CN213747527U - Cooling device for cement production - Google Patents

Abstract

The utility model discloses a cooling device for cement manufacture relates to cement manufacture technical field, the utility model discloses draw together box, feed arrangement, agitating unit, discharging device and cooling module, the box includes agitator, division board and top cap, and the agitator is cylinder tubular structure, and the division board is installed inside the agitator, top cap lower surface and agitator upper surface connection. The utility model relates to a cooling device for cement manufacture makes the more even cement that gets into fall into the agitator in through the sieve for cooling of cement homodisperse, make the refrigerated more abundant of cement, the cooling effect of cement has been improved, cement that gets into the agitator through stirring vane stirring, it is surplus to break up caking cement, can also make as much as possible cement contact agitator inner wall let the cooling tube take away the heat and cool off with higher speed, the uneven problem of inside and outside cooling has also been avoided simultaneously, use the liquid cooling to replace the forced air cooling through the cooling tube, the cooling effect is better, and the dependence to the environment is also lower.

Description

Cooling device for cement production

Technical Field

The utility model relates to a cement manufacture technical field, in particular to cooling device for cement manufacture.

Background

With the rapid development of the infrastructure industry, the demand for cement is increasing day by day, cement belongs to important materials in the fields of buildings, roads, civil engineering and the like, and cement is produced at a high temperature, so that the prepared cement cannot be directly packaged or stored, and the cement is easily solidified into blocks in the cement when being in a high-temperature state for a long time, so that cooling equipment is required to cool the cement in the production process.

At present, the cooling efficiency of the existing cement cooling device is low, the cooling effect is poor, the surface cooling and the internal high temperature condition can often occur, and therefore the cooling device for cement production is provided.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides a cooling device for cement manufacture can effectively solve among the background art lower, the relatively poor scheduling problem of cooling effect of cooling efficiency.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme: a cooling device for cement production comprises a box body, a feeding device, a stirring device, a discharging device and a cooling assembly, wherein the box body comprises a stirring barrel, a partition plate and a top cover, the stirring barrel is of a cylindrical tubular structure, the partition plate is installed inside the stirring barrel, the lower surface of the top cover is connected with the upper surface of the stirring barrel, the feeding device comprises a sieve plate, a second support rod, a second limit block, a connecting rod and a sliding block, one end of the second support rod is connected with one surface of the stirring barrel, one surface of the sieve plate is connected with one surface of the second support rod, one surface of the second limit block is connected with the other end of the second support rod, one end of the connecting rod is connected with one surface of the second support rod, one end of the sliding block is connected with one surface of the connecting rod, the stirring device comprises a support, an installation box, driven teeth and driving teeth, a sliding groove is formed in the surface of the installation box, the slider and spout sliding fit, follow tooth surface and slider surface connection, the initiative tooth meshes with follow tooth mutually, discharging device includes conveyer belt, bearing post, swivel bearing and bearing box, the bearing box is hollow case structure, four swivel bearing surface respectively with bearing box both sides surface connection, two bearing post both ends are connected with four swivel bearing respectively, the conveyer belt is installed in bearing post surface, cooling module includes cooling fan, six cooling fan surface respectively with bearing box both sides surface connection.

Preferably, the box body further comprises a bottom plate, and the upper surface of the bottom plate is connected with the lower surface of the stirring barrel.

Preferably, the feeding device further comprises a feeding hole, a first supporting rod, a first limiting block and a connecting arm, the lower surface of the feed inlet is connected with the upper surface of the top cover, one end of the first supporting rod is connected with one surface of the sieve plate, one surface of the first limiting block is connected with the other end of the first supporting rod, one end of the connecting arm is connected with one surface of the stirring barrel, the sieve plate is driven to move when the first support rod moves, so that the sieve plate moves left and right in the stirring barrel, the second support rod fixedly connected with the right end of the sieve plate ensures the stability of the sieve plate in the moving process and can ensure that the sieve plate moves left and right on the same horizontal line, so that the cement entering the mixing tank falls on the sieve plate which swings left and right, the cement entering the mixing tank falls into the mixing tank more uniformly, the cement is cooled uniformly, so that the cement is cooled more sufficiently, and the cooling effect of the cement is improved.

Preferably, agitating unit still includes sieve motor, stirring vane and agitator motor, sieve motor one end and an initiative tooth surface connection, stirring vane one end and division board upper surface connection, the agitator motor upper surface is connected with stirring vane lower surface, and through the cement that stirring vane stirring got into the agitator, after breaking up caking cement, can also make as much as possible cement contact agitator inner wall let the cooling tube take away the heat and cool off with higher speed, also avoided the uneven problem of inside and outside cooling simultaneously.

Preferably, discharging device still includes discharge gate and driving motor, a discharge gate surface and a agitator surface connection, two driving motor surfaces are connected with bearing post one end respectively.

Preferably, cooling unit still includes the cooling tube, the cooling tube is installed in agitator week side, uses the liquid cooling to replace the forced air cooling through the cooling tube, and the cooling effect is better, and the dependence to the environment is also lower moreover.

The utility model discloses following beneficial effect has:

1. the utility model discloses a drive the sieve when first bracing piece removes and remove for the sieve moves about in the inside of agitator, and the second bracing piece of sieve right-hand member fixed connection guarantees the stability of sieve moving process, can guarantee that the sieve moves about on same water flat line, makes the cement that gets into in the agitator fall into on the sieve of horizontal hunting, makes the cement that gets into more even fall into the agitator, makes the cooling of cement homodisperse, makes the cement refrigerated more abundant, has improved the cooling effect of cement;

2. the utility model can stir the cement entering the mixing tank by the mixing blade, and can contact the inner wall of the mixing tank with as much cement as possible to bring heat away from the cooling pipe for accelerated cooling after the caking cement is scattered, and simultaneously, the problem of uneven internal and external cooling is avoided;

3. the utility model discloses a cooling tube uses the liquid cooling to replace the forced air cooling, and the cooling effect is better, and is also lower to the dependence of environment moreover.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

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

FIG. 1 is a schematic view of the overall structure of a cooling apparatus for cement production according to the present invention;

FIG. 2 is a schematic front view of the cooling apparatus for cement production according to the present invention;

FIG. 3 is a schematic diagram of a right-side view structure of a cooling device for cement production according to the present invention;

FIG. 4 is a schematic view of a cross-sectional view A-A of the cooling apparatus for cement production of the present invention shown in FIG. 1;

FIG. 5 is a schematic view of a partial structure at A in FIG. 1 of a cooling apparatus for cement production according to the present invention;

fig. 6 is a schematic view of a cross-sectional structure of C-C in fig. 3 of a cooling device for cement production according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a box body; 110. a stirring barrel; 120. a separator plate; 130. a top cover; 140. a base plate; 200. a feeding device; 210. a feed inlet; 220. a sieve plate; 230. a first support bar; 240. a second support bar; 250. A first stopper; 260. a connecting arm; 270. a second limiting block; 280. a connecting rod; 290. a slider; 300. a stirring device; 310. a support; 320. installing a box; 330. a driven tooth; 340. a driving tooth; 350. A screen motor; 360. a stirring blade; 370. a stirring motor; 400. a discharging device; 410. a discharge port; 420. a conveyor belt; 430. a load bearing column; 440. a rotating bearing; 450. a drive motor; 460. a carrying case; 500. a cooling assembly; 510. a cooling tube; 520. and a cooling fan.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front end", "rear end", "both ends", "one end", "the other end" 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 to which the reference is made must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" 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," "disposed," "connected," and the like are to be construed broadly, and for example, "connected" may be either fixedly connected or 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.

Referring to fig. 1-6, the utility model relates to a cooling device for cement manufacture, including box 100, feed arrangement 200, agitating unit 300, discharging device 400 and cooling module 500, box 100 includes agitator 110, division board 120 and top cap 130, agitator 110 is the cylinder tubular structure, division board 120 installs inside agitator 110, top cap 130 lower surface and agitator 110 upper surface are connected, feed arrangement 200 includes sieve 220, second bracing piece 240, second stopper 270, connecting rod 280 and slider 290, second bracing piece 240 one end and agitator 110 surface are connected, sieve 220 surface and second bracing piece 240 surface are connected, second stopper 270 surface and second bracing piece 240 other end are connected, connecting rod 280 one end and second bracing piece 240 surface are connected, slider 290 one end and connecting rod 280 surface are connected, agitating unit 300 includes support 310, stirring device 300, The installation box 320, the driven tooth 330 and the driving tooth 340, a sliding groove is formed in one surface of the installation box 320, the sliding block 290 is in sliding fit with the sliding groove, one surface of the driven tooth 330 is connected with one surface of the sliding block 290, the driving tooth 340 is meshed with the driven tooth 330, the discharging device 400 comprises a conveyor belt 420, bearing columns 430, rotary bearings 440 and a bearing box 460, the bearing box 460 is of a hollow box structure, one surface of each rotary bearing 440 is connected with the surfaces of the two sides of the bearing box 460 respectively, the two ends of each bearing column 430 are connected with the four rotary bearings 440 respectively, the conveyor belt 420 is installed on the outer surface of each bearing column 430, the cooling assembly 500 comprises cooling fans 520, and one surface of each cooling fan 520 is connected with the surfaces of the two sides of the bearing box 460 respectively.

Referring to fig. 1 to 6, the casing 100 further includes a bottom plate 140, and an upper surface of the bottom plate 140 is connected to a lower surface of the agitator 110.

Referring to fig. 1 to 6, the feeding device 200 further includes a feeding port 210, a first support rod 230, a first limit block 250 and a connecting arm 260, a lower surface of the feeding port 210 is connected with an upper surface of the top cover 130, one end of the first support rod 230 is connected with one surface of the sieve plate 220, one surface of the first limit block 250 is connected with the other end of the first support rod 230, one end of the connecting arm 260 is connected with one surface of the mixing tank 110, the sieve plate 220 is driven to move when the first support rod 230 moves, so that the sieve plate 220 moves left and right in the mixing tank 110, a second support rod 240 fixedly connected to the right end of the sieve plate 220 ensures stability of the moving process of the sieve plate 220, the sieve plate 220 can move left and right on the same horizontal line, cement entering the mixing tank 110 falls on the sieve plate 220 which swings left and right, the entering cement falls into the mixing tank 110 more uniformly, so that the cement is cooled uniformly dispersed, the cement is cooled more fully, and the cooling effect of the cement is improved.

Referring to fig. 1-6, the stirring device 300 further includes a sieve motor 350, a stirring blade 360 and a stirring motor 370, one end of the sieve motor 350 is connected with one surface of the driving tooth 340, one end of the stirring blade 360 is connected with the upper surface of the partition board 120, the upper surface of the stirring motor 370 is connected with the lower surface of the stirring blade 360, cement entering the stirring barrel 110 is stirred through the stirring blade 360, after agglomerated cement is scattered, as much cement as possible can contact the inner wall of the stirring barrel 110 to allow the cooling pipe 510 to take away heat for accelerated cooling, and meanwhile, the problem of uneven internal and external cooling is avoided.

Referring to fig. 1-3, the discharging device 400 further includes a discharging port 410 and two driving motors 450, wherein a surface of the discharging port 410 is connected to a surface of the stirring barrel 110, and a surface of each of the two driving motors 450 is connected to one end of the supporting column 430.

Referring to fig. 1 to 3, the cooling module 500 further includes a cooling pipe 510, the cooling pipe 510 is installed on the circumferential side surface of the stirring barrel 110, and liquid cooling is used instead of air cooling through the cooling pipe 510, so that the cooling effect is better, and the dependence on the environment is lower.

When the cement mixer is used, the sieve plate 220 is driven to move when the first support rod 230 moves, so that the sieve plate 220 moves left and right in the mixing tank 110, the second support rod 240 fixedly connected to the right end of the sieve plate 220 ensures the stability of the moving process of the sieve plate 220 and can ensure that the sieve plate 220 moves left and right on the same horizontal line, so that cement entering the mixing tank 110 falls on the sieve plate 220 swinging left and right, the cement entering the mixing tank 110 more uniformly falls into the mixing tank 110, the cement is cooled uniformly and dispersedly, the cement is cooled more fully, the cooling effect of the cement is improved, the cement entering the mixing tank 110 is stirred by the stirring blades 360, wherein the stirring motor 370 is YX3-100L2-4, and the cement contacts the inner wall of the mixing tank 110 as much as possible to bring heat away for accelerated cooling, also avoid the uneven problem of inside and outside cooling simultaneously, pull open discharge gate 410 when the cooling is accomplished and let the cement naturally spill on conveyer belt 420, then set up convection current air with cooling fan 520 and further cool.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a cooling device for cement manufacture, includes box (100), feed arrangement (200), agitating unit (300), discharging device (400) and cooling module (500), its characterized in that: the box body (100) comprises a stirring barrel (110), an isolation plate (120) and a top cover (130), the stirring barrel (110) is of a cylindrical tubular structure, the isolation plate (120) is installed inside the stirring barrel (110), the lower surface of the top cover (130) is connected with the upper surface of the stirring barrel (110), the feeding device (200) comprises a sieve plate (220), a second supporting rod (240), a second limiting block (270), a connecting rod (280) and a sliding block (290), one end of the second supporting rod (240) is connected with one surface of the stirring barrel (110), one surface of the sieve plate (220) is connected with one surface of the second supporting rod (240), one surface of the second limiting block (270) is connected with the other end of the second supporting rod (240), one end of the connecting rod (280) is connected with one surface of the second supporting rod (240), one end of the sliding block (290) is connected with one surface of the connecting rod (280), the stirring device (300) comprises a support (310), a mounting box (320), driven teeth (330) and driving teeth (340), wherein a sliding groove is formed in one surface of the mounting box (320), the sliding block (290) is in sliding fit with the sliding groove, one surface of the driven teeth (330) is connected with one surface of the sliding block (290), the driving teeth (340) are meshed with the driven teeth (330), the discharging device (400) comprises a conveying belt (420), bearing columns (430), rotating bearings (440) and a bearing box (460), the bearing box (460) is of a hollow box structure, one surface of each rotating bearing (440) is connected with the surfaces of the two sides of the bearing box (460), the two ends of each bearing column (430) are connected with the four rotating bearings (440), the conveying belt (420) is mounted on the outer surface of each bearing column (430), the cooling assembly (500) comprises a cooling fan (520), one surface of each of the six cooling fans (520) is connected with the two side surfaces of the bearing box (460).

2. The cooling device for cement production according to claim 1, wherein: the box body (100) further comprises a bottom plate (140), and the upper surface of the bottom plate (140) is connected with the lower surface of the stirring barrel (110).

3. The cooling device for cement production according to claim 1, wherein: feed arrangement (200) still include feed inlet (210), first bracing piece (230), first stopper (250) and linking arm (260), feed inlet (210) lower surface and top cap (130) upper surface connection, first bracing piece (230) one end is connected with sieve (220) a surface, a first stopper (250) surface is connected with first bracing piece (230) other end, linking arm (260) one end and agitator (110) surface are connected.

4. The cooling device for cement production according to claim 1, wherein: agitating unit (300) still include sieve motor (350), stirring vane (360) and agitator motor (370), sieve motor (350) one end and drive tooth (340) surface connection, agitator blade (360) one end and division board (120) upper surface connection, agitator motor (370) upper surface and agitator blade (360) lower surface connection.

5. The cooling device for cement production according to claim 1, wherein: the discharging device (400) further comprises a discharging port (410) and transmission motors (450), one surface of the discharging port (410) is connected with one surface of the stirring barrel (110), and one surfaces of the two transmission motors (450) are respectively connected with one end of the bearing column (430).

6. The cooling device for cement production according to claim 1, wherein: the cooling assembly (500) further comprises a cooling pipe (510), and the cooling pipe (510) is installed on the peripheral side face of the stirring barrel (110).

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