CN214461499U - Glass heat-insulating energy-saving partition wall - Google Patents

Abstract

The utility model relates to a glass heat preservation energy-saving partition wall, relate to the field of architectural decoration technique, it includes first glass board and second glass board, first glass board and second glass board relatively fixed, the upper and lower both sides of first glass board and second glass board all are provided with the fixed block, the fixed block has been seted up near one side of first glass board and has been led to the groove, first glass board and second glass board and the cooperation of pegging graft of leading to the groove, fixed block and wall body relatively fixed, there is the space between first glass board and the second glass board, fill in the space and have heat preservation glue. This application has the good effect of thermal insulation performance.

Description

Glass heat-insulating energy-saving partition wall

Technical Field

The application relates to the field of architectural decoration technology, in particular to a glass heat-insulating energy-saving partition wall.

Background

At present glass partition wall main effect is exactly to use glass to divide the space as the partition wall as required, more reasonable good space of utilization satisfies various house ornamentations and frock usage.

In the related technology, the glass partition wall is usually made of toughened glass, and has the advantages of wind pressure resistance, cold and summer heat resistance, impact resistance and the like, so that the glass partition wall is safer, firmer and durable, and the damage to a human body after the glass is broken is much less than that of common glass.

In view of the above-mentioned related technologies, the inventor believes that there is a defect that a partition made of tempered glass has poor thermal insulation performance and is likely to cause heat loss in a room.

SUMMERY OF THE UTILITY MODEL

The application provides a glass heat preservation energy-saving partition wall in order to improve toughened glass's partition wall thermal insulation performance poor, causes the problem of the inside heat loss in room easily.

The application provides a glass heat preservation energy-saving partition wall adopts following technical scheme:

the utility model provides a glass heat preservation energy-saving partition wall, includes first glass board and second glass board, first glass board and second glass board relatively fixed, the upper and lower both sides of first glass board and second glass board all are provided with the fixed block, the fixed block is close to one side of first glass board and has seted up logical groove, first glass board and second glass board and logical groove grafting cooperation, fixed block and wall body relatively fixed have the space between first glass board and the second glass board, fill in the space and have had heat preservation glue.

Through adopting above-mentioned technical scheme, pour into heat preservation glue in first glass board and the second glass board, can reduce the conduction velocity of heat between first glass board and second glass board to the heat preservation effect of first glass board and second glass board has been improved.

Preferably, the first glass plate is provided with a glue pouring hole penetrating through the first glass plate at a position close to the upper side.

Through adopting above-mentioned technical scheme, the setting of encapsulating hole has made things convenient for operating personnel to the operation of encapsulating glue between first glass board and the second glass board.

Preferably, the second glass plate is provided with an exhaust hole penetrating through the second glass plate at a position close to the upper part of the second glass plate.

Through adopting above-mentioned technical scheme, the setting in exhaust hole for operating personnel can carry out certain derivation with the air between first glass board and the second glass board when pouring into glue between first glass board and the second glass board, thereby has reduced the encapsulating in-process, and the bubble that produces in the heat preservation glue has improved the encapsulating stability of heat preservation glue, thereby has improved the thermal insulation performance of heat preservation glue.

Preferably, the holding tank has all been seted up to first glass board with one side that the second glass board is close to each other, and the holding tank on holding tank and the second glass board is just to just communicating on the first glass board, is provided with sealed the pad between first glass board and the second glass board, and sealed pad is frame structure, and sealed relative both sides of filling up butt respectively set up in the holding tank of first glass board and the holding tank of second glass board, and sealed top of filling up is higher than encapsulating hole and exhaust hole.

Through adopting above-mentioned technical scheme, sealed setting up of filling up can be so that the in-process that glue was filled is difficult to run out from the gap edge of first glass board and second glass board, has reduced the waste of glue when glue is filled, has also reduced the washing of operating personnel to the glue that runs out.

Preferably, one side that the fixed block deviates from first glass board is provided with the installation piece, and the mounting block has been close to one side of fixed block and has been seted up the dashpot, and the fixed block setting is in the dashpot, and the size of dashpot is greater than the size of fixed block, and the fixed block is close to the relative both sides of installation piece and all is provided with a plurality of buffer spring, buffer spring both ends respectively with fixed block and installation piece fixed connection.

Through adopting above-mentioned technical scheme, buffer spring's setting for operating personnel can strike the fixed block after the encapsulating, makes the fixed block drive first glass board and second glass board and takes place to rock, makes the bubble in the heat preservation glue discharge from the exhaust hole, has reduced the influence of bubble to heat preservation glue heat preservation performance.

Preferably, one side of the fixed block, which is far away from the first glass plate, is provided with a plurality of balls in a rolling manner, and the balls are matched with the inner wall of the buffer groove in a rolling manner.

Through adopting above-mentioned technical scheme, the setting of ball changes the sliding friction between fixed block and the installation piece into rolling friction, has reduced the frictional force that takes place the displacement and receive between fixed block and the installation piece, has improved the smoothness nature that the fixed block rocked for the installation piece, and then has promoted the discharge of heat preservation glue aquatic bubble.

Preferably, the relative both sides that the installation piece deviates from the fixed block all are provided with a plurality of dead bolts of lock, and the dead bolt of lock cooperates with installation piece screw thread, and the one end of the dead bolt of lock cooperates with the lateral wall butt of fixed block.

Through adopting above-mentioned technical scheme, the setting of dead bolt of lock for with the bubble discharge back that contains between first glass board and the second glass board, can carry out relative fixed to fixed block and installation piece, reduced first glass board and second glass board and taken place to remove in the use and bring dangerous condition.

Preferably, a plurality of limiting grooves are formed in the two opposite sides, close to the mounting block, of the fixing block, and the limiting grooves are in plug-in fit with the locking bolts.

Through adopting above-mentioned technical scheme, the setting of spacing groove for the dead bolt of lock inserts in the spacing groove, thereby has reduced the gliding condition of fixed block for the installation piece, has improved the fixed stability between installation piece and the fixed block.

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

1. the arrangement of the heat-insulating glue improves the heat-insulating property of the glass partition wall;

2. the arrangement of the buffer spring facilitates the discharge of bubbles in the heat-preservation glue;

3. the setting in exhaust hole and encapsulating hole has improved the convenience and the stability of encapsulating.

Drawings

FIG. 1 is a schematic structural diagram of a glass heat-insulating energy-saving partition wall in an embodiment of the present application;

fig. 2 is a partial sectional view of a partition wall.

Description of reference numerals: 1. a first glass plate; 11. filling glue holes; 2. a second glass plate; 21. an exhaust hole; 3. a fixed block; 31. a ball bearing; 32. a through groove; 33. a limiting groove; 4. mounting blocks; 41. a buffer tank; 5. a buffer spring; 6. a gasket; 7. a rubber stopper; 8. heat preservation glue; 9. accommodating grooves; 10. the bolt is locked.

Detailed Description

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

The embodiment of the application discloses a glass heat-insulating energy-saving partition wall.

Referring to fig. 1 and 2, the glass heat-insulating energy-saving partition wall comprises a first glass plate 1 and a second glass plate 2, wherein heat-insulating glue 8 is fixedly arranged between the first glass plate 1 and the second glass plate 2. The material of the thermal insulation glue 8 in this embodiment is phenolic resin. The upper and lower both sides of first glass board 1 and second glass board 2 all are provided with fixed block 3, and first glass board 1 and second glass board 2 are pegged graft with fixed block 3 and are cooperated, and one side that fixed block 3 deviates from first glass board 1 is provided with installation piece 4, and installation piece 4 is fixed with the wall body bonding, and fixed block 3 and installation piece 4 relatively fixed. First glass board 1 and second glass board 2 are fixed each other through fixed block 3 and are conveniently poured the material that plays the heat preservation between first glass board 1 and the second glass board 2, and fixed block 3 is from fixing the partition wall in the wall body through installation piece 4 and wall body fixed connection. Through pouring into insulation material between first glass board 1 and the second glass board 2 to improve the thermal insulation performance of glass partition wall, compensatied the poor defect of glass material thermal insulation performance.

Referring to fig. 2, a through groove 32 is formed in one side of the fixing block 3 close to the first glass plate 1, the through groove 32 horizontally penetrates through two opposite sides of the fixing block 3, and the first glass plate 1 and the second glass plate 2 are inserted into the through groove 32. Holding tank 9 has all been seted up to one side that first glass board 1 and second glass board 2 are close to each other, and holding tank 9 is seted up all around along the edge that is close to first glass board 1 or second glass board 2, and holding tank 9 on the first glass board 1 and the holding tank 9 on the second glass board 2 just communicate. Be provided with sealed 6 between first glass board 1 and the second glass board 2, sealed 6 is the frame structure, and sealed 6 both sides butt cooperation is in the holding tank 9 of first glass board 1 and second glass board 2 in the relative both sides of filling up. When carrying out the installation of partition wall, at first place sealed 6 of filling up in the holding tank 9 of first glass board 1, then just right and extrude each other first glass board 1 and second glass board 2, sealed 6 of filling up can take place elastic deformation and be full of two holding tanks 9, make first glass board 1 and second glass board 2 be located the inside space of holding tank 9 and seal up, then first glass board 1 and the second glass board 2 both sides that are extruding each other are pegged graft two fixed blocks 3 in order to carry out preliminary fixed to first glass board 1 and second glass board 2, in order to make things convenient for subsequent encapsulating operation.

Referring to fig. 2, a glue filling hole 11 penetrating through the first glass plate 1 is formed at a position close to the top end of the first glass plate, and the glue filling hole 11 is located below the top end of the sealing gasket 6. The second glass plate 2 is provided with an exhaust hole 21 penetrating through the second glass plate 2 at a position close to the top end, and the exhaust hole 21 is positioned between the top end of the sealing gasket 6 and the glue filling hole 11. The rubber plug 7 is in interference fit with the glue filling hole 11 and the exhaust hole 21. After the first glass plate 1 and the second glass plate 2 are installed in the fixing block 3, an operator pours phenolic resin into gaps, located in the sealing gasket 6, of the first glass plate 1 and the second glass plate 2 through the glue pouring holes 11. In the process of encapsulating, the air that first glass board 1 and second glass board 2 contain probably enters into heat preservation glue 8 in, can be at the in-process of encapsulating through seting up exhaust hole 21, with the timely discharge of air between first glass board 1 and the second glass board 2, bubble when having reduced the encapsulating between first glass board 1 and the second glass board 2 has guaranteed the thickness of encapsulating, has improved heat preservation glue 8's heat preservation effect. After the encapsulating is finished, the operator fills the two rubber plugs 7 into the encapsulating hole 11 and the exhaust hole 21 respectively, so that impurities are reduced to enter between the first glass plate 1 and the second glass plate 2.

Referring to fig. 2, one side that installing block 4 is close to fixed block 3 has seted up dashpot 41, and dashpot 41 runs through the relative both sides of installing block 4, and fixed block 3 sets up inside dashpot 41, and the size of dashpot 41 is greater than the size of fixed block 3, and fixed block 3 all is provided with a plurality of buffer spring 5 near the relative both sides of installing block 4, buffer spring 5's both ends respectively with fixed block 3 and installing block 4 fixed connection. One side of the fixing block 3 departing from the first glass plate 1 is provided with a plurality of balls 31 in a rolling manner, and the balls 31 are matched with the bottom wall of the buffer groove 41 in a rolling manner. When carrying out the pouring of heat preservation glue 8 between first glass board 1 and the second glass board 2, can produce certain bubble in heat preservation glue 8 unavoidably, operating personnel can be through strikeing fixed block 3 this moment for fixed block 3 takes place the horizontally in installation piece 4 and rocks, thereby makes first glass board 1 and second glass board 2 take place to rock together, makes the bubble can be along with rocking of first glass board 1 and second glass board 2 discharge from exhaust hole 21. The setting of ball 31 changes the sliding friction between fixed block 3 and installation piece 4 into rolling friction, has reduced the frictional force that takes place the displacement and receive between fixed block 3 and the installation piece 4, has improved the smoothness nature that fixed block 3 rocked for installation piece 4, and then has promoted the discharge of bubble in the heat preservation glue 8.

Referring to fig. 2, the relative both sides that installation piece 4 deviates from fixed block 3 all are provided with a plurality of dead bolts 10 of lock, and the dead bolt 10 of lock sets up with buffer spring 5 interval, and fixed block 3 has seted up a plurality of spacing grooves 33 near the relative both sides of installation piece 4, and the one end of dead bolt 10 of lock is pegged graft with spacing groove 33 and is cooperated, dead bolt 10 of lock and 4 threaded connection of installation piece. After the bubbles in the heat preservation glue 8 are discharged, the operator screws the locking bolts 10 towards the fixing block 3 until the locking bolts 10 at the two sides abut against the inner wall of the limiting groove 33, and the fixing block 3 and the mounting block 4 are relatively fixed.

The implementation principle of this application embodiment glass heat preservation energy-saving partition wall does: when the installation of partition wall is carried out to operating personnel, at first place sealed 6 in the holding tank 9 of first glass board 1, then just mutually with first glass board 1 and second glass board 2 and be close to each other and produce the extrusion to sealed 6, insert the both sides of connecing to first glass board 1 and second glass board 2 with fixed block 3 in order to carry out the preliminary fixed of first glass board 1 and second glass board 2. And then, the mounting block 4 is bonded on the wall, and an operator fills the heat-preservation glue 8 between the first glass plate 1 and the second glass plate 2 through the glue filling hole 11. Rock fixed block 3 after pouring into, with the bubble discharge in the heat preservation glue 8, the bubble discharge back, with rubber stopper 7 installation in encapsulating hole 11 and exhaust hole 21 to with dead bolt 10 of lock with fixed block 3 and installation piece 4 relatively fixed, thereby accomplished the installation of partition wall. In conclusion, this application has better thermal-insulated ability because of the setting of heat preservation glue 8 to better heat preservation effect has been had.

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. A glass heat-insulating energy-saving partition wall is characterized in that: including first glass board (1) and second glass board (2), first glass board (1) and second glass board (2) relatively fixed, the upper and lower both sides of first glass board (1) and second glass board (2) all are provided with fixed block (3), logical groove (32) have been seted up to one side that fixed block (3) are close to first glass board (1), first glass board (1) and second glass board (2) and logical groove (32) cooperation of pegging graft, fixed block (3) and wall body relatively fixed, there is the space between first glass board (1) and second glass board (2), it has heat preservation glue (8) to fill in the space.

2. A glass thermal insulation energy-saving partition wall according to claim 1, characterized in that: and a glue pouring hole (11) penetrating through the first glass plate (1) is formed in the position, close to the upper part, of the first glass plate.

3. A glass thermal insulation energy-saving partition wall according to claim 2, characterized in that: and an exhaust hole (21) penetrating through the second glass plate (2) is formed at the position close to the upper part of the second glass plate.

4. A glass thermal insulation energy-saving partition wall according to claim 3, characterized in that: holding tank (9) have all been seted up to first glass board (1) with one side that second glass board (2) are close to each other, holding tank (9) on holding tank (9) and second glass board (2) are just and communicate on first glass board (1), be provided with sealed pad (6) between first glass board (1) and second glass board (2), sealed pad (6) are frame structure, the relative both sides of sealed pad (6) butt respectively set up in holding tank (9) of first glass board (1) and holding tank (9) of second glass board (2), the top of sealed pad (6) is higher than encapsulating hole (11) and exhaust hole (21).

5. A glass thermal insulation energy-saving partition wall according to claim 3, characterized in that: one side that fixed block (3) deviates from first glass board (1) is provided with installation piece (4), buffer slot (41) have been seted up to one side that installation piece (4) are close to fixed block (3), fixed block (3) set up in buffer slot (41), the size of buffer slot (41) is greater than the size of fixed block (3), the relative both sides that fixed block (3) are close to installation piece (4) all are provided with a plurality of buffer spring (5), buffer spring (5) both ends respectively with fixed block (3) and installation piece (4) fixed connection.

6. A glass thermal insulation energy-saving partition wall according to claim 5, characterized in that: one side of the fixing block (3) departing from the first glass plate (1) is provided with a plurality of balls (31) in a rolling mode, and the balls (31) are matched with the inner wall of the buffer groove (41) in a rolling mode.

7. A glass thermal insulation energy-saving partition wall according to claim 6, characterized in that: the relative both sides that installation piece (4) deviate from fixed block (3) all are provided with a plurality of dead bolts of locking (10), and dead bolt of locking (10) and installation piece (4) screw-thread fit, the one end of dead bolt of locking (10) and the lateral wall butt cooperation of fixed block (3).

8. A glass thermal insulation energy-saving partition wall according to claim 7, characterized in that: the relative both sides that fixed block (3) are close to installation piece (4) have seted up a plurality of spacing grooves (33), and spacing groove (33) are pegged graft with locking bolt (10) and are cooperated.

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