CN216296296U - Cooling device for water reducing agent - Google Patents

Abstract

The application discloses cooling device for water-reducing agent relates to water-reducing agent cooling technical field, including storage bucket, base, support frame, jacket layer, water cooling component, stirring subassembly, air-cooled subassembly and circulation subassembly, the support frame sets up on the base, and the jacket layer is vertical form setting on the support frame, jacket layer cover is established on the storage bucket, leaves the cooling chamber between jacket layer and the storage bucket, water cooling component sets up on the support frame, and water cooling component's output extends to in the cooling chamber, the stirring subassembly is vertical form setting in the bottom of jacket layer, and the output of stirring subassembly extends to in the storage bucket, the air-cooled subassembly is the level form and installs on the outer wall on jacket layer, communicates in air-cooled subassembly and the storage bucket, the circulation subassembly sets up on the base, and the circulation subassembly is linked together with the cooling chamber. The utility model can simultaneously carry out cooling work on the inside and the outside of the water reducing agent, and the cooling work can be recycled for a long time, so that the cost for reducing the cooling work is lower.

Description

Cooling device for water reducing agent

Technical Field

The application relates to a water-reducing agent cooling technical field especially relates to a cooling device for water-reducing agent.

Background

The water reducing agent can reduce the water consumption for mixing and improve the strength of concrete under the condition of unchanged concrete workability and cement consumption; or under the condition of unchanged workability and strength, the existing cooling device of the admixture for saving the cement consumption is equipment for cooling the water reducing agent, the cooling device is one type of heat exchange equipment and is used for cooling fluid, water or air is usually used as a coolant to remove heat, the cooling device is a heat exchange device commonly adopted by industrial departments of metallurgy, chemical industry, energy, traffic, light industry, food and the like, the application field is wide, the cooling effect of the cooling device is stable in operation, and the operation of operators is convenient.

Among the prior art, some cooling device utilize the coolant to adsorb the heat of water-reducing agent, take away the heat and play the effect of cooling, but if need a large amount of water-reducing agent work of cooling down, that coolant just must constantly flow and take the heat to heat often has not been dispelled when the recirculation of coolant, and the cooling effect can consequently reduce, and a large amount of coolants also increase working cost simultaneously.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a cooling device for water-reducing agent.

The embodiment of the application adopts the following technical scheme: the utility model provides a cooling device for water-reducing agent, includes storage bucket, base, support frame, presss from both sides jacket layer, water-cooling subassembly, stirring subassembly, air-cooled subassembly and circulation subassembly, the support frame sets up on the base, and presss from both sides the jacket layer and be vertical form setting on the support frame, it establishes on the storage bucket to press from both sides jacket layer cover, and leaves the cooling chamber between pressing from both sides jacket layer and the storage bucket, water-cooling subassembly sets up on the support frame, and water-cooling subassembly's output extends to in the cooling chamber, the stirring subassembly is vertical form setting in the bottom that presss from both sides jacket layer, and the output of stirring subassembly extends to in the storage bucket, air-cooled subassembly is the level form and installs on the outer wall that presss from both sides jacket layer, and communicates in air-cooled subassembly and the storage bucket, the circulation subassembly sets up on the base, and the circulation subassembly is linked together with the cooling chamber.

Preferably, the water cooling module includes water pump, inlet tube, drain pipe and check valve, the water pump is the top of vertical form setting at the support frame, the output of water pump and the one end fixed connection of inlet tube, and the other end of inlet tube extends to the cooling intracavity, the one end setting of drain pipe is in the cooling intracavity, and the other end of drain pipe is connected with the circulation subassembly, the check valve sets up on the drain pipe, and the drain pipe is located the inlet tube below.

Preferably, the stirring subassembly includes agitator motor, auger and agitator, the bottom of agitator and the interior diapire fixed connection of storage bucket, seted up the discharge opening on the agitator, and the feed port has been seted up to the below of discharge opening, agitator motor is vertical form setting in the bottom that presss from both sides the jacket layer, and agitator motor's output extends to in the storage bucket, the auger sets up in the agitator, and auger and agitator motor's output fixed connection.

Preferably, the air cooling subassembly includes exhaust fan, exhaust pipe, air exhaust frame and filter screen, the exhaust pipe is the level form and sets up on double-layered jacket layer, and in the one end of exhaust pipe extended to the storage bucket, the filter screen sets up on the other end of exhaust pipe, air exhaust frame sets up in the exhaust pipe, and air exhaust frame is located the side of filter screen, the exhaust fan sets up on air exhaust frame, and the output of exhaust fan sets up towards the discharge opening.

Preferably, the circulation subassembly includes storage water tank, two mounts and two back flows, two the mount is the interval respectively sets up on the base, and two back flows are installed respectively on two mounts, two the back flow is linked together, one the back flow is linked together with the drain pipe, and another back flow and storage water tank intercommunication, the storage water tank sets up on the base, and the storage water tank is located two mount sides.

Preferably, the bottom of the charging bucket is provided with a discharging pipe.

The embodiment of the application adopts at least one technical scheme which can achieve the following beneficial effects:

firstly, after the water reducing agent is heated in a reaction kettle, adding the water reducing agent into a material barrel, continuously adding cold water into a cooling cavity through a water pump, controlling a drain pipe through a check valve to drain water in the cooling cavity, cooling the temperature in the material barrel through circulating cold water, driving an auger on an output end by a stirring motor, rotating the auger in the stirring barrel, driving the water reducing agent to rise from a feeding hole by the rotation of the auger, then falling from a discharging hole, continuously extracting the water reducing agent at the bottom of the material barrel through the auger, and then discharging the water reducing agent from the discharging hole above, so that more area of the water reducing agent is contacted with air, facilitating heat dissipation, continuously blowing air towards the discharging hole by an exhaust fan in the exhaust pipe, so that the air exhaust fan blows and cools the water reducing agent falling from the discharging hole, and an upper filter screen of the exhaust fan is used for preventing particles and dust from entering the material barrel, in the back flow is flowed into again to exhaust hot water in the drain pipe, store in flowing into the water storage tank along with the back flow, through the setting that the back flow is spiraled, increase the time that hot water flows, also accelerated hydrothermal radiating time simultaneously, the hydroenergy in the storage tank of being convenient for can be faster recycles.

When the charging pile needs to be disassembled, an operator can pull the auxiliary blocks on the fixing plate, the auxiliary blocks drive the pull-close blocks to pull up the pull-close line, each support rod is closed through the driving of the pull-close line, the operator takes the charging pile body out of the wall, and the time for disassembling the charging pile is shortened.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a partial perspective view of the present invention;

FIG. 3 is a perspective view of the air cooling module of the present invention;

fig. 4 is a perspective view of the stirring assembly of the present invention.

In the figure: the device comprises a charging basket 1, a base 11, a support frame 12, a jacket layer 13, a discharge pipe 14, a water cooling component 2, a water pump 21, a water inlet pipe 22, a water discharge pipe 23, a one-way valve 24, a stirring component 3, a stirring motor 31, an auger 32, a stirring barrel 33, an air cooling component 4, an exhaust fan 41, an exhaust pipe 42, an exhaust frame 43, a filter screen 44, a circulating component 5, a water storage tank 51, a fixed frame 52 and a return pipe 53.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The technical solutions provided by the embodiments of the present application are described in detail below with reference to the accompanying drawings.

In this embodiment, as shown in fig. 1 to 4, a cooling device for a water reducing agent includes a charging basket 1, a base 11, a support frame 12, a jacket layer 13, a water cooling assembly 2, a stirring assembly 3, an air cooling assembly 4 and a circulation assembly 5, wherein the support frame 12 is disposed on the base 11, the jacket layer 13 is vertically disposed on the support frame 12, the jacket layer 13 is sleeved on the charging basket 1, a cooling cavity is reserved between the jacket layer 13 and the charging basket 1, the water cooling assembly 2 is disposed on the support frame 12, an output end of the water cooling assembly 2 extends into the cooling cavity, the stirring assembly 3 is vertically disposed at the bottom of the jacket layer 13, an output end of the stirring assembly 3 extends into the charging basket 1, the air cooling assembly 4 is horizontally disposed on an outer wall of the jacket layer 13, the air cooling assembly 4 is communicated with an interior of the charging basket 1, the circulation assembly 5 is disposed on the base 11, and the circulation assembly 5 communicates with the cooling chamber.

Specifically, water-cooling subassembly 2 includes water pump 21, inlet tube 22, drain pipe 23 and check valve 24, water pump 21 is the top that vertical form set up at support frame 12, the output of water pump 21 and inlet tube 22's one end fixed connection, and inlet tube 22's the other end extends to the cooling intracavity, the one end setting of drain pipe 23 is in the cooling intracavity, and drain pipe 23's the other end is connected with circulation subassembly 5, check valve 24 sets up on drain pipe 23, and drain pipe 23 is located inlet tube 22 below, constantly heats cold water in the cooling intracavity through water pump 21, and check valve 24 uncontrolled drain pipe 23 carries out drainage work to the cooling intracavity, utilizes the temperature of endless cold water in to storage bucket 1 to cool down the work.

Specifically, stirring subassembly 3 includes agitator motor 31, auger 32 and agitator 33, agitator 33's bottom and inner diapire fixed connection of storage bucket 1, seted up the discharge opening on the agitator 33, and the feed port has been seted up to the below of discharge opening, agitator motor 31 is vertical form and sets up in the bottom of jacket layer 13, and agitator motor 31's output extends to in the storage bucket 1, auger 32 sets up in agitator 33, and auger 32 and agitator motor 31's output fixed connection, and agitator motor 31 drives auger 32 on the output, and auger 32 rotates in agitator 33, and auger 32 rotates and rises water-reducing agent from the feed port drive, falls down from the discharge port again, through the continuous water-reducing agent extraction of storage bucket 1 bottom of auger 32, discharges from top discharge port again for more areas and air contact, the heat dissipation is convenient.

Specifically, air cooling unit 4 includes exhaust fan 41, exhaust pipe 42, air exhaust frame 43 and filter screen 44, exhaust pipe 42 is the level form and sets up on jacket layer 13, and in exhaust pipe 42's one end extended to storage bucket 1, filter screen 44 sets up on exhaust pipe 42's the other end, air exhaust frame 43 sets up in exhaust pipe 42, and air exhaust frame 43 is located the side of filter screen 44, exhaust fan 41 sets up on air exhaust frame 43, and exhaust fan 41's output sets up towards the discharge opening, and exhaust fan 41 in the exhaust pipe 42 constantly bloies towards the discharge opening for exhaust fan 41 carries out the blast cooling to the water-reducing agent that falls down in the discharge opening, and the last filter screen 44 of exhaust fan 41 is used for preventing granule and dust entering storage bucket 1.

Specifically, circulation subassembly 5 includes storage water tank 51, two mount 52 and two back flow 53, two mount 52 interval respectively sets up on base 11, and two back flow 53 install respectively on two mount 52, two back flow 53 is linked together, one back flow 53 is linked together with drain pipe 23, and another back flow 53 communicates with storage water tank 51, storage water tank 51 sets up on base 11, and storage water tank 51 is located two mount 52 sides, and during the hot-water that discharges flowed into back flow 53 again in the drain pipe 23, stores in flowing into storage water tank 51 along with back flow 53 again, through the setting that back flow 53 spirals, increases the time that hot-water flows, has also accelerated hydrothermal radiating time simultaneously, and the water of being convenient for in the storage water tank 51 can be faster cyclic utilization.

Specifically, a discharge pipe 14 is arranged on the charging basket 1, and the water reducing agent is discharged by opening the discharge pipe 14 after the cooling operation is completed.

The working process of the utility model is as follows: firstly, after the water reducing agent is heated in the reaction kettle, the water reducing agent is added into the charging basket 1, cold water is continuously added into the cooling cavity through the water pump 21, the check valve 24 controls the water discharge pipe 23 to discharge water into the cooling cavity, the temperature in the charging basket 1 is cooled through the circulating cold water, the stirring motor 31 drives the auger 32 on the output end, the auger 32 rotates in the stirring basket 33, the water reducing agent is driven to rise from the feed hole through the rotation of the auger 32 and then falls from the discharge hole, the auger 32 continuously extracts the water reducing agent at the bottom of the charging basket 1 and discharges the water reducing agent from the upper part, so that more area of the water reducing agent is contacted with air to facilitate heat dissipation, meanwhile, the exhaust fan 41 in the exhaust pipe 42 continuously blows air towards the discharge hole, so that the exhaust fan 41 performs air blowing cooling on the water reducing agent falling from the discharge hole, the upper filter screen 44 of the exhaust fan 41 is used for preventing particles and dust from entering the charging basket 1, discharged hot water flows into the return pipe 53 again in the drain pipe 23, flows into the storage water tank 51 along with the return pipe 53 and stores, through the setting that the return pipe 53 spirals, increases the time that hot water flows, has also accelerated hydrothermal radiating time simultaneously, and the water in the storage water tank 51 of being convenient for can be faster recycles, and the rethread is opened discharging pipe 14 and is discharged the water-reducing agent after the cooling work of water-reducing agent is accomplished.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (6)

1. The utility model provides a cooling device for water-reducing agent which characterized in that: comprises a charging basket (1), a base (11), a support frame (12), a jacket layer (13), a water cooling component (2), a stirring component (3), an air cooling component (4) and a circulating component (5), wherein the support frame (12) is arranged on the base (11), the jacket layer (13) is vertically arranged on the support frame (12), the jacket layer (13) is sleeved on the charging basket (1), a cooling cavity is reserved between the jacket layer (13) and the charging basket (1), the water cooling component (2) is arranged on the support frame (12), the output end of the water cooling component (2) extends into the cooling cavity, the stirring component (3) is vertically arranged at the bottom of the jacket layer (13), the output end of the stirring component (3) extends into the charging basket (1), the air cooling component (4) is horizontally arranged on the outer wall of the jacket layer (13), and the air cooling component (4) is communicated with the charging basket (1), the circulating assembly (5) is arranged on the base (11), and the circulating assembly (5) is communicated with the cooling cavity.

2. The cooling device for the water reducing agent according to claim 1, characterized in that: water-cooling subassembly (2) include water pump (21), inlet tube (22), drain pipe (23) and check valve (24), water pump (21) are the top of vertical form setting at support frame (12), the output of water pump (21) and the one end fixed connection of inlet tube (22), and the other end of inlet tube (22) extends to the cooling chamber intracavity, the one end setting of drain pipe (23) is in the cooling chamber, and the other end of drain pipe (23) is connected with circulation subassembly (5), check valve (24) set up on drain pipe (23), and drain pipe (23) are located inlet tube (22) below.

3. The cooling device for the water reducing agent according to claim 1, characterized in that: stirring subassembly (3) are including agitator motor (31), auger (32) and agitator (33), the bottom of agitator (33) and the interior diapire fixed connection of storage bucket (1), the discharge opening has been seted up on agitator (33), and the feed port has been seted up to the below of discharge opening, agitator motor (31) are vertical form setting in the bottom that presss from both sides jacket layer (13), and the output of agitator motor (31) extends to in storage bucket (1), auger (32) set up in agitator (33), and auger (32) and the output fixed connection of agitator motor (31).

4. The cooling device for the water reducing agent according to claim 1, characterized in that: air cooling subassembly (4) are including exhaust fan (41), exhaust pipe (42), air exhaust frame (43) and filter screen (44), exhaust pipe (42) are the level form and set up on jacket layer (13), and the one end of exhaust pipe (42) extends to in storage bucket (1), filter screen (44) set up on the other end of exhaust pipe (42), air exhaust frame (43) set up in exhaust pipe (42), and air exhaust frame (43) are located the side of filter screen (44), exhaust fan (41) set up on air exhaust frame (43), and the output of exhaust fan (41) sets up towards the discharge opening.

5. The cooling device for the water reducing agent according to claim 1, characterized in that: circulation subassembly (5) include storage water tank (51), two mount (52) and two back flow (53), two mount (52) interval setting respectively is on base (11), and installs respectively on two mount (52) two back flow (53), two back flow (53) are linked together, one back flow (53) are linked together with drain pipe (23), and another back flow (53) and storage water tank (51) intercommunication, storage water tank (51) set up on base (11), and storage water tank (51) are located two mount (52) sides.

6. The cooling device for the water reducing agent according to claim 1, characterized in that: the bottom of the charging bucket (1) is provided with a discharging pipe (14).

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