CN109437533A - Enter the wind cooling system in tempering workshop - Google Patents

Abstract

The invention belongs to glass manufacturing apparatus technical fields, more particularly to cooling system is entered the wind in a kind of tempering workshop, ventilation gallery including liquid distribution and for being connected to outside air environment and tempering blower, liquid distribution includes the spray pipe for being connected with extraneous water inlet line, and spray pipe is installed on the top of ventilation gallery along the width direction of ventilation gallery and is capable of forming cascade in water spray.Cooling water can equably be spilt to the bottom of ventilation gallery cloth in this way, form one of cascade in ventilation gallery, then the air that self-ventilation gallery enters tempering blower can realize the decline of its own temperature by passing through cascade.In this way, tempering workshop air inlet cooling system just realizes effective cooling to the air for entering tempering blower.So when the production of tempered glass is when carrying out the summer high temperature moon, cooling system is entered the wind in starting tempering workshop, that is, the cooling wind temperature that can guarantee that tempering blower is blown out reaches requirement, and then ensure that the tempered glass quality prepared.

Description

Enter the wind cooling system in tempering workshop

Technical field

The invention belongs to glass manufacturing apparatus technical fields more particularly to a kind of tempering workshop to enter the wind cooling system.

Background technique

Tempered glass needs to carry out quenching processing after the heating, to realize toughening process in production.It and is to ensure quenching Process is gone on smoothly, then needs to install cooling air grid, and reach glass substrate by cooling air grid by blower conveying cold air Surface, realize tempering processing.

In actual production, generally there is a plurality of toughened glass production line in workshop.In the summer high temperature moon, when a plurality of life When producing line is started simultaneously, the air themperature that will lead in workshop is significantly raised, and the raising of air themperature then will have a direct impact on The leaving air temp of cooling air grid so that the leaving air temp of cooling air grid rises, and then will lead to the tempering quality drop of glass substrate It is low.

Summary of the invention

The purpose of the present invention is to provide a kind of tempering workshops to enter the wind cooling system, it is intended to solve tempering in the prior art The technical issues of workshop air temperature rises and the tempering quality of glass substrate is caused to decline.

To achieve the above object, the technical solution adopted by the present invention is that: a kind of tempering workshop enter the wind cooling system, including leaching Water installations and ventilation gallery for being connected to outside air environment and tempering blower, the liquid distribution include for the external world The spray pipe that is connected of water inlet line, the spray pipe is set in the ventilation gallery, and the spray pipe is along the ventilation The width direction of gallery is installed on the top of the ventilation gallery and is capable of forming cascade in water spray.

Further, the tempering workshop air inlet cooling system further includes water circle device, and the water circle device includes Draining pump and outlet pipe, the draining pump are installed on the bottom of the ventilation gallery, and one end of the outlet pipe is connected to described Draining pump, the other end of the outlet pipe extend outside the ventilation gallery and for being connected with extraneous water inlet line.

Further, the bottom of the ventilation gallery offers catch basin, and spray pipe described in the catch basin face is arranged, The draining pump is installed in the catch basin.

Further, the water circle device further includes the level sensor for controlling mould group and being electrically connected with the control mould group Device, the water level sensor are installed in the catch basin, and the draining pump is electrically connected with the control mould group.

Further, the bottom of the ventilation gallery is equipped with catchment covers funnel-shaped, and the catchment covers cover at institute State the opening of catch basin.

Further, the liquid distribution further includes the water inlet pipe for being connected with extraneous water inlet line, it is described enter Water pipe is connected to the spray pipe.

Further, the water inlet pipe is equipped with the control valve for controlling the water flow on-off in the water inlet pipe.

Further, the control valve is solenoid valve, and the solenoid valve is electrically connected with the control mould group；

Alternatively, the control valve is manually-operated gate.

Further, the spray pipe offers several apopores along its axis direction.

Further, the spray pipe is equipped with several water jets along its axis direction.

Beneficial effects of the present invention: cooling system is entered the wind in tempering workshop of the invention, and when work, extraneous cooling water is from intaking Pipeline enters in spray pipe, cold in this way since the width direction of spray pipe edge ventilation gallery is installed on the top of ventilation gallery But water can be spilt by the top cloth of spray pipe equably self-ventilation gallery to the bottom of ventilation gallery, and then can be in ventilation gallery One of cascade of interior formation, then the air that self-ventilation gallery enters tempering blower can realize its own by passing through cascade The decline of temperature.In this way, cooling system is entered the wind in tempering workshop of the invention, just realize to the air for entering tempering blower It is effectively cooling.So when the production of tempered glass is when carrying out the summer high temperature moon, cooling system is entered the wind in starting tempering workshop The cooling wind temperature for guaranteeing that tempering blower is blown out reaches requirement, and then ensure that the tempered glass quality prepared.

Detailed description of the invention

It to describe the technical solutions in the embodiments of the present invention more clearly, below will be to embodiment or description of the prior art Needed in attached drawing be briefly described, it should be apparent that, the accompanying drawings in the following description is only of the invention some Embodiment for those of ordinary skill in the art without any creative labor, can also be according to these Attached drawing obtains other attached drawings.

Fig. 1 is the structural schematic diagram one that cooling system is entered the wind in tempering workshop provided in an embodiment of the present invention；

Fig. 2 is the structural schematic diagram two that cooling system is entered the wind in tempering workshop provided in an embodiment of the present invention；

Fig. 3 is the structural schematic diagram three that cooling system is entered the wind in tempering workshop provided in an embodiment of the present invention；

Fig. 4 is the structural schematic diagram four that cooling system is entered the wind in tempering workshop provided in an embodiment of the present invention；

Fig. 5 is the structural schematic diagram five that cooling system is entered the wind in tempering workshop provided in an embodiment of the present invention.

Wherein, each appended drawing reference in figure:

10-ventilation 11-catch basin of gallery, 12-catchment covers

20-liquid distribution 21-spray pipe, 22-water inlet pipes

23-control valve 24-apopore, 25-water jets

30-water circle device 31-draining pump, 32-outlet pipes

40-tempering blower 211-particle size, 212-conical transitional parts of pipeline section

213-thin footpath pipeline sections.

Specific embodiment

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached The embodiment that Fig. 1~5 is described is exemplary, it is intended to is used to explain the present invention, and is not considered as limiting the invention.

In the description of the present invention, it is to be understood that, term " length ", " width ", "upper", "lower", "front", "rear", The orientation or positional relationship of the instructions such as "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" is based on attached drawing institute The orientation or positional relationship shown, is merely for convenience of description of the present invention and simplification of the description, rather than the dress of indication or suggestion meaning It sets or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to limit of the invention System.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more of the features.In the description of the present invention, the meaning of " plurality " is two or more, Unless otherwise specifically defined.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " fixation " etc. Term shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；It can be mechanical connect It connects, is also possible to be electrically connected；It can be directly connected, can also can be in two elements indirectly connected through an intermediary The interaction relationship of the connection in portion or two elements.It for the ordinary skill in the art, can be according to specific feelings Condition understands the concrete meaning of above-mentioned term in the present invention.

As shown in Figures 1 to 3, tempering workshop provided in an embodiment of the present invention enter the wind cooling system, including liquid distribution 20 with And the ventilation gallery 10 for being connected to outside air environment and tempering blower 40, liquid distribution 20 include for the water inlet with the external world The spray pipe 21 that pipeline is connected, spray pipe 21 are set in ventilation gallery 10, and spray pipe 21 is along the width side of ventilation gallery 10 Cascade is capable of forming to the top for being installed on ventilation gallery 10 and in water spray.

Specifically, the cooling water source in spray pipe 21 can be the cooling water generated in production process in tempering workshop. Spray pipe 21 can be the lightings pipeline such as pvc pipe.By cooling water source is chosen to be generated in production process in workshop it is cold But water just realizes make full use of to existing resource in workshop in this way, significantly reduces tempering workshop air inlet cooling system Use cost.And by the way that spray pipe 21 is set as pvc pipe road, then having benefited from pvc pipe lightweight, at low cost and have enough Mechanical property the advantages of, just alleviate the self weight of spray pipe 21 in this way so that its top for being not easy self-ventilation gallery 10 is fallen, Its manufacturing cost is also reduced simultaneously, ensure that the use durability degree during its long service.

Cooling system is entered the wind in tempering workshop of the invention, and when work, extraneous cooling water enters spray pipe from water inlet line In 21, due to spray pipe 21 along ventilation gallery 10 width direction be installed on ventilation gallery 10 top, such cooling water It is spilt by the top cloth of the equably self-ventilation gallery 10 of spray pipe 21 to the bottom of ventilation gallery 10, and then can be in ventilation gallery 10 One of cascade of interior formation, then the air that self-ventilation gallery 10 enters tempering blower 40 can realize it by passing through cascade The decline of own temperature.In this way, cooling system is entered the wind in tempering workshop of the invention, just realize to entering tempering blower 40 Effective cooling of air.So when the production of tempered glass is when carrying out the summer high temperature moon, the air inlet cooling of starting tempering workshop is set Standby, that is, the cooling wind temperature that can guarantee that tempering blower 40 is blown out reaches requirement, and then ensure that the tempered glass matter prepared Amount.

In the present embodiment, as shown in Figures 1 to 3, air inlet cooling system in tempering workshop further includes water circle device 30, and water follows Loop device 30 includes draining pump 31 and outlet pipe 32, and draining pump 31 is installed on the bottom of ventilation gallery 10, one end of outlet pipe 32 It is connected to draining pump 31, the other end of outlet pipe 32 extends outside ventilation gallery 10 and for being connected with extraneous water inlet line It is logical.Specifically, by the way that water circle device 30 is arranged, and by the draining pump of water circle device 30 31 set on the bottom of ventilation gallery 10 Portion, such draining pump 31 can the cooling draining pump 31 by savings in ventilation 10 bottom of gallery enter in outlet pipe 32, then by being discharged Pipe 32 is drained in extraneous water inlet line, and extraneous water inlet line is connected with spray pipe 21, has so just established The water circulation path of effect, and then on the one hand realize and cooling water is recycled, it on the other hand also achieves to tempering workshop Interior existing resource makes full use of, and then also saves the cost of implementation of air cooling-down process.

In the present embodiment, as shown in Figures 1 to 3, the bottom of ventilation gallery 10 offers catch basin 11,11 face of catch basin Spray pipe 21 is arranged, and draining pump 31 is installed in catch basin 11.Specifically, it by opening up catch basin 11, just realizes in this way pair It puts aside in the centralized collection of the cooling water of ventilation 10 bottom of gallery.Since draining pump 31 is provided in catch basin 11, drain in this way Cooling draining pump 31 in catch basin 11 31 can be drawn in outlet pipe 32 by pump to greatest extent, thus realize to savings in The cooling water of ventilation 10 bottom of gallery makes full use of.Simultaneously as cooling water is put aside in catch basin 11, it is just in this way Retarding effect will not be generated to the air draught circulated in ventilation gallery 10, so just ensure that the air inlet effect of ventilation gallery 10 Rate.Optionally, ventilation 10 bottom of gallery can be formed with recess hole, and catch basin 11 is opened in the bottom in recess hole.Splash down in this way in The cooling aqueous on 11 periphery of catch basin can also flow into catch basin 11 along the inclined wall in recess hole.

Further, as shown in figure 5, also catchment covers 12 funnel-shaped can be equipped in the bottom of ventilation gallery 10, collect Water cover 12 covers at the opening of catch basin 11.Specifically, by being provide with catchment covers 12 in the opening of catch basin 11, so just The efficient collection to cooling water is realized, is enabled from the cooling water under the drippage of spray pipe 21 rapidly in the guiding of catchment covers 12 Lower savings also accelerates the efficiency of water circulation in catch basin 11 in this way.Meanwhile catchment covers 12 can be cone-shaped hood, so in cone The catchment covers 12 of shape are just provided with good air dynamic behaviour, and then effectively reduce it to air in ventilation gallery 10 Block noise reduction.

In the present embodiment, water circle device 30 further includes the water for controlling mould group (not shown) and being electrically connected with control mould group Level sensor (not shown), water level sensor are installed in catch basin 11, and draining pump 31 is electrically connected with control mould group.Specifically, Controlling mould group can be PLC programmable controller or single-chip microcontroller.Water of the water circle device 30 in specific works, in catch basin 11 When position rises to preset height, that is, it can trigger water level sensor and issue the first electric signal and conduct first electric signal to control Mould group, and the starting of draining pump 31 can be controlled according to first electric signal by controlling mould group then, and then implement draining.And work as catch basin 11 When interior water level decreasing to preset height, that is, it can trigger water level sensor and issue the second electric signal and conduct second electric signal To control mould group, and control mould group then can according to second electric signal control draining pump 31 close.It just realizes to water storage in this way The automation for the cooling water put aside in slot 11 is drained and is recycled.Meanwhile water level sensor and control mould group also achieve To the flexible start-up and shut-down control of draining pump 31, so that draining pump 31 is in close state when being not necessarily to and draining, and then the energy is saved Consumption.

In the present embodiment, as shown in Figures 1 to 3, liquid distribution 20 further includes for being connected with extraneous water inlet line Water inlet pipe 22, water inlet pipe 22 is connected to spray pipe 21.Meanwhile water inlet pipe 22 is equipped with for controlling the water flow in water inlet pipe 22 The control valve 23 of on-off.Specifically, by making spray pipe 21 be connected with water inlet pipe 22, and control is set on water inlet pipe 22 Valve 23, such operator can control the on-off of water flow in water inlet pipe 22 according to the actual temperature in tempering workshop, in turn The on-off for controlling water flow in spray pipe 21, it is interim in this way the summer high temperature moon overing, operator can opening controlling valve 23, realization Cooling to the cooling gas that tempering blower 40 is issued.And when it is not necessary that control valve 23 can be closed, to save energy when cooling down Source.

In the present embodiment, control valve 23 is solenoid valve, and solenoid valve is electrically connected with control mould group；Alternatively, control valve 23 is Manually-operated gate.Specifically, since control valve 23 is solenoid valve, and it is electrically connected with control mould group, it can be according to control in this way Auto switching is realized in the order of mould group, improves the automatization level of liquid distribution 20.

Further, water circle device 30 further includes the temperature sensor for being installed at the air outlet of tempering blower 40 (not shown), temperature sensor are electrically connected with control mould group.In this way, temperature sensor can real-time monitor tempering blower 40 Air outlet at air temperature variations, then after air themperature at air outlet is more than predetermined value, temperature sensor Corresponding electric signal is exported to control mould group, controls mould group after receiving the electric signal, can send and order to control valve 23, It controls control valve 23 to open, to carry out water drenching operation, reduces air outlet temperature.And when the air themperature of air outlet is less than predetermined value Afterwards, temperature sensor can export corresponding electric signal to control mould group, control mould group after receiving the electric signal, Ji Kexiang Control valve 23 sends order, and control control valve 23 is closed, and terminates water drenching operation, to reduce resource consumption.

In the present embodiment, as shown in Figure 1, spray pipe 21 offers several apopores 24 along its axis direction.Specifically, The water-out manners of spray pipe 21 can be discharged by several apopores 24, this have the advantage that can drop significantly The manufacture complexity of low spray pipe 21, to reduce the whole manufacturing cost of liquid distribution 20.

Further, as shown in figure 3, spray pipe 21 include particle size pipeline section 211 and thin footpath pipeline section 213, particle size pipeline section 211 with Water inlet pipe 22 is connected, and thin footpath pipeline section 213 is connected with particle size pipeline section 211, and each apopore 24 is provided with thin footpath pipeline section 213 On.Conical transitional part 212 is equipped between particle size pipeline section 211 and thin footpath pipeline section 213.In this way, since spray pipe 21 is by wide diameter tube Section 211 and thin footpath pipeline section 213 are formed, and such cooling water first arrives at particle size after being flowed into spray pipe 21 from water inlet pipe 22 Pipeline section 211, then entered in thin footpath pipeline section 213 via conical transitional part 212.In the process, transversal due to spray pipe 21 Face area changes, and the pressure from the cooling water in particle size pipeline section 211 to thin footpath pipeline section 213 is just made to get a promotion in this way, And then it ensure that cooling water can be sprayed with higher speed from each apopore 24.

Preferably, as Fig. 2, Fig. 3 and Fig. 4 spray pipe 21 can be equipped with several water jets 25 along its axis direction.It is each in this way Cooling water can be equably sprayed in ventilation gallery 10 by a water jet 25, just increase cooling water and ventilation gallery 10 in this way The contact area of interior air draught, so as to the air draught by way of it is cooled down to the maximum extent, this Sample has just been obviously improved the cooling efficiency of air draught.

Further, each water jet 25 is high-pressure atomization water jet.In this way, being sprayed via each high-pressure atomization water jet Cooling water be just able to form water mist area in certain space, just further increase cooling water and air draught in this way Contact area, so that the cooling efficiency of air draught is further promoted.

The above is merely preferred embodiments of the present invention, be not intended to limit the invention, it is all in spirit of the invention and Made any modifications, equivalent replacements, and improvements etc., should all be included in the protection scope of the present invention within principle.

Claims (10)

1. cooling system is entered the wind in a kind of tempering workshop, it is characterised in that: including liquid distribution and for being connected to outside air ring The ventilation gallery in border and tempering blower, the liquid distribution include the spray pipe for being connected with extraneous water inlet line, institute Spray pipe is stated in the ventilation gallery, and the spray pipe is installed on the ventilation along the width direction of the ventilation gallery The top of gallery is simultaneously capable of forming cascade in water spray.

2. cooling system is entered the wind in tempering workshop according to claim 1, it is characterised in that: the tempering workshop air inlet cooling Equipment further includes water circle device, and the water circle device includes draining pump and outlet pipe, and the draining pump is installed on described logical The bottom in wind porch road, one end of the outlet pipe are connected to the draining pump, and the other end of the outlet pipe extends described logical Outside wind porch road and for being connected with extraneous water inlet line.

3. cooling system is entered the wind in tempering workshop according to claim 2, it is characterised in that: open the bottom of the ventilation gallery Equipped with catch basin, the setting of spray pipe described in the catch basin face, the draining pump is installed in the catch basin.

4. cooling system is entered the wind in tempering workshop according to claim 3, it is characterised in that: the water circle device further includes Control mould group and the water level sensor being electrically connected with the control mould group, the water level sensor are installed in the catch basin, The draining pump is electrically connected with the control mould group.

5. cooling system is entered the wind in tempering workshop according to claim 3, it is characterised in that: the bottom peace of the ventilation gallery Equipped with catchment covers funnel-shaped, the catchment covers cover at the opening of the catch basin.

6. cooling system is entered the wind in described in any item tempering workshops according to claim 1~5, it is characterised in that: the water drenching dress Setting further includes water inlet pipe for being connected with extraneous water inlet line, and the water inlet pipe is connected to the spray pipe.

7. cooling system is entered the wind in tempering workshop according to claim 6, it is characterised in that: the water inlet pipe is equipped with and is used for Control the control valve of the water flow on-off in the water inlet pipe.

8. cooling system is entered the wind in tempering workshop according to claim 7, it is characterised in that: the control valve is solenoid valve, The solenoid valve is electrically connected with the control mould group；

Alternatively, the control valve is manually-operated gate.

9. cooling system is entered the wind in described in any item tempering workshops according to claim 1~5, it is characterised in that: the spray pipe Several apopores are offered along its axis direction.

10. cooling system is entered the wind in described in any item tempering workshops according to claim 1~5, it is characterised in that: the spray pipe Several water jets are installed along its axis direction.