driving the cooling pipe to rotate.

Preferably, the cooling pipe is in a serpentine shape.

Preferably, the grinding mechanism comprises a first grinding roller and a second grinding roller which are rotatably installed in the feeding hopper, wherein the first shaft end of the first grinding roller penetrates through the feeding hopper and is fixedly provided with a first grinding gear, the second shaft end of the second grinding roller penetrates through the feeding hopper and is fixedly provided with a second grinding gear, the first grinding gear is meshed with the second grinding gear, the end part of the feeding hopper is also provided with a grinding motor, and the output end of the grinding motor is in driving connection with the shaft end of the first grinding roller. By arranging the grinding mechanism, the calcium oxide is convenient to crush.

Preferably, the first grinding roller and the outer side of the grinding roller are provided with carbon fiber coatings.

As the preferable scheme, cooling mechanism is including installing cooling box and the recovery tank in jar body below, install the transfer line on the cooling box, the other end and the rotary joint one of transfer line communicate, still install the infusion pump on the transfer line, install the recovery pipe on the recovery tank, recovery pipe and rotary joint two communicate. Through setting up cooling mechanism, can cool down the calcium oxide after the breakage.

As the preferable scheme, still be provided with transfer mechanism between cooling tank and the collection tank, transfer mechanism is including installing the transfer pipe between cooling tank and the collection tank, install the transfer pump on the transfer pipe.

As a preferable scheme, the outer surface of the cooling pipe is also provided with a carbon fiber coating.

As the preferable scheme, actuating mechanism is including installing the driving motor on the cover, driving motor's output runs through the cover and is fixed with drive gear, still install auxiliary gear on the cooling tube, auxiliary gear and drive gear meshing are connected.

Compared with the prior art, the utility model has the beneficial effects that: the grinding motor drives the grinding roller to rotate, so that the first grinding gear is rotated, the first grinding gear drives the second grinding gear to rotate, and the second grinding roller is synchronously rotated, so that calcium oxide in the feed hopper is ground;

Through actuating mechanism drive cooling pipe rotation, simultaneously, cooling mechanism is with the intraductal transport cooling liquid of cooling down, accelerates the cooling of calcium oxide, satisfies the user demand that can be better. The utility model has reasonable structure, can crush the calcined calcium oxide, can cool the crushed calcium oxide, and can better meet the use requirement.

Drawings

FIG. 1 is a schematic view of a first perspective view of a novel cooling device after calcination of a calcium oxide material;

FIG. 2 is a schematic view of the overall second perspective view of a novel post-calcination cooling device for calcium oxide material;

FIG. 3 is a schematic perspective view of the position of a tank cover of the cooling device after calcining the novel calcium oxide raw material;

FIG. 4 is a perspective view of a first view of a hopper of a novel cooling device after calcination of a calcium oxide material;

Fig. 5 is a schematic diagram of a second perspective view of a feeding hopper of a novel cooling device after calcining a calcium oxide raw material.

In the figure: 1-tank body, 11-tank cover, 12-feed hopper, 13-discharge pipe, 2-cooling mechanism, 21-cooling box, 22-transfer line, 23-transfer pump, 24-recovery box, 25-recovery pipe, 26-rotary joint I, 27-rotary joint II, 28-cooling pipe, 3-transfer mechanism, 31-transfer pipe, 32-transfer pump, 4-driving mechanism, 41-driving motor, 42-driving gear, 43-auxiliary gear, 5-grinding mechanism, 51-grinding motor, 52-grinding roller I, 53-grinding gear I, 54-grinding roller II, 55-grinding gear II.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples: referring to fig. 1 to 5, a novel cooling device after calcining a calcium oxide raw material includes: the novel energy-saving tank comprises a tank body 1, wherein a tank cover 11 is arranged at the upper end of the tank body 1, a feed hopper 12 is further arranged at the upper end of the tank cover 11, a discharge pipe 13 is further arranged at the lower end of the tank body 1, a first rotary joint 26 is arranged at the lower end of the tank body 1, a second rotary joint 27 is arranged at the upper end of the tank cover 11, and a cooling pipe 28 is rotatably arranged between the first rotary joint 26 and the second rotary joint 27; a crushing mechanism 5 installed in the feed hopper 12 for crushing the calcium oxide raw material; a cooling mechanism 2, which is arranged below the tank body 1 and is used for conveying cooling liquid into the cooling pipe 28; the driving mechanism 4 is installed on the can cover 11 and is used for driving the cooling pipe 28 to rotate, and in the embodiment, the cooling pipe 28 is in a serpentine shape.

The working principle of the utility model is as follows: during specific use, the calcined calcium oxide raw material is conveyed into the feed hopper 12, then, the calcium oxide raw material is crushed through the crushing mechanism 5, the crushed calcium oxide raw material falls into the tank body 1, and then, the cooling pipe 28 is driven to rotate through the driving mechanism 4, and meanwhile, the cooling mechanism 2 conveys cooling liquid in the cooling pipe 28, so that the cooling of the calcium oxide is accelerated, and the use requirement can be better met.

As a further solution, the grinding mechanism 5 includes a first grinding roller 52 and a second grinding roller 54 rotatably mounted in the feed hopper 12, the first grinding roller 52 has a shaft end penetrating the feed hopper 12 and fixed with a first grinding gear 53, the second grinding roller 54 has a shaft end penetrating the feed hopper 12 and fixed with a second grinding gear 55, the first grinding gear 53 is engaged with the second grinding gear 55, the end of the feed hopper 12 is further provided with a grinding motor 51, and the output end of the grinding motor 51 is in driving connection with the shaft end of the first grinding roller 52, in this embodiment, the outer sides of the first grinding roller 52 and the second grinding roller 54 are provided with carbon fiber coatings. The carbon fiber coating is arranged on the outer sides of the first grinding roller 52 and the second grinding roller 54, so that the heat resistance and strength of the first grinding roller 52 and the second grinding roller 54 can be effectively improved, and the service life can be prolonged.

The working principle of the grinding mechanism 5 is: during grinding, the grinding motor 51 is started, the grinding motor 51 drives the grinding roller I52 to rotate, so that the grinding gear I53 rotates, the grinding gear I53 drives the grinding gear II 55 to rotate, and the grinding roller II 54 synchronously rotates, so that the calcium oxide in the feed hopper 12 is ground.

As a further scheme, the cooling mechanism 2 includes a cooling tank 21 and a recovery tank 24 mounted below the tank 1, a transfer tube 22 is mounted on the cooling tank 21, the other end of the transfer tube 22 is communicated with a first rotary joint 26, an infusion pump 23 is further mounted on the transfer tube 22, a recovery tube 25 is mounted on the recovery tank 24, the recovery tube 25 is communicated with a second rotary joint 27, in this embodiment, a transfer mechanism 3 is further disposed between the cooling tank 21 and the recovery tank 24, the transfer mechanism 3 includes a transfer tube 31 mounted between the cooling tank 21 and the recovery tank 24, a transfer pump 32 is mounted on the transfer tube 31, and a carbon fiber coating is also disposed on the outer surface of the cooling tube 28.

The working principle of the cooling mechanism 2 is as follows: during cooling, the infusion pump 23 is started, the cooling liquid in the cooling tank 21 is conveyed into the cooling pipe 28 through the infusion pump 23, the time that the cooling liquid flows in the tank 1 can be effectively prolonged through the cooling pipe 28 which is arranged in a serpentine mode, therefore, better heat absorption is achieved, cooling of calcium oxide is achieved, cooling liquid is discharged out of the cooling tank 21, the cooling liquid is conveyed into the recovery tank 24 through the recovery pipe 25, the cooling liquid absorbing heat is kept stand in the recovery tank 24 for cooling, after temperature recovery, the transfer pump 32 is started, the cooled cooling liquid is conveyed into the cooling tank 21 through the transfer pump 32, and recycling of the cooling liquid is achieved.

As a further scheme, the driving mechanism 4 comprises a driving motor 41 installed on the tank cover 11, an output end of the driving motor 41 penetrates through the tank cover 11 and is fixedly provided with a driving gear 42, the cooling pipe 28 is further provided with an auxiliary gear 43, and the auxiliary gear 43 is in meshed connection with the driving gear 42.

The driving mechanism 4 works in the following principle: during the use, start driving motor 41 drives driving gear 42 through driving motor 41 and rotates to realize auxiliary gear 43's rotation, and then drive cooling tube 28 and rotate, make cooling tube 28 can be better contact with the calcium oxide in the jar body 1, thereby accelerate cooling efficiency, satisfy the user demand that can be better.

In the present utility model, terms such as "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "side", "bottom", etc. refer to an orientation or a positional relationship based on that shown in the drawings, and are merely relational terms, which are used for convenience in describing structural relationships of various components or elements of the present utility model, and do not denote any one of the components or elements of the present utility model, and are not to be construed as limiting the present utility model.

Claims (8)

1. Novel cooling device after calcination of calcium oxide raw materials, characterized by comprising:

The novel energy-saving tank comprises a tank body (1), wherein a tank cover (11) is arranged at the upper end of the tank body (1), a feed hopper (12) is further arranged at the upper end of the tank cover (11), a discharge pipe (13) is further arranged at the lower end of the tank body (1), a first rotary joint (26) is arranged at the lower end of the tank body (1), a second rotary joint (27) is arranged at the upper end of the tank cover (11), and a cooling pipe (28) is rotatably arranged between the first rotary joint (26) and the second rotary joint (27);

a grinding mechanism (5) which is arranged in the feed hopper (12) and is used for crushing the calcium oxide raw material;

The cooling mechanism (2) is arranged below the tank body (1) and is used for conveying cooling liquid into the cooling pipe (28);

the driving mechanism (4) is arranged on the tank cover (11) and is used for driving the cooling pipe (28) to rotate.

2. The novel post-calcination cooling device for calcium oxide raw materials according to claim 1, wherein: the cooling tube (28) is serpentine.

3. The novel post-calcination cooling device for calcium oxide raw materials according to claim 2, wherein: the grinding mechanism (5) comprises a first grinding roller (52) and a second grinding roller (54) which are rotatably arranged in the feed hopper (12), the shaft end of the first grinding roller (52) penetrates through the feed hopper (12) and is fixedly provided with a first grinding gear (53), the shaft end of the second grinding roller (54) penetrates through the feed hopper (12) and is fixedly provided with a second grinding gear (55), the first grinding gear (53) is meshed with the second grinding gear (55), the end part of the feed hopper (12) is further provided with a grinding motor (51), and the output end of the grinding motor (51) is in driving connection with the shaft end of the first grinding roller (52).

4. A novel post-calcination cooling device for calcium oxide raw materials according to claim 3, wherein: the outer sides of the first grinding roller (52) and the second grinding roller (54) are provided with carbon fiber coatings.

5. The novel post-calcination cooling device for calcium oxide raw materials according to claim 4, wherein: the cooling mechanism (2) comprises a cooling box (21) and a recovery box (24) which are arranged below the tank body (1), a perfusion tube (22) is arranged on the cooling box (21), the other end of the perfusion tube (22) is communicated with a first rotary joint (26), a perfusion pump (23) is further arranged on the perfusion tube (22), a recovery tube (25) is arranged on the recovery box (24), and the recovery tube (25) is communicated with a second rotary joint (27).

6. The novel post-calcination cooling device for calcium oxide raw materials according to claim 5, wherein: still be provided with transfer mechanism (3) between cooling tank (21) and recovery tank (24), transfer mechanism (3) are including installing transfer pipe (31) between cooling tank (21) and recovery tank (24), install transfer pump (32) on transfer pipe (31).

7. The novel post-calcination cooling device for calcium oxide raw materials according to claim 6, wherein: the outer surface of the cooling pipe (28) is also provided with a carbon fiber coating.

8. The novel post-calcination cooling device for calcium oxide raw materials according to claim 7, wherein: the driving mechanism (4) comprises a driving motor (41) arranged on the tank cover (11), the output end of the driving motor (41) penetrates through the tank cover (11) and is fixedly provided with a driving gear (42), the cooling pipe (28) is further provided with an auxiliary gear (43), and the auxiliary gear (43) is meshed with the driving gear (42).