CN206447759U - A kind of glassware supply channel control system - Google Patents

Abstract

A kind of glassware supply channel control system, belongs to glass apparatus technical field.Including by cooling section（2）, homogenize section（3）And feed basin（4）The supply channel being in turn connected to form, in cooling section（2）, homogenize section（3）And feed basin（4）In be respectively arranged with gas supply pipeline, it is characterised in that：Controller is set and respectively with homogenizing section（3）And cooling section（2）Corresponding homogenizes section temperature control unit and cooling section temperature control unit, and controller controls to homogenize section temperature control unit and cooling section temperature control unit respectively.In this glassware supply channel control system, section temperature control unit and cooling section temperature control unit are homogenized by setting, controller realizes the accurate control to homogenizing temperature in section and cooling section by homogenizing section temperature control unit and cooling section temperature control unit.

Description

A kind of glassware supply channel control system

Technical field

A kind of glassware supply channel control system, belongs to glass apparatus technical field.

Background technology

Current international and domestic market is continuously increased to the demand of high-grade glass product, therefore to glassware supply channel Temperature controlled required precision more and more higher.In the prior art, the heat form of most domestic material road is gas heating, tool For body：Air and the mixed gas of combustion gas are blown into supply channel using blower fan, to the glass in supply channel after combustion gas is lighted Glass raw material is heated.The temperature of glass melts is detected by the instrument being arranged in supply channel in heating process, It is in the temperature for ensureing glass melts within the scope of certain temperature.From the foregoing, the main of the supply channel of prior art lacks Fall into and be：It is relatively low to the temperature control precision of glass melts, and many technical process need artificial control, automaticity is relatively low, Therefore, it is difficult to meet current glass quality requirements.

The content of the invention

The technical problems to be solved in the utility model is：The deficiencies in the prior art are overcome to be homogenized there is provided one kind by setting Section temperature control unit and cooling section temperature control unit, controller is by homogenizing section temperature control unit and cooling section temperature Degree control unit is realized to homogenizing the glassware supply channel control system that temperature in section and cooling section is accurately controlled.

The utility model solves the technical scheme that its technical problem used：The glassware supply channel control system, Including by cooling section, homogenize the supply channel that section and feed basin are in turn connected to form, in cooling section, homogenize in section and feed basin respectively It is provided with gas supply pipeline, it is characterised in that：Controller is set and respectively with homogenizing section and cooling section is corresponding homogenizes Section temperature control unit and cooling section temperature control unit, controller control to homogenize section temperature control unit and cooling respectively Section temperature control unit.

It is preferred that, it is described homogenize section temperature control unit include being arranged on homogenize in section homogenize section temperature transmitter with And a section electric butterfly valve is homogenized, the output end for homogenizing section temperature transmitter is connected with the input of described controller, controller Signal output part is connected with homogenizing the input of section electric butterfly valve.

It is preferred that, the described section electric butterfly valve that homogenizes is arranged in gas supply pipeline corresponding with homogenizing section, is being homogenized Two gas supply pipelines are provided with section.

It is preferred that, cooling section temperature transmitter that described cooling section temperature control unit includes being arranged in cooling section, Cooling section pressure transmitter, cooling section electric butterfly valve and cooling subelement, cooling section temperature transmitter and cooling section pressure become Send the output end of device to be connected with the input of described controller, the output end of controller respectively with cooling section electric butterfly valve and The input for cooling down subelement is connected.

It is preferred that, described cooling section electric butterfly valve is arranged in gas supply pipeline corresponding with cooling section, in cooling Two gas supply pipelines are provided with section.

It is preferred that, described cooling subelement includes frequency converter and cooling blower, the signal output part of controller and frequency conversion The input of device is connected, and the output end of frequency converter is connected with the input of cooling blower.

It is preferred that, in described feed basin, the gas supply pipeline described in one is provided with, in the gas supply pipeline It is provided with the ball valve for controlling its break-make.

It is preferred that, pressure transmitter, the signal of pressure transmitter are provided with the exit of described gas supply pipeline Output end connects controller.

It is preferred that, in described control system, in addition to the man-machine interface being bi-directionally connected with described controller.

Compared with prior art, the utility model is had an advantageous effect in that：

1st, in this glassware supply channel control system, section temperature control unit and cooling section temperature are homogenized by setting Spend control unit, controller by homogenize section temperature control unit and cooling section temperature control unit realize to homogenize section and The accurate control of temperature in cooling section.

2nd, by setting the electric butterfly valve controlled by controller in gas supply pipeline, reality that can be in supply channel Border temperature is controlled combustion gas in real time, and conveniently the aperture to electric butterfly valve is monitored in real time.

3rd, in cooling section, computer heating control is set with cooling control one closed-loop system of each composition, controller except analysis The aperture of temperature and actual temperature data, in real time adjustment cooling section electric butterfly valve, it is ensured that the essence of glass melts temperature in cooling section Really control, while analyzing setting pressure and actual pressure data, adjusts cooling down wind air quantity, precisely adjustment cooling section temperature, Finally realize high-precision control cooling section glass melts temperature.

4th, pressure transmitter is set in the exit of gas supply pipeline, facilitates outlet of the controller to gas supply pipeline Pressure is monitored.

Brief description of the drawings

Fig. 1 is glassware supply channel control system supply channel structural representation.

Fig. 2 is glassware supply channel control system gas supply pipeline structure schematic diagram.

Fig. 3 glassware supply channel control systems homogenize a section temperature control unit functional-block diagram.

Fig. 4 is glassware supply channel control system cooling section temperature control unit functional-block diagram.

Wherein：1st, material road 2, cooling section 3 are distributed, section 4, feed basin 5, air maim 6, ball valve 7, gaseous mixture is homogenized Body branch pipeline 8, pressure transmitter 9, electric butterfly valve.

Embodiment

Fig. 1 ~ 4 are most preferred embodiments of the present utility model, and 1 ~ 4 pair of the utility model is done furtherly below in conjunction with the accompanying drawings It is bright.

As shown in figure 1, glassware supply channel by be sequentially connected feed basin 4, homogenize section 3 and cooling section 2 is constituted, glass Liquation enters cooling section 2 by distribution material road 1, then in turn through homogenizing section 3 and feed basin 4 flows out, feed basin 4, homogenize section 3 with And gas supply pipeline is respectively arranged with cooling section 2, by lighting the combustion gas in gas supply pipeline, glass melts are carried out Heating.Control system is additionally provided with, feed basin 4, the working condition for homogenizing section 3 and cooling section 2 are controlled respectively.

As shown in Fig. 2 gas supply pipeline includes air maim 5 and is connected in parallel on a plurality of mixed on air maim 5 Gas branch pipeline 7 is closed, combustion gas is passed through by pipeline in each mixed gas branch pipeline 7, so as to be in charge of in mixed gas The exit delivery air and the mixed gas of combustion gas on road 7.Pressure is provided with the exit of each mixed gas branch pipeline 7 Power transmitter 8, is respectively used to detect the outlet pressure of mixed gas branch pipeline 7.Mixed gas branch pipeline 7 is provided with five, The electric butterfly valve 9 for controlling its break-make is provided with wherein four, the aperture of electric butterfly valve 9 is controlled by controller；Other one The ball valve 6 for controlling its break-make is provided with bar mixed gas branch pipeline 7, the break-make of ball valve 6 is controlled manually by staff.Set The mixed gas branch pipeline 7 for having ball valve 6 is the gas supply pipeline of feed basin 4, in addition in four mixed gas branch pipelines 7, two It is arranged on and homogenizes in section 3, two is arranged in cooling section 2.

Above-mentioned control system includes controller and the host computer being bi-directionally connected with control, and by host computer and control Device realizes that what is controlled homogenizes section temperature control unit and cooling section temperature control unit.

As shown in figure 3, homogenize section temperature control unit include be arranged on homogenize in section 3 homogenize a section temperature transmitter, it is even Change section electric butterfly valve and above-mentioned controller, host computer, it is above-mentioned corresponding with homogenizing section 3 mixed to homogenize a section electric butterfly valve Close the electric butterfly valve 9 in gas branch pipeline 7.Homogenize the signal output part of section temperature transmitter and the signal input part phase of controller Even, the temperature of glass melts in section 3, the signal output part of controller and the control letter for homogenizing section electric butterfly valve are homogenized for measuring Number input is connected, and realizes the control to homogenizing section opening of electric butterfly valve, homogenizes section electric butterfly valve simultaneously by open degree feedback to control Device processed, therefore homogenizing close loop control circuit that computer heating control is formd in section 3.

In section 3 is homogenized, design temperature and homogenize a section reality for temperature transmitter feeding that controller is set according to host computer The difference of border temperature, analysis design temperature and actual temperature, and adjust that to homogenize section in corresponding mixed gas branch pipeline 7 electronic in real time The aperture of butterfly valve, it is ensured that homogenize being precisely controlled for the inner glass melt temperature of section 3.

As shown in figure 4, cooling section temperature control unit include being arranged on cooling section temperature transmitter in cooling section 2, it is cold But section pressure transmitter, cooling section electric butterfly valve, frequency converter, cooling blower and above-mentioned controller, host computer, cooling section electricity Dynamic butterfly valve is the electric butterfly valve 9 in above-mentioned mixed gas branch pipeline 7 corresponding with cooling section 2.Cooling section temperature transmitter Signal output part be connected with the signal input part of controller, the temperature for measuring glass melts in cooling section 2, controller Signal output part is connected with the control signal input of cooling section electric butterfly valve, realizes the control to cooling section opening of electric butterfly valve System, coolingization section electric butterfly valve form in cooling section 2 closed loop of computer heating control while by open degree feedback to controller Control loop.

Cooling section pressure transmitter is provided with simultaneously in cooling section 2, for being measured to the pressure in cooling section 2, The signal output part of cooling section pressure transmitter is connected with the signal input part of controller, and real-time pressure value is sent into controller In.The real-time pressure value that controller is sent into according to the setting pressure set by host computer with cooling section pressure transmitter, control is set The cooling blower work in cooling section 2 is put, makes the pressure in cooling section 2 constant, while to the temperature of glass melts in cooling section 2 Angle value is adjusted, therefore forms the close loop control circuit for cooling down control simultaneously in cooling section 2.

In cooling section 2, computer heating control and cooling control one closed-loop system of each composition, controller is except analysis setting temperature The aperture of degree and actual temperature data, in real time adjustment cooling section electric butterfly valve, it is ensured that glass melts temperature is accurate in cooling section 2 Control, while analyzing setting pressure and actual pressure data, adjusts cooling down wind air quantity, precisely adjustment cooling section temperature, most High-precision control cooling section glass melts temperature is realized eventually.Cooling blower is controlled by frequency converter, the control signal of controller Output end is connected with the control signal input of frequency converter, the control letter of the control signal output connection cooling blower of frequency converter Number input.

Specific work process and operation principle are as follows：

Glass melts are flowed into supply channel by distribution material road 1, and are flowed through the cooling section 2 of supply channel with this, homogenized section 3 and expect Basin 4, in feed basin 4, homogenizes and is disposed with gas heating system in section 3 and cooling section 2 glass melts therein are added Heat.In mixed gas branch pipeline 7 corresponding with feed basin 4, control is realized by the ball valve 6 controlled manually, it is achieved thereby that feed basin 4 The control of middle heating.

In section 3 is homogenized, control is realized by electric butterfly valve 9 in corresponding mixed gas branch pipeline 7.Controller according to Design temperature and homogenize a section actual temperature for temperature transmitter feeding that host computer is set, analysis design temperature and actual temperature Difference, and the aperture that section electric butterfly valve is homogenized in corresponding mixed gas branch pipeline 7 is adjusted in real time, it is ensured that homogenize the inner glass of section 3 Melt temperature is precisely controlled.

In cooling section 2, control is realized by electric butterfly valve 9 in corresponding mixed gas branch pipeline 7.Controller except Design temperature and actual temperature data are analyzed, in real time the aperture of adjustment cooling section electric butterfly valve, it is ensured that glass melts in cooling section 2 The accurate control of temperature, while analyzing setting pressure and actual pressure data, adjusts cooling down wind air quantity, precisely adjustment cooling 2 temperature of section, finally realize glass melts temperature in high-precision control cooling section 2.

It is described above, only it is preferred embodiment of the present utility model, is not that other forms are made to the utility model Limitation, any those skilled in the art are changed or are modified as possibly also with the technology contents of the disclosure above equivalent The equivalent embodiment of change.But it is every without departing from technical solutions of the utility model content, it is real according to technology of the present utility model Any simple modification, equivalent variations and remodeling that confrontation above example is made, still fall within the guarantor of technical solutions of the utility model Protect scope.

Claims (9)

1. a kind of glassware supply channel control system, including by cooling section（2）, homogenize section（3）And feed basin（4）It is sequentially connected The supply channel of formation, in cooling section（2）, homogenize section（3）And feed basin（4）In be respectively arranged with gas supply pipeline, its feature It is：Controller is set and respectively with homogenizing section（3）And cooling section（2）Corresponding homogenizes section temperature control unit and cold But section temperature control unit, controller controls to homogenize section temperature control unit and cooling section temperature control unit respectively.

2. glassware supply channel control system according to claim 1, it is characterised in that：Described homogenizes a section temperature control Unit processed includes being arranged on homogenizing section（3）In homogenize section temperature transmitter and homogenize a section electric butterfly valve, homogenize section temperature and become The output end of device is sent to be connected with the input of described controller, the signal output part of controller is with homogenizing the defeated of section electric butterfly valve Enter end to be connected.

3. glassware supply channel control system according to claim 2, it is characterised in that：Described homogenizes the electronic butterfly of section Valve is arranged on and homogenized section（3）In corresponding gas supply pipeline, section is being homogenized（3）In be provided with two gas supply pipelines.

4. glassware supply channel control system according to claim 1, it is characterised in that：Described cooling section temperature control Unit processed includes being arranged on cooling section（2）In cooling section temperature transmitter, cooling section pressure transmitter, cooling section electric butterfly valve And cooling subelement, the output end and the input of described controller of cooling section temperature transmitter and cooling section pressure transmitter End is connected, and the output end of controller is respectively with cooling section electric butterfly valve and cooling down the input of subelement and being connected.

5. glassware supply channel control system according to claim 4, it is characterised in that：The electronic butterfly of described cooling section Valve is arranged on and cooling section（2）In corresponding gas supply pipeline, in cooling section（2）In be provided with two gas supply pipelines.

6. glassware supply channel control system according to claim 4, it is characterised in that：Described cooling subelement bag Include frequency converter and cooling blower, the signal output part of controller is connected with the input of frequency converter, the output end of frequency converter with it is cold But the input of blower fan is connected.

7. glassware supply channel control system according to claim 1, it is characterised in that：In described feed basin（4）In, The gas supply pipeline described in one is provided with, the ball valve for controlling its break-make is provided with the gas supply pipeline（6）.

8. glassware supply channel control system according to claim 1, it is characterised in that：In described gas supply pipe The exit on road is provided with pressure transmitter（8）, pressure transmitter（8）Signal output part connection controller.

9. glassware supply channel control system according to claim 1, it is characterised in that：In described control system In, in addition to the man-machine interface being bi-directionally connected with described controller.