CN220909413U - Flat-open sliding support - Google Patents

Abstract

The utility model discloses a flat-open sliding support, which comprises: a window frame connecting member, both sides of which are provided with a window sash side and a window frame side, respectively; the window frame connecting piece is provided with a sliding groove, and the notch of the sliding groove faces the window frame side; a window sash connector; a frictional sliding assembly slidingly coupled to the window frame coupling member, the frictional sliding assembly having a sliding direction; the friction sliding component is provided with a main friction surface, and the main friction surface is always abutted with the window frame connecting piece; and the hinge connection structure is used for connecting the window frame connecting piece, the window sash connecting piece and the friction sliding component, and when the window sash connecting piece moves relative to the window frame connecting piece, the hinge connection structure drives the friction sliding component to move along the sliding direction. The loss of the sliding friction component can be reduced, so that the service life of the flat-open sliding support can be prolonged. The bearing capacity of the flat-open sliding support at the later stage is similar to that of the flat-open sliding support at the earlier stage.

Description

Flat-open sliding support

Technical Field

The utility model relates to the technical field of door and window accessories, in particular to a flat-open sliding support.

Background

In the market of the flat-open sliding support of the traditional door and window hardware products, most of the notches of the bottom grooves of the flat-open sliding support finished products are arranged towards the window sashes, namely the notches of the bottom grooves of the flat-open sliding support arranged at the lower parts of the doors and windows are upwards arranged. The friction sliding structure is arranged in the bottom groove in a sliding manner and is used for providing certain friction for the flat-open sliding support when the flat-open sliding support is opened.

After the flat-open sliding support product is installed on the window, sand dust is very easy to fall into the bottom groove due to the decoration of the outer wall and the later investment, and the sand dust and the like can bring obstruction to the friction sliding structure, so that the opening flexibility of the door and window is influenced, the service life of the product is shortened, and cleaning and maintenance are difficult. In addition, the front end of the conventional flat-open sliding support is of a friction sliding structure, and a sliding part is easy to loosen after long service time, so that the bearing of the later stage of a product is influenced.

Disclosure of utility model

The utility model aims to solve the technical problems that: a flat-open sliding support is provided to solve one or more technical problems existing in the prior art, and at least provides a beneficial choice or creation condition.

The utility model solves the technical problems as follows:

A flat-open slide comprising:

A window frame connecting member, both sides of which are provided with a window sash side and a window frame side, respectively; the window frame connecting piece is provided with a sliding groove, and the notch of the sliding groove faces the window frame side;

A window sash connector;

A frictional sliding assembly slidingly coupled to the window frame coupling member, the frictional sliding assembly having a sliding direction; the friction sliding component is provided with a main friction surface, and the main friction surface is always abutted with the window frame connecting piece;

And the hinge connection structure is used for connecting the window frame connecting piece, the window sash connecting piece and the friction sliding component, and when the window sash connecting piece moves relative to the window frame connecting piece, the hinge connection structure drives the friction sliding component to move along the sliding direction.

Through above-mentioned technical scheme, the notch of spout is towards the window frame side after the installation is accomplished to the window frame connecting piece of this scheme, and first friction part is located the spout, through the cooperation of first friction part and spout, can avoid the grit dust in the use to fall into in the spout to avoid flat-open sliding support to block, can reduce the loss of sliding friction subassembly, thereby can improve flat-open sliding support's life. The friction sliding component is not easy to loosen after long service time, so that the bearing capacity of the flat-open sliding support at the later stage is similar to that of the flat-open sliding support at the earlier stage.

As a further improvement of the above technical solution, the window frame connector comprises a top wall, two side walls and two supports; the two side walls are respectively fixed with the two ends of the top wall, the supporting bodies are in one-to-one correspondence with the side walls, the supporting bodies are fixed with one ends of the side walls, which are far away from the top wall, and the supporting bodies extend to the inner sides of the sliding grooves.

Through above-mentioned technical scheme, the supporter can provide better support for window frame connecting piece is whole to can improve window frame connecting piece holistic intensity.

As a further improvement of the above technical solution, one end of the frame connecting member is provided with a recess structure recessed from the sash side to the frame side.

Through above-mentioned technical scheme, set up the concave structure at the rear end of window frame connecting piece to make the concave structure to window frame side sunken, the concave structure can carry out the closure of certain degree to the one end of spout, thereby will reduce the grit in the hardware fitting mounting groove of window frame and get into the probability in the spout, thereby avoid the grit to bring the hindrance to the component that slides in the spout, thereby can effectively improve the life of flat-open sliding support.

As a further improvement of the technical scheme, one end of the window frame connecting piece is connected with a sealing head in a plug-in mode.

Through above-mentioned technical scheme, the head can seal the front end of window frame connecting piece to in avoiding the grit to get into the spout.

As a further improvement of the technical scheme, a positioning assembly is arranged between the sealing head and the window frame connecting piece and comprises a positioning groove and a positioning protrusion, and the positioning groove is in clamping fit with the positioning protrusion.

Through above-mentioned technical scheme, locating component is used for fixing in position window frame connecting piece and head, avoids the head to install the back and separate with window frame connecting piece.

As a further improvement of the above technical solution, the frictional sliding assembly includes a first frictional member located in the chute and a second frictional member located on the window frame side; the sash connector is sandwiched between the first friction member and the second friction member.

Through above-mentioned technical scheme, first friction part mainly used plays the guide effect to the whole slip of friction slip subassembly. The second friction member mainly functions to provide friction force.

As a further improvement of the above technical solution, an adjusting structure is provided between the first friction member and the second friction member, the adjusting structure being used for adjusting the clamping force of the first friction member and the second friction member to the window frame connecting piece.

Through the technical scheme, when the friction of the flat-open sliding support needs to be regulated, a user can operate the regulating structure through a tool, so that the distance between the second friction part and the first friction part is slightly changed, and the clamping force between the second friction part and the first friction part is regulated, so that the regulation of the friction force of the flat-open sliding support is realized.

As a further improvement of the above technical solution, the adjusting structure is a screw structure, the adjusting structure penetrates through the second friction component, the head of the adjusting structure abuts against the second friction component, and the tail of the adjusting structure is in threaded connection with the first friction component.

Through above-mentioned technical scheme, screw structure easy operation.

As a further improvement of the above technical solution, the first friction member includes a slider body and a slider steel sheet, and the slider body wraps the slider steel sheet.

Through the technical scheme, the first friction part is arranged into two parts, and one part is arranged into the sliding block steel sheet, so that the overall strength of the first friction part can be greatly improved.

As a further improvement of the above technical solution, the first friction member is provided with at least two abutment portions, at least two abutment portions are respectively disposed on two sides of the first friction member, the abutment portions are of elastic structures, and the abutment portions are in abutment with the side walls of the sliding groove.

Through the technical scheme, in the process of installing the first friction part, a worker firstly places the first friction part in the chute and then connects the second friction part with the first friction part. Before the second friction part and the first friction part are connected, the abutting part can preliminarily fix the position of the first friction part in the chute, so that the first friction part can be prevented from sliding in the chute at will before the second friction part and the first friction part are connected, and the installation efficiency is prevented from being influenced.

The beneficial effects of the utility model are as follows: the loss of the sliding friction component is reduced, so that the service life of the flat-open sliding support can be prolonged. The bearing capacity of the flat-open sliding support at the later stage is similar to that of the flat-open sliding support at the earlier stage.

The utility model is used in the technical field of door and window accessories.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present utility model, the drawings that are required to be used in the description of the embodiments will be briefly described below. It is evident that the drawings described are only some embodiments of the utility model, but not all embodiments, and that other designs and drawings can be obtained from these drawings by a person skilled in the art without inventive effort.

FIG. 1 is a schematic diagram of an explosion structure of a first embodiment of the present utility model;

FIG. 2 is an enlarged schematic view of a portion A of FIG. 1;

FIG. 3 is a schematic view of the installation positions of the sliding support, the window sash and the window frame of the embodiment of the utility model;

Fig. 4 is an exploded view of a first friction member according to an embodiment of the present utility model.

100, Window frame connectors; 101. a top wall; 102. a sidewall; 103. a support body; 110. a seal head; 120. a positioning assembly; 121. positioning the bulge; 122. a positioning groove; 130. a recessed structure; 140. a sliding through groove; 200. a window sash connector; 210. installing a positioning column; 300. a hinged connection; 310. a first link structure; 320. a second link structure; 330. a third link structure; 400. a friction slide assembly; 410. a first friction member; 411. a sliding block steel sheet; 412. a slider body; 413. an abutting portion; 414. a guide structure; 420. a second friction member; 430. and (5) adjusting the structure.

Detailed Description

The conception, specific structure, and technical effects produced by the present utility model will be clearly and completely described below with reference to the embodiments and the drawings to fully understand the objects, features, and effects of the present utility model. It is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and that other embodiments obtained by those skilled in the art without inventive effort are within the scope of the present utility model based on the embodiments of the present utility model. In addition, all coupling/connection relationships mentioned herein do not refer to direct connection of the components, but rather, refer to the fact that a more optimal coupling structure may be formed by adding or subtracting coupling aids depending on the particular implementation. The technical features in the utility model can be interactively combined on the premise of no contradiction and conflict.

Referring to fig. 1 to 4, a flat-open slide comprising: a frame connector 100, a sash connector 200, a hinge connection 300, a friction sliding assembly 400.

The window frame connector 100 is for connection with a window frame, and is provided with a plurality of through holes for screws to pass through.

The both sides of the window frame connector 100 are provided as a window frame side and a window sash side, respectively. After the window frame connector 100 is installed, the window frame side faces the window frame and the sash side faces the sash.

The sash connector 100 includes a top wall 101, side walls 102, and a support body 103.

The number of the side walls 102 is set to two, two side walls 102 are provided on both sides of the top wall 101 in the horizontal direction, respectively, and the side walls 102 are provided on the side of the top wall 101 away from the sash side. The side wall 102 is fixedly connected to the top wall 101.

The number of the supporting bodies 103 is two, the two supporting bodies 103 and the two side walls 102 are arranged in a one-to-one correspondence mode, the supporting bodies 103 are arranged at one ends of the side walls 102 far away from the top wall 101, the supporting bodies 103 are fixedly connected with the top wall 101, and the supporting bodies 103 extend to the other side wall 102.

The two supporting bodies 103, the two side walls 102 and the top wall 101 are surrounded to form a C-shaped structure, the C-shaped structure is provided with a chute, and the notch of the chute faces the window frame side.

The support body 103 may provide better support for the sash connector 100 as a whole, thereby improving the strength of the sash connector 100 as a whole.

The scheme has stronger universality, and can freely switch and install products in the wide slot and the European standard slot.

Specifically, in the present embodiment, the window frame connector 100 is manufactured through an integral molding process, and more specifically, in the present embodiment, the window frame connector 100 is manufactured through sheet metal bending.

The both ends of the window frame connector 100 are respectively provided as a front end and a rear end.

The front end of the window frame connecting piece 100 is connected with a seal head 110, and the seal head 110 can seal the front end of the window frame connecting piece 100, so that sand and stone are prevented from entering the chute. Specifically, in the present embodiment, the header 110 is connected to the window frame connector 100 by plugging.

Specifically, in the present embodiment, a positioning assembly 120 is provided between the window frame connector 100 and the header 110. The positioning component 120 is used for positioning and fixing the window frame connecting piece 100 and the seal head 110, and preventing the seal head 110 from being separated from the window frame connecting piece 100 after being installed.

Specifically, the positioning assembly 120 includes a positioning protrusion 121 and a positioning groove 122. The positioning protrusion 121 and the positioning groove 122 are engaged by a snap-fit form.

The positioning protrusion 121 is disposed on the window frame connecting member 100, and the positioning protrusion 121 is formed on the window frame connecting member 100 by punching, and the positioning protrusion 121 includes a triangular protrusion structure located at the middle of the front end of the window frame connecting member 100 and rectangular protrusion structures located at both sides of the front end.

The positioning groove 122 is formed in the seal head 110, the positioning groove 122 is of a through groove structure, and the positioning groove 122 is matched with the positioning protrusion 121.

In other embodiments, the positioning protrusion 121 may be disposed on the header 110, and the positioning groove 122 may be formed on the window frame connector 100.

The rear end of the frame connector 100 is provided with a recess structure 130, the recess structure 130 being recessed from the sash side to the frame side.

The recessed structure 130 is arranged at the rear end of the window frame connecting piece 100, the recessed structure 130 is recessed towards the window frame side, and the recessed structure 130 can seal one end of the sliding groove to a certain extent, so that the probability that sand in a hardware fitting mounting groove of the window frame enters into the sliding groove is reduced, the sand is prevented from blocking a sliding component in the sliding groove, and the service life of the flat-open sliding support can be effectively prolonged.

The rear end of the window frame coupling member 100 is provided with a sliding through groove 140, and the length direction of the sliding through groove 140 is the same as the extending direction of the window frame coupling member 100.

The window sash connector 200 is used for connecting with a window sash, and is provided with a plurality of through holes for screws to pass through.

Specifically, in the present embodiment, the front end of the window sash connector 200 is fixedly secured with the mounting location post 210.

The window sash can be positioned by the installation positioning column 210, so that the window sash is connected with the window sash connecting piece 200 more quickly, the installation positioning is more accurate, the installation efficiency can be effectively improved, and the cost is saved.

The hinge connection 300 is provided between the window sash connector 200 and the frame connector 100.

The hinge connection 300 includes a first link structure 310, a second link structure 320, and a third link structure 330. The lengths of the first, second and third link structures 310, 320 and 330 sequentially increase.

The rear end of the first link structure 310 is hinged with the window frame connector 100, and the front end of the first link structure 310 is hinged with the window sash connector 200.

The front end of the second link structure 320 is hinged with the window frame connector 100, and in particular, the first link structure 310 and the second link structure 320 are hinged with the window frame connector 100 by the same rivet, i.e., the hinge axes of the first link structure 310 and the second link structure 320 are the same. The rear end of the second link structure 320 is sleeved with a nylon sleeve, and the rear end of the second link structure 320 is hinged with the middle of the third link structure 330 by rivets.

The front end of the third link structure 330 is hinge-coupled to the window sash coupler 200 by rivets, and the frictional sliding assembly 400 is hinge-coupled to the rear end of the third link structure 330.

The rivet is adopted to connect each connecting rod structure, so that the connecting rod structure is kept from deforming after the product moves at high strength.

The frictional sliding assembly 400 is slidably coupled to the window frame connector 100, and the frictional sliding assembly 400 is provided with a sliding direction, which is the same as the extending direction of the window frame connector 100.

The friction slide assembly 400 includes a first friction member 410 and a second friction member 420.

The first friction member 410 is located in the chute, and the first friction member 410 is slidable in the chute. The first friction member 410 is mainly used for guiding the overall sliding movement of the frictional sliding assembly 400.

The first friction member 410 includes a slider steel sheet 411 and a slider body 412. The slider body 412 wraps the slider steel sheet 411, and specifically, the slider body 412 is made by injection molding.

The first friction member 410 is provided in two parts, and one of the two parts is provided as the slider steel sheet 411, so that the overall strength of the first friction member 410 can be greatly improved.

The first friction member 410 is provided with at least two abutment portions 413, specifically, in this embodiment, four abutment portions 413 are provided, the four abutment portions 413 are uniformly distributed on both sides of the first friction member 410 in the horizontal direction, the abutment portions 413 are of an elastic structure, and the abutment portions 413 abut against the side walls 102 of the chute. Specifically, in the present embodiment, the first friction member 410 and the abutting portion 413 are provided by injection molding integrally.

In the process of installing the first friction member 410, a worker first inserts the first friction member 410 into the chute, and then connects the second friction member 420 and the first friction member 410. The abutment 413 can initially fix the position of the first friction member 410 in the chute before the second friction member 420 is connected with the first friction member 410, so that the first friction member 410 can be prevented from sliding randomly in the chute before the second friction member 420 is connected with the first friction member 410 to affect the installation efficiency.

Specifically, in the present embodiment, the upper end of the first friction member 410 is provided with a guide structure 414, the guide structure 414 is disposed in the sliding through groove 140, and the guide structure 414 is seated in the sliding through groove 140 to slide in a direction parallel to the extending direction of the window frame joint 100.

The guide structure 414 and the guide through slot may further guide the frictional sliding assembly 400.

The second friction member 420 mainly functions to provide friction. The second friction member 420 is located on the sash side of the sash connector 100. The lower end surface of the second friction member 420 is provided as a main friction surface that always abuts against the upper end surface of the sash connector 100.

The sash connector 100 is sandwiched between the second friction member 420 and the first friction member 410.

Specifically, in the present embodiment, an adjustment structure 430 is provided between the second friction member 420 and the first friction member 410. Specifically, the adjusting structure 430 is disposed at the rear of the hinge between the third link and the friction sliding assembly 400, and the adjusting structure 430 is disposed at the rear of the hinge between the third link and the friction sliding assembly 400, so that the third link is prevented from shielding the adjusting structure 430, and an operator can operate the adjusting structure 430 smoothly.

The adjustment structure 430 is used to adjust the clamping force of the second friction member 420 and the first friction member 410 to the sash connector 100.

Specifically, in the present embodiment, the adjustment structure 430 is provided as a screw structure. The head end surface of the adjusting structure 430 is provided with a rotating groove, and the rotating groove can be provided with a cross groove structure or a straight groove structure and other conventional structures.

The adjusting structure 430 passes through the second friction member 420, the second friction member 420 abuts against the head of the adjusting structure 430, and the first friction member 410 is in threaded connection with the tail of the adjusting structure 430.

When the friction of the flat-open sliding support needs to be adjusted, a user can rotate the adjusting structure 430 through a tool such as a screwdriver, so that the distance between the second friction part 420 and the first friction part 410 is slightly changed, and the clamping force between the second friction part 420 and the first friction part 410 is adjusted, so that the adjustment of the friction force of the flat-open sliding support is realized.

When the window sash connector 200 moves relative to the frame connector 100, the hinge connection 300 moves the frictional sliding assembly 400 in the sliding direction.

After the window frame connecting piece 100 of this scheme is installed, the notch of spout is towards the window frame side, and first friction part 410 is located the spout, through the cooperation of first friction part 410 and spout, can avoid the grit dust in the use to fall into in the spout to avoid flat-open sliding support to block, can reduce the loss of sliding friction subassembly, thereby can improve flat-open sliding support's life.

And the sliding friction assembly can provide a sufficiently high load bearing friction to the product by the second friction member 420 and the first friction member 410 clamping the window frame connector 100.

The scheme has strong bearing capacity, can solve the bearing problem of large windows in the current market, and has high safety and firm connection.

While the preferred embodiment of the present utility model has been described in detail, the utility model is not limited to the embodiments, and various equivalent modifications and substitutions can be made by those skilled in the art without departing from the spirit of the utility model, and these modifications and substitutions are intended to be included in the scope of the present utility model as defined in the appended claims.

Claims (10)

1. The utility model provides a flat-open slide support which characterized in that: comprising the following steps:

A window frame connecting member, both sides of which are provided with a window sash side and a window frame side, respectively;

the window frame connecting piece is provided with a sliding groove, and the notch of the sliding groove faces the window frame side;

A window sash connector;

A frictional sliding assembly slidingly coupled to the window frame coupling member, the frictional sliding assembly having a sliding direction; the friction sliding component is provided with a main friction surface, and the main friction surface is always abutted with the window frame connecting piece;

And the hinge connection structure is used for connecting the window frame connecting piece, the window sash connecting piece and the friction sliding component, and when the window sash connecting piece moves relative to the window frame connecting piece, the hinge connection structure drives the friction sliding component to move along the sliding direction.

2. A flat-open slide according to claim 1, wherein: the window frame connector comprises a top wall, two side walls and two supporting bodies; the two side walls are respectively fixed with the two ends of the top wall, the supporting bodies are in one-to-one correspondence with the side walls, the supporting bodies are fixed with one ends of the side walls, which are far away from the top wall, and the supporting bodies extend to the inner sides of the sliding grooves.

3. A flat-open slide according to claim 1, wherein: one end of the window frame connecting piece is provided with a concave structure, and the concave structure is concave from the window sash side to the window frame side.

4. A flat-open slide according to claim 1, wherein: one end of the window frame connecting piece is connected with a sealing head in an inserting mode.

5. A flat-open slide according to claim 4, wherein: the positioning assembly is arranged between the sealing head and the window frame connecting piece and comprises a positioning groove and a positioning protrusion, and the positioning groove is matched with the positioning protrusion in a clamping manner.

6. A flat-open slide according to claim 1, wherein: the friction sliding assembly comprises a first friction part positioned in the sliding groove and a second friction part positioned on the window frame side; the sash connector is sandwiched between the first friction member and the second friction member.

7. A flat-open slide according to claim 6, wherein: an adjustment structure is provided between the first friction member and the second friction member for adjusting the clamping force of the first friction member and the second friction member to the sash connector.

8. A flat-open slide according to claim 7, wherein: the adjusting structure is a screw structure, the adjusting structure penetrates through the second friction part, the head of the adjusting structure is abutted to the second friction part, and the tail of the adjusting structure is in threaded connection with the first friction part.

9. A flat-open slide according to claim 6, wherein: the first friction part comprises a sliding block main body and a sliding block steel sheet, and the sliding block main body wraps the sliding block steel sheet.

10. A flat-open slide according to claim 6, wherein: the first friction part is provided with at least two abutting parts, at least two abutting parts are respectively arranged on two sides of the first friction part, each abutting part is of an elastic structure, and each abutting part abuts against the side wall of the corresponding sliding groove.