CN220929159U - Door leaf structural member capable of being freely switched by single glass and double glass - Google Patents

Abstract

The utility model belongs to the technical field of finished glass partition walls and finished door buildings, and relates to a door leaf structural member capable of freely switching single glass and double glass. The conversion piece is used for changing the double-layer glass attribute of the basic door leaf into a single glass attribute. The movable closing-in strip is used for edge sealing treatment, hardware such as a door lock hinge is embedded in the groove at the socket of the fixing piece, and after the movable closing-in strip is installed, the rest part of the socket of the fixing piece is sealed with edges and closed. The utility model integrates various types of the existing single-glass door, double-glass door, shutter door and the like, and can realize the change of door leaf types by replacing components, thereby having simple process and convenient stock preparation. The utility model has ingenious design, and can adapt to sliding doors, suspended rail doors, automatic doors, ground spring doors and vertical hinged doors by arranging various functions therein, and the function conversion of the door leaf can be realized by changing hardware.

Description

Door leaf structural member capable of being freely switched by single glass and double glass

Technical Field

The utility model belongs to the technical field of finished glass partition walls and finished door buildings, and particularly relates to a door leaf structural member capable of freely switching single glass and double glass.

Background

Currently, in the field of finished glass partition walls and finished door construction industry, door leaf materials are various, and in terms of style, the door leaf materials are divided into single glass doors, double glass doors and shutter doors. Functionally, the door is divided into a sliding door, a hanging rail door, an automatic door, a ground spring door and a vertical hinged door.

The variety of door leaf materials is to meet different styles and functions, each door leaf material also needs to be made in different colors, in which case the pressure is great when the manufacturer makes an inventory.

In addition, the diversity of materials complicates the assembly technique process, has slow learning speed, is difficult to master, and wastes a great deal of manpower resources in an intangible way.

The current finished glass partition and finished door construction industry faces the following major technical problems and drawbacks:

1. Inventory management is difficult: due to the variety of door leaf materials, and the different colors each door leaf material needs to be made, manufacturers are faced with great pressure in managing inventory. Maintaining a large inventory not only increases capital occupation, but may also result in backlog of inventory due to changes in market demand.

2. The assembly technology is complex: the material diversity of the door leaves complicates the assembly technique process, requires a great deal of learning and training by workers, which undoubtedly increases the labor cost and may lead to unstable manufacturing quality due to the complexity of the process.

3. The efficiency is low: this undoubtedly increases the switching frequency of the production line, as the assembly is required for different door leaf materials and styles, thus affecting the production efficiency.

4. Environmental protection problem: the large amount of stock and complex production process may result in waste of resources, contrary to the current trend of environmental protection.

Therefore, a technical solution that can reduce stock pressure, simplify assembly process, improve production efficiency and meet environmental protection requirements is urgently needed in the industry. For example, a versatile, easy-to-assemble door leaf structure can be developed that can achieve a variety of styles and colors by changing the different panels, while the core assembly process remains unchanged. Therefore, the stock pressure can be reduced, the assembly process can be simplified, and the production efficiency can be improved.

Disclosure of utility model

Aiming at the problems existing in the prior art, the utility model provides a door leaf structure member with single glass and double glass free switching, which is a door leaf system formed by three single structure members, so that the door leaf system can achieve various types of single glass doors, double glass doors or shutter doors. Integrates multiple functions and can realize any mode of sliding doors, hanging rail doors, automatic doors, ground spring doors and vertical hinged doors. The material types are few, the process is simple, and the waste of manpower and material resources is saved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the door leaf structural member comprises a base door leaf, a conversion piece and a movable closing strip; the conversion piece sets up at basic door leaf top, and movable receipts mouth strip sets up in basic door leaf bottom.

Further, the basic door leaf comprises a main cavity, a right-angle piece socket, a movable corner connector socket, a fixing piece socket, a glass socket and a shutter curtain vertical baffle; right angle piece sockets are symmetrically arranged on two sides in the main cavity, a fixing piece socket is arranged at the bottom of the main cavity, a movable corner joint socket is arranged above the fixing piece socket, and a glass socket and a shutter curtain vertical baffle are arranged at the top of the main cavity.

Further, the fixing piece socket is a selective installation socket, or is provided with a lower blade of a hanging rail pulley, or is provided with an upper rocker arm and a lower rocker arm of a floor spring, or is provided with a hinge.

Further, the conversion piece is detachably mounted above the base door leaf.

Further, the fixing piece inserting opening is provided with a hardware embedded in the groove, and after the movable closing strip is installed, the other parts of the fixing piece inserting opening are sealed with edges and closed.

In combination with the technical scheme and the technical problems to be solved, the technical scheme to be protected has the following advantages and positive effects:

the utility model provides a door leaf structural member capable of freely switching single glass and double glass, which comprises a base door leaf, a conversion piece and a movable closing strip, wherein the conversion piece is used for changing the attribute of double glass of the base door leaf into the attribute of single glass, the movable closing strip is used for edge sealing treatment, hardware such as a door lock hinge and the like are embedded in a groove at a fixing piece inserting opening, and after the fixing piece inserting opening is installed, the other parts of the fixing piece inserting opening are sealed and closed.

Secondly, the utility model integrates various types of the existing single glass door, double glass door, shutter door and the like, and the change of the door leaf type can be realized by replacing the components, so that the utility model has simple process and convenient preparation.

The utility model has ingenious design, and can adapt to sliding doors, suspended rail doors, automatic doors, ground spring doors and vertical hinged doors by arranging various functions therein, and the function conversion of the door leaf can be realized by changing hardware.

The fixing part socket is arranged at the edge, the hardware is installed without a groove, the fixing part socket can be directly installed, the movable closing strip can perfectly seal the periphery of the door leaf, and the installation is convenient, so that the attractive appearance is not lost.

Thirdly, as inventive supplementary evidence of the claims of the present utility model, the following important aspects are also presented:

the following are significant technological advances made for each structural component:

1. Main cavity: the main cavity not only supports the whole door leaf structure, but also provides mounting positions for the lockset and the handle, and the integrated design reduces the mounting complexity and improves the production efficiency.

2. Right angle piece socket and movable angle sign indicating number socket: the two parts enable the door leaf to be in butt joint at an angle of 45 degrees, so that the door leaf is more convenient and accurate to install. Particularly in large projects, this design can greatly improve the working efficiency.

3. Fastener socket: the fixing part socket provides a selective installation mode, and different fixing parts such as a lower blade of a hanger rail pulley, an upper rocker arm and a lower rocker arm of a floor spring or a hinge can be installed according to requirements.

4. Glass sockets and blind tabs: these two components allow the door leaf to switch between single and double glass configurations, not only providing more design options, but also allowing for the sound and heat insulation effects to be adjusted as desired.

5. Conversion piece and movable closing strip: the design of the two parts enables the door leaf to be switched from single glass to double glass, and the design greatly improves the adaptability of the door leaf, so that the door leaf can meet more practical requirements.

In general, such door leaf structures have made significant technological advances in terms of design flexibility, installation efficiency, ease of use, and the like.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments of the present utility model will be briefly described below, and it is obvious that the drawings described below are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a dual-glass built-in shutter structure of the present utility model;

FIG. 3 is a schematic view of a single glass structure of the present utility model;

In the figure: 1. a main cavity; 2. a right angle piece socket; 3. a movable corner connector socket; 4. a fastener socket; 5. a glass socket; 6. the blind is hung; 7. a conversion member; 8. a movable closing strip; 9. tempered glass; 10. a blind curtain.

Detailed Description

The present utility model will be described in further detail with reference to the following examples in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Aiming at the problems in the prior art, the utility model provides a door leaf structural member capable of freely switching single glass and double glass, and the utility model is described in detail below with reference to the accompanying drawings.

As shown in figure 1, the door leaf structure that single two glass freely switch, including basic door leaf, conversion piece 7 and activity receipts mouth strip 8, basic door leaf includes main cavity 1, right angle piece socket 2, activity angle sign indicating number socket 3, mounting socket 4, glass socket 5 and blind keep off 6 perpendicularly. The main cavity 1 integrally supports the door leaf, and provides mounting positions for locks and handles, and during manufacturing, a right-angle piece socket 2 is arranged in the main cavity 1 and used for ensuring that the horizontal door leaf and the vertical door leaf are on the same plane. The movable corner connector socket 3 is used for installing movable corner connectors, enabling 45-degree butt joints of the door leaves to be tidy, and fixing horizontal and vertical fan materials together.

As a preferable technical scheme of the door leaf structural member capable of freely switching between single glass and double glass, the fixing piece socket 4 is arranged, and the fixing piece socket is selectively provided with a socket, or is provided with a lower blade of a hanging rail pulley, or is provided with an upper rocker arm and a lower rocker arm of a floor spring, or is provided with a hinge, so that the door leaf is fixed.

As a preferred technical solution of the door leaf structure with single and double glass free switching according to the utility model, a glass socket 5 is provided for use in a double glass configuration, and the shutter curtain vertical stop 6 is used for controlling the shutter blades to be limited in the inside thereof without deviating from the central position, as shown in fig. 2.

As a preferred technical solution of the door leaf structural member with single-double glass free switching of the present utility model, the conversion member 7 is manufactured for changing the double glass property of the basic door leaf into the single glass property, as shown in fig. 3.

As a single-double glass freely-switched door leaf structural member preferred technical scheme, the movable closing strip 8 is manufactured and used for edge sealing treatment, hardware such as a door lock hinge and the like are embedded in a groove at the fixing piece inserting opening 4, and after the fixing piece inserting opening 4 is installed, the other parts of the fixing piece inserting opening 4 are sealed and closed.

In summary, by means of the technical scheme of the utility model, the aim of random conversion of various types of door leaves and integrated integration of various functions is fulfilled.

The working principle of the door leaf structural member is to realize the free switching of single glass and double glass by utilizing the combination of the basic door leaf and the conversion member 7. The following is a specific working principle:

The basic door leaf is the core of the structure, its main cavity 1 can support the whole door leaf and provides the installation location for tool to lock and handle. During manufacturing, a right-angle piece socket 2 is arranged in the main cavity 1 and used for ensuring that the horizontal door leaf and the vertical door leaf are on the same plane.

The movable corner connector socket 3 is used for installing a movable corner connector, when the door leaves need 45-degree butt joint, the movable corner connector can be installed, so that 45-degree butt joints of the door leaves are tidy, and the horizontal and vertical fan materials are fixed together.

The fixing element insertion opening 4 is an optional installation insertion opening, and can be used for installing different fixing elements, such as a lower blade of a hanger rail pulley, an upper rocker arm and a lower rocker arm of a floor spring or a hinge, which can all play a role in fixing a door leaf.

If a double glazing arrangement is desired, a double glazing may be installed in the glazing outlet 5.

The blind tab 6 is provided to control the position of the blind so that the blind is restrained inside the blind without being deviated from the center position.

The conversion piece 7 and the movable closing strip 8 can be matched with a basic door leaf, so that the door leaf structure can be freely switched between single glass and double glass.

Through the cooperation of above structure and subassembly, realized a nimble changeable, easily operated door leaf structure, can satisfy the needs of single glass door leaf, also can conveniently convert into two glass door leaves, improved the suitability and the convenience of door leaf greatly.

Embodiment one: push-pull double-glass door leaf

In this embodiment, a push-pull double glazing door leaf will be manufactured with the present construction. First, a lock and a handle are mounted on the main cavity 1 of the base door. Then, a right angle member is installed in the right angle member socket 2 to ensure that the door leaf remains in one plane. The movable corner connector socket 3 is provided with a movable corner connector, so that the door leaves can be abutted at an angle of 45 degrees. In the fixing part socket 4, a lower blade of a hanging rail pulley is selected to be installed, so that the push-pull function of the door leaf is realized. A double glazing is installed in the glazing socket 5 and the position of the blind is controlled by the blind flap 6. Then, the movable closing strip 8 is utilized to close the edge of the fixing piece jack 4.

Embodiment two: flat-open single glass door leaf

In this embodiment, a single glass door leaf of the side-by-side type will be manufactured with the present construction. First, a lock and a handle are mounted on the main cavity 1 of the base door. Then, a right angle member is installed in the right angle member socket 2 to ensure that the door leaf remains in one plane. The movable corner connector socket 3 is provided with a movable corner connector, so that the door leaves can be abutted at an angle of 45 degrees. In the fixing part socket 4, a hinge is selected to be installed, so that the flat-open function of the door leaf is realized. And a conversion piece 7 is arranged in the glass jack 5, single-layer glass is arranged at the center of the conversion piece 7, and then the movable closing strip 8 is utilized to close the edge of the fixing piece jack 4, so that the door leaf can be switched from double glass to single glass.

The above are two specific embodiments and implementations thereof. Through the structure, different types of door leaves can be easily manufactured according to actual needs, and free switching of single glass and double glass is realized.

Finally, it should be noted that: in the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "configured," "connected," "secured," "screwed," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intermediaries, or in communication with each other or in interaction with each other, unless explicitly defined otherwise, the meaning of the terms described above in this application will be understood by those of ordinary skill in the art in view of the specific circumstances.

The foregoing is merely illustrative of specific embodiments of the present utility model, and the scope of the utility model is not limited thereto, but any modifications, equivalents, improvements and alternatives falling within the spirit and principles of the present utility model will be apparent to those skilled in the art within the scope of the present utility model.

Claims (5)

1. The door leaf structural member capable of being freely switched between the single glass and the double glass is characterized by comprising a basic door leaf, a conversion piece and a movable closing strip; the conversion piece sets up at basic door leaf top, and movable receipts mouth strip sets up in basic door leaf bottom.

2. The single and double glass free switching door leaf structure of claim 1, wherein the base door leaf comprises a main cavity, a right angle piece socket, a movable angle code socket, a fixed piece socket, a glass socket and a blind vertical baffle; right angle piece sockets are symmetrically arranged on two sides in the main cavity, a fixing piece socket is arranged at the bottom of the main cavity, a movable corner joint socket is arranged above the fixing piece socket, and a glass socket and a shutter curtain vertical baffle are arranged at the top of the main cavity.

3. The single or double glass free switching door leaf structure of claim 1 wherein the fastener socket is a selectively mounted socket, or a lower leaf of a hanger rail pulley, or upper and lower rocker arms of a floor spring, or a hinge.

4. A single-double glass free-switching door leaf structure as claimed in claim 1, characterized in that the conversion element is detachably mounted above the basic door leaf.

5. The single and double glass free switching door leaf structure of claim 1 wherein the fastener socket has hardware embedded in the slot to close the edges of the remainder of the fastener socket after the movable closing strip is installed.