CN107916877B - A kind of ventilating control system and inflation method based on energy saving glass pane - Google Patents

Abstract

The present invention discloses a kind of ventilating control system based on energy saving glass pane, it include: glass transfer mechanism, the Jet control arm of gas nozzle is installed, it is mounted on the gas valve of gas storage tanks, the detection probe control arm of detection probe is installed, the nozzle displacement sensor being installed on Jet control arm, it is installed on the detection probe displacement sensor of detection probe control arm, it is sealed the capping control arm of operation, gas detecting instrument, controller, controller and glass transfer mechanism, Jet control arm, gas valve, detection probe control arm, nozzle displacement sensor, detection probe displacement sensor, cover communication connection between control arm and gas detecting instrument；Invention additionally discloses a kind of control methods of ventilating control system based on energy saving glass pane simultaneously.Using technical solution of the present invention, gas concentration is high in glass inner cavity, and aeration speed is fast, heat preservation, the heat-proof quality of energy saving glass pane can be improved, and improve production efficiency.

Description

A kind of ventilating control system and inflation method based on energy saving glass pane

Technical field

The invention belongs to Energy Saving Windows glass making techniques fields, and in particular to a kind of ventilating control based on energy saving glass pane System and inflation method.

Background technique

Currently, requirement of the housing project construction field according to country, every fan window must all be kept the temperature at energy-efficient environmental protection Reason.Especially in the severe cold area of China's high latitude, according to the requirement of national energy-saving, the window of newly constructed house has to comply with country The environmental requirement of heat preservation energy-saving.Existing Energy Saving Windows heat preservation, heat-insulated, soundproof effect is poor, is easy to carry out heat exchange inside and outside window, seriously Room temperature is affected, and vulnerable to influence of noise.In order to improve Energy Saving Windows heat preservation, it is heat-insulated, every noise performance, part is studied Personnel consider to pour inert gas in energy saving glass pane inner cavity.Common inflation method is artificial aeration, using in energy conservation Aperture is opened up on glass pane to be inflated, it, should if CN205153889U discloses a kind of energy saving glass pane in utility model patent Aeration aperture is opened up on the glass of Energy Saving Windows, while being provided with sealing cover and being sealed aeration aperture.The defect of manual inflation's method Be that volumetric efficiency is low, and in energy saving glass pane inner cavity rare gas concentration it is low, it is heat-insulated, insulating efficiency is poor.Therefore, energy saving The inflation method of window has become the big technical bottleneck for producing energy saving glass pane.

Summary of the invention

The technical problem to be solved by the invention is to provide a kind of ventilating control system and inflation based on energy saving glass pane Method solves the technical problem that energy saving glass pane volumetric efficiency is low, aeration quantity is few, heat insulation property is poor in the prior art.

In order to solve the above technical problems, the technical solution adopted by the present invention: a kind of ventilating control based on energy saving glass pane System characterized by comprising

Energy saving glass pane to be processed is delivered to production line and will by glass transfer mechanism, the glass transfer mechanism The energy saving glass pane being disposed is delivered to finished product conveying pipeline or energy saving glass pane to be processed is delivered to substandard products conveying Assembly line；

Jet control arm, gas nozzle is equipped on the spray head control arm, and Jet control armband is moved gas nozzle and carried out Direction is mobile up and down；

Gas valve, the gas valve are mounted in gas storage tanks, the gas storage tanks and the gas nozzle It is connected by hose, gas valve, which controls, to be connected to or close between the gas storage tanks and gas nozzle；

Detection probe control arm, detection probe is equipped on the detection probe control arm, and detection probe control arm drives It is mobile that detection probe carries out direction up and down；

Nozzle displacement sensor, the nozzle displacement sensor are fixedly installed on the Jet control arm, nozzle displacement Sensor detects the location information of the gas nozzle；

Detection probe displacement sensor, the detection probe displacement sensor are fixedly installed in the detection probe control Arm, detection probe displacement sensor find out the location information of detection probe；

Control arm is covered, aluminium parting bead and energy saving glass pane to be processed are sealed operation by the capping control arm；

Gas detecting instrument, the gas detecting instrument receive the gas concentration information of the detection probe acquisition；

Controller, the controller and glass transfer mechanism, Jet control arm, gas valve, detection probe control arm, spray Communication connection between mouth displacement sensor, detection probe displacement sensor, capping control arm and gas detecting instrument, wherein control Device processed includes:

Signal acquisition unit, including position signal acquisition unit and gas concentration signal acquisition unit, the position signal Acquisition unit is used to acquire nozzle displacement sensor, the position signal in detection probe displacement sensor；The gas concentration letter Number acquisition unit is used to acquire the gas concentration signal in gas detecting instrument；

Judging unit, including position signal judging unit, time signal judging unit and gas concentration signal judgement are single Member, the position signal judging unit are used for according to the received nozzle displacement sensor of position signal acquisition unit, detection probe Position signal in displacement sensor judges the position of gas nozzle and detection probe relative to energy saving glass pane respectively；Institute It states real-time in the energy saving glass pane inner cavity that gas concentration signal judging unit acquires the gas concentration signal acquisition unit Concentration is compared judgement with gas concentration preset threshold；

Drive control unit, for controlling the glass transfer mechanism, Jet control arm, the shifting of detection probe control arm position Dynamic and drive control gas valve turns on or off；

Communication connection is realized between user terminal, with controller.

It further, further include for recording the timing unit of gas valve opening time, alarm list in the controller Member, judging unit further include time signal judging unit, the reality that the time signal judging unit acquires the timing unit When inflationtime with inflation preset threshold be compared judgement；It is pre- to be greater than inflation for real-time inflationtime in time signal judging unit If alarm unit carries out alarm after threshold values.

Further, timing module and judgment module are provided in the alarm unit, the timing module is for remembering Time of fire alarming is recorded, judgment module receives the information of timing module and is compared with the presetting alarming value in judgment module.

A kind of inflation method of the ventilating control system based on energy saving glass pane, which comprises the steps of:

Several blocks of glass are sealed, indwelling openings at one side, after sealing it is to be processed energy conservation glass pane it is opening up, and The lower section of gas nozzle is transferred to by glass transfer mechanism；

Detection probe sensor acquisition in nozzle displacement sensor and detection probe control arm in Jet control arm The location information of energy conservation glass pane to be processed, and the information is transmitted to the position signal acquisition unit in controller, position letter Number acquisition unit transmits a signal to position judging unit, and position judging unit pop one's head in Jet control arm and detection is visited Detection probe judges relative to Energy Saving Windows glass position to be processed in head control arm, and transmits a signal to drive control unit, Drive control unit controls Jet control arm and detection probe control arm carries out relative position adjustment；

When gas nozzle reaches nozzle location setting value in Jet control arm, detection probe is reached in detection probe control arm After detection probe position setting value, drive control unit controls gas valve and opens, and gas nozzle starts to Energy Saving Windows to be processed Glass inner cavity is inflated, while timing unit start recording jet time, and the acquisition of gas concentration signal acquisition unit comes from gas The gas concentration signal of body detector；

When gas concentration signal judging unit judges that the real-time concentration in energy saving glass pane inner cavity to be processed is dense less than gas When spending preset threshold, maintain primitive operation constant；If the real-time concentration in energy conservation glass pane inner cavity to be processed reaches gas concentration When preset threshold, drive control unit controls gas nozzle in Jet control arm first and lifts to Energy Saving Windows glass outer, then Gas valve closing is controlled again, and last drive control unit control covers control arm for aluminium parting bead and energy saving glass pane to be processed Last openings at one side seals, and detection probe leaves energy saving glass pane in detection probe control arm, and drive control unit controls glass Energy saving glass pane is delivered into finished product conveying pipeline, end of operation by transfer mechanism；

When gas concentration signal judging unit judges that the real-time concentration in energy saving glass pane inner cavity to be processed is dense less than gas Spend preset threshold, and time signal judging unit judge timing time be greater than inflate preset threshold when, time signal judging unit Alarm unit is sent a signal to, alarm unit realizes alarm；

Timing module in alarm unit records time of fire alarming, and is transmitted to judgment module, when judgment module judges to alarm After time is greater than presetting alarming value, alarm unit stop alarm, while signal is transmitted to drive control unit, drive control list Energy saving glass pane to be processed is delivered into substandard products conveying pipeline by member control glass transfer mechanism.

Further, the energy saving glass pane is three layers of two-chamber glass.

Further, the nozzle location setting value is the 1/4-3/4 of Energy Saving Windows glass open longitudinal direction height.

Further, the detection probe position setting value is the 1/4-3/4 of Energy Saving Windows glass open longitudinal direction height.

Further, the gas concentration preset threshold is 90%~100%.

Beneficial effects of the present invention: producing inflatable glass using the above scheme, and gas concentration is high in glass inner cavity, heat transfer system Number is low, and inflation can be completed in a few seconds, and speed is fast, therefore compared to the prior art, and energy saving glass pane not only can be improved Heat preservation, heat-proof quality, while improving production efficiency；And alarm module is set in the technical program, it can be grasped with warning reminding Make personnel and handles substandard products energy conservation glass pane in time.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of ventilating control system in embodiment 1；

Fig. 2 is the structural schematic diagram of controller in embodiment 1；

Fig. 3 is the aeration control device top view of energy saving glass pane；

Fig. 4 is the aeration control device main view of energy saving glass pane；

Appended drawing reference in figure, 1- glass；2- cavity；3- gas nozzle；4- Jet control arm；5- detection probe control arm； 6- detection probe；A- argon gas flow direction；B- air-flow direction.

Specific embodiment

The following is a clear and complete description of the technical scheme in the embodiments of the invention, it is clear that described embodiment Only a part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, the common skill in this field Art personnel every other embodiment obtained without making creative work belongs to the model that the present invention protects It encloses.

Embodiment 1:

A kind of ventilating control system based on energy saving glass pane, picture 1-4, comprising:

Energy saving glass pane to be processed is delivered to production line and will by glass transfer mechanism, the glass transfer mechanism The energy saving glass pane being disposed is delivered to finished product conveying pipeline or energy saving glass pane to be processed is delivered to substandard products conveying Assembly line；

Jet control arm, gas nozzle is equipped on the spray head control arm, and Jet control armband is moved gas nozzle and carried out Direction is mobile up and down；

Gas valve, the gas valve are mounted in gas storage tanks, and gas storage tanks and gas nozzle pass through hose Connection is connected to or closes between gas valve control gas storage tanks and gas nozzle；Gas storage tanks are in the present embodiment Argon gas storage tank, certainly, heretofore described technical solution are also applied for other gases, such as helium, and gas to be inflated is full Sufficient gas density is greater than atmospheric density.

Detection probe control arm, detection probe is equipped on the detection probe control arm, and detection probe control arm drives It is mobile that detection probe carries out direction up and down；

Nozzle displacement sensor, the nozzle displacement sensor are fixedly installed on the Jet control arm, nozzle displacement Sensor detects the location information of the gas nozzle；

Detection probe displacement sensor, the detection probe displacement sensor are fixedly installed in the detection probe control Arm, detection probe displacement sensor detect the location information of detection probe；

Control arm is covered, aluminium parting bead and energy saving glass pane to be processed are sealed operation by the capping control arm；

Gas detecting instrument, the gas detecting instrument receive the gas concentration information of the detection probe acquisition；The present embodiment It is middle to use laser gas concentration detector.

Controller, the controller and glass transfer mechanism, Jet control arm, gas valve, detection probe control arm, spray Communication connection between mouth displacement sensor, detection probe displacement sensor, capping control arm and gas detecting instrument, wherein control Device processed includes:

Signal acquisition unit, including position signal acquisition unit and gas concentration signal acquisition unit, the position signal Acquisition unit is used to acquire nozzle displacement sensor, the position signal in detection probe displacement sensor；The gas concentration letter Number acquisition unit is used to acquire the gas concentration signal in gas detecting instrument；

Timing unit, for recording the time of gas valve unlatching；

Judging unit, including position signal judging unit, time signal judging unit, gas concentration signal judging unit, And time signal judging unit, the position signal judging unit are used for according to the received nozzle position of position signal acquisition unit Position signal in displacement sensor, detection probe displacement sensor judges gas nozzle and detection probe relative to section respectively The position of energy glass pane；The Energy Saving Windows that the gas concentration signal judging unit acquires the gas concentration signal acquisition unit Real-time concentration in glass inner cavity is compared judgement with gas concentration preset threshold；The time signal judging unit will be described The real-time inflationtime of timing unit acquisition is compared judgement with inflation preset threshold；

Alarm unit, alarm unit is carried out after inflationtime is greater than inflation preset threshold in real time in time signal judging unit Alarm；Timing module and judgment module are wherein provided in alarm unit, the timing module is sentenced for recording time of fire alarming Disconnected module receives the information of timing module and is compared with the presetting alarming value in judgment module.

Drive control unit, for controlling the glass transfer mechanism, Jet control arm, the shifting of detection probe control arm position Dynamic and drive control gas valve turns on or off；

Communication connection is realized between user terminal, with controller, user carries out the setting of parameter by user terminal, such as Gas concentration preset threshold, inflation preset threshold and presetting alarming value etc..

A kind of inflation method of the ventilating control system based on energy saving glass pane, includes the following steps:

Three sides of 3 blocks of glass 1 are sealed by sealant, indwelling openings at one side, and indwelling opening is glass on one side The longer one side of glass, i.e., the side openings of three layers two-chamber energy conservation glass pane, after sealing it is to be processed energy conservation glass pane it is opening up, Supplied gas nozzle enters in cavity 2 from opening to be inflated, and is then transferred to gas in production line by glass transfer mechanism The lower section of body nozzle 3；

The detection probe sensor in nozzle displacement sensor and detection probe control arm 5 in Jet control arm 4 is adopted Collect the location information of energy saving glass pane to be processed, and the information is transmitted to the position signal acquisition unit in controller, position Signal acquisition unit transmits a signal to position judging unit, and position judging unit pop one's head in and detect in Jet control arm Detection probe judges relative to Energy Saving Windows glass position to be processed in probe control arm, and transmits a signal to drive control list Member, drive control unit controls Jet control arm and detection probe control arm carries out relative position adjustment；

Gas nozzle 3 is provided with 6 in Jet control arm 4, is respectively arranged in two cavitys.The number of gas nozzle by Glass inner cavity size and the glass number of plies determine, are not limited to the present embodiment.Detection probe control arm 5 is provided with 2, and is arranged Detection probe 6 is provided with 6 in the both sides of Energy Saving Windows glass outer to be processed, each detection probe control arm 5,6 detections About 6 probe is spaced apart.The quantity of detection probe be also according to actual needs depending on, be not limited to the present embodiment.Work as gas Nozzle 3 reaches nozzle location setting value, and in the present embodiment, i.e., nozzle location gas nozzle reaches Energy Saving Windows inside cavity and from section Energy glass pane is open at the 1/2 of longitudinal height, and detection probe 6 reaches detection probe position setting value in detection probe control arm 5 Afterwards, i.e., detection probe 6 located above is set at from the 1/4 of Energy Saving Windows glass open longitudinal direction height, detection probe 6 below It is set at from the 3/4 of Energy Saving Windows glass open longitudinal direction height, drive control unit controls gas valve and opens, gas nozzle 3 Start to be inflated Energy Saving Windows glass to be processed inner cavity, argon gas is since density is big compared with air, and argon gas flows downward, such as arrow Head A, air is flowed up from exit, such as arrow B.Timing unit start recording jet time, gas concentration signal are adopted simultaneously Collect unit and acquires the gas concentration signal from gas detecting instrument；

When gas concentration signal judging unit judges that the real-time concentration in energy saving glass pane inner cavity to be processed is dense less than gas When spending preset threshold, maintain primitive operation constant, gas nozzle continues to inflate；If real-time in energy conservation glass pane inner cavity to be processed When concentration reaches gas concentration preset threshold, gas concentration preset threshold is 95% in the present embodiment, i.e., Energy Saving Windows glass to be processed When real-time concentration in glass inner cavity reaches 95%, drive control unit controls gas nozzle in Jet control arm first and lifts to section Gas valve closing can then be controlled again outside glass pane, last drive control unit control capping control arm by aluminium parting bead with The last openings at one side of energy conservation glass pane to be processed seals, and detection probe leaves energy saving glass pane in detection probe control arm, drives Energy saving glass pane is delivered into finished product conveying pipeline, end of operation by dynamic control unit control glass transfer mechanism；

When gas concentration signal judging unit judge the real-time concentration in energy saving glass pane inner cavity to be processed less than 95%, and When time signal judging unit judges that timing time is greater than inflation preset threshold, in the present embodiment, inflation preset threshold is 20s, When time signal judging unit judges that timing time is greater than 20s, time signal judging unit sends a signal to alarm unit, alarm Unit realizes alarm；It should be noted that the setting of inflation preset threshold is according to spray air flow, glass inner cavity capacity and reality Depending on production efficiency, inflation preset threshold is greater than the ratio of theoretical glass inner cavity capacity and spray air flow, in the present embodiment, glass Single-chamber capacity is 0.03m³, the spray air flow of single gas nozzle is 3L/min.

Timing module in alarm unit records time of fire alarming, and is transmitted to judgment module, when judgment module judges to alarm After time is greater than presetting alarming value, in the present embodiment, presetting alarming value is 5s, if staff will be wait locate in 5s It manages energy saving glass pane to take away from production line, then end of operation, if after judgment module judges that time of fire alarming is greater than 5s, alarm Unit stop alarm, while signal is transmitted to drive control unit, drive control unit controls glass transfer mechanism will be to be processed Energy saving glass pane delivers into substandard products conveying pipeline, end of operation.

Inflatable glass is produced using the above scheme, and argon concentration can be up to 95% in glass inner cavity, heat transfer coefficient U value drop To 0.9--1.1w/m²It between k, and can complete in a few seconds, aeration speed is fast, therefore compared to the prior art, the present invention The heat preservation of energy saving glass pane, heat-proof quality not only can be improved in the technical solution, while improving production efficiency.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.

Claims (8)

1. a kind of ventilating control system based on energy saving glass pane characterized by comprising

Energy saving glass pane to be processed is delivered to production line and will processing by glass transfer mechanism, the glass transfer mechanism The energy saving glass pane finished is delivered to finished product conveying pipeline or energy saving glass pane to be processed is delivered to substandard products conveying flowing water Line；

Jet control arm, gas nozzle is equipped on the Jet control arm, and Jet control armband is moved gas nozzle and carried out up and down Left and right directions is mobile；

Gas valve, the gas valve are mounted in gas storage tanks, and the gas storage tanks pass through with the gas nozzle Hose connection, gas valve, which controls, to be connected to or closes between the gas storage tanks and gas nozzle；

Detection probe control arm, detection probe is equipped on the detection probe control arm, and detection probe control arm drives detection It is mobile that probe carries out direction up and down；

Nozzle displacement sensor, the nozzle displacement sensor are fixedly installed on the Jet control arm, nozzle displacement sensing Device detects the location information of the gas nozzle；

Detection probe displacement sensor, the detection probe displacement sensor are fixedly installed in the detection probe control arm, inspection Probing head displacement sensor finds out the location information of detection probe；

Control arm is covered, aluminium parting bead and energy saving glass pane to be processed are sealed operation by the capping control arm；

Gas detecting instrument, the gas detecting instrument receive the gas concentration information of the detection probe acquisition；

Controller, the controller and glass transfer mechanism, Jet control arm, gas valve, detection probe control arm, nozzle position Communication connection between displacement sensor, detection probe displacement sensor, capping control arm and gas detecting instrument, wherein controller Include:

Signal acquisition unit, including position signal acquisition unit and gas concentration signal acquisition unit, the position signal acquisition Unit is used to acquire nozzle displacement sensor, the position signal in detection probe displacement sensor；The gas concentration signal is adopted Collection unit is used to acquire the gas concentration signal in gas detecting instrument；

Judging unit, including position signal judging unit, time signal judging unit and gas concentration signal judging unit, institute Position signal judging unit is stated for passing according to the received nozzle displacement sensor of position signal acquisition unit, detection probe displacement Position signal in sensor judges the position of gas nozzle and detection probe relative to energy saving glass pane respectively；The gas The real-time concentration that concentration signal judging unit acquires the gas concentration signal acquisition unit in energy saving glass pane inner cavity with Gas concentration preset threshold is compared judgement；

Drive control unit, for controlling the glass transfer mechanism, Jet control arm, the movement of detection probe control arm position, And drive control gas valve turns on or off；

Communication connection is realized between user terminal, with controller.

2. a kind of ventilating control system based on energy saving glass pane according to claim 1, which is characterized in that the controller In further include for recording the timing unit of gas valve opening time, alarm unit, judging unit further includes that time signal is sentenced Disconnected unit, the real-time inflationtime and inflation preset threshold that the time signal judging unit acquires the timing unit carry out Multilevel iudge；Alarm unit carries out alarm after real-time inflationtime is greater than inflation preset threshold in time signal judging unit.

3. a kind of ventilating control system based on energy saving glass pane according to claim 2, which is characterized in that the alarm is single Timing module and judgment module are provided in member, the timing module receives timing for recording time of fire alarming, judgment module The information of module is simultaneously compared with the presetting alarming value in judgment module.

4. a kind of inflation method of the ventilating control system according to claim 3 based on energy saving glass pane, which is characterized in that Include the following steps:

Several blocks of glass are sealed, indwelling openings at one side, energy conservation glass pane to be processed is opening up after sealing, and passes through Glass transfer mechanism is transferred to the lower section of gas nozzle；

The detection probe sensor in nozzle displacement sensor and detection probe control arm in Jet control arm is acquired wait locate The location information of energy saving glass pane is managed, and the information is transmitted to the position signal acquisition unit in controller, position signal is adopted Collection unit transmits a signal to position judging unit, and position judging unit carries out probe and detection probe control in Jet control arm Detection probe judges relative to Energy Saving Windows glass position to be processed in arm processed, and transmits a signal to drive control unit, driving Control unit controls Jet control arm and detection probe control arm carries out relative position adjustment；

When gas nozzle reaches nozzle location setting value in Jet control arm, detection probe reaches detection in detection probe control arm After probe positions setting value, drive control unit controls gas valve and opens, and gas nozzle starts to Energy Saving Windows glass to be processed Inner cavity is inflated, while timing unit start recording jet time, and the acquisition of gas concentration signal acquisition unit is examined from gas Survey the gas concentration signal of instrument；

When gas concentration signal judging unit judges that the real-time concentration in energy saving glass pane inner cavity to be processed is pre- less than gas concentration If when threshold values, maintaining primitive operation constant；If it is default that the real-time concentration in energy conservation glass pane inner cavity to be processed reaches gas concentration When threshold values, drive control unit controls gas nozzle in Jet control arm first and lifts to Energy Saving Windows glass outer, then controls again Gas valve processed is closed, and last drive control unit control capping control arm is last by aluminium parting bead and energy conservation glass pane to be processed Openings at one side seals, and detection probe leaves energy saving glass pane in detection probe control arm, and drive control unit controls glass transfer Energy saving glass pane is delivered into finished product conveying pipeline, end of operation by mechanism；

When gas concentration signal judging unit judges that the real-time concentration in energy saving glass pane inner cavity to be processed is pre- less than gas concentration If threshold values, and time signal judging unit judge timing time be greater than inflation preset threshold when, time signal judging unit send Signal realizes alarm to alarm unit, alarm unit；

Timing module in alarm unit records time of fire alarming, and is transmitted to judgment module, when judgment module judges time of fire alarming After presetting alarming value, alarm unit stop alarm, while signal is transmitted to drive control unit, drive control unit control Energy saving glass pane to be processed is delivered into substandard products conveying pipeline by glass transfer mechanism processed.

5. the inflation method of the ventilating control system according to claim 4 based on energy saving glass pane, which is characterized in that described Energy saving glass pane is three layers of two-chamber glass.

6. the inflation method of the ventilating control system according to claim 4 based on energy saving glass pane, which is characterized in that described Nozzle location setting value is the 1/4-3/4 of Energy Saving Windows glass open longitudinal direction height.

7. the inflation method of the ventilating control system according to claim 4 based on energy saving glass pane, which is characterized in that described Detection probe position setting value is the 1/4-3/4 of Energy Saving Windows glass open longitudinal direction height.

8. the inflation method of the ventilating control system according to claim 4 based on energy saving glass pane, which is characterized in that described Gas concentration preset threshold is 90%~100%.