CN214247095U - Energy-saving double-steel hollow glass - Google Patents

Abstract

The utility model discloses an energy-saving double steel cavity glass belongs to the cavity glass field. An energy-saving double-steel hollow glass comprises: supporting mechanism, slewing mechanism, control mechanism, clean mechanism, glass layer mechanism, to sum up, the device is two steel cavity settings, and the inlayer is provided with transparent heat reflection film layer, play heat preservation adiabatic effect that can be fine, thereby it runs off too fast to have solved indoor temperature, energy-conserving effect has been played, the device takes the window shade certainly, the user makes the chain drive first gear and second gear rotation through rotating the knob, thereby make the bull stick rotate, roll up the window shade or unfold the window shade, reach shading or non-light tight effect.

Description

Energy-saving double-steel hollow glass

Technical Field

The utility model belongs to the technical field of cavity glass, especially, relate to an energy-saving double steel cavity glass.

Background

The application of double-steel hollow glass is more and more extensive in the present society, but a plurality of problems also exist: poor heat preservation effect, no energy conservation, troublesome cleaning of the toughened glass surface and the like.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved

Poor to the heat preservation effect that exists among the prior art, it is not energy-conserving, wash the trouble problem of toughened glass face, the utility model aims at providing an energy-saving two steel cavity glass solve the heat preservation effect poor, it is not energy-conserving, wash the trouble problem of toughened glass face.

2. Technical scheme

In order to solve the above problems, the utility model adopts the following technical proposal.

An energy-saving double-steel hollow glass comprises: the device comprises a supporting mechanism, a rotating mechanism, a control mechanism, a cleaning mechanism and a glass layer mechanism;

the supporting mechanism comprises a bottom plate and two groups of sliding rails, the sliding rails are vertically arranged on two sides of the upper end of the bottom plate, mounting holes are formed in the bottom plate in a penetrating mode on one side of the sliding rails, protective magnets are arranged at the top ends of the sliding rails on the sides departing from the mounting holes, and mounting plates are arranged at the upper ends of the protective magnets;

the rotating mechanism comprises two groups of first supporting plates, two second supporting plates and a window shade, the first supporting plates are arranged on two sides of a mounting hole at the lower end of the bottom plate, the second supporting plates are arranged at the top ends of the mounting holes close to the indoor sliding rail, a first gear is arranged between each group of first supporting plates, a second gear is arranged on one opposite side of each of the two second supporting plates, the axial directions of the first gear and the second gear are mutually parallel, a chain is arranged on each of the first gear and the second gear, a round rod is arranged between the second gears, the second gears are coaxially sleeved at two ends of the round rod, and the top end of the window shade is arranged on the round rod;

the control mechanism comprises a control plate and a third gear, the control plate is installed on the sliding rail, the third gear is installed on the inner side of the control plate, the tooth surface of the third gear is meshed with the chain, a rotating knob is arranged at one end, deviating from the third gear, of the control plate, and the rotating knob is coaxially connected with the third gear.

Preferably, glass layer mechanism installs between two sets of slide rails, and glass layer mechanism includes indoor toughened glass layer, transparent heat reflection rete, outdoor toughened glass layer, and control mechanism one side is installed on indoor toughened glass layer, and transparent heat reflection rete is installed between indoor toughened glass layer, outdoor toughened glass layer, is formed with the clearance between indoor toughened glass layer and the outdoor toughened glass layer.

Preferably, the cleaning mechanisms are installed on two sides of the glass layer mechanism, the indoor parts of the cleaning mechanisms are connected with the bottom end of the window shade, each cleaning mechanism comprises magnetic plates and cleaning cloth, the magnetic plates are arranged on two sides of the glass layer mechanism, the cleaning cloth covers the inner sides of the magnetic plates, sliding rods are arranged at two ends of each magnetic plate, and the sliding rods are arranged in the sliding rails in a matched mode.

3. Has the advantages that:

1. in conclusion, the indoor most of present society is inverter air conditioner, and inverter air conditioner is according to indoor temperature variation stage nature work, because the device is two steel cavity settings, and the inlayer of glass layer mechanism is provided with transparent heat reflection membrane layer, and adiabatic effect of heat preservation has been played that can be fine to it is too fast to have solved the indoor temperature and has run off, and power loss is too much, has played the energy-conserving effect of saving.

2. The device is from taking the window shade, and the user makes the chain drive first gear and second gear rotation through rotating the knob to make the bull stick rotate, roll up the window shade or unfold the window shade, reach shading or non-light tight effect.

3. The indoor part of clean mechanism is connected to the window shade bottom, and when the window shade was rolled up or was stretched out, can make the indoor part of clean mechanism move on the slide rail, the glass top layer of clean process of cleaning cloth, the effect that the magnetic plate of the outdoor part of clean mechanism was inhaled through the opposite sex with the indoor magnetic plate of clean mechanism is with upper and lower, reaches the effect of clean outside glass face.

4. The user can clean the glass surface through the operation of opening or closing the window shade simultaneously, kills two birds with one stone, and easy operation is swift, has saved manpower financial resources.

5. The top of the outer side sliding rail is provided with the protective magnet, when the outdoor part of the cleaning mechanism reaches the top, the protective magnet is attracted with the magnetic plate on the outdoor part of the cleaning mechanism, the protective magnet cannot fall off easily, and the safety of the device is protected.

6. The glass layer mechanism is internally designed in a hollow sealing mode, and plays a role in sound insulation.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a schematic structural view of the present invention;

FIG. 4 is a schematic view of the cleaning mechanism of the present invention;

fig. 5 is a schematic structural view of the glass layer mechanism of the present invention.

The reference numbers in the figures illustrate: 10. a support mechanism; 110. a base plate; 120. a slide rail; 130. a protective magnet; 140. mounting a plate; 20. a rotating mechanism; 210. a first support plate; 220. a first gear; 230. a chain; 240. a round bar; 250. a second gear; 260. a second support plate; 270. a window blind; 30. a control mechanism; 310. a control panel; 320. rotating the knob; 330. a third gear; 40. a cleaning mechanism; 410. a magnetic plate; 420. a slide bar; 430. a cleaning cloth; 50. a glass layer mechanism; 510. an outdoor tempered glass layer; 520. an indoor tempered glass layer; 530. a transparent heat reflective film layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the mechanism or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1 to 5, an energy-saving double-steel hollow glass comprises: the device comprises a supporting mechanism 10, a rotating mechanism 20, a control mechanism 30, a cleaning mechanism 40 and a glass layer mechanism 50.

The supporting mechanism 10 includes a bottom plate 110 and two sets of slide rails 120, the slide rails 120 are vertically installed on two sides of the upper end of the bottom plate 110, the bottom plate 110 is provided with mounting holes 160 through one side of the slide rails, the top end of the slide rail 120, which deviates from one side of the mounting holes 160, is provided with a protection magnet 130, and the upper end of the protection magnet 130 is provided with a mounting plate 140.

The rotating mechanism 20 includes two sets of first supporting plates 210, two second supporting plates 260, and a window shade 270, the first supporting plates 210 are installed on two sides of the lower end mounting hole 160 of the bottom plate 110, the second supporting plates 260 are installed on the top end of the mounting hole 160 close to the indoor sliding rail 120, a first gear 220 is arranged between each set of first supporting plates 210, two second supporting plates 260 are provided with a second gear 250 on one side in opposite directions, the first gear 220 is axially parallel to the second gear 250, a chain 230 is arranged on the first gear 220 and the second gear 250, a round bar 240 is arranged between the second gears 250, two ends of the round bar 240 are coaxially sleeved with the second gear 250, and the top end of the window shade 270 is installed on the round bar 240.

The control mechanism 30 includes a control plate 310 and a third gear 330, the control plate 310 is mounted on the slide rail 120, the third gear 330 is mounted inside the control plate 310, the tooth surface of the third gear 330 is engaged with the chain 230, a rotating knob 320 is disposed at one end of the control plate 310 away from the third gear 330, and the rotating knob 320 is coaxially connected with the third gear 330.

Glass layer mechanism 50 installs between two sets of slide rails 120, and glass layer mechanism 50 includes indoor toughened glass layer 520, transparent heat reflection film layer 530, outdoor toughened glass layer 510, and indoor toughened glass layer installs in control mechanism 30 one side, and transparent heat reflection film layer 530 installs between indoor toughened glass layer 520, outdoor toughened glass layer 510, is formed with the clearance between indoor toughened glass layer 520 and the outdoor toughened glass layer 510.

The cleaning mechanism 40 is arranged on two sides of the glass layer mechanism 50, the indoor part of the cleaning mechanism 40 is connected with the bottom end of the light-shielding curtain 270, the cleaning mechanism 40 comprises magnetic plates 410 and cleaning cloth 430 which are arranged on two sides of the glass layer mechanism 50, the magnetic plates 410 are arranged between the sliding rails 120, the cleaning cloth covers the inner sides of the magnetic plates 410, sliding rods 420 are arranged at two ends of the magnetic plates 410, and the sliding rods 420 are arranged in the sliding rails 120 in a matching mode.

In conclusion, most of the current society is the variable frequency air conditioner, and the variable frequency air conditioner works according to the indoor temperature change stage, because the device is the hollow setting of double steel, and the inner layer of the glass layer mechanism 50 is provided with the transparent heat reflection film layer 530, the effect of heat preservation and heat insulation can be well played, thereby solving the problems that the indoor temperature is lost too fast, the power loss is too much, and the effect of saving energy is played.

The device is provided with the window shade 270, and a user rotates the knob 320 to enable the chain 230 to drive the first gear 220 and the second gear 250 to rotate, so that the rotating rod 240 rotates to roll up the window shade 270 or unfold the window shade 270, and the effect of shading or transmitting light is achieved.

The bottom of the light-shielding curtain 270 is connected with the indoor part of the cleaning mechanism 40, the light-shielding curtain 270 is rolled or unfolded, meanwhile, the indoor part of the cleaning mechanism 40 can move on the sliding rail 120, the cleaning cloth 430 cleans the surface layer of the glass passing through, and the magnetic plate 410 of the outdoor part of the cleaning mechanism 40 is attracted with the magnetic plate 410 of the cleaning mechanism 40 in an opposite way, so that the outer glass surface can be cleaned.

The user can clean the glass surface through the operation of opening or closing window shade 270 simultaneously, kills two birds with one stone, and easy operation is swift, has saved manpower financial resources.

The top of the outer slide rail 120 is provided with a protection magnet 130, when the outdoor part of the cleaning mechanism 40 reaches the top, the protection magnet is attracted with the magnetic plate 410 on the outdoor part of the cleaning mechanism 40, and the protection magnet cannot easily fall off, so that the safety of the device is protected.

The glass layer mechanism 50 is hollow and sealed, and plays a role in sound insulation.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (3)

1. An energy-saving double-steel hollow glass is characterized by comprising: the device comprises a supporting mechanism (10), a rotating mechanism (20), a control mechanism (30), a cleaning mechanism (40) and a glass layer mechanism (50);

the supporting mechanism (10) comprises a bottom plate (110) and two groups of sliding rails (120), the sliding rails (120) are vertically arranged on two sides of the upper end of the bottom plate (110), a mounting hole (160) penetrates through one side of the bottom plate (110) on the sliding rail, a protection magnet (130) is arranged at the top end of the sliding rail (120) on the side opposite to the mounting hole (160), and a mounting plate (140) is arranged at the upper end of the protection magnet (130);

the rotating mechanism (20) comprises two groups of first supporting plates (210), two second supporting plates (260) and a shading curtain (270), wherein the first supporting plates (210) are installed on two sides of a mounting hole (160) at the lower end of the bottom plate (110), the second supporting plates (260) are installed at the top ends, close to the indoor sliding rail (120), of the mounting hole (160), a first gear (220) is arranged between each group of first supporting plates (210), a second gear (250) is arranged on one side, opposite to each other, of each second supporting plate (260), the first gear (220) is axially parallel to the second gear (250), chains (230) are arranged on the first gear (220) and the second gear (250), a round rod (240) is arranged between the second gears (250), the second gears (250) are coaxially sleeved at two ends of the round rod (240), and the top end of the shading curtain (270) is installed on the round rod (240);

the control mechanism (30) comprises a control plate (310) and a third gear (330), the control plate (310) is installed on the sliding rail (120), the third gear (330) is installed on the inner side of the control plate (310), the tooth surface of the third gear (330) is meshed with the chain (230), one end, away from the third gear (330), of the control plate (310) is provided with a rotating knob (320), and the rotating knob (320) is coaxially connected with the third gear (330).

2. The energy-saving type double-steel hollow glass as claimed in claim 1, wherein: glass layer mechanism (50) are installed between two sets of slide rails (120), and glass layer mechanism (50) are including indoor toughened glass layer (520), transparent heat reflection film layer (530), outdoor toughened glass layer (510), and indoor toughened glass layer is installed in control mechanism (30) one side, and transparent heat reflection film layer (530) are installed between indoor toughened glass layer (520), outdoor toughened glass layer (510), are formed with the clearance between indoor toughened glass layer (520) and outdoor toughened glass layer (510).

3. The energy-saving type double-steel hollow glass as claimed in claim 2, wherein: cleaning mechanism (40) are installed in glass layer mechanism (50) both sides, and cleaning mechanism (40) are located indoor part and are linked to each other with window shade (270) bottom, and cleaning mechanism (40) are including setting up in magnetic plate (410), cleaning cloth (430) of glass layer mechanism (50) both sides, and magnetic plate (410) are installed between slide rail (120), and cleaning cloth covers in magnetic plate (410) inboard, and magnetic plate (410) both ends are provided with slide bar (420), and slide bar (420) match sets up in slide rail (120).

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