CN218029829U - Sliding plastic-steel window - Google Patents

Abstract

The utility model belongs to the technical field of plastic-steel doors and windows, in particular to a sliding type plastic-steel window, which comprises a window frame and two window bodies, wherein the positioning grooves at the top and the bottom of the window bodies are correspondingly clamped on the guide rails in the top groove and the inner bottom groove of the window frame respectively; the side wall array of the bottom of the window frame is provided with a plurality of drain holes, inlets of the drain holes are communicated with grooves in the inner bottom of the window frame, and the bottom surfaces of the drain holes are obliquely arranged towards outlets of the drain holes; the bottoms of the two sides of the window body are respectively provided with a cleaning component, and the cleaning part of each cleaning component is attached to the bottom of the groove in the inner bottom of the window frame; the auxiliary mechanism, auxiliary mechanism are provided with two sets ofly, and set up respectively on the constant head tank both sides wall of window form bottom, and the guide rail centre gripping in the recess of window frame inner bottom is between two sets of auxiliary mechanism for solve inconvenient plastics steel window frame ditch inslot impurity to present and clear up, make the impurity siltation in the window frame ditch inslot, hinder the problem that the window form removed in the window frame ditch inslot.

Description

Sliding plastic-steel window

Technical Field

The utility model belongs to the technical field of mould steel door and window, concretely relates to slidingtype mould steel window.

Background

The plastic steel window is made up by using polyvinyl chloride (UPVC) resin as main raw material, adding a certain proportion of stabilizing agent, colouring agent, filling agent and UV-absorbing agent, extruding and forming them into window frame, and assembling sealing rubber strip, wool top and hardware.

When the installation of current slidingtype plastic steel window, be with the bottom joint of window body in the inboard ditch groove of window frame, make window body slidable equipment in the window frame, nevertheless because the easy siltation impurity of window frame ditch inslot in the use of current plastic steel window and dust to the difficult clean up of impurity in the window frame ditch groove, thereby can hinder the window body to remove in the window frame ditch groove, and then can influence the use of plastic steel window.

SUMMERY OF THE UTILITY MODEL

Based on the problem mentioned in the above-mentioned background art, the utility model provides a steel window is moulded to slidingtype for solve inconvenient plastics steel window frame ditch inslot impurity to present day and clear up, make the impurity siltation at the window frame ditch inslot, hinder the problem that the window form removed in the window frame ditch inslot.

The utility model adopts the technical scheme as follows:

a sliding type plastic-steel window comprises a window frame and two window bodies, wherein guide rails are arranged in a top groove and an inner bottom groove of the window frame respectively, and the two guide rails are arranged oppositely; the top and the bottom of the window body are respectively provided with a positioning groove, and the positioning grooves at the top and the bottom of the window body are correspondingly clamped on the guide rails in the top groove and the inner bottom groove of the window frame respectively;

the side wall array of the bottom of the window frame is provided with a plurality of drain holes, inlets of the drain holes are communicated with grooves in the inner bottom of the window frame, and the bottom surfaces of the drain holes are obliquely arranged towards outlets of the drain holes;

the bottom parts of two sides of the window body are respectively provided with a cleaning assembly, the cleaning part of each cleaning assembly is attached to the bottom of the groove in the inner bottom of the window frame, the window body is pushed along the direction of the guide rail to move, and the cleaning assemblies can be synchronously driven to move;

and the auxiliary mechanisms are arranged in two groups and are respectively arranged on two side walls of the positioning groove at the bottom of the window body, and the guide rail in the groove at the inner bottom of the window frame is clamped between the two groups of auxiliary mechanisms.

On the basis of the technical scheme, the utility model discloses following improvement has still been made:

furthermore, the bottom of the side wall of the window body is provided with an accommodating groove; the cleaning assembly comprises a mounting block, and the mounting block is detachably arranged in the accommodating groove;

the bottom of the mounting block is provided with a mounting groove, an extrusion spring and a stabilizing block are arranged in the mounting groove, and the extrusion spring is positioned between the top of the stabilizing block and the groove top of the mounting groove; the bottom of the stabilizing block is provided with a pointed scraper, and the pointed part of the pointed scraper is attached to the bottom of the groove in the window frame.

Furthermore, the mounting block is inserted into the groove wall of the accommodating groove through two studs and is fixed through nuts at the ends of the studs.

Furthermore, the auxiliary mechanism comprises an installation support, one side of the installation support, which is close to the groove wall of the positioning groove, is provided with a limiting column, the groove wall of the positioning groove is provided with a limiting sleeve, the limiting column is movably clamped in the limiting sleeve, a balance spring is arranged in the limiting sleeve, and the balance spring is positioned between the inner bottom of the limiting sleeve and the limiting column; one side of the mounting support deviating from the limiting column is provided with a plurality of auxiliary rollers in a rotating mode.

Furthermore, the positioning groove top array of window body bottom is provided with a plurality of gyro wheels, and the gyro wheel is laminated with the guide rail top surface of window frame inner bottom recess.

Further, be provided with the rubber pad between installation piece and the holding tank cell wall.

The utility model has the advantages that:

1. through the arranged cleaning assembly, the cleaning assembly can be synchronously driven to move in the process of pushing the window body to move along the direction of the guide rail, so that impurities in the inner bottom groove of the window frame can be scraped when the cleaning part of the cleaning assembly moves along the bottom of the inner bottom groove of the window frame;

2. through the arranged drain holes, after the cleaning assembly scrapes impurities in the grooves in the inner bottom of the window frame, the impurities can be pushed to the drain holes to be discharged, so that the impurities in the grooves in the inner bottom of the window frame can be cleaned;

3. through the complementary unit who sets up, can strengthen the compactness between the constant head tank of window body bottom and the guide rail in the window frame inner bottom recess, avoid blowing when strong wind, the window body receives the influence of strong wind to lead to its production to rock in the window frame.

Drawings

The invention can be further illustrated by means of non-limiting examples given in the figures;

fig. 1 is a perspective view of a sliding plastic-steel window of the present invention;

fig. 2 is a structural view of the sliding plastic-steel window of the present invention;

fig. 3 is a structural diagram of a sliding type plastic-steel window body of the present invention;

fig. 4 is a partial area structure diagram of a window body in a sliding type plastic steel window of the present invention;

fig. 5 is an enlarged view of the area a in fig. 3.

The drawings are labeled as follows:

101. a window frame; 102. a guide rail; 103. a drain hole; 201. a window body; 202. positioning a groove; 203. accommodating grooves; 204. a stud; 206. a nut; 3. cleaning the assembly; 301. mounting blocks; 302. mounting grooves; 303. a compression spring; 304. a stabilizing block; 305. a pointed scraper; 4. a rubber pad; 5. a roller; 6. an auxiliary mechanism; 601. mounting a support; 602. a limiting sleeve; 603. a limiting column; 604. a balance spring; 605. and (5) auxiliary rollers.

Detailed Description

As shown in fig. 1 to 5, a sliding plastic-steel window comprises a window frame 101 and two window bodies 201, wherein guide rails 102 are arranged in a top groove and an inner bottom groove of the window frame 101, and the two guide rails 102 are arranged oppositely; the top and the bottom of the window 201 are provided with positioning grooves 202, and the positioning grooves 202 at the top and the bottom of the window 201 are correspondingly clamped on the guide rails 102 in the top groove and the inner bottom groove of the window frame 101 respectively, so that two windows 201 are assembled in the window frame 101, and when the window 201 is pushed/pulled along the direction of the guide rails 102, the window 201 can move on the guide rails 102;

referring to fig. 4, a plurality of rollers 5 are arranged in an array at the top of the positioning groove 202 at the bottom of the window 201, the rollers 5 are attached to the top surface of the guide rail 102 of the inner bottom groove of the window frame 101, and the rollers 5 are arranged to roll on the guide rail 102 when the window 201 is pushed/pulled along the guide rail 102 to move, so that sliding friction between the positioning groove 202 at the bottom of the window 201 and the guide rail 102 is converted into rolling friction, which can reduce the resistance of the window 201 moving on the guide rail 102 and promote the window 201 to move smoothly on the guide rail 102;

referring to fig. 4, two sets of auxiliary mechanisms 6 are arranged and are respectively arranged on two side walls of the positioning groove 202 at the bottom of the window body 201, the guide rail 102 in the inner bottom groove of the window frame 101 is clamped between the two sets of auxiliary mechanisms 6, and the tightness between the positioning groove 202 at the bottom of the window body 201 and the guide rail 102 in the inner bottom groove of the window frame 101 can be enhanced through the arranged auxiliary mechanisms 6, so that the situation that the window body 201 shakes in the window frame 101 due to the influence of strong wind on the window body 201 when strong wind blows is avoided;

referring to fig. 4, the auxiliary mechanism 6 includes a mounting support 601, a limiting post 603 is disposed on one side of the mounting support 601 close to the groove wall of the positioning groove 202, a limiting sleeve 602 is disposed on the groove wall of the positioning groove 202, and the limiting post 603 is movably clamped in the limiting sleeve 602, so as to assemble the mounting support 601 on the groove wall of the positioning groove 202;

a balance spring 604 is arranged in the limit sleeve 602, and the balance spring 604 is positioned between the inner bottom of the limit sleeve 602 and the limit column 603; a plurality of auxiliary rollers 605 are rotatably arranged on one side of the mounting support 601 departing from the limiting column 603; the limiting column 603 can be propped against by the arranged balance spring 604, so that the auxiliary roller 605 on the mounting support 601 can be always kept in contact with the side wall of the guide rail 102 in the groove in the inner bottom of the window frame 101; and the auxiliary roller 605 can roll along the side wall of the guide rail 102 while the window 201 moves on the guide rail 102;

referring to fig. 1 to 4, after the window 201 is assembled on the window frame 101, the two sets of auxiliary rollers 605 on the two sets of mounting brackets 601 disposed in the positioning groove 202 at the bottom of the window 201 are attached to the two side walls of the guide rail 102 in the inner bottom groove of the window frame 101, and the balance spring 604 is disposed to urge the mounting brackets 601 to approach the guide rail 102, so as to promote the two sets of auxiliary rollers 605 on the two sets of mounting brackets 601 to tightly clamp the guide rail 102 in the inner bottom groove of the window frame 101, thereby enhancing the tightness between the positioning groove 202 at the bottom of the window 201 and the guide rail 102 in the inner bottom groove of the window frame 101, and preventing the window 201 from shaking on the window frame 101 when strong wind blows;

referring to fig. 1, the bottom of both sides of the window 201 is provided with a cleaning component 3, and the cleaning part of the cleaning component 3 is attached to the bottom of the groove of the inner bottom of the window frame 101; through the arranged cleaning assembly 3, when the window body 201 is pushed to move along the direction of the guide rail 102, the cleaning assembly 3 can be synchronously driven to move, so that in the process that the cleaning part of the cleaning assembly 3 moves along the bottom of the inner bottom groove of the window frame 101, impurity and dust in the inner bottom groove of the window frame 101 can be scraped loose;

referring to fig. 4 and 5, the bottom of the sidewall of the window 201 is provided with an accommodating groove 203; cleaning assembly 3 includes mounting block 301, mounting block 301 is detachably disposed in receiving slot 203, and receiving mounting block 301 is achieved through the disposed receiving slot 203, such that mounting block 301 remains flush with the side wall of window 201 after mounting block 301 in receiving slot 203;

referring to fig. 4 and 5, the mounting block 301 is inserted into the groove wall of the receiving groove 203 through two studs 204 and fixed by nuts 206 at the ends of the studs 204, so that the mounting block 301 can be detachably assembled in the receiving groove 203, which facilitates the later-stage detachment of the mounting block 301; a rubber pad 4 is arranged between the mounting block 301 and the groove wall of the accommodating groove 203, and the tightness between the mounting block 301 and the groove wall of the accommodating groove 203 can be enhanced through the arranged rubber pad 4;

referring to fig. 5, a mounting groove 302 is formed at the bottom of the mounting block 301, an extrusion spring 303 and a stabilizing block 304 are arranged in the mounting groove 302, and the extrusion spring 303 is positioned between the top of the stabilizing block 304 and the groove top of the mounting groove 302; the movement of the dynamic-resisting stabilizing block 304 can be realized through the arranged extrusion spring 303;

the bottom of the stabilizing block 304 is provided with a sharp-pointed scraper 305, the sharp-pointed part of the sharp-pointed scraper 305 is attached to the bottom of the inner bottom groove of the window frame 101, the sharp-pointed part of the sharp-pointed scraper 305 can be attached to the bottom of the inner bottom groove of the window frame 101 under the action of the extrusion spring 303 through the arranged sharp-pointed scraper 305, and when the window body 201 moves in the window frame 101, the sharp-pointed part of the sharp-pointed scraper 305 moves along with the bottom of the inner bottom groove of the window frame 101, namely the impurity dust in the groove can be scraped and pushed to move;

referring to fig. 1, a plurality of drain holes 103 are arranged in an array on the side wall of the bottom of a window frame 101, inlets of the drain holes 103 are communicated with the inner bottom groove of the window frame 101, and the impurity dust scraped from the inner bottom groove of the window frame 101 can be discharged through the drain holes 103;

the bottom surface of the drain hole 103 is obliquely arranged towards the outlet of the drain hole 103, so that after the impurity dust scraped in the bottom groove of the window frame 101 is pushed to the inlet of the drain hole 103, the impurity dust in the bottom groove of the window frame 101 can fall into the drain hole 103, and the impurity dust falling in the drain hole 103 can be smoothly discharged from the oblique bottom surface of the drain hole 103 to the outlet thereof, thereby avoiding the impurity dust from being accumulated in the drain hole 103.

Referring to fig. 1 to 5, when in use, the positioning grooves 202 at the top and the bottom of the window 201 are respectively and correspondingly clamped on the guide rails 102 in the top and the inner bottom grooves of the window frame 101, so that the window 201 can be assembled in the window frame 101; after the window 201 is assembled on the window frame 101, the two sets of auxiliary rollers 605 on the mounting supports 601 arranged in the positioning groove 202 at the bottom of the window 201 are attached to the two side walls of the guide rail 102 in the inner bottom groove of the window frame 101, and under the action of the balance spring 604, the mounting supports 601 approach to the guide rail 102, so that the two sets of auxiliary rollers 605 on the mounting supports 601 tightly clamp the guide rail 102 in the inner bottom groove of the window frame 101, thereby enhancing the tightness between the positioning groove 202 at the bottom of the window 201 and the guide rail 102 in the inner bottom groove of the window frame 101 and avoiding the shaking of the window 201 on the window frame 101 when strong wind blows;

when the window body 201 is pushed/pulled to move along the direction of the guide rail 102, the mounting block 301 can be synchronously driven to move, under the action of the pushing of the extrusion spring 303, the pointed part of the pointed scraper 305 is attached to the bottom of the inner bottom groove of the window frame 101, and along with the continuous movement of the window body 201 on the guide rail 102, the pointed part of the pointed scraper 305 also moves along the bottom of the inner bottom groove of the window frame 101, so that the impurity dust in the inner bottom groove of the window frame 101 is scraped and the impurity dust is pushed to move; after the impurity dust is pushed to the inlet of the drain hole 103, the impurity dust falls into the drain hole 103 and is discharged to the outlet along the inclined bottom surface of the drain hole 103, so that the impurity dust in the bottom groove in the window frame 101 is cleaned.

The present invention has been described in detail above. The description of the specific embodiments is only intended to facilitate an understanding of the method of the invention and its core ideas. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (6)

1. A sliding type plastic steel window comprises a window frame (101) and two window bodies (201), wherein guide rails (102) are arranged in a top groove and an inner bottom groove of the window frame (101), and the two guide rails (102) are arranged oppositely; positioning grooves (202) are formed in the top and the bottom of the window body (201), and the positioning grooves (202) in the top and the bottom of the window body (201) are correspondingly clamped on guide rails (102) in an inner top groove and an inner bottom groove of the window frame (101) respectively;

the method is characterized in that: the side wall array of the bottom of the window frame (101) is provided with a plurality of drain holes (103), inlets of the drain holes (103) are communicated with the inner bottom groove of the window frame (101), and the bottom surfaces of the drain holes (103) are obliquely arranged towards outlets of the drain holes (103);

the bottom parts of two sides of the window body (201) are respectively provided with a cleaning component (3), the cleaning part of each cleaning component (3) is attached to the bottom of a groove at the inner bottom of the window frame (101), the window body (201) is pushed to move along the direction of the guide rail (102), and the cleaning components (3) can be synchronously driven to move;

the auxiliary mechanisms (6) are arranged in two groups, the auxiliary mechanisms (6) are respectively arranged on two side walls of the positioning groove (202) at the bottom of the window body (201), and the guide rail (102) in the inner bottom groove of the window frame (101) is clamped between the two groups of auxiliary mechanisms (6).

2. The sliding type plastic steel window according to claim 1, wherein: the bottom of the side wall of the window body (201) is provided with an accommodating groove (203); the cleaning assembly (3) comprises a mounting block (301), and the mounting block (301) is detachably arranged in the accommodating groove (203);

the bottom of the mounting block (301) is provided with a mounting groove (302), an extrusion spring (303) and a stabilizing block (304) are arranged in the mounting groove (302), and the extrusion spring (303) is positioned between the top of the stabilizing block (304) and the groove top of the mounting groove (302); the bottom of the stabilizing block (304) is provided with a pointed scraper (305), and the pointed part of the pointed scraper (305) is attached to the bottom of the groove of the inner bottom of the window frame (101).

3. A sliding plastic steel window according to claim 2, wherein: the mounting block (301) is inserted on the groove wall of the accommodating groove (203) through two studs (204) and is fixed through nuts (206) at the ends of the studs (204).

4. The sliding plastic-steel window according to claim 1, wherein: the auxiliary mechanism (6) comprises an installation support (601), a limiting column (603) is arranged on one side, close to the groove wall of the positioning groove (202), of the installation support (601), a limiting sleeve (602) is arranged on the groove wall of the positioning groove (202), the limiting column (603) is movably clamped in the limiting sleeve (602), a balance spring (604) is arranged in the limiting sleeve (602), and the balance spring (604) is located between the inner bottom of the limiting sleeve (602) and the limiting column (603); one side of the mounting support (601) departing from the limiting column (603) is rotatably provided with a plurality of auxiliary rollers (605).

5. The sliding type plastic steel window according to claim 1, wherein: the positioning groove (202) at the bottom of the window body (201) is provided with a plurality of rollers (5) in an array at the groove top, and the rollers (5) are attached to the top surface of the guide rail (102) of the inner bottom groove of the window frame (101).

6. A sliding plastic steel window according to claim 2, wherein: and a rubber pad (4) is arranged between the mounting block (301) and the groove wall of the accommodating groove (203).

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