CN114210284A - Heating reaction device for producing water reducing agent - Google Patents

Abstract

The invention relates to the field of water reducer production equipment, and discloses a heating reaction device for producing a water reducer, which comprises a reaction kettle, a main shaft arranged in the reaction kettle and a driver for driving the main shaft to rotate, wherein a material placing bin, a first heating area and a second heating area are sequentially arranged in the reaction kettle from high to low along the height direction, a radiation heating device is arranged in the first heating area, a conduction heating device is arranged in the second heating area, a discharge hole for discharging materials is formed in the material placing bin, facing the first heating area, and the conduction heating device and the main shaft are connected and can synchronously rotate.

Description

Heating reaction device for producing water reducing agent

Technical Field

The invention relates to the field of water reducing agent production equipment, in particular to a heating reaction device for producing a water reducing agent.

Background

The water reducing agent is a concrete admixture capable of reducing the mixing water consumption under the condition of keeping the slump of concrete basically unchanged, and in the preparation process of the water reducing agent, naphthalene is solid at normal temperature and needs to be put into a naphthalene melting kettle for heating and melting.

Refer to chinese utility model with application number CN201921365360.6 and designed a heating reaction device for producing water reducing agent, its heating method only has the heating wire for stirring arm fixed mounting, heats the material in the reation kettle through heating wire cooperation stirring arm, and this type of heating efficiency is low.

Disclosure of Invention

Aiming at the defect of low heating efficiency of a heating device in a reaction kettle in the prior art, the invention provides a heating reaction device for producing a water reducing agent.

In order to solve the technical problem, the invention is solved by the following technical scheme: the utility model provides a heating reaction device that production water-reducing agent was used, includes reation kettle, sets up the main shaft in reation kettle and orders about main shaft pivoted driver, follow the direction of height and set gradually from high to low and put feed bin, the first zone of heating and the second zone of heating in the reation kettle, be provided with radiant heating device in the first zone of heating, be provided with conduction heating device in the second zone of heating, put the feed bin and offer the discharge opening that is used for the ejection of compact towards the first zone of heating, but conduction heating device links to each other both synchronous rotations with the main shaft.

By adopting the scheme, the material placing bin is provided with a plurality of discharge holes on the bottom surface, materials to be heated and reacted can be poured into the material placing bin, the materials pass through the discharge holes and then fall into the second heating zone through the first heating zone under the action of gravity, the radiation heating device is arranged in the first heating zone, the falling materials are heated in a separated mode through heat radiation, the materials can be uniformly heated for a short time in the first heating zone, when the materials fall into the second heating zone, the materials have a certain temperature, the conduction heating device is arranged in the second heating zone, the conduction heating device is connected with the main shaft and can synchronously rotate with the main shaft, so that the materials in the second heating zone are stirred and heated through the conduction heating device, and the materials are uniformly heated before entering the second heating zone through the first heating zone and the second heating zone, thereby increasing the heating efficiency.

Preferably, the material placing bin is connected with the main shaft, the main shaft can drive the material placing bin to rotate, a vibration seat is arranged in the reaction kettle, the vibration seat is provided with at least one cushion block, the material placing bin is provided with a supporting block towards one side of the ground, the supporting block can be abutted against the vibration seat, and when the supporting block passes through the cushion block, the material placing bin moves along the height direction to drive the material placing bin to form vibration.

Adopt above-mentioned scheme, after supporting the piece through the cushion, put the feed bin under the effect of gravity, put the feed bin whereabouts, order about the cushion again with vibrations seat butt, because the cushion has certain height, make to put the feed bin when the whereabouts, order about to put the feed bin and follow the whereabouts on the direction of height, order about to put the feed bin and form light micro vibration, through the cushion that is annular array, make to put the feed bin when rotating, continuously take place vibrations, it shakes to make the material that is located to put the feed bin shift out from the discharge opening that can be more smooth through vibrations to put the feed bin.

Preferably, the vibration seat is provided with a plurality of cushion blocks which are distributed in an annular array, the material placing bin is provided with a plurality of supporting blocks which are distributed in an annular array, one side of each cushion block, facing to the rotation direction of each supporting block, is provided with a slope, when the material placing bin rotates, each supporting block can slide to the corresponding cushion block along the slope, and when the supporting blocks slide through the cushion blocks, the supporting blocks fall to the vibration seat.

By adopting the scheme, the cushion blocks have the effect of facilitating the continuous vibration of the material placing bin.

Preferably, the radiation heating device comprises a radiation heating component and a housing, the radiation heating component is arranged in the first heating area, the radiation heating component is annularly arranged on the inner wall of the reaction kettle, and the housing is arranged outside the radiation heating component.

By adopting the scheme, the radiation heating device is annularly arranged in the reaction kettle, the arranged area forms a first heating area, and the housing can protect the radiation heating component.

As preferred, the radiation heating subassembly adopts the infrared heating board, and the housing adopts transparent housing, and the main shaft is connected with clean heat-conducting piece, and clean heat-conducting piece is including connecting in the linkage segment of main shaft and connecting in the scraper section of linkage segment, and the scraper section is in the housing butt, and when the main shaft rotated, the scraper section slided along the housing surface.

By adopting the scheme, the scraper section can be abutted against the housing, the main shaft rotates to drive the clean heat conducting piece to rotate, and the scraper section of the clean heat conducting piece cleans the surface of the housing, so that the heat transfer of the radiation heating assembly is stably output.

Preferably, the connecting section is also connected with a heat conducting section, and the heat conducting section is simultaneously positioned in the first heating area and the second heating area.

Adopt above-mentioned scheme, the heat conduction section that is located the first zone of heating part absorbs radiation heating element's heat, and the heat conduction section is with the absorptive heat conduction of the first zone of heating to the second zone of heating in, and clean heat conduction piece drives the synchronous rotation of heat conduction section, heats and stirs the second zone of heating material, has increased heat utilization.

Preferably, the cleaning heat conducting member is connected with the main shaft through the reversing assembly, the reversing assembly can drive the rotation direction of the cleaning heat conducting member to be opposite to the rotation direction of the main shaft, and the conduction heating device and the main shaft synchronously rotate, so that the rotation direction of the heat conducting section of the cleaning heat conducting member is opposite to the rotation direction of the conduction heating device.

Adopt above-mentioned scheme, because the existence of switching-over subassembly for the rotation direction of clean heat conduction piece is opposite with conduction heating device's rotation direction, and the caking of the reducible water-reducing agent of clean heat conduction piece and conduction heating device's rotation direction is opposite, rotates for the folk prescription simultaneously, and the stirring of this scheme is more even.

Preferably, the reversing assembly comprises a driving wheel, a reversing wheel and a driven wheel, the driving wheel is sleeved on the main shaft and synchronously rotates with the main shaft, the driven wheel is sleeved on the main shaft and rotationally connected with the main shaft, and the reversing wheel is meshed with the driving wheel and the driven wheel simultaneously.

By adopting the scheme, the reversing assembly is simple in structure and convenient to install and produce.

Preferably, the conductive heating means comprises a bracket attached to the main shaft, a blade attached to the bracket, and a heating wire located within the blade.

By adopting the scheme, the electric heating wire directly heats the paddle, so that the heat conduction is faster during stirring.

Due to the adoption of the technical scheme, the invention has the remarkable technical effects that: the bottom surface of the material placing bin is provided with a plurality of discharge holes, materials to be heated and reacted can be poured into the material placing bin, the materials pass through the discharge holes and then fall into the second heating zone through the first heating zone under the action of gravity, the radiation heating device is arranged in the first heating zone, the materials in a falling state are heated in an air-isolated mode through heat radiation, the materials can be uniformly heated for a short time in the first heating zone, when the materials fall into the second heating zone, the materials have a certain temperature, the conduction heating device is arranged in the second heating zone, the conduction heating device is connected with the main shaft and can synchronously rotate, so that the materials in the second heating zone are stirred and heated through the conduction heating device, a clean heat conducting piece is arranged opposite to the radiation heating device and is connected with the main shaft through a reversing assembly, and the reversing assembly can drive the rotation direction of the clean heat conducting piece to be opposite to the rotation direction of the main shaft, conduction heating device rotates with the main shaft is synchronous to order about the heat conduction section of clean heat conduction spare and conduction heating device's rotation opposite direction, the caking of the reducible water-reducing agent of clean heat conduction spare and conduction heating device's rotation opposite direction, for the unilateral rotation, the stirring of this scheme is more even simultaneously.

Drawings

FIG. 1 is a schematic structural diagram of a heating reaction device for producing a water reducing agent in an embodiment;

FIG. 2 is a sectional view of the whole of a heating reaction apparatus for producing a water-reducing agent in the example;

FIG. 3 is a schematic view of the vibration seat in the embodiment;

FIG. 4 is a schematic structural diagram of a material storage bin in the embodiment;

fig. 5 is a partially enlarged view of a portion a in fig. 2.

The names of the parts indicated by the numerical references in the above figures are as follows: 1. a reaction kettle; 2. a main shaft; 3. a driver; 4. placing a bin; 5. a first heating zone; 6. a second heating zone; 7. installing a sleeve; 8. mounting blocks; 9. a vibration seat; 10. cushion blocks; 11. a resisting block; 12. a slope surface; 13. a radiant heating assembly; 14. a housing; 15. cleaning the heat conducting member; 16. a connecting section; 17. a scraper segment; 18. a heat conducting section; 19. a driving wheel; 20. a reversing wheel; 21. a driven wheel; 22. installing a shaft; 23. a support; 24. a paddle; 25. and a discharge hole.

Detailed Description

A heating reaction device for producing a water reducing agent is disclosed, and firstly, referring to a figure 1 and a figure 2, the heating reaction device comprises a reaction kettle 1, a main shaft 2 arranged in the reaction kettle 1 and a driver 3 arranged outside the reaction kettle 1 and connected with the main shaft 2, wherein the driver 3 can drive the main shaft 2 to rotate, a material placing bin 4, a first heating area 5 and a second heating area 6 are sequentially arranged in the reaction kettle 1 from high to low along the height direction, a plurality of discharge holes 25 are arranged on the bottom surface of the material placing bin 4, materials to be heated and reacted can be poured into the material placing bin 4, the materials pass through the discharge holes 25, pass through the first heating area 5 and then fall into the second heating area 6 under the action of gravity, a radiation heating device is arranged in the first heating area 5, the materials in a falling state are subjected to spaced heating through thermal radiation, the first heating area 5 can perform transient uniform heating on the materials, and when the materials fall into the second heating area 6, and a conduction heating device is arranged in the second heating area 6, is connected with the main shaft 2 and can synchronously rotate with the main shaft, so that the materials in the second heating area 6 are stirred and heated by the conduction heating device.

Referring to fig. 2, it is upper end open-ended cavity cylindrical structure to put feed bin 4, it is provided with along central circumference to put feed bin 4 and is pipy installation cover 7, main shaft 2 has installation piece 8 through screw threaded connection, installation cover 7 inner wall is the echelonment and includes the path that is greater than the big footpath with 2 clearance fit of main shaft and diameter, installation piece 8 and installation cover 7 big footpath key-type connection, installation piece 8 can with the installation cover 7 big footpath and the poor step face butt that forms of both diameters of path, installation cover 7 can be installed 8 relatively and remove along the axis direction, main shaft 2 rotates and puts feed bin 4 through installation piece 8 drive and rotates.

Referring to fig. 2 to 4, an annular vibration seat 9 is arranged in the reaction kettle 1 opposite to the material placing bin 4, the vibration seat 9 is abutted against one side of the material placing bin 4 facing the first heating area 5, the vibration seat 9 is in threaded connection with the reaction kettle 1 through screws, in combination with fig. 3, a plurality of cushion blocks 10 are convexly arranged on one side of the vibration seat 9 abutted against the material placing bin 4, the cushion blocks 10 are arranged in an annular array, in combination with fig. 4, one side of the material placing bin 4 facing the ground is provided with abutting blocks 11, the number of the abutting blocks 11 is the same as that of the cushion blocks 10, the abutting blocks 11 are distributed in an annular array, the cushion blocks 10 and the vibration seat 9 are integrally formed, the abutting blocks 11 and the material placing bin 4 are integrally formed, one side of all the cushion blocks 10 facing the rotating direction of the abutting blocks 11 is provided with a slope 12, the slope 12 is used for facilitating the abutting blocks 11 to slide to the cushion blocks 10 along the slope 12, when the abutting blocks 11 move along the slope 10, the step surface of the mounting sleeve 7 is separated from the mounting block 8, make and put feed bin 4 and be the direction of keeping away from the ground and remove, the cushion 10 opposite side is not provided with domatic 12, after support piece 11 through cushion 10, put feed bin 4 under the effect of gravity, put feed bin 4 whereabouts, it supports with vibrations seat 9 butt again to order about cushion 10, because cushion 10 has certain height, make put feed bin 4 when the whereabouts, it falls to order about put feed bin 4 from the direction of height, order about and put feed bin 4 and form slight vibrations, through the cushion 10 that is annular array, make put feed bin 4 when rotating, continuously take place vibrations, it makes the material that is located to put feed bin 4 shake the follow discharge opening 25 that can be more smooth of feed bin and shift out through shaking, the material loops through first zone of heating 5 and second zone of heating 6 along the direction.

Referring to fig. 2, the radiation heating apparatus includes a radiation heating component 13 and a housing 14 disposed in a first heating zone 5, the radiation heating component 13 is disposed on an inner wall of a reaction vessel 1 in a ring shape, the housing 14 is a circular cylinder mounted on the outer housing 14 of the radiation heating component 13 and is connected to the inner wall of the reaction vessel 1 through screws and threads, the housing 14 is made of a transparent material, the radiation heating component 13 is an infrared heating plate in this embodiment, a cleaning heat conducting member 15 is disposed on the first heating zone 5 of a main shaft 2, the cleaning heat conducting member 15 includes a connecting section 16 for connecting the main shaft 2, a scraper section 17 connected to the connecting section 16 and a heat conducting section 18 connected to the connecting section 16, the heat conducting section 18 is disposed in the first heating zone 5 and the second heating zone 6 at the same time, the connecting section 16 is rotatably connected to the main shaft 2, the scraper section 17 is Contraband-shaped, and one end of the scraper section 17 with Contraband-shaped opening is welded to the connecting section 16, the scraper section 17 is kept away from Contraband font opening one side and can be with housing 14 butt, rotates when main shaft 2 and drives clean heat-conducting member 15 and rotate, and the scraper section 17 of clean heat-conducting member 15 cleans housing 14 surface, avoids the water-reducing agent to bond on housing 14, and the parcel has the rubber layer on the scraper section 17, and the rubber layer is avoided scraper section 17 to cause the damage to housing 14.

Referring to fig. 2, the cleaning heat-conducting member 15 is connected to the main shaft 2 via a reversing assembly, and referring to fig. 5, the reversing assembly includes a driving wheel 19 connected to the main shaft 2 via a key, a reversing wheel 20, and a driven wheel 21 connected to the connecting section 16 of the cleaning heat-conducting member 15, the driving wheel 19 is sleeved on the main shaft 2 and rotates synchronously with the main shaft 2, the driven wheel 21 is sleeved on the main shaft 2 and rotates with the main shaft 2, a ring of teeth are disposed on the opposite surfaces of the driving wheel 19 and the driven wheel 21, the reversing wheel 20 is disposed between the driving wheel 19 and the driven wheel 21, and the change wheel 20 meshes with the driving wheel 19 and the driven wheel 21 simultaneously, the inner wall of the reaction kettle 1 is fixedly connected with a mounting shaft 22, one end of the mounting shaft 22 is positioned on the driving wheel 19 and the driven wheel 21, the steering wheel is rotatably connected on the mounting shaft 22, the connecting section 16 is tubular, one end of the connecting section is in threaded connection with the driven wheel 21 through screws, and ball bearings are arranged between the inner ring of the driven wheel 21 and the inner ring of the connecting section 16 and the rotating shaft.

Referring to fig. 2, the conduction heating device includes a bracket 23 welded to the main shaft 2, a paddle 24 welded to the bracket 23, and an electric heating wire located in the paddle 24, the paddle 24 can be heated by the electric heating wire, the main shaft 2 rotates to drive the material storage bin 4 to rotate, when the material storage bin 4 rotates, the material storage bin 4 is driven to be in a state of vibrating up and down by the cooperation of the abutting block 11 and the cushion block 10, the material located in the material storage bin 4 is conveniently discharged from the discharge hole 25 and firstly enters the first heating zone 5, the material passes through the first heating zone 5 orderly due to the vibration of the material storage bin 4, when passing through the first heating zone 5, the material passing through the first heating zone 5 can be uniformly heated by the radiation heating assembly 13, the material has a certain temperature after being initially heated, and when falling into the second heating zone 6, the first heating zone 5 is provided with the clean heat conducting member 15, under the action of the reversing assembly, the rotation direction of the cleaning heat conducting piece 15 is opposite to the rotation direction of the spindle 2, when the cleaning heat conducting piece 15 is used for cleaning the housing 14 on the radiation heating assembly 13, materials in the second heating area 6 can be synchronously heated and stirred, the conduction heating device in the second heating area 6 is used as a main heating device, the paddle 24 is used for heating the materials while stirring the materials in the second heating area 6, under the action of the reversing assembly, the rotation direction of the cleaning heat conducting piece 15 is opposite to the rotation direction of the paddle 24, the opposite rotation directions of the cleaning heat conducting piece 15 and the conduction heating device can reduce caking of a water reducing agent and increase the qualification rate of finished products, because the heat conducting section 18 is simultaneously positioned in the first heating area 5 and the second heating area 6, the part of the heat conducting section 18 positioned in the first heating area 5 can be heated by the radiation heating assembly 13, the heat conducting section 18 is made of a material with better heat conducting property, so that the heat generated by the heat conducting section 18 in the first heating area 5 can be conducted to the part of the heat conducting section 18 in the second heating area 6, and the heat utilization rate is increased.

Claims (9)

1. The utility model provides a heating reaction device that production water-reducing agent used, includes reation kettle (1), sets up main shaft (2) in reation kettle (1) and orders about main shaft (2) pivoted driver (3), its characterized in that, follow direction of height and set gradually storage bin (4), the first zone of heating (5) and the second zone of heating (6) of heating from high to low in reation kettle (1), be provided with radiant heating device in the first zone of heating (5), be provided with conduction heating device in the second zone of heating (6), it offers discharge opening (25) that are used for the ejection of compact to put storage bin (4) towards the first zone of heating (5), but conduction heating device links to each other both synchronous rotations with main shaft (2).

2. The heating reaction device for producing the water reducing agent according to claim 1, characterized in that the material placing bin (4) is connected with the main shaft (2), the main shaft (2) rotates to drive the material placing bin (4) to rotate, a vibration seat (9) is arranged in the reaction kettle (1), the vibration seat (9) is provided with at least one cushion block (10), the material placing bin (4) is provided with a supporting block (11) towards one side of the ground, the supporting block (11) can be abutted against the vibration seat (9), and when the supporting block (11) passes through the cushion block (10), the material placing bin (4) moves along the height direction, and the material placing bin (4) is driven to form vibration.

3. The heating reaction device for producing the water reducing agent according to claim 2, wherein the vibration seat (9) is provided with a plurality of cushion blocks (10), the cushion blocks (10) are distributed in an annular array, the material placing bin (4) is provided with a plurality of abutting blocks (11), the abutting blocks (11) are distributed in an annular array, a slope surface (12) is arranged on one side of the cushion blocks (10) facing the rotating direction of the abutting blocks (11), when the material placing bin (4) rotates, the abutting blocks (11) can slide to the cushion blocks (10) along the slope surface (12), and when the abutting blocks (11) slide through the cushion blocks (10), the abutting blocks (11) fall to the vibration seat (9).

4. The heating reaction device for producing the water reducing agent according to claim 1, wherein the radiation heating device comprises a radiation heating component (13) and a housing (14) which are arranged in the first heating area (5), the radiation heating component (13) is annularly arranged on the inner wall of the reaction kettle (1), and the housing (14) is arranged outside the radiation heating component (13).

5. The heating reaction device for producing the water reducing agent according to claim 4, wherein the radiation heating assembly (13) is an infrared heating plate, the housing (14) is a transparent housing (14), the main shaft (2) is connected with a cleaning heat conducting member (15), the cleaning heat conducting member (15) comprises a connecting section (16) connected to the main shaft (2) and a scraper section (17) connected to the connecting section (16), the scraper section (17) is abutted against the housing (14), and when the main shaft (2) rotates, the scraper section (17) slides along the surface of the housing (14).

6. The heating reaction device for producing the water reducing agent according to the claim 5, characterized in that the connecting section (16) is further connected with a heat conducting section (18), and the heat conducting section (18) is simultaneously located in the first heating zone (5) and the second heating zone (6).

7. The heating reaction device for producing the water reducing agent according to claim 6, wherein the cleaning heat conducting member (15) is connected with the main shaft (2) through a reversing assembly, the reversing assembly can drive the cleaning heat conducting member (15) to rotate in the direction opposite to the rotation direction of the main shaft (2), and the conduction heating device and the main shaft (2) rotate synchronously, so that the heat conducting section (18) of the cleaning heat conducting member (15) is driven to rotate in the direction opposite to the rotation direction of the conduction heating device.

8. The heating reaction device for producing the water reducing agent according to claim 7, wherein the reversing assembly comprises a driving wheel (19), a reversing wheel (20) and a driven wheel (21), the driving wheel (19) is sleeved on the main shaft (2) and rotates synchronously with the main shaft (2), the driven wheel (21) is sleeved on the main shaft (2) and is rotatably connected with the main shaft (2), and the reversing wheel (20) is meshed with the driving wheel (19) and the driven wheel (21) simultaneously.

9. The heating reaction device for producing the water reducing agent according to claim 1, wherein the conduction heating device comprises a bracket (23) connected to the main shaft (2), a paddle (24) connected to the bracket (23) and an electric heating wire positioned in the paddle (24).

Images