CN204240786U - A kind of cement rotary kiln surplus heat collection device - Google Patents

Abstract

The utility model discloses a kind of cement rotary kiln surplus heat collection device, comprise cement rotary kiln body, support, the telescopic water tank of thermal-arrest, heat conduction ball bearing, temperature detector, water inlet system, outlet system, control device and thermal water utilization device, wherein cement rotary kiln body is rotatably installed on support, the telescopic water tank of described thermal-arrest designs for hollow type, the telescopic water tank of described thermal-arrest is sleeved on cement rotary kiln body by heat conduction ball bearing, described temperature detector is arranged on the telescopic water tank of thermal-arrest, water inlet storage tank in described water inlet system is connected to the water inlet of the telescopic water tank of thermal-arrest by water inlet pipe, water outlet storage tank in described outlet system is connected to the delivery port of the telescopic water tank of thermal-arrest by outlet pipe.Waste heat in the middle part of the recyclable cement rotary kiln of this cement rotary kiln surplus heat collection device, organic efficiency is high, and intelligent, safe and reliable, meets energy-conserving and environment-protective theory.

Description

A kind of cement rotary kiln surplus heat collection device

Technical field

The utility model relates to cement manufacture plant technical field, is specially a kind of cement rotary kiln surplus heat collection device.

Background technology

Cement rotary kiln is facility important in cement manufacture plant, and cement rotary kiln power consumption is large, except special circumstances, cement rotary kiln is by being in the state of running continuously, this makes cement rotary kiln surface have a large amount of waste heat, during conventional cement is produced, these heats get the brush-off, can be wasted, this causes energy utilization rate low, do not meet the theory of energy-conserving and environment-protective, in prior art, what have some cement rotary kiln waste heats utilizes device, but due to cement rotary kiln, operationally not stall is dynamic, the general position of only collecting kiln hood and kiln tail etc. and not rotating, a kind of kiln tail waste heat utilizing system of cement rotary kiln disclosed in Chinese patent CN 201327304Y, the heat of kiln tail can only be collected, heats a large amount of in the middle part of kiln body is caused to waste, collect waste heat effect bad.

Utility model content

The purpose of this utility model is to provide a kind of cement rotary kiln surplus heat collection device, to solve the problem proposed in above-mentioned background technology.

For achieving the above object, the utility model provides following solution: a kind of cement rotary kiln surplus heat collection device, comprise cement rotary kiln body, support, the telescopic water tank of thermal-arrest, heat conduction ball bearing, temperature detector, water inlet system, outlet system, control device and thermal water utilization device, wherein cement rotary kiln body is rotatably installed on support, the telescopic water tank of described thermal-arrest designs for hollow type, the telescopic water tank of described thermal-arrest is sleeved on cement rotary kiln body by heat conduction ball bearing, and the external stability of thermal-arrest telescopic water tank is rack-mount, thus fixing the formation with cement rotary kiln body of the telescopic water tank of thermal-arrest relatively rotates, described temperature detector is arranged on the telescopic water tank of thermal-arrest, and be connected with control device, water inlet storage tank in described water inlet system is connected to the water inlet of the telescopic water tank of thermal-arrest by water inlet pipe, water outlet storage tank in described outlet system is connected to the delivery port of the telescopic water tank of thermal-arrest by outlet pipe, and water outlet storage tank is connected to thermal water utilization device by water pipe.

Preferably, the water inlet of the telescopic water tank of described thermal-arrest is positioned at upper face, and delivery port is positioned at lower surface.

Preferably, described water inlet system also comprises water inlet end Electromagnetic Control valve and water inlet end water pump, described water inlet end Electromagnetic Control valve and water inlet end water pump are arranged on water inlet pipe, be positioned at the one end near water inlet storage tank, and water inlet end Electromagnetic Control valve and water inlet end water pump are connected to control device.

Preferably, described outlet system also comprises water side Electromagnetic Control valve and water side water pump, described water side Electromagnetic Control valve and water side water pump are arranged on outlet pipe, be positioned at the one end near the telescopic water outlet of water tank of thermal-arrest, and water side Electromagnetic Control valve and water side water pump are connected to control device.

Preferably, described control device comprises one chip microcomputer processor, temperature data receives and amplification module, water inlet end Electromagnetic Control valve control module, water inlet end water pump control modules, water side Electromagnetic Control valve control module and water side water pump control modules, described temperature data receives and is connected to temperature detector with the signal input part of amplification module, signal output part is connected to one chip microcomputer processor, for receiving and amplify the signal of temperature detector, and pass to one chip microcomputer processor, described water inlet end Electromagnetic Control valve control module, water inlet end water pump control modules, the signal input part of water side Electromagnetic Control valve control module and water side water pump control modules is connected to one chip microcomputer processor, wherein the signal output part of water inlet end Electromagnetic Control valve control module is connected to water inlet end Electromagnetic Control valve, the signal output part of water inlet end water pump control modules is connected to water inlet end water pump, the signal output part of water side Electromagnetic Control valve control module is connected to water side Electromagnetic Control valve, the signal output part of water side water pump control modules is connected to water side water pump.

Preferably, the telescopic tank top of described thermal-arrest is also provided with Pressure gauge and pressure safety valve, and side is provided with level switch, for detecting water level inside.

Compared with prior art, the beneficial effects of the utility model are: this cement rotary kiln surplus heat collection device realizes being rotationally connected between the telescopic water tank of thermal-arrest and cement rotary kiln body by heat conduction ball bearing, the collection of heat in the middle part of cement rotary kiln body can be realized, greatly can improve the utilization rate of waste heat of cement rotary kiln, simultaneously by the direct transferring heat of heat conduction ball bearing, heat transfer efficiency is high, and structure is simple, easy for installation, be easy to realize.

The control device increased, can according to the detection data of the temperature detector be arranged on cement rotary kiln body, the water inlet of the telescopic water tank of Based Intelligent Control thermal-arrest and water outlet, avoid hot water boiling repeatedly to heat the energy waste caused, substantially increase energy utilization rate, and intelligent.

Accompanying drawing explanation

Fig. 1 is the main TV structure schematic diagram of the utility model;

Fig. 2 is the utility model side-looking structural representation;

Fig. 3 is the utility model control device structural representation.

In figure: 1, cement rotary kiln body, 2, support, 3, the telescopic water tank of thermal-arrest, 31, water inlet, 32, delivery port, 33, Pressure gauge, 34, pressure safety valve, 35, level switch, 4, heat conduction ball bearing, 5, temperature detector, 6, water inlet system, 61, water inlet storage tank, 62, water inlet pipe, 63, water inlet end Electromagnetic Control valve, 64, water inlet end water pump, 7, outlet system, 71, water outlet storage tank, 72, outlet pipe, 73, water side Electromagnetic Control valve, 74, water side water pump, 8, control device, 81, processor of single chip computer, 82, temperature data receives and amplification module, 83, water inlet end Electromagnetic Control valve control module, 84, water inlet end water pump control modules, 85, water side Electromagnetic Control valve control module, 86, water side water pump control modules, 9, thermal water utilization device, 91, water pipe.

Detailed description of the invention

Specific implementation method

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Refer to Fig. 1-3, the utility model provides a kind of technical scheme: a kind of cement rotary kiln surplus heat collection device, comprise cement rotary kiln body 1, support 2, the telescopic water tank 3 of thermal-arrest, heat conduction ball bearing 4, temperature detector 5, water inlet system 6, outlet system 7, control device 8 and thermal water utilization device 9, wherein cement rotary kiln body 1 is rotatably installed on support 2, the telescopic water tank 3 of thermal-arrest designs for hollow type, the telescopic water tank 3 of thermal-arrest is contained on cement rotary kiln body 1 by heat conduction ball bearing socket 4, and the external stability of thermal-arrest telescopic water tank 3 is arranged on support 2, thus fixing the formation with cement rotary kiln body 1 of the telescopic water tank of thermal-arrest 3 relatively rotates, accomplish that cement rotary kiln body 1 carries out the collection of waste heat when rotation work, and carry out residual heat collection by the direct contact of heat conduction ball bearing socket 4, residual heat collection efficiency is high.The water inlet 31 of the telescopic water tank 3 of thermal-arrest is positioned at upper face, delivery port 32 is positioned at lower surface, and thermal-arrest telescopic water tank 3 top is also provided with Pressure gauge 33 and pressure safety valve 34, internal pressure can be detected, and reduced pressure by pressure safety valve 34 at any time, safe and reliable, side is provided with level switch 35, for detecting water level inside, prevent the not up to standard and dry combustion method of water level.Temperature detector 5 is arranged on the telescopic water tank 3 of thermal-arrest, and is connected with control device 8.Water inlet storage tank 61 in water inlet system 6 is connected to the water inlet 31 of the telescopic water tank 3 of thermal-arrest by water inlet pipe 62, water inlet system 6 also comprises water inlet end Electromagnetic Control valve 63 and water inlet end water pump 64, water inlet end Electromagnetic Control valve 63 and water inlet end water pump 64 are arranged on water inlet pipe 62, be positioned at the one end near water inlet storage tank 61, and water inlet end Electromagnetic Control valve 63 and water inlet end water pump 64 are connected to control device 8.Water outlet storage tank 71 in outlet system 7 is connected to the delivery port 32 of the telescopic water tank 3 of thermal-arrest by outlet pipe 72, and water outlet storage tank 71 is connected to thermal water utilization device 9 by water pipe 91, outlet system 7 also comprises water side Electromagnetic Control valve 73 and water side water pump 74, water side Electromagnetic Control valve 73 and water side water pump 74 are arranged on outlet pipe 72, be positioned at one end of the delivery port 32 near the telescopic water tank 3 of thermal-arrest, and water side Electromagnetic Control valve 73 and water side water pump 74 are connected to control device 8.

Control device 8 comprises one chip microcomputer processor 81, temperature data receives and amplification module 82, water inlet end Electromagnetic Control valve control module 83, water inlet end water pump control modules 84, water side Electromagnetic Control valve control module 85 and water side water pump control modules 86, temperature data receives and is connected to temperature detector 5 with the signal input part of amplification module 82, signal output part is connected to one chip microcomputer processor 81, for receiving and amplify the signal of temperature detector 5, and pass to one chip microcomputer processor 81.Water inlet end Electromagnetic Control valve control module 83, water inlet end water pump control modules 84, the signal input part of water side Electromagnetic Control valve control module 85 and water side water pump control modules 86 is connected to one chip microcomputer processor 81, wherein the signal output part of water inlet end Electromagnetic Control valve control module 83 is connected to water inlet end Electromagnetic Control valve 63, the signal output part of water inlet end water pump control modules 84 is connected to water inlet end water pump 64, the signal output part of water side Electromagnetic Control valve control module 85 is connected to water side Electromagnetic Control valve 73, the signal output part of water side water pump control modules 86 is connected to water side water pump 74.

Operation principle: control device 8 receives the temperature detection data of temperature detector 5, when detected temperatures arrives preset temperature, control device 8 controls water side Electromagnetic Control valve 73 and opens, control water side water pump 74 to open simultaneously, the hot water of heating is entered water outlet storage tank 71 and be used for later stage use, discharge the water yield by control device 8 preset in advance, after drainage procedure terminates, control device 8 controls water side Electromagnetic Control valve 73 and water side water pump 74 cuts out, open water inlet end Electromagnetic Control valve 63 and water inlet end water pump 64 simultaneously, add water to the telescopic water tank 3 of thermal-arrest, amount of water is identical with displacement, add water after terminating, control device 8 controls water inlet end Electromagnetic Control valve 63 and water inlet end water pump 64 cuts out.

To those skilled in the art, obvious the utility model is not limited to the details of above-mentioned one exemplary embodiment, and when not deviating from spirit of the present utility model or essential characteristic, can realize the utility model in other specific forms.Therefore, no matter from which point, all should embodiment be regarded as exemplary, and be nonrestrictive, scope of the present utility model is limited by claims instead of above-mentioned explanation, and all changes be therefore intended in the implication of the equivalency by dropping on claim and scope are included in the utility model.Any Reference numeral in claim should be considered as the claim involved by limiting.In addition, be to be understood that, although this description is described according to embodiment, but not each embodiment only comprises an independently technical scheme, this narrating mode of description is only for clarity sake, those skilled in the art should by description integrally, and the technical scheme in each embodiment also through appropriately combined, can form other embodiments that it will be appreciated by those skilled in the art that.

Claims (6)

1. a cement rotary kiln surplus heat collection device, comprise cement rotary kiln body, support, the telescopic water tank of thermal-arrest, heat conduction ball bearing, temperature detector, water inlet system, outlet system, control device and thermal water utilization device, wherein cement rotary kiln body is rotatably installed on support, the telescopic water tank of described thermal-arrest designs for hollow type, it is characterized in that: the telescopic water tank of described thermal-arrest is sleeved on cement rotary kiln body by heat conduction ball bearing, and the external stability of thermal-arrest telescopic water tank is rack-mount, thus fixing the formation with cement rotary kiln body of the telescopic water tank of thermal-arrest relatively rotates, described temperature detector is arranged on the telescopic water tank of thermal-arrest, and be connected with control device, water inlet storage tank in described water inlet system is connected to the water inlet of the telescopic water tank of thermal-arrest by water inlet pipe, water outlet storage tank in described outlet system is connected to the delivery port of the telescopic water tank of thermal-arrest by outlet pipe, and water outlet storage tank is connected to thermal water utilization device by water pipe.

2. a kind of cement rotary kiln surplus heat collection device according to claim 1, is characterized in that: the water inlet of the telescopic water tank of described thermal-arrest is positioned at upper face, and delivery port is positioned at lower surface.

3. a kind of cement rotary kiln surplus heat collection device according to claim 1, it is characterized in that: described water inlet system also comprises water inlet end Electromagnetic Control valve and water inlet end water pump, described water inlet end Electromagnetic Control valve and water inlet end water pump are arranged on water inlet pipe, be positioned at the one end near water inlet storage tank, and water inlet end Electromagnetic Control valve and water inlet end water pump are connected to control device.

4. a kind of cement rotary kiln surplus heat collection device according to claim 1, it is characterized in that: described outlet system also comprises water side Electromagnetic Control valve and water side water pump, described water side Electromagnetic Control valve and water side water pump are arranged on outlet pipe, be positioned at the one end near the telescopic water outlet of water tank of thermal-arrest, and water side Electromagnetic Control valve and water side water pump are connected to control device.

5. a kind of cement rotary kiln surplus heat collection device according to claim 1, it is characterized in that: described control device comprises one chip microcomputer processor, temperature data receives and amplification module, water inlet end Electromagnetic Control valve control module, water inlet end water pump control modules, water side Electromagnetic Control valve control module and water side water pump control modules, described temperature data receives and is connected to temperature detector with the signal input part of amplification module, signal output part is connected to one chip microcomputer processor, for receiving and amplify the signal of temperature detector, and pass to one chip microcomputer processor, described water inlet end Electromagnetic Control valve control module, water inlet end water pump control modules, the signal input part of water side Electromagnetic Control valve control module and water side water pump control modules is connected to one chip microcomputer processor, wherein the signal output part of water inlet end Electromagnetic Control valve control module is connected to water inlet end Electromagnetic Control valve, the signal output part of water inlet end water pump control modules is connected to water inlet end water pump, the signal output part of water side Electromagnetic Control valve control module is connected to water side Electromagnetic Control valve, the signal output part of water side water pump control modules is connected to water side water pump.

6. a kind of cement rotary kiln surplus heat collection device according to claim 1, is characterized in that: the telescopic tank top of described thermal-arrest is also provided with Pressure gauge and pressure safety valve, and side is provided with level switch, for detecting water level inside.