SUMMERY OF THE UTILITY MODEL
The utility model aims at solving the problem that the assembly process of the existing range hood is very complicated to a certain extent and seriously reducing the production efficiency of the range hood; meanwhile, the range hood has at least one of the problems of large mass and the like.
In order to solve the above problem, on the one hand, the utility model provides a skeleton texture, skeleton texture is used for range hood, skeleton texture includes:
two support mechanisms; and
the beam body is used for connecting the two supporting mechanisms;
wherein, the components of the range hood are arranged on the framework mechanism.
The range hood framework structure has the advantages that in the process of assembling all components of the range hood, the framework structure is assembled firstly, the support mechanism and the beam body have specific structural forms, and accurately speaking, the support mechanism and the beam body have a spatial structure instead of a planar structure and can play a supporting role, so that a large three-dimensional structure relative to other components of the range hood is formed after the support mechanism and the beam body are connected, other components of the range hood are convenient to install at the specified position of the framework structure and realize corresponding matching linkage relation, the subsequent components of the range hood are convenient to position when being installed, all the components are fixedly installed around the framework structure, the positioning and installation relation among the components is simplified, and the assembly efficiency of the components of the range hood is improved.
Further, the support mechanism forms a plate-like member.
The plate-shaped part can play a supporting role due to the structural characteristics of the plate-shaped part, for example, the plate-shaped part is vertically arranged, or the plate-shaped part is bent into a specified shape structure, the occupied space of the plate-shaped part is small, the weight is light, and the plate-shaped part is easy to process and manufacture, so that the supporting mechanism in the form of the plate-shaped part can meet the supporting requirement of the framework, the space of the framework structure can be fully compressed, and the weight of the framework is reduced.
Furthermore, the plate surface of the supporting mechanism is perpendicular to the length direction of the beam body.
The range hood has the advantages that the two supporting mechanisms are arranged in parallel, or the plate surfaces of the two supporting mechanisms are arranged in parallel, so that the two supporting mechanisms are connected with the beam body to form a regular cylinder form. Meanwhile, the rule of the framework structure is convenient for positioning and mounting in the assembly process of parts, so that the assembly efficiency of the range hood is improved.
Furthermore, a concave cavity is formed on one side plate surface of the supporting mechanism, and the edge of the supporting mechanism is bent to form the concave cavity.
The supporting mechanism has the advantages that on one hand, the thickness of the supporting mechanism is increased, so that the supporting strength and the comprehensive mechanical property of the supporting mechanism are improved, the supporting effect is firmer, the overall mass of the supporting mechanism is increased very little, and the light weight of the framework structure is realized; on the other hand, the concave cavity formed by the supporting mechanism can be used for installing the components of the range hood, so that the use space in the range hood is enlarged.
Further, the support mechanism forms a frame structure.
Its advantage lies in, reduces supporting mechanism self weight, guarantees to have certain supporting effect simultaneously, and range hood's part can be installed in the frame simultaneously, perhaps uses the strengthening rib to strengthen the structural strength of frame, satisfies the needs that realize same a series of multiple different grade type products, does benefit to and realizes the modularization.
Furthermore, the beam body is arranged between the two supporting mechanisms, and two ends of the beam body in the length direction are respectively fixed with the two supporting mechanisms.
The range hood has the advantages that the arrangement form of the beam body and the two supporting mechanisms improves the utilization rate of the surfaces of the beam body and the supporting mechanisms, so that the surfaces of the supporting mechanisms and the beam body are fully utilized to install various parts of the range hood, and the assembly requirements of various types of parts are met.
Furthermore, the plurality of beam bodies are respectively fixed with the two supporting mechanisms.
The support mechanism has the advantage that the support strength of the beam body to the support mechanism is improved. Meanwhile, more parts of the range hood can be positioned and installed by the plurality of beam bodies, and the parts are more firmly fixed.
Further, the beam body is respectively connected with the edges of the two supporting mechanisms.
Its advantage lies in, utilizes the roof beam body to be connected with the edge of supporting mechanism to enlarge the space utilization between two supporting mechanism, on the contrary, if the roof beam body is connected with the central authorities of supporting mechanism, then the roof beam body will produce the part installation to range hood and interfere, especially produce huge interference to the installation of wind channel, actuating mechanism, therefore the roof beam body has fully enlarged the space utilization in the skeleton texture with the edge connection of supporting mechanism.
Further, the support mechanism forms a right-angled trapezoidal plate-shaped member or frame structural member, or the support mechanism forms a triangular plate-shaped member or frame structural member.
The side-suction type range hood has the advantages that the right trapezoid or triangle formed by the supporting mechanism is designed for the side-suction type range hood, and the side-suction type range hood is arranged on one side of a cooking range (generally a gas stove or an induction cooker in modern families) instead of the right top of the cooking range, so that the side-suction type range hood is at least fixed on a wall body on one side of the cooking range and sometimes also fixed on a shed top right above the cooking range. But as an important component in the framework structure: the supporting mechanism forms a triangle or a right trapezoid, the edge of the supporting mechanism can be just fixed on a wall body on one side of the cooking range and a shed roof right above the cooking range, the framework structure and the wall body arranged around the cooking range can keep a good positioning fit relation, and the positioning of each component of the range hood which is fixedly arranged around the framework is more accurate.
Instead, at least a plate-like member or a frame structure member, or a member formed by combining a plate-like member and a frame structure member, may be used to form a right-angled trapezoidal or triangular structure. The advantages of the plate-shaped element or frame structure have been explained in the foregoing of the invention in as great detail as possible and will not be explained here.
Further, the beam body comprises a plurality of rod-shaped pieces, and the rod-shaped pieces are fixed to form the beam body.
The range hood has the advantages that the beam body structures in various forms are formed, so that the supporting and using requirements of different types of range hoods are met.
Further, the range hood is a side-draft range hood.
Its advantage lies in, because the formula range hood is inhaled to the side and the total number of parts is great, its assembly is loaded down with trivial details complicacy more, and the utility model discloses a skeleton texture can satisfy its operation needs just.
On the other hand, the utility model also provides a range hood, range hood installs skeleton texture. After the range hood is provided with the framework structure, the technical advantages of the range hood are the same as those of the oil screen mounting structure, so the explanation is not repeated here.
Detailed Description
In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.
In the description of the present invention, it should be understood that the terms "upper", "lower", "front", "rear", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.
The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.
Referring to fig. 1 to 2, the present embodiment provides a skeleton structure for a range hood, the skeleton structure including: two support mechanisms 100 and a beam 200. The beam body 200 fixes the two support mechanisms 100; wherein, the components of the range hood are arranged on the framework mechanism.
The support mechanism 100 and the beam 200 may be fixed by a screw connection, and the support mechanism 100 and the beam 200 may be welded together or cast together.
In addition, the position relationship between the supporting mechanism 100 and the beam 200 can be various forms, for example, the beam 200 is disposed between the two supporting mechanisms 100 and is respectively connected and fixed with the supporting mechanisms 100, and for example, the beam 200 can penetrate through the two supporting mechanisms 100 and extend out of the supporting mechanisms 100.
In addition, the specific structural form of the supporting mechanism 100 may be various, such as a plate-shaped structure, a frame or a frame structure, or a combination of a plate-shaped structure and a frame structure, and for the purpose of various specific structural forms of the supporting mechanism 100, the following description of the present embodiment will be described in detail as far as possible, and will not be explained herein; as long as the supporting mechanism 100 can be vertically arranged (which is very important for the side-draught range hood), or the supporting mechanism 100 and the beam body 200 can support the whole range hood after being connected and fixed, and then the supporting mechanism 100 or the beam body 200 is fixed with the wall.
In addition, the beam 200 mentioned here is generally long, but other structural forms, such as T-shape or L-shape, are also possible, as long as the beam 200 can connect the two support mechanisms 100 and mount the components of the range hood on the beam 200.
In addition, the volume of the framework formed by the mutual connection of the support mechanism 100 and the beam body 200 is larger than that of other components of the range hood, so to speak, the other components of the range hood are arranged, installed and fixed around the framework structure, thereby completing the assembly of the range hood.
In addition, the components of the range hood include a driving device (such as a driving motor), a filtering device (such as a filter screen), an air duct mechanism, a control device (such as a control panel installed on the surface of the housing), and a housing.
The range hood framework structure has the advantages that in the process of assembling all components of the range hood, the framework structure is assembled firstly, the supporting mechanism 100 and the beam body 200 have specific structural forms, and accurately speaking, the supporting mechanism 100 and the beam body 200 have spatial structures instead of planar structures and can play a supporting role, so that a large three-dimensional structure relative to other components of the range hood is formed after the supporting mechanism 100 and the beam body 200 are connected, other components of the range hood are convenient to install at the appointed position of the framework structure and realize corresponding matching linkage relation, the subsequent components of the range hood are convenient to position when being installed, all the components are fixedly installed around the framework structure, the positioning and installation relation among the components is simplified, and the assembly efficiency of the components of the range hood is improved.
Further, the support mechanism 100 forms a plate-like member.
Here, the plate-like member may be a straight plate-like member, or may be a straight plate-like member bent into a predetermined shape.
The support mechanism 100 has the advantages that due to the structural characteristics of the plate-shaped part, the plate-shaped part can play a supporting role, for example, the plate-shaped part is vertically arranged, or the plate-shaped part is bent into a specified shape structure, the occupied space of the plate-shaped part is small, the weight is light, and the processing and the manufacturing are easy, so that the support mechanism 100 in the form of the plate-shaped part can meet the support requirement of a framework, the space of the framework structure can be fully compressed, and the weight of the framework is reduced.
Further, the plate surface of the support mechanism 100 is perpendicular to the longitudinal direction of the beam 200.
The range hood has the advantages that the two support mechanisms 100 are arranged in parallel, or the plate surfaces of the two support mechanisms 100 are arranged in parallel, so that the two support mechanisms 100 and the beam body 200 are connected to form a regular cylinder form, and the overall shape of the framework structure is regular and is the standard for assembling all the components of the range hood, so that the range hood formed after the components are assembled has a regular and beautiful overall appearance. Meanwhile, the rule of the framework structure is convenient for positioning and mounting in the assembly process of parts, so that the assembly efficiency of the range hood is improved.
Further, a concave cavity 101 is formed on one side plate surface of the supporting mechanism 100, and the concave cavity 101 is formed by bending the edge of the supporting mechanism 100.
The support mechanism has the advantages that on one hand, the thickness of the support mechanism 100 is increased, so that the support strength and the comprehensive mechanical property of the support mechanism 100 are improved, the support effect is firmer, the overall mass of the support mechanism 100 is increased slightly, and the lightweight of a framework structure is realized; on the other hand, the concave cavity 101 formed by the supporting mechanism 100 can be used for mounting components of the range hood, thereby enlarging the use space inside the range hood.
Further, the support mechanism 100 forms a frame structure.
The frame structure may be a frame body formed by joining a plurality of rods, for example, a rectangular parallelepiped frame, or may be another hexahedral frame structure.
Its advantage lies in, reduces supporting mechanism 100 self weight, guarantees to have certain supporting effect simultaneously, and range hood's part can be installed in the frame simultaneously, perhaps uses the strengthening rib to strengthen the structural strength of frame, satisfies the needs that realize same a series of multiple different grade type products, does benefit to and realizes the modularization.
Further, the beam 200 is disposed between the two support mechanisms 100, and both ends of the beam 200 in the length direction are respectively fixed to the two support mechanisms 100.
The advantage is that the arrangement of the beam 200 and the two support mechanisms 100 improves the utilization rate of the surfaces of the beam 200 and the support mechanisms 100, so that the surfaces of the support mechanisms 100 and the beam 200 can be fully utilized to install various components of the range hood, thereby meeting the assembly requirements of various types of components.
Further, the plurality of beams 200 are fixed to the two support mechanisms 100, respectively.
This has an advantage of improving the supporting strength of the beam 200 to the supporting mechanism 100. Meanwhile, more parts of the range hood can be positioned and installed by the plurality of beam bodies 200, and the parts are more firmly fixed.
Further, the beam body 200 is connected to edges of the two support mechanisms 100, respectively.
The advantage is that the beam 200 is connected with the edges of the supporting mechanisms 100, so that the space utilization rate between the two supporting mechanisms 100 is increased, and conversely, if the beam 200 is connected with the center of the supporting mechanism 100, the beam 200 interferes with the installation of the parts of the range hood, especially greatly interferes with the installation of the air duct and the driving mechanism, so that the space utilization rate in the framework structure is fully increased by the edge connection of the beam 200 and the supporting mechanism 100.
Further, the support mechanism 100 forms a right-angled trapezoidal plate or frame structure, or alternatively, the support mechanism 100 forms a triangular plate or frame structure.
The side-suction type range hood has the advantages that the right trapezoid or triangle formed by the supporting mechanism 100 is designed for the side-suction type range hood, and the side-suction type range hood is installed on one side of a cooking range (generally a gas stove or an induction cooker in modern families) instead of the right top of the cooking range, so that the side-suction type range hood is at least fixed on a wall body on one side of the cooking range and sometimes also fixed on a shed top right above the cooking range. But as an important component in the framework structure: the supporting mechanism 100 forms a triangle or a right trapezoid, the edge of which can be just fixed on the wall at one side of the cooking range and the ceiling right above the cooking range, and the framework structure and the wall arranged around the cooking range can keep a good positioning fit relationship, so that the positioning of each component of the range hood which is fixedly arranged around the framework is more accurate.
Instead, at least a plate-like member or a frame structure member, or a member formed by combining a plate-like member and a frame structure member, may be used to form a right-angled trapezoidal or triangular structure. The advantages of the plate-shaped element or frame structure have already been explained in the foregoing of the present embodiment in as great detail as possible and will not be explained here.
Preferably, a plate-shaped member or a frame structure member of a right trapezoid is used, because the upper bottom and the lower bottom of the right trapezoid are parallel to each other, and one waist of the right trapezoid is perpendicular to both the upper bottom and the lower bottom, after the side suction type range hood is assembled, the lower bottom with a shorter length can be kept on the table top of the range, and the waist perpendicular to the upper bottom and the lower bottom is attached and fixed to the wall on one side of the range, while the upper bottom with a longer length of the right trapezoid can be attached and fixed to the ceiling.
Therefore, in the assembly process of the range hood, after the framework structure is assembled, the framework structure can be kept in a use state by utilizing the lower bottoms of the right trapezoid of the two supporting mechanisms 100 to form a plane, so that assembly personnel can conveniently position and install components of the range hood.
Preferably, two beams 200 are fixed to the top of the supporting mechanism 100, i.e., the upper bottom having a long length, and the two beams 200 are spaced apart from each other.
Further, the beam body 200 includes a plurality of rod-shaped members 201, and the plurality of rod-shaped members 201 are fixed to form the beam body 200.
The structure has the advantages that the beam body 200 structures in various forms are formed, so that the supporting and using requirements of the range hoods in different types are met.
Further, the range hood is a side draft range hood.
The side-suction type range hood has the advantages that the assembly is more complicated and complicated due to the large volume and the large total number of parts of the side-suction type range hood, and the framework structure of the embodiment can just meet the use requirement of the side-suction type range hood.
In addition, the embodiment also provides a range hood, and the range hood is provided with the framework structure. After the range hood is provided with the framework structure, the technical advantages of the range hood are the same as those of the oil screen mounting structure, so the explanation is not provided.
On the other hand, the embodiment also provides an assembly method of the range hood, and the range hood is provided with the framework structure; the assembling method comprises the following steps:
s100, assembling a framework structure in a first step;
s200, assembling other parts of the range hood on the framework structure;
wherein, other parts of the range hood comprise a driving device, a filtering device, an air duct mechanism, a control device and a shell.
The range hood has the advantages that after the framework structure is assembled, the framework structure forms a structural form occupying a certain space, so that the components of the range hood can be conveniently positioned during installation, all the components are fixedly installed around the framework structure, the positioning and installation relation among the components is simplified, and the assembly efficiency of the components of the range hood is improved.
Further, in step S100, the beam body 200 is fixed to the two support mechanisms 100, respectively.
The method has the advantages that the assembly steps of the framework structure are simplified, so that the framework structure is formed only by connecting and fixing the beam body 200 and the two supporting mechanisms 100, and the assembly efficiency of the framework structure is improved.
Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.