CN208332909U - A kind of energy conservation drying chamber - Google Patents
A kind of energy conservation drying chamber Download PDFInfo
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- CN208332909U CN208332909U CN201820897727.8U CN201820897727U CN208332909U CN 208332909 U CN208332909 U CN 208332909U CN 201820897727 U CN201820897727 U CN 201820897727U CN 208332909 U CN208332909 U CN 208332909U
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- drying chamber
- wall
- fixedly connected
- insulating tube
- waste gas
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Abstract
The utility model discloses a kind of energy saving drying chambers, including laboratory, laboratory is internally provided with drying chamber ontology, the surface of drying chamber ontology is fixedly connected with blast pipe, and one end of multiple blast pipes is fixed respectively to be connected to multiple dryers, and the inner wall of blast pipe is connected to the fixation of the inner wall of drying chamber ontology, the exhaust outlet fixation of dryer is communicated with hose, one end fixation of hose is communicated with emission-control equipment, and emission-control equipment includes waste gas collection box, and the inner wall of drying chamber ontology is fixedly connected with dehumidification device.The energy conservation drying chamber, when using the drying chamber, the exhaust gas that dryer generates enters waste gas collection box by hose, exhaust gas after HEAP high efficiency filter net filtration is returned to inside drying chamber by being pumped into the second insulating tube by the first insulating tube by blower, drying chamber is internally heated, by filtered exhaust gas, entrance can disturb the air circulation inside drying chamber at the top of drying chamber simultaneously, to have the characteristics that waste gas circulation utilization.
Description
Technical field
The utility model relates to drying chamber technical fields, more specifically, it relates to a kind of energy conservation drying chamber.
Background technique
Drying chamber be also known as baking and curing room solidified for large electric, motor, coating, chemical article, appearance, food and
The moisture of various product, which dries advanced hot air circulating system, makes operating room's uniformity of temperature profile.Silent ventilator system creates
Quiet working environment.Electrothermal tube heating is sealed, performance is stablized, and the service life is long.Bottom equipped with track and equipped with for load workpiece or
The trolley of test specimen, work efficiency is high.The ventilation volume of operating room is adjusted in air inlet-and-exhaust device.Standalone console can be controlled nearby
System, can also focus on control room and be uniformly controlled.Import high-precision intelligent temperature programmed control instrument temperature control can be selected, P.I.D parameter is certainly
Adjustment, solid-state relay Power Regulation can preset multi-segment program temperature control curve.Intelligent temperature control instrument temperature control controls sensitive reliable.Record
Instrument records work overall process temperature curve.Overtemperature protection device can issue sound and light alarm signal and cut off heating power supply, and protection is set
Standby and workpiece safety.
It for a large amount of dryers that laboratory uses, works independently, discharges a large amount of exhaust gas (hot gas), laboratory operation
Personnel are sultry, need to open ventilation and air-conditioning for a long time, cause a large amount of energy waste, and laboratory test sample type is various, and
It is influenced by natural weather, when rainy days and winter, needs the clothing of naturally dry and fabric not to dry in time, largely effect on
The exhaust gas of production efficiency, dryer discharge is mingled with various lints, influences air quality, influences human health, so needing one kind
The baking room of environmental protection and energy saving.
Utility model content
In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of energy saving drying chambers, with ring
Protect the feature of energy conservation.
To achieve the above object, the utility model provides following technical solution:
A kind of energy conservation drying chamber, including laboratory, the laboratory are internally provided with drying chamber ontology, the drying chamber ontology
Surface is fixedly connected with blast pipe, and one end of multiple blast pipes is fixed respectively to be connected to multiple dryers, the blast pipe
Inner wall is connected to the fixation of the inner wall of drying chamber ontology, and the exhaust outlet fixation of the dryer is communicated with hose, one end of the hose
Fixation is communicated with emission-control equipment, and the emission-control equipment includes waste gas collection box, and the inner wall of the drying chamber ontology is fixed
It is connected with dehumidification device, the dehumidification device includes ventilation duct.
By using above-mentioned technical proposal,
Further, the inner wall of the waste gas collection box is fixedly connected with HEAP high efficiency particulate air, the waste gas collection box
Inner roof wall be fixedly connected with the first insulating tube, one end of first insulating tube is fixedly connected with blower, first heat preservation
The inner wall of pipe is connected to the fixation of the air inlet of blower.
By using above-mentioned technical proposal,
Further, the second insulating tube, one end of second insulating tube are fixedly connected at the top of the drying chamber ontology
It is connected to the fixation of the air outlet of blower, the inner wall of second insulating tube is connected to the fixation of the inner wall of drying chamber ontology.
By using above-mentioned technical proposal,
Further, the surface of the waste gas collection box is fixedly connected with third insulating tube, the third insulating tube it is interior
Wall is fixedly connected with solenoid valve, and the inner wall of the third insulating tube is fixedly installed with the first fan, and the one of the third insulating tube
End extends to the surface of waste gas collection box.
By using above-mentioned technical proposal,
Further, the inner wall in the laboratory is fixedly connected with temperature sensor, and the temperature sensor passes through electric wire
It is electrically connected with the first speed-variable module, first speed-variable module has been electrically connected by wires the first single channel relay, and described first
Single channel relay is electrically connected with solenoid valve and the first fan respectively.
By using above-mentioned technical proposal,
Further, one end of the air hose extends to the outer surface in laboratory, and the inner wall of the ventilation duct is fixedly mounted
There is the second fan, the inner wall of the ventilation duct is fixedly connected with shutter, and the inner wall of the drying chamber ontology is fixedly connected with humidity
Sensor, the humidity sensor have been electrically connected by wires the second speed-variable module, and second speed-variable module passes through electric wire electricity
It is connected with the second single channel relay, the second single channel relay is electrically connected by electric wire with the second fan.
By using above-mentioned technical proposal,
Further, the temperature sensor model PT100 type, the humidity sensor are FDR type, and described first is single
Road relay and the second single channel relay model are HM-CTR0L type.
In conclusion the utility model has the following beneficial effects:
1, by setting, laboratory is internally provided with drying chamber ontology, and the surface of drying chamber ontology is fixedly connected with blast pipe,
One end of multiple blast pipes is fixed respectively to be connected to multiple dryers, and the inner wall of blast pipe is connected to the fixation of the inner wall of drying chamber ontology,
The exhaust outlet of dryer is fixed to be communicated with hose, and one end fixation of hose is communicated with emission-control equipment, emission-control equipment packet
Waste gas collection box is included, the inner wall of drying chamber ontology is fixedly connected with dehumidification device, and dehumidification device includes ventilation duct, is using the drying chamber
When, the exhaust gas that dryer generates enters waste gas collection box by hose, and the exhaust gas after HEAP high efficiency filter net filtration is logical
It crosses to be pumped into the second insulating tube by the first insulating tube by blower and return to inside drying chamber, drying chamber is internally heated, simultaneously
By filtered exhaust gas into the air circulation that can be disturbed inside drying chamber at the top of drying chamber, to have waste gas circulation to utilize
The characteristics of.
2, the outer surface in laboratory is extended to by the way that one end of air hose is arranged, the inner wall of ventilation duct is fixedly installed with the second wind
Fan, the inner wall of ventilation duct are fixedly connected with shutter, and the inner wall of drying chamber ontology is fixedly connected with humidity sensor, humidity sensor
It has been electrically connected by wires the second speed-variable module, the second speed-variable module has been electrically connected by wires the second single channel relay, and second
Single channel relay is electrically connected by electric wire with the second fan, when using the drying chamber, if the humidity sensor in drying chamber incudes
Humidity in drying chamber is excessively high, and humidity sensor issues electric signal and controls the second starting fan by the second single channel relay, dries
Humid air in room flows out to the outside in laboratory by shutter and ventilation duct, to have the effect of automatic dehumidifying, solves
It has determined the excessively high problem of drying chamber interior humidity.
3, it is fixedly connected with temperature sensor by the way that the inner wall in laboratory is arranged, temperature sensor has been electrically connected by wires
First speed-variable module, the first speed-variable module have been electrically connected by wires the first single channel relay, the first single channel relay respectively with
Solenoid valve and the electrical connection of the first fan, when using the drying chamber, if tested in indoor temperature sensor senses to laboratory
Temperature it is excessive, temperature sensor issues electric signal and controls the first single channel relay control solenoid valve and the first starting fan, the
One fan by the hot-air in waste gas collection box by filtering by third insulating tube to heating up in laboratory, to reach pair
The effect that laboratory heats reduces the frequency turned on the aircondition in laboratory.
Detailed description of the invention
FIG. 1 is a schematic structural view of the utility model;
Fig. 2 is the utility model structure diagram.
In figure: 1, laboratory;2, drying chamber ontology;3, blast pipe;4, dryer;5, hose;6, waste gas collection box;7, it divulges information
Pipe;8, HEAP high efficiency particulate air;9, the first insulating tube;10, blower;11, the second insulating tube;12, third insulating tube;13, electromagnetism
Valve;14, the first fan;15, temperature sensor;16, the first speed-variable module;17, the first single channel relay;18, the second fan;
19, shutter;20, humidity sensor;21, the second speed-variable module;22, the second single channel relay.
Specific embodiment
Embodiment:
The utility model is described in further detail below in conjunction with attached drawing 1-2.
A kind of energy conservation drying chamber, as shown in Figs. 1-2, including laboratory 1, laboratory 1 are internally provided with drying chamber ontology 2, dry
The surface of room ontology 2 is fixedly connected with blast pipe 3, and one end of multiple blast pipes 3 is fixed respectively to be connected to multiple dryers 4, air inlet
The inner wall of pipe 3 is connected to the fixation of the inner wall of drying chamber ontology 2, and the exhaust outlet fixation of dryer 4 is communicated with hose 5, one end of hose 5
Fixation is communicated with emission-control equipment, and emission-control equipment includes waste gas collection box 6, and the inner wall of waste gas collection box 6 is fixedly connected
There is HEAP high efficiency particulate air 8, the inner roof wall of waste gas collection box 6 is fixedly connected with the first insulating tube 9, by being arranged, laboratory 1
It is internally provided with drying chamber ontology 2, the surface of drying chamber ontology 2 is fixedly connected with blast pipe 3, and one end of multiple blast pipes 3 is solid respectively
Surely multiple dryers 4 are connected to, the inner wall of blast pipe 3 is connected to the fixation of the inner wall of drying chamber ontology 2, and the exhaust outlet of dryer 4 is fixed
It is communicated with hose 5, one end fixation of hose 5 is communicated with emission-control equipment, and emission-control equipment includes waste gas collection box 6, is dried
The inner wall of room ontology 2 is fixedly connected with dehumidification device, and dehumidification device includes ventilation duct 7, and when using the drying chamber, dryer 4 is produced
Raw exhaust gas enters waste gas collection box 6 by hose 5, and the exhaust gas after filtering by HEAP high efficiency particulate air 8 passes through by the
One insulating tube 9 is pumped into the second insulating tube 11 by blower 10 and is returned to inside drying chamber, is internally heated to drying chamber, is passed through simultaneously
The entrance at the top of drying chamber of filtered exhaust gas can disturb the air circulation inside drying chamber, thus the spy utilized with waste gas circulation
Point, one end of the first insulating tube 9 are fixedly connected with blower 10, the inner wall of the first insulating tube 9 and the fixed company of the air inlet of blower 10
Logical, the top of drying chamber ontology 2 is fixedly connected with the second insulating tube 11, and one end of the second insulating tube 11 and the air outlet of blower 10 are solid
The inner wall of fixed connection, the second insulating tube 11 is connected to the fixation of the inner wall of drying chamber ontology 2, and the surface of waste gas collection box 6 is fixedly connected
There is third insulating tube 12, the inner wall of third insulating tube 12 is fixedly connected with solenoid valve 13, the fixed peace of the inner wall of third insulating tube 12
Equipped with the first fan 14, one end of third insulating tube 12 extends to the surface of waste gas collection box 6, and the inner wall in laboratory 1 is fixed to be connected
It is connected to temperature sensor 15, temperature sensor 15 has been electrically connected by wires the first speed-variable module 16, and the first speed-variable module 16 is logical
It crosses electric wire and is electrically connected with the first single channel relay 17, the inner wall by the way that laboratory 1 is arranged is fixedly connected with temperature sensor 15, temperature
Degree sensor 15 has been electrically connected by wires the first speed-variable module 16, and it is single that the first speed-variable module 16 has been electrically connected by wires first
Road relay 17, the first single channel relay 17 are electrically connected with solenoid valve 13 and the first fan 14 respectively, when using the drying chamber, such as
Fruit tests indoor temperature sensor 15 and senses that the indoor temperature of experiment is excessive, and temperature sensor 15 issues electric signal control the
One single channel relay 17 controls solenoid valve 13 and the starting of the first fan 14, and the first fan 14 will pass through filtering in waste gas collection box 6
Hot-air by third insulating tube 12 to heating up in laboratory, to achieve the effect that heat laboratory, reduce reality
The indoor frequency turned on the aircondition is tested, the first single channel relay 17 is electrically connected with solenoid valve 13 and the first fan 14 respectively, drying chamber ontology 2
Inner wall be fixedly connected with dehumidification device, dehumidification device includes ventilation duct 7, and one end of air hose extends to the outer surface in laboratory 1,
The inner wall of ventilation duct 7 is fixedly installed with the second fan 18, and the inner wall of ventilation duct 7 is fixedly connected with shutter 19, drying chamber ontology 2
Inner wall is fixedly connected with humidity sensor 20, and humidity sensor 20 has been electrically connected by wires the second speed-variable module 21, and second becomes
Fast module 21 has been electrically connected by wires the second single channel relay 22, and the second single channel relay 22 passes through electric wire and the second fan 18
Electrical connection, 15 model PT100 type of temperature sensor, humidity sensor 20 are FDR type, and the first single channel relay 17 and second is single
Relay 22 model in road is HM-CTRL01 type, and one end by the way that air hose is arranged extends to the outer surface in laboratory 1, ventilation duct 7
Inner wall be fixedly installed with the second fan 18, the inner wall of ventilation duct 7 is fixedly connected with shutter 19, and the inner wall of drying chamber ontology 2 is solid
Surely it is connected with humidity sensor 20, humidity sensor 20 has been electrically connected by wires the second speed-variable module 21, the second speed-variable module
21 have been electrically connected by wires the second single channel relay 22, and the second single channel relay 22 is electrically connected by electric wire with the second fan 18
It connects, when using the drying chamber, if the humidity sensor 20 in drying chamber senses that the humidity in drying chamber is excessively high, humidity sensor 20
It issues electric signal and the starting of the second fan 18 is controlled by the second single channel relay 22, the humid air in drying chamber passes through shutter 19
The outside in laboratory is flowed out to ventilation duct 7, to have the effect of automatic dehumidifying, solves that drying chamber interior humidity is excessively high to ask
Topic.
This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability
Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but
As long as all by the protection of Patent Law in the scope of the claims of the utility model.
Claims (7)
1. a kind of energy conservation drying chamber, including laboratory (1), it is characterised in that: the laboratory (1) is internally provided with drying chamber ontology
(2), the surface of the drying chamber ontology (2) is fixedly connected with blast pipe (3), and one end of multiple blast pipes (3) is fixed respectively
It is connected to multiple dryers (4), the inner wall of the blast pipe (3) is connected to the fixation of the inner wall of drying chamber ontology (2), the dryer
(4) exhaust outlet fixation is communicated with hose (5), and one end fixation of the hose (5) is communicated with emission-control equipment, the exhaust gas
Processing unit includes waste gas collection box (6), and the inner wall of the drying chamber ontology (2) is fixedly connected with dehumidification device, the dehumidifying dress
It sets including ventilation duct (7).
2. energy conservation drying chamber according to claim 1, it is characterised in that: the inner wall of the waste gas collection box (6) is fixedly connected
Having HEAP high efficiency particulate air (8), the inner roof wall of the waste gas collection box (6) is fixedly connected with the first insulating tube (9), and described first
One end of insulating tube (9) is fixedly connected with blower (10), and the inner wall of first insulating tube (9) and the air inlet of blower (10) are solid
Fixed connection.
3. energy conservation drying chamber according to claim 2, it is characterised in that: be fixedly connected at the top of the drying chamber ontology (2)
One end of second insulating tube (11), second insulating tube (11) is connected to the fixation of the air outlet of blower (10), and described second protects
The inner wall of temperature pipe (11) is connected to the fixation of the inner wall of drying chamber ontology (2).
4. energy conservation drying chamber according to claim 3, it is characterised in that: the surface of the waste gas collection box (6) is fixedly connected
Have third insulating tube (12), the inner wall of the third insulating tube (12) is fixedly connected with solenoid valve (13), the third insulating tube
(12) inner wall is fixedly installed with the first fan (14), and one end of the third insulating tube (12) extends to waste gas collection box (6)
Surface.
5. energy conservation drying chamber according to claim 4, it is characterised in that: the inner wall of the laboratory (1) is fixedly connected with temperature
It spends sensor (15), the temperature sensor (15) has been electrically connected by wires the first speed-variable module (16), first speed change
Module (16) has been electrically connected by wires the first single channel relay (17), the first single channel relay (17) respectively with solenoid valve
(13) it is electrically connected with the first fan (14).
6. energy conservation drying chamber according to claim 5, it is characterised in that: one end of the air hose extends to laboratory (1)
The inner wall of outer surface, the ventilation duct (7) is fixedly installed with the second fan (18), and the inner wall of the ventilation duct (7) is fixedly connected
Have shutter (19), the inner wall of the drying chamber ontology (2) is fixedly connected with humidity sensor (20), the humidity sensor (20)
It has been electrically connected by wires the second speed-variable module (21), second speed-variable module (21) has been electrically connected by wires the second single channel
Relay (22), the second single channel relay (22) are electrically connected by electric wire with the second fan (18).
7. energy conservation drying chamber according to claim 6, it is characterised in that: temperature sensor (15) the model PT100 type,
The humidity sensor (20) is FDR type, and the first single channel relay (17) and second single channel relay (22) model are
HM-CTRL01 type.
Priority Applications (1)
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CN201820897727.8U CN208332909U (en) | 2018-06-11 | 2018-06-11 | A kind of energy conservation drying chamber |
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CN201820897727.8U CN208332909U (en) | 2018-06-11 | 2018-06-11 | A kind of energy conservation drying chamber |
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CN208332909U true CN208332909U (en) | 2019-01-04 |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112363556A (en) * | 2020-11-10 | 2021-02-12 | 贵州华亿绿色纺织产业科技有限公司 | Temperature and smoke humidity control system |
CN112556368A (en) * | 2020-12-07 | 2021-03-26 | 宜昌高求光电有限公司 | High-efficient drying equipment of quartz sand is used in optical lens piece production |
CN113274853A (en) * | 2021-05-12 | 2021-08-20 | 刘云博 | Dampproof device of water conservancy and hydropower electric automation equipment |
-
2018
- 2018-06-11 CN CN201820897727.8U patent/CN208332909U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112363556A (en) * | 2020-11-10 | 2021-02-12 | 贵州华亿绿色纺织产业科技有限公司 | Temperature and smoke humidity control system |
CN112556368A (en) * | 2020-12-07 | 2021-03-26 | 宜昌高求光电有限公司 | High-efficient drying equipment of quartz sand is used in optical lens piece production |
CN113274853A (en) * | 2021-05-12 | 2021-08-20 | 刘云博 | Dampproof device of water conservancy and hydropower electric automation equipment |
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