CN218232535U - Cooling device for high-speed hot galvanizing - Google Patents

Abstract

The utility model discloses a cooling device for high-speed hot-galvanize, first electric putter is installed in the embedding of cooler bin top four corners department, four first electric putter push rods all connect in the mounting panel bottom, the import has been seted up to mounting panel top symmetry, the mounting panel bottom corresponds the import department and has the churn, mounting panel bottom middle part rotation is connected with the live-rollers, the thick filter is installed in the embedding of cooler bin bottom correspondence thick filter department, the filter cartridge is installed in the embedding of filter cartridge, the recovery tube is installed in the embedding of filter cartridge bottom, it removes to drive the work piece through the live-rollers rotation, the rethread passes through the partition board and prevents that the work piece from removing collision of each other, it leads to the cooling inadequately to prevent that the work piece from piling up, thereby improve cooling efficiency, impurity through thick filter and filter cartridge gets rid of the cooling water recycle through the recovery tube, improve the utilization ratio to the resource.

Description

Cooling device for high-speed hot galvanizing

Technical Field

The utility model relates to a cooling device technical field specifically is a cooling device for high-speed hot-galvanize.

Background

Galvanization refers to a surface treatment technology for plating a layer of zinc on the surface of metal, alloy or other materials to play roles of beauty, rust prevention and the like, a hot galvanizing method is mainly adopted, and at present, according to the requirements of a hot galvanizing process, a cooling device is required to be used for rapidly cooling a workpiece after the workpiece is subjected to hot galvanizing, so that the color and the quality of a product are improved and guaranteed.

But the zinc-plated work piece can pile up when sending into cooling device in the time of portion and lead to the cooling inhomogeneous together at present to make cooling efficiency reduce, cooling device can directly discharge the processing to the cooling water usually simultaneously, thereby waste water resource, the utilization ratio to the resource is lower.

SUMMERY OF THE UTILITY MODEL

The utility model provides a cooling device for high-speed hot-galvanize can effectively solve the present zinc-plated work piece that proposes in the above-mentioned background art and when sending into cooling device time-out, can pile up and lead to the cooling inhomogeneous together to make cooling efficiency reduce, cooling device can directly discharge the processing to the cooling water usually simultaneously, thereby wastes water resource, to the lower problem of utilization ratio of resource.

In order to achieve the above object, the utility model provides a following technical scheme: a cooling device for high-speed hot galvanizing comprises a cooling box, wherein a cooling recovery assembly is arranged in the cooling box, and comprises a first electric push rod, a mounting plate, an inlet, a mixing drum, a through hole, a rotating roller, a rotating motor, a coarse filter plate, a filter box, an inlet baffle, a fixed block, a second electric push rod, a fine filter plate, a filter cotton plate, a recovery pipe, a clamping groove and a partition plate;

first electric putter is installed in the embedding of cooling tank top four corners department, four first electric putter all connects in the mounting panel bottom, the import has been seted up to mounting panel top symmetry, the mounting panel bottom corresponds the import department welding has the churn, the through-hole has evenly been seted up in the churn outside, mounting panel bottom middle part rotates and is connected with the live-rollers, the draw-in groove has evenly been seted up in the live-rollers outside, the division board is installed to embedding in the draw-in groove, there is the rotation motor mounting corresponding live-rollers department in mounting panel top middle part through the mounting screw, thick filter plate is installed in the embedding of cooling tank bottom middle part, the filter cartridge is installed in the embedding of cooling tank bottom correspondence thick filter plate department, sliding connection has the import baffle in the filter cartridge import pipe, the symmetrical welding in filter cartridge import outside has the fixed block, the fixed block has second electric putter through the screw, two second electric putter connects respectively in import baffle one end both sides, thin filter plate is installed in the embedding in the filter cartridge, filter cartridge corresponds thin filter plate bottom embedding and installs the filtration cotton board, the recovery tube is installed in the embedding of filter cartridge bottom.

Preferably, the output shaft of the rotating motor penetrates through the top end of the mounting plate and is connected to the top end of the rotating roller, and the input ends of the first electric push rod, the rotating motor and the second electric push rod are respectively electrically connected with the output end of the external power supply.

Preferably, the length of the rotating roller is equal to the height of the mixing drum, and the shape and the size of the fine filter plate are consistent with the shape and the size of the bottom end inside the filter box.

Preferably, the cooling box is provided with a placing assembly, and the placing assembly comprises an outlet baffle, a scraper plate, a third electric push rod, an L-shaped placing frame, a placing box, a placing plate and a filtering hole;

the utility model discloses a cooler, including cooler bin, third electric putter, L type rack, placing case embedding, placing board top and evenly having seted up the filtration pore.

Preferably, the third electric push rod penetrates through the outer side of the cooling box and is connected to one side of the scraper, and the input end of the third electric push rod is electrically connected with the output end of an external power supply.

Preferably, the placing plate is in a shape and size consistent with the bottom end in the placing box, and the scraper is equal to the cooling box in length.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages of being scientific and reasonable in structure, convenience safe in utilization:

1. be provided with the cooling and retrieve the subassembly, it rotates to drive the live-rollers through rotating the motor, the work piece that drives in the churn removes, part the work piece through the division board simultaneously, collide mutually when the work piece removes when preventing to rotate, it is not enough even to prevent that the work piece from piling up to lead to being cooled, thereby improve cooling efficiency, the impurity of cooperation through coarse filtration board and filter cartridge in with the cooling water is got rid of, the completion is clean to the filtration of cooling water, at last through the recovery tube with cooling water recycle, realize the reuse of cooling water, the improvement is to the utilization ratio of resource.

2. Be provided with and place the subassembly, promote the scraper blade through third electric putter, make the scraper blade strike off the impurity of cooling tank bottom on one side, carry out the propelling movement to the work piece on one side, make impurity and work piece drop into through export baffle and place the incasement, accomplish the cleanness to the inside impurity of refrigeration defect incasement portion and accomodate the work piece, impurity this moment drops into through placing the board filtration pore and places the bottom half, and the work piece drops into and is placing the board top, accomplishes the separation.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the cooling recovery assembly of the present invention;

FIG. 3 is a schematic structural view of the placement module of the present invention;

fig. 4 is a schematic structural view of the filter cassette of the present invention;

reference numbers in the figures: 1. a cooling tank;

2. cooling the recovery assembly; 201. a first electric push rod; 202. mounting a plate; 203. an inlet; 204. a mixing drum; 205. a through hole; 206. a rotating roller; 207. rotating the motor; 208. a coarse filter plate; 209. a filter cartridge; 210. an inlet baffle; 211. a fixed block; 212. a second electric push rod; 213. a fine filter plate; 214. a filter cotton plate; 215. a recovery pipe; 216. a card slot; 217. a partition plate;

3. placing the component; 301. an outlet baffle; 302. a squeegee; 303. a third electric push rod; 304. an L-shaped placing rack; 305. placing a box; 306. placing the plate; 307. and (5) filtering holes.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Example (b): as shown in fig. 1-4, the utility model provides a technical scheme, a cooling device for high-speed hot galvanizing, including cooler bin 1, install cooling recovery subassembly 2 in the cooler bin 1, cooling recovery subassembly 2 includes first electric putter 201, mounting panel 202, import 203, churn 204, through-hole 205, rotation roller 206, rotation motor 207, coarse filtration board 208, filter cartridge 209, import baffle 210, fixed block 211, second electric putter 212, fine filtration board 213, filtration cotton board 214, recovery tube 215, draw-in groove 216 and division board 217;

the four corners of the top end of the cooling box 1 are embedded with first electric push rods 201, the four first electric push rods 201 are all connected to the bottom end of a mounting plate 202, inlets 203 are symmetrically formed in the top end of the mounting plate 202, a mixing drum 204 is welded at the position, corresponding to the inlet 203, of the bottom end of the mounting plate 202, through holes 205 are uniformly formed in the outer side of the mixing drum 204, a rotating roller 206 is rotatably connected to the middle of the bottom end of the mounting plate 202, clamping grooves 216 are uniformly formed in the outer side of the rotating roller 206, a separating plate 217 is embedded and mounted in the clamping grooves 216, a rotating motor 207 is mounted at the position, corresponding to the rotating roller 206, of the middle of the top end of the mounting plate 202 through screws, an output shaft of the rotating motor 207 penetrates through the top end of the mounting plate 202 and is connected to the top end of the rotating roller 206 so as to drive the rotating roller 206 to rotate, the length of the rotating roller 206 is equal to the height of the mixing drum 204 so as to facilitate mixing, a coarse filter plate 208 is embedded and mounted in the middle of the bottom end of the cooling box 1, the filter cassette 209 is installed to the embedding of the corresponding coarse filter board 208 department in cooler bin 1 bottom, filter cassette 209 import pipe sliding connection has import baffle 210, filter cassette 209 import outside of tubes symmetry welding has fixed block 211, fixed block 211 has second electric putter 212 through the mounting screw, two second electric putter 212 are connected respectively in import baffle 210 one end both sides, filter cassette 209 is embedded to install fine filter board 213, fine filter board 213 shape size is unanimous with the inside bottom shape size of filter cassette 209, be convenient for the embedding installation, filter box 209 is interior to correspond fine filter board 213 bottom embedding and to install filter cotton board 214, recovery tube 215 is installed to filter cassette 209 bottom embedding, first electric putter 201, rotate motor 207 and second electric putter 212 input respectively with external power supply output electric connection, make first electric putter 201, rotate motor 207 and second electric putter 212 and can start.

The cooling box 1 is provided with a placing assembly 3, and the placing assembly 3 comprises an outlet baffle plate 301, a scraper 302, a third electric push rod 303, an L-shaped placing rack 304, a placing box 305, a placing plate 306 and a filtering hole 307;

an outlet baffle 301 is hinged to one side of a cooling box 1, a scraper 302 is installed in the cooling box 1, the length of the scraper 302 is equal to that of the cooling box 1, impurities at the bottom of the cooling box 1 can be conveniently scraped, a third electric push rod 303 is symmetrically installed on one side of the cooling box 1 corresponding to the scraper 302, the third electric push rod 303 penetrates through the outer side of the cooling box 1 and is connected to one side of the scraper 302, the scraper 302 can be conveniently pushed and pulled, an L-shaped placing frame 304 is welded at the bottom end of the cooling box 1 corresponding to the outlet baffle 301, a placing box 305 is placed on the top end of the L-shaped placing frame 304, a placing plate 306 is installed in an embedded mode in the placing box 305, the shape and the size of the placing plate 306 are consistent with that of the bottom end of the placing box 305, embedding installation is convenient, filter holes 307 are evenly formed in the top end of the placing plate 306, the input end of the third electric push rod 303 is electrically connected with the output end of an external power supply, and the third electric push rod 303 can be started.

The utility model discloses a theory of operation and use flow: when a galvanized workpiece is cooled, cooling water is sent into the mixing drum 204 from the inlet 203, the mixing drum 204 is communicated with the cooling water in the cooling box 1 through the through hole 205, the galvanized workpiece is sent into the mixing drum 204 from the inlet 203, a partition plate 217 is installed in a clamping groove 216 formed in the rotating roller 206 and separates the workpieces through the partition plate 217 to prevent the workpieces from colliding with each other when moving, at the moment, the rotating motor 207 is started to drive the rotating roller 206 to rotate through the rotating motor 207, so that the workpieces in the mixing drum 204 are driven to move, the workpieces are prevented from being accumulated to cause uneven cooling, cooling efficiency is improved, after cooling is completed, the first electric push rod 201 is started, the mixing drum 204 with the mounting plate 202 and the bottom end welded is lifted, the second electric push rod 212 is started to slide the inlet baffle 210, so that the cooling water enters the filter box 209 through the coarse filter plate 208, the coarse filter plate 208 filters larger impurities in the cooling water, fine filter plate 213 and the filter cotton plate 214 in the cooling water remove fine impurities in the cooling water, filtering and cleaning of the cooling water is completed, and finally, recycling of the cooling water is realized through the recycling pipe 215, and the recycling rate of resources is improved.

After the cooling recovery process is completed, the outlet baffle 301 is opened, the third electric push rod 303 is started, the scraper 302 is pushed through the third electric push rod 303, the scraper 302 scrapes off impurities at the bottom end in the cooling box 1 and pushes galvanized workpieces at the same time, the impurities and the workpieces fall into the placing box 305 placed on the L-shaped placing frame 304 through the outlet baffle 301, the cleaning of the impurities in the cooling box 1 and the storage of the galvanized workpieces are completed, the impurities and the galvanized workpieces can fall onto the placing plate 306 in the placing box 305, at the moment, the impurities fall into the bottom end of the placing box 305 through the filter holes 307 formed in the placing plate 306, the workpieces fall into the top end of the placing plate 306, and the separation of the impurities and the workpieces is completed.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a cooling device for high-speed hot dip galvanizing, includes cooler bin (1), its characterized in that: a cooling recovery assembly (2) is arranged in the cooling box (1), and the cooling recovery assembly (2) comprises a first electric push rod (201), a mounting plate (202), an inlet (203), a mixing drum (204), through holes (205), a rotating roller (206), a rotating motor (207), a coarse filter plate (208), a filter box (209), an inlet baffle (210), a fixed block (211), a second electric push rod (212), a fine filter plate (213), a filter cotton plate (214), a recovery pipe (215), a clamping groove (216) and a partition plate (217);

the cooling box is characterized in that first electric push rods (201) are embedded and installed at four corners of the top end of the cooling box (1), four first electric push rods (201) are connected to the bottom end of a mounting plate (202), inlets (203) are symmetrically formed in the top end of the mounting plate (202), a mixing drum (204) is welded at the position, corresponding to the inlets (203), of the bottom end of the mounting plate (202), through holes (205) are uniformly formed in the outer side of the mixing drum (204), rotating rollers (206) are rotatably connected to the middle of the bottom end of the mounting plate (202), clamping grooves (216) are uniformly formed in the outer side of the rotating rollers (206), partition plates (217) are embedded and installed in the clamping grooves (216), rotating motors (207) are installed at the position, corresponding to the rotating rollers (206), coarse filter plates (208) are embedded and installed at the middle of the inner bottom end of the cooling box (1), filter boxes (209) are embedded and installed at the positions, inlet baffles (210) are slidably connected to inlet baffles (210), the outer side of the filter boxes (209) are symmetrically fixed blocks (211) through push rods (212), and inlet pipes (212) are welded at two ends of two second electric push rods (212), filter box (209) embedded thin filter board (213) of installing, filter box (209) interior corresponding thin filter board (213) bottom embedding is installed and is filtered cotton board (214), recovery tube (215) are installed in filter box (209) bottom embedding.

2. The cooling device for high-speed hot galvanizing according to claim 1, wherein an output shaft of the rotating motor (207) penetrates through the top end of the mounting plate (202) and is connected to the top end of the rotating roller (206), and input ends of the first electric push rod (201), the rotating motor (207) and the second electric push rod (212) are respectively electrically connected with an output end of an external power supply.

3. A cooling device for high speed hot dip galvanizing according to claim 1, characterized in that the length of the rotating roller (206) is equal to the height of the agitating drum (204), and the shape and size of the fine filter plate (213) is consistent with the shape and size of the bottom end inside the filter box (209).

4. The cooling device for high-speed hot dip galvanizing according to claim 1, wherein the cooling box (1) is provided with a placing component (3), and the placing component (3) comprises an outlet baffle plate (301), a scraper (302), a third electric push rod (303), an L-shaped placing rack (304), a placing box (305), a placing plate (306) and a filtering hole (307);

the utility model discloses a cooler bin, including cooler bin (1), scraper blade (302), third electric putter (303) are installed to scraper blade (302) department symmetry that corresponds in cooler bin (1) one side, cooler bin (1) bottom corresponds outlet baffle (301) department welding has L type rack (304), L type rack (304) top has been placed and has been placed case (305), it installs and places board (306) to place case (305) embedding, it has evenly seted up filtration pore (307) to place board (306) top.

5. The cooling device for high-speed hot galvanizing according to claim 4, wherein the third electric push rod (303) penetrates through the outer side of the cooling box (1) and is connected to one side of the scraper (302), and the input end of the third electric push rod (303) is electrically connected with the output end of an external power supply.

6. The cooling device for high-speed hot dip galvanizing according to claim 4, wherein the size of the placing plate (306) is consistent with the size of the bottom end in the placing box (305), and the length of the scraper (302) is equal to the length in the cooling box (1).

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