CN211448232U - Heavy sliding support for window - Google Patents

Abstract

The utility model discloses a heavy sliding support for windows, which comprises a bracket connecting rod, a bottom plate and a connecting rod structure, wherein the bottom plate is provided with a first chute, a convex copper slider, a slider copper gasket, a second chute, a locking gasket and a nylon slider, the convex copper slider penetrates out of the first chute from the bottom side surface of the bottom plate and fixes the slider copper gasket on the top side of the convex copper slider, and the nylon slider is arranged on the second chute on the top side surface of the bottom plate and is in threaded connection with the locking gasket on the bottom surface of the bottom plate through a locking screw; the connecting rod structure comprises a short arm connecting rod, a middle suspension connecting rod and a long arm connecting rod; one end of the short arm connecting rod is hinged to the front end of the convex copper sliding block, and the other end of the short arm connecting rod is hinged to the top end of the supporting arm connecting rod; at least two tooth-shaped grooves are formed in the circumferential direction of a hinge hole hinged on the convex copper sliding block on the short arm connecting rod, and cylindrical rivets which are connected to the bottom plate, are respectively meshed with each tooth-shaped groove and are convenient for the short arm connecting rod to slide along the first sliding groove and control the window sash sectional material to be opened sequentially and gradually at different opening angles are arranged on the corresponding sliding block copper gasket.

Description

Heavy sliding support for window

[ technical field ] A method for producing a semiconductor device

The utility model relates to a door and window technique especially relates to a heavy sliding support is used to window.

[ background of the invention ]

In the door and window industry, a casement window generally adopts a sliding support to fix the casement window on a window frame section bar so as to realize the fixed installation of a window sash. The sliding supports of doors and windows in the existing market are provided with hidden hinges, three-connecting-rod sliding support type or multi-connecting-rod sliding support type hinges and the like, and the fixed installation of window sashes can be realized. In the existing door and window sliding support, the sliding support, a sash profile and a window frame profile are fixed by screws, the position of a supporting arm cannot be adjusted, the sliding support is fastened by the screws, holes need to be drilled in the sash profile, time and labor are wasted in the installation process, and the structure of the sash frame profile is easily damaged; the position adjustment between the door and window sash and the door and window frame cannot be performed. Meanwhile, the common sliding supports are generally arranged in the open places, the situation that gaps are inconsistent can occur after the door and window sashes and the door and window frames are assembled, if the gaps are not adjusted, the appearance attractiveness of the door and window is influenced, and serious people can influence the opening and closing of the door and window.

Moreover, most of the sliding supports do not have an adjusting function or only have a partial adjusting function, so that the gap between the door leaf and the door frame is difficult to control, and the installation difficulty of the door leaf is improved; and in the connection mode of the existing casement window, the connecting rod sliding support has poor bearing capacity, the abrasion between the connecting rods is large, the connecting rods are easy to deform after being used for a long time, and the door and the window are difficult to open.

[ Utility model ] content

The utility model provides a control is convenient, can adjust the casement from top to bottom the overlap joint volume, and structural strength is high, novel style, commonality are strong, durable and the high heavy sliding support of window of reliability.

The utility model provides a technical scheme that its technical problem adopted is:

a heavy sliding support for a window is used for being installed on a window sash and a window frame, and comprises a supporting arm connecting rod fixed with a window sash profile, a bottom plate fixed with a window frame profile and a connecting rod structure, wherein the supporting arm connecting rod, the bottom plate and the connecting rod structure are hinged to enable the supporting arm connecting rod and the bottom plate to be relatively opened and closed;

the bottom plate is provided with a first sliding groove, a convex copper sliding block, a sliding block copper gasket, a second sliding groove, a locking gasket and a nylon sliding block, the convex copper sliding block penetrates out of the first sliding groove from the bottom side surface of the bottom plate and is fixed on the sliding block copper gasket at the top side of the convex copper sliding block to be arranged on the bottom plate in a sliding manner, and the nylon sliding block is arranged on the second sliding groove at the top side surface of the bottom plate, is in threaded connection with the locking gasket at the bottom surface of the bottom plate through a locking screw and is arranged on the bottom plate;

the connecting rod structure comprises a short arm connecting rod, a middle suspension connecting rod and a long arm connecting rod;

one end of the short arm connecting rod is hinged to the front end of the convex copper sliding block through a rivet, and the other end of the short arm connecting rod is hinged to the top end of the supporting arm connecting rod through a rivet;

one end of the long arm connecting rod is hinged to the rear end of the bottom plate through a rivet, the other end of the long arm connecting rod is hinged to the middle of the supporting arm connecting rod through a rivet, and the top surface of the supporting arm connecting rod is connected to the window sash profile;

one end of the middle suspension connecting rod is hinged to the rear end of the nylon sliding block through a rivet, and the other end of the middle suspension connecting rod is hinged to the middle of the long arm connecting rod through a rivet;

at least two tooth-shaped grooves are formed in the circumferential direction of a hinge hole, hinged to the convex copper sliding block, in the short arm connecting rod, and cylindrical rivets, which are connected to the bottom plate, meshed with each tooth-shaped groove respectively, are arranged on the corresponding sliding block copper gasket, are convenient for the short arm connecting rod to slide along the first sliding groove, and control the connecting rod structure and connected window sash sectional materials to be opened at different opening angles gradually.

Furthermore, four semicircular tooth-shaped grooves are circumferentially arranged on the short arm connecting rod and hinged to the hinge hole of the convex copper sliding block, three cylindrical rivets which are connected to the bottom plate and are linearly and uniformly distributed at intervals and meshed with the three tooth-shaped grooves on the front side respectively are arranged on the side edge of the corresponding sliding block copper gasket, so that the short arm connecting rod can conveniently slide along the first sliding groove, the connecting rod structure and the connected window sash section bar are sequentially and gradually opened at different opening angles, and two limiting cylindrical rivets which are connected to the bottom plate, respectively abut against the tooth-shaped grooves on the front side and the rear side of the short arm connecting rod and are used for limiting the maximum opening angle of the connecting rod structure and the connected window sash section bar when the short arm connecting rod rotates and is opened when the short arm connecting rod is closed and folded are arranged on the front and rear.

Furthermore, the short arm connecting rod and the hinged hole of the supporting arm connecting rod are coaxially connected with an adjusting block, the upper end of the adjusting block is inserted into the groove of the window sash profile and is fixed on the side face of the window sash profile through a set screw, the lower end of the adjusting block is inserted into an adjusting shaft arranged in the hinged hole, and the top of the adjusting block is also in threaded connection with a knob adjusting screw which abuts against the top end of the adjusting shaft, adjusts the upper and lower lap joint quantity of the window sash profile relative to the supporting arm connecting rod after the rotation of a wrench, prevents the window sash profile from sagging and increases bearing capacity.

Furthermore, a guide sleeve and a guide post for guiding, positioning and limiting the bracket arm connecting rod when the bracket arm connecting rod is closed are fixed at the top end of the bottom plate.

Furthermore, the middle suspension connecting rod is hinged with the long suspension connecting rod, the bottom plate, the nylon sliding block, the locking gasket, the rivet and the meson gasket in a combined mode to form a structure for adjusting the friction force of the sliding support during opening and closing, the locking screw on the nylon sliding block penetrates through the second sliding groove to be in threaded connection with the locking gasket on the lower side of the bottom plate, the nylon sliding block is driven to slide along the second sliding groove of the bottom plate through the middle suspension connecting rod during opening and closing of the sliding support, and the locking screw is rotated clockwise or anticlockwise to adjust the contact force of the contact surface of the nylon sliding block and the bottom plate so as.

Furthermore, joint parts among the bracket arm connection part, the short arm connecting rod, the long arm connecting rod and the bottom plate are also provided with meson gaskets convenient for fixing and connecting rivets.

Furthermore, the lower sides of the front end and the rear end of the bottom plate are respectively provided with a locking piece and a self-tapping screw which are used for enhancing the connection strength with the window sash section bar.

The utility model has the advantages that:

the utility model discloses a stub arm connecting rod adopts half-round formula tooth mouth design, hinge on the stub arm connecting rod hinge joint hole circumference in protruding type copper slider promptly and be equipped with four flute profile, be equipped with three connection on the slider copper gasket side edge that corresponds and be the even interval distribution of linearity, mesh respectively with the three flute profile of front side and be connected, the stub arm connecting rod of being convenient for slides along first spout, and the casement section bar of control link structure and connection progressively opens the angle cylinder rivet that the angle was opened with the difference in proper order, and be equipped with two respectively on the slider copper gasket front and back edge that corresponds and connect on the bottom plate, conflict respectively with the flute profile of stub arm connecting rod front and back side and mesh, the spacing cylinder rivet that the biggest angle that opens that the casement section bar that is opened for closing spacing stub arm connecting rod when folding rotates and open time limit link structure and connection. The short arm connecting rod is subjected to combined hinged transmission stress through the rivet, the convex copper slide block, the slide block copper gasket and the bottom plate, slides in the first sliding groove, improves the wear-resisting strength, and prolongs the service life of a product.

And, the hinge hole of short arm connecting rod and trailing arm connecting rod still coaxial be connected with the upper end and insert in the casement section bar slot, and be fixed in the regulating block on the casement section bar side through holding screw, the regulating block lower extreme cartridge is on the regulating spindle of hinge hole setting, the top of regulating block is still threaded connection to be supported in the regulating spindle top, and through rotatory back regulation casement section bar upper and lower overlap joint volume of the relative trailing arm connecting rod of spanner, prevent casement section bar flagging and increase the knob adjusting screw of bearing, effectively increase the bearing effect of sliding support.

In addition, the middle suspension connecting rod is hinged with the long suspension connecting rod, the bottom plate, the nylon sliding block, the locking gasket, the rivet and the meson gasket to form a structure for adjusting the friction force of the sliding support during opening and closing, the locking screw on the nylon sliding block penetrates through the second sliding groove to be in threaded connection with the locking gasket on the lower side of the bottom plate, the locking screw is rotated clockwise or anticlockwise to adjust the contact force of the contact surface of the nylon sliding block and the bottom plate, so that the friction force of the sliding support during opening and closing is controlled, the nylon sliding block is driven to slide along the second sliding groove of the bottom plate through the middle suspension connecting rod during opening and closing of the sliding support, and the stability of the window sash sectional material during opening and closing can be effectively controlled through the friction.

[ description of the drawings ]

Fig. 1 is a schematic diagram of the explosion structure of the present invention;

FIG. 2 is a schematic view of the structure of the utility model;

fig. 3 is a schematic perspective view of the present invention when closed;

FIG. 4 is an exploded view of the connection structure of the middle base plate, the convex copper slider and the short arm link of the present invention;

FIG. 5 is a schematic view of the connection structure of the middle base plate, the convex copper slider and the short arm connecting rod of the present invention;

FIG. 6 is an exploded view of the friction structure of the sliding support of the present invention;

FIG. 7 is a schematic view of the local explosion after adding the adjusting block;

FIG. 8 is a schematic view of the three-dimensional structure of the present invention with an additional adjusting block;

fig. 9 is a schematic view of the three-dimensional structure of the present invention installed on a door and window sash.

[ detailed description ] embodiments

A heavy sliding support for a window is shown in figures 1 to 9 and is used for being mounted on a door window sash 1 and a door window frame 2 and comprises a bracket connecting rod 3, a bottom plate 4 and a connecting rod structure, wherein the bracket connecting rod 3, the bottom plate 4 and the connecting rod structure are hinged, so that the bracket connecting rod 3 and the bottom plate 4 can be relatively opened and closed; be provided with first spout 40 on bottom plate 4, protruding type copper slider 5, slider copper gasket 6, second spout 41, lock washer 7 and nylon sliding block 8, protruding type copper slider 5 is worn out first spout 40 and is slided the setting on bottom plate 4 at protruding type copper slider 5 top side fixed slide copper gasket 6 from bottom plate 4 bottom side, nylon sliding block 8 sets up and slides the setting on bottom plate 4 on the second spout 41 of bottom plate 4 top side and through lock screw 9 and lock washer 7 threaded connection back of bottom plate 4 bottom surface, bottom plate 4's top still is fixed with guide pin bushing 42 and the guide pillar 43 that is used for when closing, inject trailing arm connecting rod 3.

As shown in fig. 1 to 3, the connecting rod structure comprises a short arm connecting rod 10, a middle suspension connecting rod 11 and a long arm connecting rod 12, wherein one end of the short arm connecting rod 10 is hinged to the front end of the convex copper sliding block 5 through a rivet, and the other end of the short arm connecting rod 10 is hinged to the top end of the supporting arm connecting rod 3 through a rivet; one end of a long arm connecting rod 12 is hinged to the rear end of the bottom plate 4 through a rivet, the other end of the long arm connecting rod 12 is hinged to the middle of the bracket arm connecting rod 3 through a rivet, and the top surface of the bracket arm connecting rod 3 is connected to the window sash profile; one end of a middle suspension connecting rod 11 is hinged to the rear end of the nylon sliding block 8 through a rivet, and the other end of the middle suspension connecting rod 11 is hinged to the middle of the long arm connecting rod 12 through a rivet; the hinged parts between the bracket arm connection part, the short arm connecting rod 10, the long arm connecting rod 12 and the bottom plate 4 are also provided with meson gaskets which are convenient for fixing and connecting rivets.

As shown in fig. 1 to 5, four semicircular toothed grooves 100 are circumferentially formed in the hinge hole of the short arm link 10 hinged to the convex copper slider 5, three angular cylindrical rivets 13 which are connected with the bottom plate 4, are linearly and uniformly distributed at intervals and are respectively meshed with the three front-side tooth-shaped grooves 100, are arranged on the side edge of the corresponding sliding block copper gasket 6, are convenient for the short arm connecting rod 10 to slide along the first sliding groove 40, control the connecting rod structure and the connected door and window sash to be opened at different opening angles step by step in sequence, two limiting cylindrical rivets 14 which are connected to the bottom plate 4, respectively abut against the front side concave arc wall surface and the rear side tooth-shaped groove 100 of the short arm connecting rod 10 and are used for limiting the rotation of the short arm connecting rod 10 during closing and folding and limiting the connecting rod structure and the maximum opening angle of the connected door and window sash 1 during opening are arranged on the front edge and the rear edge of the corresponding sliding block copper gasket 6; the short arm connecting rod 10 is hinged and stressed through the combination of the rivet, the convex copper sliding block 5, the sliding block copper gasket 6 and the bottom plate 4, slides along the first sliding groove 40, effectively improves the wear-resisting strength of the sliding support, and prolongs the service life of a product.

As shown in fig. 7 to 9, the short arm link 10 and the bracket link 3 are coaxially connected with an adjusting block 14, the upper end of which is inserted into the notch of the door sash 1 and is fixed on the side of the door sash 1 by four fastening screws 140, the lower end of the adjusting block 14 is inserted into an adjusting shaft 15 arranged in the hinge hole, the top of the adjusting block 14 is also in threaded connection with a knob adjusting screw 17 which abuts against the top end of the adjusting shaft 15, adjusts the vertical lap joint amount of the door sash 1 relative to the bracket link 3 after the wrench 16 rotates, prevents the door sash 1 from sagging and increases the bearing capacity.

As shown in fig. 6, the middle suspension connecting rod 11 is hinged to the long suspension connecting rod, the bottom plate 4, the nylon sliding block 8, the locking washer 7, the rivet and the meson washer to form a structure for adjusting the friction force of opening and closing the sliding support, the locking screw 9 on the nylon sliding block 8 penetrates through the second sliding groove 41 to be in threaded connection with the locking washer 7 on the lower side of the bottom plate 4, the nylon sliding block 8 is driven by the middle suspension connecting rod 11 to slide along the second sliding groove 41 of the bottom plate 4 when the sliding support is opened and closed, and the locking screw 9 is rotated clockwise or counterclockwise to adjust the contact force of the contact surface of the nylon sliding block 8 and the bottom plate 4 to control.

As shown in fig. 4 and fig. 7 to 9, the lower sides of the front and rear ends of the bottom plate 4 are respectively provided with a locking piece 18 and a self-tapping screw 19 for strengthening the connection strength with the door and window frame 2, the locking piece 18 drives the locking piece 18 to rotate in a groove 21 of the door and window frame 2 through a knob nail 20, the bottom plate 4 is connected to the door and window frame 2 in a locking manner, the front and rear ends of the bottom plate 4 are doubly fixed with the door and window frame 2 through the locking piece 18 and the self-tapping screw 19, and the safety of the sliding support is greatly improved.

The middle suspension connecting rod 11 and the long suspension connecting rod 12 are hinged, the bottom plate 4, the nylon sliding block 8, the locking gasket 7, the rivet and the meson gasket are combined to form a structure for adjusting the friction force of opening and closing of the sliding support, the locking screw on the nylon sliding block 8 penetrates through the second sliding groove 41 to be in threaded connection with the locking gasket 7 on the lower side of the bottom plate 4, the locking screw is rotated clockwise or anticlockwise to adjust the contact force of the nylon sliding block and the contact surface of the bottom plate to control the friction force of opening and closing of the sliding support, the nylon sliding block is driven to slide along the second sliding groove of the bottom plate through the middle suspension connecting rod when the sliding support is opened and closed, and the stability of the window sash sectional material in the opening and closing process can be effectively controlled through the friction contact of.

The above-mentioned embodiments are only preferred embodiments of the present invention, not limiting the scope of the present invention, and all equivalent changes made by the shape, structure and principle of the present invention should be covered by the protection scope of the present invention.

Claims (7)

1. A heavy sliding support for a window is used for being installed on a window sash and a window frame, and comprises a supporting arm connecting rod fixed with a window sash profile, a bottom plate fixed with a window frame profile and a connecting rod structure, wherein the supporting arm connecting rod, the bottom plate and the connecting rod structure are hinged to enable the supporting arm connecting rod and the bottom plate to be relatively opened and closed; the method is characterized in that:

the bottom plate is provided with a first sliding groove, a convex copper sliding block, a sliding block copper gasket, a second sliding groove, a locking gasket and a nylon sliding block, the convex copper sliding block penetrates out of the first sliding groove from the bottom side surface of the bottom plate and is fixed on the sliding block copper gasket at the top side of the convex copper sliding block to be arranged on the bottom plate in a sliding manner, and the nylon sliding block is arranged on the second sliding groove at the top side surface of the bottom plate, is in threaded connection with the locking gasket at the bottom surface of the bottom plate through a locking screw and is arranged on the bottom plate;

the connecting rod structure comprises a short arm connecting rod, a middle suspension connecting rod and a long arm connecting rod;

one end of the short arm connecting rod is hinged to the front end of the convex copper sliding block through a rivet, and the other end of the short arm connecting rod is hinged to the top end of the supporting arm connecting rod through a rivet;

one end of the long arm connecting rod is hinged to the rear end of the bottom plate through a rivet, the other end of the long arm connecting rod is hinged to the middle of the supporting arm connecting rod through a rivet, and the top surface of the supporting arm connecting rod is connected to the window sash profile;

one end of the middle suspension connecting rod is hinged to the rear end of the nylon sliding block through a rivet, and the other end of the middle suspension connecting rod is hinged to the middle of the long arm connecting rod through a rivet;

at least two tooth-shaped grooves are formed in the circumferential direction of a hinge hole, hinged to the convex copper sliding block, in the short arm connecting rod, and cylindrical rivets, which are connected to the bottom plate, meshed with each tooth-shaped groove respectively, are arranged on the corresponding sliding block copper gasket, are convenient for the short arm connecting rod to slide along the first sliding groove, and control the connecting rod structure and connected window sash sectional materials to be opened at different opening angles gradually.

2. The heavy type window shoe according to claim 1, wherein said short arm link is provided with four semi-circularly designed tooth-shaped grooves around the circumference of the hinge hole hinged to said male copper slider, three angle cylindrical rivets which are connected with the bottom plate, are linearly and uniformly distributed at intervals, are respectively meshed with the three tooth-shaped grooves on the front side, are convenient for the short arm connecting rod to slide along the first sliding groove, control the connecting rod structure and the connected window sash section bars to be opened at different opening angles step by step in sequence, and two limiting cylindrical rivets which are connected to the bottom plate, respectively abut against the tooth-shaped grooves on the front side and the rear side of the short arm connecting rod and are used for limiting the rotation of the short arm connecting rod during closing and folding and limiting the connecting rod structure during opening and limiting the maximum opening angle of the connected window sash section bar during opening are arranged on the front edge and the rear edge of the corresponding sliding block copper gasket.

3. The heavy type window slide brace according to claim 1, wherein the hinge hole of the short arm link and the bracket link is further coaxially connected with an adjusting block, the upper end of the adjusting block is inserted into the slot of the window sash profile and is fixed on the side surface of the window sash profile through a set screw, the lower end of the adjusting block is inserted into an adjusting shaft arranged in the hinge hole, and the top of the adjusting block is further in threaded connection with a knob adjusting screw which abuts against the top end of the adjusting shaft, adjusts the vertical lap joint amount of the window sash profile relative to the bracket link after the adjusting screw is rotated by a wrench, prevents the window sash profile from sagging and increases the bearing capacity.

4. The heavy window runner of claim 1, wherein a guide bushing and a guide post for guiding and positioning the bracket link when closed are further fixed to the top end of the base plate.

5. The heavy window slide according to claim 1, wherein the middle suspension connecting rod is hinged to the long suspension connecting rod, the bottom plate, the nylon slider, the locking washer, the rivet and the meson washer to form a structure for adjusting the opening and closing friction force of the slide, the locking screw on the nylon slider passes through the second sliding groove to be in threaded connection with the locking washer on the lower side of the bottom plate, the middle suspension connecting rod drives the nylon slider to slide along the second sliding groove of the bottom plate when the slide is opened and closed, and the locking screw is rotated clockwise or counterclockwise to adjust the contact force between the nylon slider and the contact surface of the bottom plate, so as to control the friction force for opening and closing the slide.

6. The heavy type sliding brace for the window as claimed in claim 1, wherein the hinged joints among the bracket arm connection, the short arm connecting rod, the long arm connecting rod and the bottom plate are further provided with an adapter gasket for fixing a connecting rivet.

7. The heavy type sliding support for window as claimed in claim 1, wherein the underside of the front and rear ends of said bottom plate is further provided with a locking piece and a self-tapping screw for reinforcing the connection strength with the window sash profile.

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