CN214117934U - Reliably-fixed energy-saving door and window glass inner side sealing rubber strip - Google Patents

Abstract

The utility model relates to a fixed reliable inboard joint strip of energy-conserving door and window glass belongs to joint strip's field, and it includes the adhesive tape main part, still includes a plurality of feet teeth and fixed foot, and the slope of feet teeth sets up in one side of adhesive tape main part, and fixed foot sets up in the opposite side of adhesive tape main part, and one side of adhesive tape main part is provided with a plurality of first sucking discs, is provided with in the adhesive tape main part to be used for carrying out the first extrusion mechanism that extrudees to a plurality of first sucking discs. The rubber strip main body is arranged between the glass and the door and window frame body, and the rubber strip main body is fixed between the glass and the door and window frame body through friction generated between a plurality of foot teeth and the glass and clamping between the fixing foot and the door and window frame body. After the rubber strip main body is fixed between the glass and the door and window frame body, the first sucking disc is extruded through the first extruding mechanism, so that the first sucking disc is fixed between the glass or the door and window frame body more tightly. Thereby further fixing the glue body between the glass and the door and window frame.

Description

Reliably-fixed energy-saving door and window glass inner side sealing rubber strip

Technical Field

The application relates to the field of sealing rubber strips, in particular to a reliable and energy-saving sealing rubber strip for the inner side of glass of a door or a window.

Background

The energy-saving door window is used for increasing the lighting and ventilating area or expressing the character and character of modern buildings. The energy-saving door and window can improve the optical performance, the thermal performance and the sealing performance of the material, and the structure of the door and window is improved to achieve the expected effect. In the installation process of a common energy-saving door and window, the component part of the door and window is usually sealed by using an ultra-high molecular weight PVC sealing rubber strip so as to reduce the heat exchange between the indoor part and the outdoor part and further achieve the effect of energy conservation.

In the door and window technique, all be provided with joint strip between door and window frame body and glass, play waterproof, prevent wind and noise control's sealed effect on the one hand, on the other hand plays fixed glass, prevents to appear rigid contact collision and damage or the effect that produces the noise between glass and the door and window frame body. According to the difference that the adhesive tape set up the position, the adhesive tape that sets up in the outside of a house is called the outer adhesive tape of glass, and the adhesive tape that sets up in indoor side is called the interior adhesive tape of glass. The rubber strip in the glass consists of a rubber strip main body, foot teeth arranged on one side of the rubber strip main body and a fixing foot arranged on the other side of the rubber strip main body, and then the rubber strip is extruded between the glass and the door and window frame body.

The inventor thinks, through foot tooth and fixed foot with the adhesive tape main part fix between glass and door and window frame, artifical manual when rocking glass, the adhesive tape body produces easily and rocks between glass and door and window frame, has the not good problem of stability.

SUMMERY OF THE UTILITY MODEL

In order to improve because the adhesive tape body produces easily and rocks between glass and door and window frame, and have the not good problem of stability, this application provides a fixed reliable energy-conserving glass for door and window inboard joint strip.

The application provides a fixed reliable inboard joint strip of energy-conserving door and window glass adopts following technical scheme:

the utility model provides a fixed reliable energy-conserving glass inboard joint strip for door and window, includes the adhesive tape main part, still includes a plurality of feet tooth and fixed foot, the slope of foot tooth sets up in one side of adhesive tape main part, fixed foot sets up in the opposite side of adhesive tape main part, one side of adhesive tape main part is provided with a plurality of first sucking discs, be provided with in the adhesive tape main part and be used for carrying out the first extrusion mechanism that extrudees to a plurality of first sucking discs.

Through adopting above-mentioned technical scheme, install the adhesive tape main part between glass and door and window frame, through the friction that produces between a plurality of foot teeth and the glass to and the joint between fixed foot and the door and window frame, fix the adhesive tape main part between glass and door and window frame. After the rubber strip main body is fixed between the glass and the door and window frame body, the first sucking disc is extruded through the first extruding mechanism, so that the first sucking disc is fixed between the glass or the door and window frame body more tightly. Thereby further fixing the glue body between the glass and the door and window frame.

Optionally, the first extrusion mechanism includes a first inflatable bag and a plurality of inflatable columns, a first mounting hole is formed in the rubber strip main body, a plurality of second mounting holes are formed in the side wall of the rubber strip main body, which is located at the first mounting hole, and the plurality of second mounting holes are communicated with the first mounting hole;

the first inflatable bag penetrates through the first mounting hole, and two ends of the first inflatable bag in the length direction are provided with inflation ports;

the plurality of inflatable columns penetrate through the second mounting holes in a one-to-one correspondence mode, and the plurality of first sucking discs are fixed at one ends, far away from the first inflatable bags, of the plurality of inflatable columns in a one-to-one correspondence mode.

Through adopting above-mentioned technical scheme, after the staff fixed the adhesive tape main part between glass and door and window frame, the staff can be through the inflation inlet towards first gas pocket and gas column aerify. Extrude first sucking disc through aerifing first air bag and gas column to can extrude the gas that produces between first sucking disc and the glass, thereby can be convenient for fix the sucking disc on glass, make between adhesive tape body and the glass fixed more reliable.

Optionally, the axial section of the inflation column is wave-shaped.

Through adopting above-mentioned technical scheme, after the gas column is full of gas, can extend the direction of keeping away from first gas pocket with the gas column to can make between first sucking disc and the glass fixed inseparabler.

Optionally, the first suction discs are located between two adjacent foot teeth, and a limiting rubber strip for limiting the position of the inflatable column is arranged on one surface, opposite to each other, of each two adjacent foot teeth.

Through adopting above-mentioned technical scheme, fix first sucking disc between two foot teeth, when the installation adhesive tape main part, can block and protect first sucking disc through the foot tooth. The setting of spacing adhesive tape can restrict the extending direction of aerifing the post to can extrude first sucking disc through aerifing the post.

Optionally, one side of the rubber strip main body, which is far away from the first suction cup, is provided with a plurality of second suction cups, and the rubber strip main body is provided with a second extrusion mechanism for extruding the second suction cups.

Through adopting above-mentioned technical scheme, can further fix the colloid main part between glass and door and window frame through second extrusion mechanism.

Optionally, the second extrusion mechanism comprises a second inflatable bag, and the adhesive tape main body is provided with an installation groove;

the section of the second inflatable bag gradually decreases towards the opening position of the mounting groove, and the second inflatable bag is arranged in the mounting groove in a penetrating manner;

and the second suckers are fixed at the tops of the second inflatable bags.

Through adopting above-mentioned technical scheme, when aerifing the second air bag, can extrude the second sucking disc through the second air bag, make the second sucking disc can be reliable inhale on the door and window framework.

Optionally, the first inflatable bag and the second inflatable bag are arranged in a propping manner, a pair of limiting holes with triangular cross sections are formed in the rubber strip main body, the sharp tops of the two limiting holes are arranged between the first inflatable bag and the second inflatable bag, and a third inflatable bag penetrates through the limiting holes.

Through adopting above-mentioned technical scheme, extrude each other between first air bag and the second air bag, can be convenient for extrude first sucking disc and second sucking disc. The setting of third air bag can be to first air bag and the extrusion of second air bag to can further extrude first sucking disc and second sucking disc.

Optionally, a concave pit is arranged at one end of each foot tooth, which is far away from the fixed foot.

Through adopting above-mentioned technical scheme, the area of contact between foot tooth and the glass can be increased on the one hand in the setting of pit, makes the adhesive tape main part can be reliably fixed between glass and door and window frame.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the first sucking disc is extruded by the first extruding mechanism through the arrangement of the first sucking disc and the first extruding mechanism, so that the first sucking disc is fixed more tightly with glass or with a door and window frame body;

2. through the arrangement of the second sucker and the second extrusion mechanism, the colloid main body can be further fixed between the glass and the door and window frame body through the second extrusion mechanism;

3. through the setting of spacing hole and third air bag, can extrude first air bag and second air bag through the third air bag to extrude first sucking disc and second sucking disc.

Drawings

FIG. 1 is a schematic view of the overall structure of a main body of a rubber strip in an embodiment of the present application;

fig. 2 is a sectional view taken along line a-a of fig. 1.

Description of reference numerals: 1. a rubber strip main body; 11. an inflation hole; 2. a foot tooth; 3. a fixing leg; 31. a locking groove; 4. a first suction cup; 5. a first pressing mechanism; 51. a first airbag; 52. an inflatable column; 53. a first mounting hole; 54. a second mounting hole; 55. an inflation inlet; 56. a limiting rubber strip; 6. a second suction cup; 7. a second extrusion mechanism; 71. a second airbag; 72. mounting grooves; 8. a limiting hole; 81. a third airbag; 9. a pit; 10. glass; 100. a door and window frame body.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses a reliably fixed energy-saving glass inner side sealing rubber strip for doors and windows. Referring to fig. 1, the inner side sealing rubber strip for the fixed and reliable energy-saving door and window glass comprises a rubber strip main body 1, wherein a plurality of foot teeth 2 are arranged on one side of the rubber strip main body 1 in an extending mode, a fixing foot 3 is arranged on the end portion of the other end of the rubber strip main body 1 in an extending mode, the fixing foot 3 extends towards one side far away from the foot teeth 2, and the door and window frame body 100 can be in smooth transition. The end of each prong 2 remote from the fixing foot 3 is provided with a recess 9 to increase the friction between the prong 2 and the glass 10. A locking groove 31 is formed between the fixing leg 3 and the rubber strip body 1, and the locking groove 31 is used for fixing the door/window frame 100. The rubber strip main body 1 is inserted between the glass 10 and the door and window frame 100, the plurality of foot teeth 2 are obliquely arranged, and the oblique direction is consistent with the movement direction of the rubber strip main body 1 inserted between the glass 10 and the door and window frame 100. A first sucking disc 4 is arranged between two adjacent foot teeth 2, and a second sucking disc 6 is arranged on one side, far away from the first sucking disc 4, of the rubber strip main body 1. In this embodiment, the first suction cup 4 is located between the main rubber strip body 1 and the glass 10, and the second suction cup 6 is located between the main rubber strip body 1 and the door/window frame 100.

Referring to fig. 2, a first extruding mechanism 5 is disposed between the rubber strip main body 1 and the first suction tray 4, a first mounting hole 53 is formed on the rubber strip main body 1, and a plurality of second mounting holes 54 communicated with the first mounting hole 53 are formed on the side wall of the first mounting hole 53. The first squeezing mechanism 5 comprises a first inflatable bag 51 and a plurality of inflatable columns 52, the first inflatable bag 51 is arranged in the first mounting hole 53 in a penetrating manner, and inflation ports 55 are arranged at two ends of the first inflatable bag 51 in the length direction. The plurality of inflatable columns 52 are correspondingly arranged in the second mounting holes 54 in a penetrating mode, the axial section of each inflatable column 52 is wavy, and the plurality of first suction discs 4 are correspondingly fixed to one ends, far away from the first inflatable bags 51, of the plurality of inflatable columns 52. After the inflatable pillar 52 is filled with air, the inflatable pillar 52 can be extended away from the first inflatable bag 51, the first suction cup 4 can suck the glass 10, the inflatable pillar 52 exerts a force on the first suction cup 4 to extrude the air between the first suction cup 4 and the glass 10, and the fixation between the first suction cup 4 and the glass 10 is tighter. In order to allow the air column 52 to extend toward the glass 10, a stopper strip 56 is fixed to each leg on the side facing the air column 52, thereby restricting the extending direction of the air column 52.

Referring to fig. 2, a second squeezing mechanism 7 is arranged between the rubber strip main body 1 and the second suction cup 6, a plurality of mounting grooves 72 are formed in the rubber strip main body 1, the second squeezing mechanism 7 comprises a second inflatable bag 71 penetrating through the mounting grooves 72, and the first inflatable bag 51 and the second inflatable bag 71 are arranged in a propping manner. The adhesive tape main body 1 is provided with an inflation hole 11, the inflation hole 11 is communicated with the mounting groove 72, the inflation hole 11 is used for inflating the inside of the second inflation bag 71, the second inflation bag 71 extends into the inflation hole 11, a worker inflates two ends of the second inflation bag 71, and then the air extends to the inside of the second inflation bag 71. The section of the second airbag 71 is gradually decreased towards the opening position of the mounting groove 72, and the section shape of the mounting groove 72 is matched with the section shape of the second airbag 71. The second suction cups 6 are fixed at the top of the second inflatable bag 71, and when the second inflatable bag 71 is inflated, the second suction cups 6 can be squeezed, so that the second suction cups 6 and the door and window frame 100 can be fixed more tightly.

Referring to fig. 2, a pair of limiting holes 8 with triangular cross sections are formed in the rubber strip main body 1, the apexes of the two limiting holes 8 face to the space between the first inflatable bag 51 and the second inflatable bag 71, and a third inflatable bag 81 penetrates through the limiting holes 8. When the third airbag 81 is inflated, the first airbag 51 and the second airbag 71 are squeezed by the side wall of the limiting hole 8, so that the first suction cup 4 and the glass 10 are fixed more firmly, and the second suction cup 6 and the door and window frame 100 are fixed more firmly.

The implementation principle of the inner side sealing rubber strip for the reliably fixed energy-saving door and window glass in the embodiment of the application is as follows: when the rubber strip body 1 is installed, the rubber strip body 1 is installed between the glass 10 and the door and window frame 100, that is, the fixing edge on the door frame is inserted into the locking groove 31, and the plurality of the foot teeth 2 on the rubber strip body 1 and the glass 10 are pressed against each other. Then, the air is filled into the first inflatable bag 51 and the second inflatable bag 71, the first suction cup 4 is sucked on the glass 10, the second suction cup 6 is sucked on the door and window frame 100, and then the first inflatable bag 51 and the second inflatable bag 71 are filled with air to be sealed, so that the fixation between the first suction cup 4 and the glass 10 is firmer, and the fixation between the second suction cup 6 and the door and window frame 100 is firmer. Finally, the third inflatable bag 81 is inflated to extrude the first inflatable bag 51 and the second inflatable bag 71, so that the fixation of the whole rubber strip main body 1 between the glass 10 and the door and window frame 100 is more reliable.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a fixed reliable inboard joint strip of energy-conserving door and window glass, includes adhesive tape main part (1), its characterized in that: still include a plurality of foot teeth (2) and fixed foot (3), foot tooth (2) slope sets up in one side of adhesive tape main part (1), fixed foot (3) set up in the opposite side of adhesive tape main part (1), one side of adhesive tape main part (1) is provided with a plurality of first sucking discs (4), be provided with on adhesive tape main part (1) and be used for carrying out extruded first extrusion mechanism (5) to a plurality of first sucking discs (4).

2. The energy-saving door and window glass inner side sealing rubber strip with reliable fixation according to claim 1, is characterized in that: the first extrusion mechanism (5) comprises a first inflatable bag (51) and a plurality of inflatable columns (52), a first mounting hole (53) is formed in the rubber strip main body (1), a plurality of second mounting holes (54) are formed in the side wall, located on the first mounting hole (53), of the rubber strip main body (1), and the second mounting holes (54) are communicated with the first mounting hole (53);

the first inflatable bag (51) penetrates through the first mounting hole (53), and two ends of the first inflatable bag (51) in the length direction are provided with inflation ports (55);

the inflatable columns (52) are correspondingly arranged in the second mounting holes (54) in a penetrating mode, and the first suckers (4) are correspondingly fixed at one ends, far away from the first inflatable bags (51), of the inflatable columns (52).

3. The energy-saving door and window glass inner side sealing rubber strip with reliable fixation according to claim 2, is characterized in that: the axial section of the inflation column (52) is wave-shaped.

4. The energy-saving door and window glass inner side sealing rubber strip with reliable fixation according to claim 3, is characterized in that: a plurality of first sucking discs (4) are located between two adjacent foot teeth (2), and every two adjacent foot teeth (2) opposite surfaces are provided with limiting rubber strips (56) for limiting the position of the inflatable column (52).

5. The energy-saving door and window glass inner side sealing rubber strip with reliable fixation according to claim 4, is characterized in that: one side of the rubber strip main body (1) far away from the first suckers (4) is provided with a plurality of second suckers (6), and the rubber strip main body (1) is provided with a second extruding mechanism (7) for extruding the second suckers (6).

6. The energy-saving door and window glass inner side sealing rubber strip with reliable fixation according to claim 5, is characterized in that: the second extrusion mechanism (7) comprises a second inflatable bag (71), and a mounting groove (72) is formed in the rubber strip main body (1);

the section of the second inflatable bag (71) gradually decreases towards the opening position of the mounting groove (72), and the second inflatable bag (71) penetrates through the mounting groove (72);

a plurality of second suction cups (6) are fixed at the top of the second inflatable bag (71).

7. The energy-saving door and window glass inner side sealing rubber strip with reliable fixation according to claim 6, is characterized in that: first gas bag (51) and second gas bag (71) offset the setting, set up a pair of cross-section for spacing hole (8) of triangle-shaped on adhesive tape main part (1), two the pinnacle of spacing hole (8) sets up towards between first gas bag (51) and second gas bag (71), wear to be equipped with third gas bag (81) in spacing hole (8).

8. The energy-saving door and window glass inner side sealing rubber strip with reliable fixation according to claim 1, is characterized in that: each foot tooth (2) is provided with a pit (9) at one end far away from the fixed foot (3).

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