CN210286780U - Calcining air-cooled cooling equipment for titanium dioxide production - Google Patents

Abstract

The utility model discloses a calcine air-cooled cooling arrangement for titanium white powder production, including the cooling cylinder, air-cooled machine and rotary mechanism, the right-hand member of cooling cylinder is connected with the left end of air-cooled machine, the left end of cooling cylinder is provided with the feed inlet, cooling cylinder barrel and baffle are installed to the right-hand member of feed inlet, the right-hand member of baffle is connected with the branch feed cylinder, divide the right-hand member of feed cylinder to install out the feed cylinder, the baffle, divide the quantity of feed cylinder and play feed cylinder to be 8, and the axis evenly distributed around the cooling cylinder barrel, and it is the heliciform and install inside the cooling cylinder barrel to go out the feed cylinder, the discharge gate has been seted up to the right side outer end of play feed cylinder, the right-. This a calcine air-cooled cooling arrangement for titanium white powder production has increased the area of contact of material with the air, has improved cooling efficiency, and utilizes limited space to make the material can fully cool down to the assigned temperature just by the ejection of compact, and it is effectual to cool down.

Description

Calcining air-cooled cooling equipment for titanium dioxide production

Technical Field

The utility model relates to a cooling arrangement technical field specifically is a calcine air-cooled cooling arrangement for titanium white powder production.

Background

In the process of preparing titanium dioxide by using a sulfuric acid method, the titanium dioxide semi-finished product needs to be cooled, and generally, air-cooled cooling equipment is adopted for cooling the titanium dioxide semi-finished product.

The traditional calcining air-cooled cooling equipment material for titanium dioxide production is easy to accumulate inside the cooling cylinder, has small contact area with air, is difficult to cool and has low cooling efficiency. Some cooling apparatus that have feed divider have also appeared at present, can avoid the material at the inside cooling of cooling cylinder, but its feed divider and subsequent cooling tube are the linear type, and inside limited cooling cylinder, cooling tube's stroke is shorter, and the material still exists the condition of not cooling to appointed temperature when the ejection of compact from the feeding, can't realize fully cooling.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a calcine air-cooled cooling arrangement for titanium white powder production has reached abundant refrigerated effect.

In order to achieve the above object, the utility model provides a following technical scheme: a calcining air-cooled cooling device for titanium dioxide production comprises a cooling cylinder, an air cooling machine and a rotating mechanism, wherein the right end of the cooling cylinder is connected with the left end of the air cooling machine, and the lower end of the cooling cylinder is connected with the upper end of the rotating mechanism;

the cooling cylinder consists of a feeding hole, a cooling cylinder body, a partition plate, a material separating cylinder, a material discharging hole, a ventilating pipe and a ventilating pipe installation cylinder, wherein the feeding hole is formed in the left end of the cooling cylinder, the cooling cylinder body is fixedly installed at the right end of the feeding hole, the partition plate is fixedly installed at the right end of the feeding hole, the material separating cylinder is fixedly connected to the right end of the partition plate, the material discharging cylinder is fixedly installed at the right end of the material separating cylinder, the material discharging hole is formed in the outer end of the right side of the material discharging cylinder, the ventilating pipe installation cylinder is arranged at the right end of the cooling cylinder body, the ventilating;

the air cooling machine comprises a flange, a pipeline, a fan shell, fan blades and a first motor, wherein the flange connects the pipeline with the ventilation pipe, the fan shell is fixedly installed at the right end of the pipeline, the fan blades are arranged inside the fan shell, and the fan blades are driven by the first motor at the right end;

the rotary mechanism comprises a first gear, a second gear, a rotating shaft and a second motor, the first gear is fixedly installed at the outer end of the right side of the cooling cylinder body, the second gear is meshed below the first gear, the rotating shaft is fixedly connected to the middle of the second gear, and the rotating shaft is driven by the second motor at the right end.

Preferably, the number of baffle, branch feed cylinder and play feed cylinder is 8, and around the axis evenly distributed of cooling cylinder barrel, just it is inside to go out the feed cylinder to be heliciform fixed mounting at the cooling cylinder barrel.

Preferably, the discharge barrel is in a state of diffusing towards the outer end of the cooling barrel body from left to right, and the right end of the discharge barrel is still positioned inside the cooling barrel body.

Preferably, the ventilation pipe installation barrel is rotatably connected with the ventilation pipe, and bearings are arranged at the front end and the rear end of the joint of the ventilation pipe installation barrel and the ventilation pipe.

Preferably, the pipeline and the fan shell are communicated with each other, and a protection net is arranged at the joint.

Preferably, the right end of the fan shell is fixedly provided with a heat supplementing pipeline.

Preferably, the lower end of the rotating mechanism is provided with a supporting mechanism.

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

(1) the calcining air-cooled cooling equipment for titanium dioxide production achieves the aim of separate cooling by arranging the rotating mechanism below the cooling cylinder. The rotating mechanism can enable the cooling cylinder to rotate along the axis direction, and in the rotating process, the material is separated in the 8 discharging cylinders by the partition plates and the material distributing cylinder, so that the contact area of the material and air is increased, the problem that the material is difficult to cool due to accumulation is avoided, and the cooling efficiency of the material is improved.

(2) The discharge barrel of the calcining air-cooled cooling equipment for titanium dioxide production is fixedly installed inside the cooling barrel body in a spiral manner, so that the purpose of fully cooling materials is achieved. The stroke of the linear discharging barrel in the cooling barrel with limited length is short, the condition that the material does not reach the specified temperature is still existed when the material moves to the discharge port, and the spiral discharging barrel has a longer stroke, so that the material can be discharged by moving to the vicinity of the discharge port after being fully cooled in the discharging barrel.

Drawings

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

FIG. 2 is a schematic view of the structure of the cooling cylinder of the present invention;

FIG. 3 is a schematic side view of the feed inlet of the present invention;

fig. 4 is a schematic structural diagram of the gear engagement of the present invention.

In the figure: the cooling device comprises a cooling cylinder 1, a feeding hole 101, a cooling cylinder body 102, a partition plate 103, a charging barrel 104, a discharging barrel 105, a discharging hole 106, a ventilating pipe 107, a ventilating pipe 108 mounting barrel, an air cooling machine 2, a flange 201, a pipeline 202, a fan shell 203, fan blades 204, a first motor 205, a rotating mechanism 3, a first gear 301, a second gear 302, a rotating shaft 303 and a second motor 304.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. 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.

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a calcine air-cooled cooling arrangement for titanium white powder production, includes cooling cylinder 1, air-cooled machine 2 and rotary mechanism 3, and the right-hand member of cooling cylinder 1 is connected with the left end of air-cooled machine 2, and the lower extreme of cooling cylinder 1 is connected with rotary mechanism 3's upper end.

The cooling cylinder 1 comprises a feeding hole 101, a cooling cylinder body 102, a partition plate 103, a material distributing cylinder 104, material discharging cylinders 105, a material discharging hole 106, a ventilating pipe 107 and a ventilating pipe installation cylinder 108, the left end of the cooling cylinder 1 is provided with the feeding hole 101, the right end of the feeding hole 101 is fixedly provided with the cooling cylinder body 102, the right end of the feeding hole 101 is fixedly provided with the partition plate 103, the right end of the partition plate 103 is fixedly connected with the material distributing cylinder 104, the partition plate 103 and the material distributing cylinder 104 can distribute materials into 8 material discharging cylinders 105 to avoid material accumulation, the right end of the material distributing cylinder 104 is fixedly provided with the material discharging cylinder 105, the number of the partition plate 103, the material distributing cylinder 104 and the material discharging cylinder 105 is 8, the material discharging cylinders are uniformly distributed around the axis of the cooling cylinder body 102, the material discharging cylinder 105 is fixedly arranged inside the cooling cylinder body 102 in a spiral shape, the material discharging cylinder 105 is in a state of, discharge gate 106 has been seted up to the right side outer end of play feed cylinder 105, the open end of discharge gate 106 is located the outside of cooling cylinder 102, the travel of traditional linear type play feed cylinder 105 in the inside of limited length's cooling cylinder 1 is shorter, the material still exists the condition that the material does not reach appointed temperature when removing discharge gate 106 position, and spiral helicine play feed cylinder 105 has longer travel, make the material can obtain the ejection of compact near the removal of discharge gate 106 after fully cooling in that the feed cylinder 105 is inside, the fully cooling of material has been ensured. The right end of the cooling cylinder barrel 102 is provided with a ventilation pipe installation barrel 108, a ventilation pipe 107 is arranged inside the ventilation pipe installation barrel 108, the ventilation pipe 107 penetrates through the inside and the outside of the cooling cylinder barrel 102, the ventilation pipe installation barrel 108 is rotatably connected with the ventilation pipe 107, and bearings are arranged at the front end and the rear end of the joint of the ventilation pipe installation barrel 108 and the ventilation pipe 107.

The air cooling machine 2 is composed of a flange 201, a pipeline 202, a fan shell 203, fan blades 204 and a first motor 205, the flange 201 connects the pipeline 202 with the ventilation pipe 107, the right end of the pipeline 202 is fixedly provided with the fan shell 203, the pipeline 202 and the fan shell 203 are mutually communicated, a protection net is arranged at the joint, the fan blades 204 are arranged inside the fan shell 203, the fan blades 204 are driven by the first motor 205 at the right end, the right end of the fan shell 203 is fixedly provided with a heat supplementing pipeline, and the heat supplementing pipeline can perform secondary utilization on outlet air.

The rotating mechanism 3 is composed of a first gear 301, a second gear 302, a rotating shaft 303 and a second motor 304, the first gear 301 is fixedly installed at the outer end of the right side of the cooling cylinder body 102, the second gear 302 is meshed below the first gear 301, the rotating shaft 303 is fixedly connected to the middle of the second gear 302, the rotating shaft 303 is driven by the second motor 304 at the right end, the first motor 205 and the second motor 304 are electrically connected with an independent rotating speed adjusting knob and a starting switch, a supporting mechanism is arranged at the lower end of the rotating mechanism 3, the rotating mechanism 3 can enable the cooling cylinder 1 to rotate along the axis direction, in the rotating process, the partition plate 103 and the material distributing cylinder 104 divide materials into 8 discharging cylinders 105, the contact area of the materials and air is increased, the problem that the materials are difficult to cool due to accumulation is solved, and the cooling efficiency of the materials is improved.

The electrical components presented in the document are all electrically connected with an external master controller and 220V mains, and the master controller can be a conventional known device controlled by a computer or the like.

During the use, start first motor 205 and second motor 304, cooling cylinder 1 begins the rotation, and flabellum 204 begins to rotate, and the material gets into inside cooling cylinder 1 from feed inlet 101, later by baffle 103 and feed cylinder 104 distribute to 8 play feed cylinders 105 insides, because the material is through rotating, and play feed cylinder 105 has an inclination, the material can move to discharge gate 106, and in this process, the material fully contacts with the air, and the temperature has fallen to designated temperature, finally is discharged by discharge gate 106. The air with heat is discharged from the heat supplementing pipeline at the right end for secondary utilization.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a calcine air-cooled cooling arrangement for titanium white powder production, includes cooling cylinder (1), air-cooled machine (2) and rotary mechanism (3), its characterized in that: the right end of the cooling cylinder (1) is connected with the left end of the air cooling machine (2), and the lower end of the cooling cylinder (1) is connected with the upper end of the rotating mechanism (3);

the cooling cylinder (1) consists of a feeding hole (101), a cooling cylinder body (102), a partition plate (103), a material distribution cylinder (104), a material discharge cylinder (105), a material discharge hole (106), a ventilation pipe (107) and a ventilation pipe installation cylinder (108), wherein the feeding hole (101) is formed in the left end of the cooling cylinder (1), the cooling cylinder body (102) is fixedly installed at the right end of the feeding hole (101), the partition plate (103) is fixedly installed at the right end of the feeding hole (101), the material distribution cylinder (104) is fixedly connected with the right end of the partition plate (103), the material discharge cylinder (105) is fixedly installed at the right end of the material distribution cylinder (104), the number of the partition plate (103), the material distribution cylinder (104) and the material discharge cylinder (105) is 8, the partition plate, the material distribution cylinder (104) and the material discharge cylinder (105) are uniformly distributed around the axis of the cooling cylinder, a discharge hole (106) is formed in the outer end of the right side of the discharge barrel (105), a ventilation pipe installation barrel (108) is arranged at the right end of the cooling barrel body (102), a ventilation pipe (107) is arranged inside the ventilation pipe installation barrel (108), and the ventilation pipe (107) penetrates through the inside and the outside of the cooling barrel body (102);

the air cooling machine (2) is composed of a flange (201), a pipeline (202), a fan shell (203), fan blades (204) and a first motor (205), the pipeline (202) is connected with a ventilation pipe (107) through the flange (201), the fan shell (203) is fixedly installed at the right end of the pipeline (202), the fan blades (204) are arranged inside the fan shell (203), and the fan blades (204) are driven by the first motor (205) at the right end;

rotary mechanism (3) comprise first gear (301), second gear (302), pivot (303) and second motor (304), first gear (301) fixed mounting is in the right side outer end of cooling cylinder barrel (102), first gear (301) below meshing has second gear (302), the middle part fixedly connected with pivot (303) of second gear (302), pivot (303) have the drive of second motor (304) of right-hand member.

2. The calcining air-cooled cooling equipment for titanium dioxide production according to claim 1, characterized in that: the discharge barrel (105) is in a state of diffusing towards the outer end of the cooling barrel body (102) from left to right, and the right end of the discharge barrel (105) is still located inside the cooling barrel body (102).

3. The calcining air-cooled cooling equipment for titanium dioxide production according to claim 1, characterized in that: the ventilation pipe mounting barrel (108) is rotatably connected with the ventilation pipe (107), and bearings are arranged at the front end and the rear end of the connection part of the ventilation pipe mounting barrel (108) and the ventilation pipe (107).

4. The calcining air-cooled cooling equipment for titanium dioxide production according to claim 1, characterized in that: the pipeline (202) and the fan shell (203) are communicated with each other, and a protection net is arranged at the joint.

5. The calcining air-cooled cooling equipment for titanium dioxide production according to claim 1, characterized in that: and a heat supplementing pipeline is fixedly arranged at the right end of the fan shell (203).

6. The calcining air-cooled cooling equipment for titanium dioxide production according to claim 1, characterized in that: the lower end of the rotating mechanism (3) is provided with a supporting mechanism.

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