CN106084628B - A kind of hollow glass is rigid to warm up side spacer bar and preparation method thereof - Google Patents

Abstract

The invention discloses a kind of hollow glass, rigidly warm side spacer bar, primary raw material include polyketone POK, filling reinforcing agent, other auxiliary agents etc.；Wherein polyketone POK accounts for the 40-90% of the weight percent of total weight, and filling reinforcing agent accounts for the 10-60% of the weight percent of total weight, and other auxiliary agents account for the 0.1%-1.5% of the weight percent of total weight.Key property of the invention is: rigidly warm side spacer bar has lower thermal coefficient to hollow glass produced by the invention compared with stainless steel and the compound spacer bar of plastics and production is easier more convenient, lower cost of material and lower production cost；Rigidly warm side spacer bar has more excellent watertightness and air-tightness compared with glass fibre reinforced composite material pastes composite membrane spacer bar to hollow glass produced by the invention, it is easier to which clod wash is easier to assemble.Production method of the invention is scientific and reasonable, it is simple and easy, be conducive to implement.The C-factor that hollow glass of the invention rigidly warms up side spacer bar can reach 0.0003-0.0006W/K.

Description

A kind of hollow glass is rigid to warm up side spacer bar and preparation method thereof

Technical field

The present invention relates to a kind of energy-saving building materials, and in particular to a kind of hollow glass rigidly warm side spacer bar and its preparation Method.

Background technique

At present in the case where China carries forward vigorously the big situation of energy-saving and emission-reduction, building energy conservation is the most important thing.Building energy consumption is complete 30% or more of social total energy consumption.And door and window energy conservation is the most important thing of building energy conservation, it is to pass through door that building energy consumption, which has half, Window loss.Having any in door and window energy conservation is that cannot be neglected, that is, hollow glass spaceband, hollow glass edge pass through Spacer bar carries out heat transfer, and thermal loss is made to cause the waste of whole society's energy.Have in Chinese market at present cold side spacer bar and Warm side spacer bar, cold side spacer bar is using aluminum strip as representative, thermal coefficient about 160W/MK, and thermal loss is very big and can make It condenses on the inside of empty glass chamber and generates bacterium.Warm side spacer bar has stainless steel spacer bar, stainless steel and the compound spacer bar of plastics, glass Fibre reinforced composite material pastes composite membrane spacer bar etc..Since the thermal coefficient for warming up side spacer bar is low, such as: stainless steel thermal coefficient About 15W/MK, polypropylene thermal coefficient about 0.19W/MK, polyvinyl chloride thermal coefficient about 0.17W/MK, hollow glass side Portion, which carries out heat transfer by warm side spacer bar, to be greatly reduced, and thermal loss greatly reduces.

Chinese architecture glass and industrial glass association have issued Chinese architecture glass and industrial glass on 2 1st, 2016 Association criterion " warm side spacer bar " HBZ/T 003-2016, implements on April 1st, 2016 in the whole nation.According to Chinese architecture Glass and industrial glass association criterion " warm side spacer bar " HBZ/T 003-2016, heat transfer performance is evaluated with C-factor Parameter is indicated by the weighted value of the product d. λ of the thickness and thermal coefficient of spacer material.

Warm side spacer bar needs to have following performance characteristics:

1. spacer bar of the C-factor no more than 0.007W/K is only warm side spacer bar.C-factor is by spacer material The weighted value of the product d. λ of thickness and thermal coefficient indicates.Need to bear the weight and wind load of hollow glass due to warming up side spacer bar Lotus, warm side spacer bar need to have certain intensity, and the thickness to material is to have certain requirements, then will try to reduce warm The thermal coefficient of side spacer material.

2. needing filling with inert gas, such as argon gas in hollow glass chamber to obtain hollow glass low heat conductivity, in hollow glass In glass period whole service life, inert gas cannot all be leaked.The steam outside hollow glass can not be by warming up side simultaneously Spacer bar frame enters hollow glass chamber, to avoid hollow glass failure.This requires warm side spacer bars to have barrier gas well The performance of body and steam.

In the production process of warm side spacer bar, have the following problems:

If 1) warm side spacer bar is made with stainless steel, due to the compactness of stainless steel material itself, gas can be obstructed Hollow glass chamber is penetrated into steam.But since stainless steel thermal coefficient is higher, and the density of load that stainless steel is born causes The thickness of stainless steel cannot be too thin, so the C-factor of stainless steel heating side spacer bar is closest to limiting value, and heat Amount loss is more.Simultaneously because stainless steel own mechanical performance characteristics, roll in continuous bending in corner often The problems such as disconnected, breakage and gauffer.If the sawed-off use plastics limb of stainless steel spacer bar is connected, can be leaked in junction Gas drainage.

If 2), can be continuous at normal temperature with full-automatic or half-automatic folding bender with stainless steel and the compound spacer bar of plastics Bending, and be not in gas leakage drainage in corner.Due to the compactness of stainless steel material itself, it is of course possible to obstruct Gas leak and steam penetrate into hollow glass chamber.But since stainless steel thermal coefficient is higher, for certain thickness stainless steel Piece C-factor is also higher, is also certainly relatively more by the heat that this part stainless steel substrates loses.Simultaneously not The production technology and equipment of rust steel and the compound spacer bar of plastics are all more complicated, higher cost.

If 3) composite membrane spacer bar is pasted with glass fibre reinforced composite material, due to the barrier gas and steam of composite membrane itself Performance, it is of course possible to obstruct hollow glass intracavity gas leak and external moisture penetrate into hollow glass chamber.But fiberglass reinforced The elongation percentage of composite material at normal temperature is lower, poor toughness, full-automatic or half-automatic folding bender cannot be used continuous at normal temperature Bending.Use bending or warm side interval strap saw again after the full-automatic or half-automatic folding bender heating with heating device It has no progeny and is connected using plastics limb.The warm side spacer bar frame that both modes make is existing in corner's leak that can all leak air As.Because heating before warm side spacer bar bending in corner, glass fibre reinforced composite material temperature distortion can be made, lead to warm side interval Corner's dimension overproof, while heating warm side spacer bar and can also reduce production efficiency.If warm side spacer bar it is sawed-off after make It is connected, then can leaked air drainage in junction with plastics limb.Glass fibre reinforced composite material pastes composite membrane interval simultaneously The production technology and equipment of item are all more complicated, higher cost.

Polyketone is a kind of novel high polymer crystalline material just to have emerged, has high barrier, high self-lubrication, high rigidity And high impact resistance, high heat distortion temperature, short molding cycle, excellent high resiliency and have polypropylene PP possessed by hundred foldings The characteristic of glue.But how polyketone is used as glass and warms up side spacer bar, make full use of the characteristic of polyketone, to make the warm side interval of rigidity Item is with excellent watertightness and air-tightness, low thermal conductivity, high rigidity and excellent high resiliency and has clod wash characteristic, There is presently no relevant document explanations.

Summary of the invention

The object of the present invention is to provide a kind of hollow glasses rigidly to warm up side spacer bar, between the warm side of the traditional hollow glass of solution High, not easy to produce, the other type of parting bead thermal coefficient warm up side spacer bar do not heat can not bending and assembly in excessive ask is lost Topic.

For achieving the above object, the present invention the following technical schemes are provided:

A kind of warm side spacer bar of hollow glass rigidity, the spacer bar are polyketone POK, fill reinforcing agent and other auxiliary agent systems At the formula of each component is by weight percentage are as follows: polyketone POK 40-90% fills reinforcing agent 10-60%, other auxiliary agents 0.1-1.5%.

Further, filling reinforcing agent is one or both of glass fibre and talcum powder, and filling reinforcing agent is two kinds Group timesharing, talcum powder account for the weight percent 5-25% of spacer bar each component total weight,；Other auxiliary agents be antioxidant, lubricant, One or more of ultraviolet absorber, light stabilizer.

Further, the glass fibre in above-mentioned filling reinforcing agent is replaced by carbon fiber or processing silicate mineral is fine Dimension；Talcum powder in the filling reinforcing agent is replaced by glass microballoon, calcium carbonate, mica powder or wollastonite.

Further, above-mentioned glass fibre is long glass fibres or short glass fiber or continuous glass fibre.

Further, when above-mentioned polyketone POK is POK/PA6 alloy, it is 10-15% that PA6, which accounts for spacer bar each component total weight,； The filling reinforcing agent is two kinds of group timesharing, and the weight percent that talcum powder accounts for spacer bar each component total weight is 10-15%.

Further, above-mentioned hollow glass rigid warm up side spacer bar the preparation method comprises the following steps: by polyketone POK, filling reinforcing agent It is blended with other auxiliary agents, then is granulated with double screw extruder in a high speed mixer, last extrusion molding.

Further, above-mentioned hollow glass rigid warm up side spacer bar the preparation method comprises the following steps: by polyketone POK, filling reinforcing agent With other auxiliary agents after high-speed mixer blending, with molding machine direct extrusion molding.

Further, above-mentioned hollow glass rigid warm up side spacer bar be added in extrusion molding or after extrusion molding metal or Enhanced non-metallic part.

The present invention can bring it is following the utility model has the advantages that

1) ability of the warm side spacer bar itself of rigidity barrier gas and steam with super strength, can obstruct hollow glass chamber Interior gas leak and external moisture penetrate into hollow glass chamber, without adding metal or non-in warm side spacer bar two sides and bottom edge Metal barrier layer.

2) the excellent mechanical performance of side spacer bar itself is warmed up due to rigid, the warm side spacer bar of rigidity can be with automatically or partly Automatic bending machine continuous bending at normal temperature, substantially increases production efficiency, and not damaged in bending corner, does not crack, It is non-wrinkled etc., it is not in gas leakage drainage.

3) thermal coefficient of the warm side spacer bar of rigidity is 0.2W/mK to 0.3W/mK, and hollow glass edge passes through the warm side of rigidity Spacer bar, which carries out heat transfer, to be greatly reduced, and C-factor can reach 0.0003 to 0.0006W/K, be conducive to hollow glass guarantor Hold good thermal and insulating performance.

It 4), can be intracavitary in warm side spacer bar when the warm intracavitary molecular sieve of side spacer bar encounters the Trace Water Vapor in hollow glass Form weak acid or alkali environment.Rigidly warm side spacer bar has excellent chemical resistance for this, can keep making for warm side spacer bar overlength Use the service life.

5) since China is vast in territory, local gas holdup range is wider.Warm side spacer bar in the present invention can be wider There is excellent shock resistance within the scope of climate change, the wind load and glass weight in Different climate variation range can be born Amount.

6) either can continuous clod wash stainless steel and the compound spacer bar of plastics, the fiberglass reinforced for being still unable to clod wash is multiple Condensation material paste composite membrane spacer bar, their common features be use metal or nonmetallic composite membrane as barrier layer so that Production technology and equipment are all very complicated.And the former loses heat, and the latter reduces production efficiency and there are leak gas leakage risks.This Rigidity in invention warms up side spacer bar due to the ability of itself superpower barrier gas and steam, it is not necessary in rigidly warm side spacer bar Two sides and bottom edge add metal or nonmetallic barrier layer, so that production technology and equipment are all no so complicated, and both will not Too many heat is lost, production efficiency will not be lost, more without leak gas leakage risk.

Detailed description of the invention

Fig. 1 is the section A -1 that hollow glass of the present invention rigidly warms up side spacer bar；

Fig. 2 is the section A -2 that hollow glass of the present invention rigidly warms up side spacer bar；

Fig. 3 is the section A -3 that hollow glass of the present invention rigidly warms up side spacer bar；

Fig. 4 is the section B-1 that hollow glass of the present invention rigidly warms up side spacer bar；

Fig. 5 is the section B-2 that hollow glass of the present invention rigidly warms up side spacer bar；

Fig. 6 is the section B-3 that hollow glass of the present invention rigidly warms up side spacer bar；

Fig. 7 is the section C-1 that hollow glass of the present invention rigidly warms up side spacer bar；

Fig. 8 is the section C-2 that hollow glass of the present invention rigidly warms up side spacer bar；

Fig. 9 is the section C-3 that hollow glass of the present invention rigidly warms up side spacer bar；

Figure 10 is the section D-1 that hollow glass of the present invention rigidly warms up side spacer bar；

Figure 11 is the section D-2 that hollow glass of the present invention rigidly warms up side spacer bar；

Figure 12 is the section D-3 that hollow glass of the present invention rigidly warms up side spacer bar；

Figure 13 is the section E-1 that hollow glass of the present invention rigidly warms up side spacer bar；

Figure 14 is the section E-2 that hollow glass of the present invention rigidly warms up side spacer bar；

Figure 15 is the section E-3 that hollow glass of the present invention rigidly warms up side spacer bar.

Specific embodiment:

It is illustrated below with reference to preferred embodiment in the modified polyketone formula of the present invention, so that features and advantages energy of the invention It is easier to those skilled in the art to be understood, more specifically be defined to be made to protection scope of the present invention.

The present invention is a kind of warm side spacer bar of hollow glass rigidity, which is polyketone POK, fills enhancing Agent and other auxiliary agents are made, and the formula of each component is by weight percentage are as follows: polyketone POK 40-90% fills reinforcing agent 10- 60%, other auxiliary agent 0.1-1.5%.

Further, when above-mentioned polyketone POK is POK/PA6 alloy, it is 10-15% that PA6, which accounts for spacer bar each component total weight,； The filling reinforcing agent is two kinds of group timesharing, and the weight percent that talcum powder accounts for spacer bar each component total weight is 10-15%.

Preferably 10-15%；Filling reinforcing agent is one or both of glass fibre and talcum powder, and talcum powder accounts for gross weight The weight percent of amount is 5-25%, preferably 10-15%；Other auxiliary agents are that antioxidant, lubricant, ultraviolet absorber, light are steady Determine one or more of agent.

Further, the glass fibre in above-mentioned filling reinforcing agent is replaced by carbon fiber or processing silicate mineral is fine Dimension；Talcum powder in the filling reinforcing agent is replaced by glass microballoon, calcium carbonate, mica powder or wollastonite.

Further, above-mentioned glass fibre is long glass fibres or short glass fiber or continuous glass fibre.

Further, above-mentioned hollow glass rigid warm up side spacer bar the preparation method comprises the following steps: by polyketone POK, filling reinforcing agent It is blended with other auxiliary agents, then is granulated with double screw extruder in a high speed mixer, last extrusion molding.

Further, above-mentioned hollow glass rigid warm up side spacer bar the preparation method comprises the following steps: by polyketone POK, filling reinforcing agent With other auxiliary agents after high-speed mixer blending, with molding machine direct extrusion molding.

Further, above-mentioned hollow glass rigid warm up side spacer bar be added in extrusion molding or after extrusion molding metal or Enhanced non-metallic part.

Below by specific embodiment, 1 couple of present invention is specifically described, and hollow glass rigidly warms up the raw material of side spacer bar Including polyketone, glass fibre, talcum powder, modified additive.Weight percentage of each component accounts for 43.9%, PA6 for polyketone POK and accounts for 15%, glass fibre accounts for 20%, and talcum powder accounts for 10%, and antioxidant accounts for 0.3%, and ultraviolet absorber accounts for 0.5%, and lubricant accounts for 0.3%.

Each component is mixed in the ratio in specific embodiment 1, with double screw extruder extruding pelletization, grain will have been made Son injected sample strip in injection molding machine.

It further illustrates, above injected sample strip is placed 24 hours indoors, and sample room temperature is kept for 23 DEG C, phase 50% is kept to humidity.

Detection project	Examination criteria	Unit	Measured data
				Tensile strength	GB/T1040	MPa	89
Elongation at break	GB/T1040	%	18.5
				Bending strength	GB/T9341	MPa	110
Bending modulus	GB/T9341	GPa	6.1
				Izod notch shock	GB/T1843	KJ/m2	12
- 30 DEG C of notch shocks	GB/T1843	KJ/m2	5.5
				Thermal coefficient	GB/T10294	W/mk	0.26

The pellet of granulation is put into draw ratio to be less than the single screw extrusion machine for being 1 to 38 to squeeze out, extrusion temperature 220-240 Degree；Then spacer bar when production rigidity warms up is had more according to a mould in spacer bar width size according to warm；Side spacer bar is warmed up from mold After extrusion, sizing is vacuumized by stock mould and is cooled and shaped；Online puncher punches on rigidly warm side spacer bar visible surface, passes through Servo traction machine travel is crossed, and tracks customized cut-off online.

Fig. 1-15 is the sectional view that hollow glass of the present invention rigidly warms up side spacer bar, wherein the section A-1 of Fig. 1-3, section In A-2, section A -3,1 is warm edge strip, and 2 be air hole.The section Fig. 4-6 B-1, section B-2, in the B-3 of section, 1 is warm edge strip, 2 It is air hole for reinforcement, 3.The section Fig. 7-9 C-1, section C-2, in the C-3 of section, 1 is warm edge strip, and 2 be air hole.Figure 10-12 Section D-1, section D-2, in the D-3 of section, 1 is warm edge strip, and 2 be air hole.The section Figure 13-15 E-1, section E-2, section E-3 In, 1 is warm edge strip, and 2 be reinforcement, and 3 be air hole.

Claims (5)

1. a kind of rigid warm side spacer bar of hollow glass, which is characterized in that the spacer bar is polyketone POK, filling reinforcing agent and Other auxiliary agents are made, and the formula of each component is by weight percentage are as follows: and polyketone POK 40-90% fills reinforcing agent 10-60%, Other auxiliary agent 0.1-1.5%；Filling reinforcing agent is one or both of glass fibre and talcum powder, and filling reinforcing agent is two kinds Group timesharing, talcum powder account for the weight percent 5-25% of spacer bar each component total weight；Other auxiliary agents be antioxidant, lubricant, One or more of ultraviolet absorber, light stabilizer；The weight percent summation of each component is 100%.

2. hollow glass as described in claim 1 rigidly warms up side spacer bar, which is characterized in that the glass fibre is long glass Fiber or short glass fiber or continuous glass fibre.

3. hollow glass as described in claim 1 rigidly warms up side spacer bar, which is characterized in that the spacer bar is using the following method Preparation: polyketone POK, filling reinforcing agent and other auxiliary agents are blended in a high speed mixer, then are granulated with double screw extruder, most Extrusion molding afterwards.

4. hollow glass as described in claim 1 rigidly warms up side spacer bar, which is characterized in that the spacer bar is using the following method Preparation: by polyketone POK, filling reinforcing agent and other auxiliary agents after high-speed mixer blending, with molding machine direct extrusion molding.

5. hollow glass as described in claim 3 or 4 rigidly warms up side spacer bar, which is characterized in that the hollow glass rigidity Metal or enhanced non-metallic part is added in warm side spacer bar in extrusion molding or after extrusion molding.