CN202160376U - Integrated automatic dust removing energy saving system - Google Patents
Integrated automatic dust removing energy saving system Download PDFInfo
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- CN202160376U CN202160376U CN2011202805581U CN201120280558U CN202160376U CN 202160376 U CN202160376 U CN 202160376U CN 2011202805581 U CN2011202805581 U CN 2011202805581U CN 201120280558 U CN201120280558 U CN 201120280558U CN 202160376 U CN202160376 U CN 202160376U
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- air door
- heat exchange
- controller
- saving
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Abstract
The utility model discloses an integrated automatic dust removing energy saving system, which comprises a controller, a first air door device and a second air door device. The first air door device is controlled by the controller and arranged between a first fan and an upper heat exchanger core. The second air door device is arranged between the lower heat exchanger core and a second fan and controlled by the controller. The first air door device and the second air door device are controlled to be in linkage through the controller so that three functions of heat exchanging radiating, forward direction air supplying radiating and air exhaust radiating dust removing in reverse direction are obtained on the premise that the rotation direction of the fan is not changed. When the system is in the state of reverse air exhaust radiating, dust, subtle sand and the like accumulated on a filter screen are blown out to improve radiating efficiency of the system during long-term use in the state of heat exchanging radiating and forward direction air supplying radiating. The system combines advantages of a heat exchanging system and a fresh air energy saving system, so that a function of direct air venting and radiation is added and simultaneously an automatic dust removing function of the system is added based on the heat exchanging system. Besides, the structure of the integrated automatic dust removing energy saving system is compact.
Description
Technical field
The utility model relates to heat dissipation, energy conservation field, communication equipment station, the automatic dedusting energy-saving of particularly a kind of integral type system.
Background technology
The radiating mode that present communications industry is adopted mainly contains: air-conditioning, intelligent heat exchange system, intelligent fresh air energy conserving system.These three kinds of modes all have pluses and minuses separately, and the heat-sinking capability of air-conditioning is the strongest but energy consumption is also the highest, and the intelligent heat exchange system energy consumption is taken second place but the heat-sinking capability of the unit temperature difference is relatively poor, and intelligent fresh air energy conserving system energy consumption is minimum but relatively poor to the versatility of adverse circumstances.
Refrigeration modes commonly used mainly contains in the communications industry at present: separate unit air conditioner refrigerating, many air-conditionings are worked in coordination with refrigeration, intelligent fresh air energy conserving system and air-conditioning interlock refrigeration, intelligent heat exchange system and air-conditioning interlock refrigeration, intelligent heat exchange system separate refrigeration, intelligent fresh air energy conserving system separate refrigeration etc.The highest mode of reliability is exactly an intelligent heat exchange system and air-conditioning interlock refrigeration in these several kinds of refrigeration modes, but fractional energy savings the highest be that the intelligent fresh air energy conserving system freezes with the air-conditioning interlock.
Deficiency to above prior art; Some heat sinking equipment have also appearred on the recent market; The for example air-conditioning that ventilates of band or the combination products such as air-conditioning of band heat exchange are main but these combination products all are air-conditionings with high energy consumption, in the use of reality, still can consume a large amount of energy; Because the air-conditioning partial fault rate of these combined integral products still is higher, safeguard also more difficult in addition than traditional split-type air conditioner.
The utility model content
The technical problem that the utility model mainly solves provides the automatic dedusting energy-saving of integral type system, and the automatic dedusting energy-saving of this integral type system is big to the loss of the energy in the time of can avoiding with the air conditioner refrigerating of ventilation or band heat exchange, improves refrigerating efficiency; Avoid simultaneously being easy to generate equipment fault, reduce failure rate, improve the stability of its work because of its structure more complicated.
In order to address the above problem; The utility model provides the automatic dedusting energy-saving of a kind of integral type system; The automatic dedusting energy-saving of this integral type system comprises that the upper and lower is respectively equipped with the cabinet of ventilating opening and is arranged at two heat exchange movements of cabinet inside up and down; And be controlled by the controller and first blower fan of being located at cabinet top and second blower fan of being located at the cabinet bottom; This system also comprises first throttle setting and second throttle setting of the closure or openness that are controlled by the controller respectively; Wherein this first throttle setting is between the heat exchange movement on first blower fan and top; And forming interior circulation air path and the outer circulating air duct cooperate with the heat exchange movement on top in the cabinet upper isolation, this second throttle setting is between the heat exchange movement and second blower fan of bottom, and the interior circulation air path and the outer circulating air duct that cooperate with the heat exchange movement on top in the formation of cabinet lower isolation.
Say that further said first throttle setting comprises the first air door frame and first air door that is rotationally connected with this first air door frame, this first air door is connected with the first drive motors rotating shaft that is controlled by the controller; Said second throttle setting comprises and is the I-shaped second air door frame; This second air door sets up second air door of four interlocks; Each second air door is connected with second drive motors respectively; This second drive motors is controlled by the controller, the synchronous closure or openness of two second air doors that are provided with of pair of cross wherein, and another becomes 90 angles of spending to second air door that is positioned at the bottom in two second air doors arranged in a crossed manner with bottom second air door.
Say that further it is fixing that two said heat exchange movements are the vertical stack of diagonal.
Say that further it is parallel along on the long line that said first throttle setting is positioned at heat exchange movement one side.
Say further, be respectively equipped with screen pack, on this screen pack, be provided with and be electrically connected pressure sensor, humidity temperature pickup and dust sensor with controller at the outer circulating air duct air outlet on cabinet top and the outer circulating air duct air inlet of cabinet bottom.
Say that further said pressure sensor is the distributed pressure transducer.
Say further, on said screen pack, be provided with the vibrating mechanism of awarding controller control.
The automatic dedusting energy-saving of the utility model integral type system; Comprise controller and receive the control of this controller respectively and be located at first throttle setting between the heat exchange movement on first blower fan and top and be located at the heat exchange movement of bottom and second throttle setting between second blower fan; It is moving through controller first throttle setting and second throttle setting to be controlled contact, makes under the prerequisite that does not change the blower fan direction of rotation, to realize heat exchange heat radiation, forward air-supply heat radiation, reverse three kinds of functions of air discharging and radiating dedusting.System works can oppositely blow out with the raising system at heat exchange radiating state and the long-term radiating efficiency that uses of forward air-supply radiating state in that the dust of screen pack deposition, the trickle grains of sand etc. are assorted when reverse air discharging and radiating state.The utility model has combined the heat exchange series fresh air energy-saving system advantage separately of unifying cleverly; Utilized the heat exchange series fresh air energy-saving system of unifying; The function that on the heat-exchange system basis, makes system possess the direct ventilation heat radiation has also increased the automatic dedusting function of system, its compact conformation simultaneously simultaneously.
Description of drawings
Fig. 1 is the automatic dedusting energy-saving system embodiment of a utility model integral type structural representation;
Fig. 2 is the utility model second throttle setting example structure sketch map;
Fig. 3 is the automatic dedusting energy-saving system embodiment of a utility model integral type heat exchange view;
Fig. 4 is the new wind view of the automatic dedusting energy-saving system embodiment of the utility model integral type;
Fig. 5 is the automatic dedusting energy-saving system embodiment of a utility model integral type dedusting view.
Below in conjunction with embodiment, and with reference to accompanying drawing, realization, functional characteristics and the advantage of the utility model purpose is described further.
Embodiment
As depicted in figs. 1 and 2, the utility model proposes the automatic dedusting energy-saving system embodiment of a kind of integral type.
The automatic dedusting energy-saving of this integral type system comprises that the upper and lower is respectively equipped with the cabinet 1 of ventilating opening 11 and is arranged at two inner heat exchange movements 2 of cabinet 1 up and down; And first blower fan 10 and second blower fan 8 of being located at cabinet 1 bottom on cabinet 1 top are controlled and be located to controlled device 9; This system also comprises first throttle setting 3 and second throttle setting 5 of respectively controlled device 9 control closure or openness; Wherein this first throttle setting 3 is between the heat exchange movement 2 on first blower fan 10 and top; And form interior circulation air path B-B and the outer circulating air duct A-A cooperate with the heat exchange movement 2 on top in cabinet 1 upper isolation; This second throttle setting 5 and forms interior circulation air path B-B and the outer circulating air duct A-A cooperate with the heat exchange movement 2 of bottom in cabinet 1 lower isolation between the heat exchange movement 2 and second blower fan 8 of bottom.
Specifically, said ventilating opening 11 comprises outer circulating air duct air outlet, the circulation air path air inlet that is positioned at both sides, cabinet top and the circulation air path air outlet that is positioned at the lower box part both sides, outer circulating air duct air inlet.Said first throttle setting 3 comprises the first air door frame 31 and first air door 32 that is rotationally connected with this first air door frame 31, and this first air door 32 is connected with first drive motors, 4 rotating shafts of controlled device 9 controls.
Said second throttle setting 5 comprises and is the I-shaped second air door frame 51; This second air door frame 51 is provided with second air door 50 of four interlocks; Each second air door 50 is connected with second drive motors 52 respectively; 52 controlled devices 9 controls of this second drive motors, two second air doors, the 50 synchronous closure or openness that are provided with of pair of cross wherein, another second air door 50 and 50 one-tenth 90 angle h that spend of bottom second air door to being positioned at the bottom in two second air doors 50 arranged in a crossed manner.Each second air door 50 can be made up of one, two or more second air door plate 54, when second air door 50 is made up of two or above second air door plate, connects through drive link 53 between each air door plate.
When needs carry out work through heat exchange method; Control first blower fan 10 and 8 work of second blower fan respectively by controller 9; And control first throttle setting 3 and be in closed condition; Second throttle setting, 5 corresponding second air doors 50 of opening form outer circulating air duct A-A as shown in Figure 3 and interior circulation air path B-B, and carry out heat exchange through two heat exchange movements 2 this moment.
When needs adopt new wind to carry out heat exchange; Control first blower fan 10 and 8 work of second blower fan respectively by controller 9; Control first throttle setting 3 simultaneously and be in opening; Second throttle setting, 5 two second corresponding air doors 50 are in opening, and other two second air doors 50 are in closed condition and form C direction passage as shown in Figure 4 and D direction passage, and this stylish wind and indoor air do not pass through two heat exchange movements 2.
Outer circulating air duct air inlet in outer circulating air duct air outlet and cabinet bottom is respectively equipped with screen pack 7; When needs carry out dedusting; Controlling first blower fan 10 respectively by controller 9 quits work and 8 work of second blower fan; Control first throttle setting 3 simultaneously and be in opening, second throttle setting, 5 two second corresponding air doors 50 are in opening, and other two second air doors 50 are in closed condition and form E direction passage as shown in Figure 5 and F direction passage; This moment, second blower fan 8 dispelled the dust on the screen pack 7, realized dedusting.Can on this screen pack 7, be provided with as required and be electrically connected pressure sensor, humidity temperature pickup and dust sensor with controller 9; Through pressure sensor, humidity temperature pickup and dust sensor image data is arranged in real time through suitable setting; Realize control first throttle setting 3 and second throttle settings 5 automatically by controller 9, and first blower fan 10 and the second blower fan 8 realization different conditions that cooperatively interacts.
Because 9 pairs first throttle settings 3 of controller and second throttle setting 5 are controlled interlock, make and under the prerequisite that does not change the blower fan direction of rotation, realize heat exchange heat radiation, forward air-supply heat radiation, reverse three kinds of functions of air discharging and radiating dedusting.System works can oppositely blow out with the raising system at heat exchange radiating state and the long-term radiating efficiency that uses of forward air-supply radiating state in that the dust of screen pack deposition, the trickle grains of sand etc. are assorted when reverse air discharging and radiating dedusting state.The utility model has combined the heat exchange series fresh air energy-saving system advantage separately of unifying cleverly; Utilized heat exchange series to unify same or same group centrifugal blower that fresh air energy-saving system all can not lack, the function that on the heat-exchange system basis, makes system possess the direct ventilation heat radiation has also increased the automatic dedusting function of system simultaneously.
Circulation air path air inlet and air outlet lay respectively at two heat exchange movement upper-lower positions of stack in said, when one side is in the state of heat exchange heat radiation when system, and interior circulation and outer circulation air flow ability homonymy air intake and air-out; On the other hand when system is in new wind radiating state; Two heat exchange movements are as the air-flow isolation barrier; Can on heat exchange movement short transverse, cold air and hot-air be carried out layering; Improve and to send the temperature difference of new wind and thermal wind exhausting, and then also carry and imitate new wind radiating efficiency, be unfavorable for the problem that room air is fully mobile when avoiding simultaneously when new wind radiating state, sending new wind passage and heat extraction passage to be positioned at homonymy.
In the above-described embodiments; Two said heat exchange movements 2 can be square; It is fixing that two heat exchange movements 2 are the vertical stack of diagonal, i.e. two heat exchange movement 2 stacks are provided with, and two heat exchange movements, 2 diagonal are positioned at same straight line; Can reduce resistance so that interior circulation air path B-B and outer circulating air duct A-A are smoother.It is parallel along on the long line that said first throttle setting 3 is positioned at heat exchange movement 2 one sides, and circulation air path B-B and outer circulating air duct A-A are smoother in making.Set pressure sensor is the distributed pressure transducer on the screen pack 7.
Can on said screen pack 7, be provided with the vibrating mechanism of awarding controller 9 controls as required, the better dedusting when the dedusting state of this vibrating mechanism.
The above is merely the preferred embodiment of the utility model; Be not thus the restriction the utility model claim; Every equivalent structure or equivalent flow process conversion that utilizes the utility model specification and accompanying drawing content to be done; Or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the utility model.
Claims (7)
1. the automatic dedusting energy-saving of formula system; Comprise that the upper and lower is respectively equipped with the cabinet of ventilating opening and is arranged at two heat exchange movements of cabinet inside up and down; And be controlled by the controller and first blower fan of being located at cabinet top and second blower fan of being located at the cabinet bottom, it is characterized in that:
This system also comprises first throttle setting and second throttle setting of the closure or openness that are controlled by the controller respectively; Wherein this first throttle setting is between the heat exchange movement on first blower fan and top, and forms interior circulation air path and the outer circulating air duct that cooperates with the heat exchange movement on top in the cabinet upper isolation; This second throttle setting and forms interior circulation air path and the outer circulating air duct cooperate with the heat exchange movement on top in the cabinet lower isolation between the heat exchange movement and second blower fan of bottom.
2. the automatic dedusting energy-saving of formula according to claim 1 system is characterized in that:
Said first throttle setting comprises the first air door frame and first air door that is rotationally connected with this first air door frame, and this first air door is connected with the first drive motors rotating shaft that is controlled by the controller;
Said second throttle setting comprises and is the I-shaped second air door frame; This second air door sets up second air door of four interlocks; Each second air door is connected with second drive motors respectively; This second drive motors is controlled by the controller, the synchronous closure or openness of two second air doors that are provided with of pair of cross wherein, and another becomes 90 angles of spending to second air door that is positioned at the bottom in two second air doors arranged in a crossed manner with bottom second air door.
3. the automatic dedusting energy-saving of formula according to claim 1 system is characterized in that:
It is fixing that two said heat exchange movements are the vertical stack of diagonal.
4. the automatic dedusting energy-saving of formula according to claim 1 system is characterized in that:
It is parallel along on the long line that said first throttle setting is positioned at heat exchange movement one side.
5. the automatic dedusting energy-saving of formula according to claim 1 system is characterized in that:
Outer circulating air duct air outlet and outer circulating air duct air inlet at cabinet are respectively equipped with screen pack, on this screen pack, are provided with and are electrically connected pressure sensor, humidity temperature pickup and dust sensor with controller.
6. the automatic dedusting energy-saving of formula according to claim 5 system is characterized in that:
Said pressure sensor is the distributed pressure transducer.
7. the automatic dedusting energy-saving of formula according to claim 5 system is characterized in that:
On said screen pack, be provided with the vibrating mechanism of awarding controller control.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2011202805581U CN202160376U (en) | 2011-08-03 | 2011-08-03 | Integrated automatic dust removing energy saving system |
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CN2011202805581U CN202160376U (en) | 2011-08-03 | 2011-08-03 | Integrated automatic dust removing energy saving system |
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CN202160376U true CN202160376U (en) | 2012-03-07 |
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CN2011202805581U Expired - Lifetime CN202160376U (en) | 2011-08-03 | 2011-08-03 | Integrated automatic dust removing energy saving system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104394676A (en) * | 2014-11-28 | 2015-03-04 | 浙江融汇通信设备有限公司 | Integrated heat-dissipating and energy-saving outdoor unit cabinet and energy-saving circulating system control method thereof |
CN109011917A (en) * | 2018-08-03 | 2018-12-18 | 深圳市诚朗科技有限公司 | A kind of quickly cooling device based on vibrating dust removing |
-
2011
- 2011-08-03 CN CN2011202805581U patent/CN202160376U/en not_active Expired - Lifetime
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104394676A (en) * | 2014-11-28 | 2015-03-04 | 浙江融汇通信设备有限公司 | Integrated heat-dissipating and energy-saving outdoor unit cabinet and energy-saving circulating system control method thereof |
CN104394676B (en) * | 2014-11-28 | 2017-08-22 | 浙江融汇通信设备有限公司 | Integrated radiating saves Cabinet and its energy saving circulating system control method |
CN109011917A (en) * | 2018-08-03 | 2018-12-18 | 深圳市诚朗科技有限公司 | A kind of quickly cooling device based on vibrating dust removing |
CN109011917B (en) * | 2018-08-03 | 2020-10-20 | 连云港市沃鑫高新材料有限公司 | Quick cooling device based on vibration removes dust |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CP03 | Change of name, title or address |
Address after: 518000, Zhongxing new industrial park, 1 new head road, Bantian street, Longgang District, Guangdong, Shenzhen Patentee after: SHENZHEN ZHONGXING SINDI TECHNOLOGIES CO., LTD. Address before: 518129, A workshop, B workshop and C workshop, No. 1, new road, gang tou community, Bantian street, Longgang District, Shenzhen, Guangdong Patentee before: Shenzhen Zhongxing Xindi Telecom Equipment Co., Ltd. |
|
CX01 | Expiry of patent term |
Granted publication date: 20120307 |
|
CX01 | Expiry of patent term |