Lower connecting component for translational inner inverted window
Technical Field
The utility model belongs to the field of decoration articles, and particularly relates to a lower connecting assembly for a translational inverted window.
Background
The window, architecturally, refers to a hole built in a wall or a roof, for allowing light or air to enter a room, and the window of a modern window mainly comprises a window frame, glass and a movable member (a hinge, a handle, a pulley and the like), wherein the window frame is used for supporting a main structure of a window body, and can be made of wood, metal, ceramic or plastic materials, a transparent part is arranged on a bed and is used for connecting a window sash to the window frame, the transparent part can be made of paper, cloth, silk or glass materials, the movable member is mainly made of metal materials, and heat insulation materials such as plastic and the like can be wrapped at a place touched by a human hand.
The window that falls in the translation needs switch between the translation with falling in, when switching, and the activity window needs and has a locking down between the slide rail, avoids falling the in-process in the interior, and gliding phenomenon appears in lower connecting piece, among the prior art, the chinese patent: 2019213373003, Utility model name; a lateral-moving inverted window is disclosed in paragraph 0031 and 0034 of the specification, a third locking device is disclosed, which drives a third locking block 92 to rotate around a connecting shaft thereof by the back and forth movement of a third sliding block 91, the third locking block rotates by the cooperation of a first locking hook and a second locking hook, and the structure has the following problems: the third locking piece is located the both sides of slide 53, has increased the width of slide to influenced the thickness of whole window body, and the third locking piece often appears unblock not enough degree, can't the problem of translation when causing the needs translation.
SUMMERY OF THE UTILITY MODEL
Aiming at the defects in the prior art, the utility model designs the lower connecting component for the translational inverted window, which is simple in structure, small in size, stable and reliable.
The technical scheme of the utility model is as follows:
lower coupling assembling is used to window in translation, it includes a sliding block, a fixed block, is equipped with the mounting groove that the side direction link up on the sliding block, its characterized in that: the locking mechanism is characterized by further comprising a rotating support rod connected in the mounting groove through a pin shaft, and a locking mechanism for locking and separating the sliding block and the fixed block, wherein the locking mechanism is driven by the rotating support rod.
Further, the locking mechanism is a locking mechanism which converts horizontal movement into up-and-down lifting movement.
Further, the locking mechanism comprises a sliding hole groove which is formed in the sliding block and is communicated with the mounting groove, and a sliding plate, wherein the front end of the sliding plate is in a slope shape, the sliding plate is located on the upper surface of the sliding block, the locking mechanism further comprises a driving plate arranged below the sliding hole groove, the driving plate is connected with the sliding plate through a connecting rod, the driving plate is abutted to the rotating support rod, a reset spring is arranged between the connecting rod and the wall of the sliding hole groove, the locking mechanism further comprises a step hole which is formed in the upper portion and the lower portion in a through mode, a locking block can stretch out of the step hole, the upper end of the locking block is provided with a slope face matched with the front end of the sliding plate, and a second reset spring for driving the locking block to reset is arranged in the step hole.
Furthermore, the sliding block is provided with a first guide hole groove, a guide rod is arranged in the first guide hole groove, and the guide rod is connected with the sliding plate.
Furthermore, a bearing part for bearing the joint of the return spring and the sliding hole groove is arranged in the sliding hole groove.
Further, blocked mechanical system is including connecting the first drive wheel of being epaxial by the rotation support pole drive of round pin, be equipped with upper end open-ended installation cavity on the sliding block, the bottom of installation cavity is equipped with the hole of stretching out, still including setting up the cover that rotates that can rotate in the installation cavity, upper portion in the installation cavity is equipped with the locking apron, the inner wall that rotates the cover is equipped with the helicla flute, still including installing the lift guide arm in rotating the cover, the surface of lift guide arm be equipped with helicla flute complex lift wheel, the lower extreme of lift guide arm is connected with the spring bolt, the spring bolt exposes in stretching out the hole, connect through drive mechanism between first drive wheel and the rotation cover.
Further, the transmission mechanism is a rack arranged in the sliding block, and gears meshed with the rack are arranged on the outer walls of the first driving wheel and the rotating sleeve.
Further, the lower surface of the sliding block located on two sides of the mounting groove is provided with a pulley mounting groove, and the pulley is arranged in the pulley mounting groove.
Furthermore, the rotating support rod is provided with a bearing installation cavity, the bearing is arranged in the bearing installation cavity and connected with the pin shaft, and the end part of the sliding block is provided with a positioning block which is pre-positioned with the fixing block.
In conclusion, the utility model has the following beneficial effects:
1. the utility model mainly aims at improving a locking mechanism of a lower connecting assembly, and designs the locking mechanism linked with the opening and closing of a movable window.
2. The locking mechanism changes a mechanical mechanism, a horizontal component is driven to move by the rotation of the rotating support rod, and the horizontal component can drive a vertical moving component to move up and down in the moving process, so that the conversion from horizontal movement to vertical movement is realized, the conversion process is stable and reliable, the opening and closing operation of the locking mechanism is stable and reliable, the requirement of people on stable product quality is met, meanwhile, the locking mechanism cannot increase the thickness of a sliding block, and the thickness of the whole window body cannot be influenced.
Drawings
FIG. 1 is a perspective view of the present invention;
FIG. 2 is a perspective view of the present invention with the drive plate removed;
FIG. 3 is a perspective view of the present invention with the rotational support bar and locking mechanism removed;
FIG. 4 is a perspective view of the alternate view of FIG. 3;
FIG. 5 is a perspective view of the rotary supporting rod;
FIG. 6 is a schematic sectional view of example 1;
FIG. 7 is a schematic sectional view of embodiment 2;
FIG. 8 is a schematic connection diagram of a first driving wheel, a transmission mechanism and a rotating sleeve in embodiment 2;
in the figure, 1 is a sliding block, 10 is a mounting groove, 11 is a pulley mounting groove, 12 is a pulley, 13 is a positioning block,
2 is a fixed block,
3 is a rotary supporting rod, 30 is a mounting cavity, 31 is a pin shaft, 32 is a bearing,
4 is a locking mechanism, 40 is a sliding hole groove, 41 is a sliding plate, 42 is a driving plate, 43 is a connecting rod, 44 is a return spring, 45 is a stepped hole, 46 is a locking block, 450 is a second return spring, 47 is a first guide hole groove, 48 is a guide rod, 401 is a bearing part,
401 is a first driving wheel, 402 is an installation cavity, 403 is an extension hole, 404 is a rotating sleeve, 405 is an upper locking cover plate, 406 is a spiral groove, 407 is a lifting guide rod, 408 is a lifting wheel, 409 is a bolt, 4010 is a transmission mechanism.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the drawings of the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the utility model without any inventive step, are within the scope of protection of the utility model.
Example 1
Refer to fig. 1 and show, fall window down with coupling assembling in translation, it includes a sliding block 1, a fixed block 2, is equipped with the mounting groove 10 that the side direction link up on the sliding block 1, its characterized in that: the locking mechanism further comprises a rotating support rod 3 connected in the mounting groove through a pin 31 and a locking mechanism 4 for locking and separating the sliding block and the fixed block, wherein the locking mechanism 4 is driven by the rotating support rod.
The utility model designs a lower connecting component for supporting and sliding the lower end of a movable window of a translational inner-falling window, wherein a sliding block can move on a track of a fixed window, and when the movable window does not need to move, the sliding block is connected with the fixed block through a locking mechanism, so that people can conveniently switch the movable window between the inner-falling state and the translational state, and the using requirements are met.
Further, the locking mechanism 4 is a locking mechanism for converting horizontal motion into vertical motion, the locking mechanism of the present invention is a locking mechanism for converting horizontal motion into vertical motion, specifically, the rotation of the rotating support rod drives a component to move in the horizontal direction, the horizontal motion of the component drives another component to move in the vertical direction, when the other component moves downward, the lower surface of the other component extending out of the sliding block interferes with the fixed block, so as to achieve the purpose of locking the sliding block and the fixed block.
Further, referring to fig. 2 to 6, the locking mechanism 4 includes a sliding hole groove 40 formed on the sliding block 1 and extending vertically, the sliding hole groove 40 communicating with the mounting groove 10, a sliding plate 41 having a slope-shaped front end, the sliding plate 41 being located on the upper surface of the sliding block 1, a driving plate 42 disposed below the sliding hole groove 40, the driving plate 42 being connected to the sliding plate 41 through a connecting rod 43, the driving plate 42 abutting against a rotary support rod, the eccentric profile of the rotary support rod pushing the sliding plate and the driving plate to move along the sliding hole groove during rotation, a return spring 44 disposed between the connecting rod 43 and the sliding hole groove wall, a stepped hole 45 extending vertically, the stepped hole 45 having a locking block 46, a lower end of the locking block 46 extending out of the stepped hole 45, an upper end of the locking block 46 having a slope surface matching with the front end of the sliding plate 41, the second reset spring for driving the locking block to reset is arranged in the step hole 45, the locking mechanism in the embodiment drives the locking block to move up and down by utilizing a slope surface matched structure through the movement of the sliding plate, when the locking block moves down and is exposed out of the step hole, the locking protrusion of the fixed block is positioned between the locking block and the sliding block, so that a locking effect is achieved, in the locking process, the reset spring and the second reset spring are both in a compressed state, when the rotating support rod rotates and does not act on the driving plate any more, the reset spring and the second reset spring can drive the sliding plate and the locking block to reset, and the unlocking action is completed.
Furthermore, the sliding block 1 is further provided with a first guide hole groove 47, a guide rod 48 is arranged in the first guide hole groove, the guide rod is connected with the sliding plate, and the first guide hole groove is used for guiding the movement of the sliding plate, so that the movement stability and accuracy of the sliding plate are ensured.
Further, the sliding hole groove 40 in be equipped with the supporting portion 401 that carries out the bearing to reset spring and sliding hole groove junction, the supporting portion that sets up is used for carrying out the bearing to reset spring, makes things convenient for reset spring to install, has also guaranteed reset spring's stability, the problem of slippage can not appear in reset spring's compression process.
Example 2
Further, the structure of the locking mechanism of this embodiment is different from that of the locking mechanism of embodiment 1, and referring to fig. 7 and 8, the locking mechanism 4 includes a first driving wheel 401 connected to the pin shaft and driven by the rotating support rod 3, the sliding block 1 is provided with an installation cavity 402 with an opening at the upper end, the bottom of the installation cavity 402 is provided with an extending hole 403, and further includes a rotating sleeve 404 rotatably disposed in the installation cavity 402, the upper portion of the installation cavity 402 is provided with an upper locking cover plate 405, the inner wall of the rotating sleeve 404 is provided with a spiral groove 406, and further includes a lifting guide rod 407 mounted in the rotating sleeve 404, the surface of the lifting guide rod 407 is provided with a lifting wheel 408 matching with the spiral groove, the lower end of the lifting guide rod 407 is connected with a locking tongue 409, the locking tongue 409 is exposed out of the extending hole 403, the first driving wheel and the rotating sleeve are connected through a transmission mechanism 4010, the lifting guide rod in this embodiment is cylindrical, the extension hole and the lock tongue are square; the movable window is opened and the in-process is closed to this place, rotates the bracing piece and rotates, drives first drive wheel simultaneously rotatory, and it is rotatory to drive the rotating sleeve through drive mechanism, rotates the lifting guide rod up-and-down motion that set up in rotating the sleeve of cover rotary drive to drive the motion of spring bolt, when the spring bolt downstream stretches out and stretches out the hole, realize the locking with the fixed block cooperation, when the spring bolt upward movement withdrawal stretches out downthehole, sliding block and fixed block unblock, the movable window can slide along the guide rail.
Further, drive mechanism 4010 for setting up the rack in the sliding block, all be equipped with the gear with rack toothing on the outer wall of first drive wheel and rotation cover, drive first drive wheel through rotating the bracing piece and rotate in this embodiment, first drive wheel rotates and drives rack seesaw, rack motion drives and rotates the cover rotation, then turns into the up-and-down motion of lift guide arm, the final performance is the up-and-down motion of spring bolt, when the spring bolt stretches out in stretching out the hole, it carries out a locking location with the fixed block with the sliding block cooperation.
Further, in the above two embodiments, the lower surface of the sliding block 1 located at the two sides of the mounting groove 10 is provided with the pulley mounting groove 11, the pulley 12 is arranged in the pulley mounting groove, the friction between the sliding block and the guide rail is reduced by the arranged pulley, and the moving window translation process is more stable and smooth.
Further, the rotating support rod 3 on be equipped with bearing installation cavity 30, bearing 32 sets up in bearing installation cavity and with the round pin hub connection, the tip of sliding block 1 is equipped with carries out pre-positioning's locating piece 13 with the fixed block, is equipped with the melt chamber of indent on the terminal surface of fixed block for the alignment of sliding block and fixed block, thereby guarantee that subsequent locking action can accurately be accomplished.
In conclusion, the utility model has the following beneficial effects:
1. the utility model mainly aims at improving a locking mechanism of a lower connecting assembly, and designs the locking mechanism linked with the opening and closing of a movable window.
2. The locking mechanism changes a mechanical mechanism, a horizontal component is driven to move by the rotation of the rotating support rod, and the horizontal component can drive a vertical moving component to move up and down in the moving process, so that the conversion from horizontal movement to vertical movement is realized, the conversion process is stable and reliable, the opening and closing operation of the locking mechanism is stable and reliable, the requirement of people on stable product quality is met, meanwhile, the locking mechanism cannot increase the thickness of a sliding block, and the thickness of the whole window body cannot be influenced.