CN219175744U

CN219175744U - Honeycomb window floor unit

Info

Publication number: CN219175744U
Application number: CN202320224615.7U
Authority: CN
Inventors: 黄建德
Original assignee: Huiya Science & Technology Suzhou Co ltd
Current assignee: Huiya Science & Technology Suzhou Co ltd
Priority date: 2023-02-15
Filing date: 2023-02-15
Publication date: 2023-06-13
Anticipated expiration: 2033-02-15

Abstract

The utility model provides a honeycomb window floor unit, which comprises: a substrate having at least a first opening, and a plurality of ventilation holes at the position outside the first opening; the support frames are arranged at the bottom of the substrate and protrude towards the center of the first opening of the substrate; at least one window structure, which is detachably arranged at the first opening of the base plate and is arranged on the plurality of supporting frames, the window structure also comprises: a ring frame, a transparent plate and a supporting plate; by the structure, the purposes of facilitating ventilation, observing, overhauling and operating various devices below the honeycomb window floor unit under the condition of not disassembling the honeycomb window floor unit can be achieved.

Description

Honeycomb window floor unit

Technical Field

The present utility model relates to a honeycomb window floor unit; and more particularly, to a honeycomb window-floor unit having high ventilation and capable of observing, overhauling and operating various devices under the honeycomb window-floor unit without disassembling the honeycomb window-floor unit.

Background

Raised floors are now widely used in computer rooms, clean rooms (Clean Room), and the like. The raised floor generally comprises: a plurality of foot rests arranged on the ground; and a plurality of floor units arranged on the foot rest; the floor unit can be positioned at a proper height by the foot rest so as to form a space at the bottom of the floor unit, and wires, air pipelines and the like can be arranged.

In addition to the electric wires or air lines, the space under the existing floor unit can be provided with various instruments or controllers, however, when the instruments need to be visited, for example, the fixing members between the floor unit and the foot frames are detached first to remove the floor unit, and after the visiting is completed, the floor unit is reinstalled, so that much time is required for detaching and installing the floor unit, which is often more time-consuming than the visiting actually performed.

To address the problem of not easily looking into the space under the floor unit, designers have developed a window raised floor (ref 1: CN202810113U) to facilitate looking through the space under the floor. However, the window raised floor has no ventilation property, so that there is no room for improvement.

The present utility model has been developed in the light of the above, by the inventors, through diligent research, years of experience in related product research, and through continuous experiments and improvements.

Disclosure of Invention

The utility model aims to provide a honeycomb window floor unit which has high ventilation and is convenient to observe, overhaul and operate various devices below without disassembly.

To achieve the above object, the present utility model provides a honeycomb window floor unit, which comprises: a substrate having at least a first opening, and a plurality of ventilation holes at the position outside the first opening; the support frames are arranged at the bottom of the substrate and protrude towards the center of the first opening of the substrate; at least one window structure, which is detachably arranged at the first opening of the base plate and is arranged on the plurality of supporting frames, the window structure also comprises: the annular frame is provided with a second opening, and the bottom of the annular frame is provided with an annular groove surrounding the second opening; a transparent plate arranged in the annular groove of the annular frame; the support plate is provided with at least one third opening and is arranged at the bottom of the annular frame, and the support plate is fixed on the annular frame, so that the transparent plate is fixed between the support plate and the annular frame.

Preferably, at least one hinge is arranged between the annular frame and the base plate, so that a user can conveniently lift the window structure.

Preferably, the substrate has at least one first groove, and the annular frame has at least one second groove; the two ends of the hinge are respectively buried on the first groove of the substrate and the second groove of the annular frame, so that the hinge is flush with the top of the substrate, and people and vehicles can walk on the substrate conveniently.

Preferably, the first groove of the substrate has three first hinge fixing holes, and the second groove of the annular frame has three second hinge fixing holes, and the second hinge fixing holes of the annular frame correspond to the first hinge fixing holes of the substrate.

Preferably, at least one chain is arranged between the supporting plate and the base plate; the chain is formed by a plurality of annular body buckles; a screw hole is formed in one side wall of the first opening of the base plate, a first bolt is arranged at the first end of the chain, and the first bolt penetrates through the first end of the chain and is then locked on the screw hole of the base plate; the annular frame is provided with a first through hole, the supporting plate is provided with a second through hole, the second end of the chain is provided with a second bolt and a nut, and the second bolt is locked with the nut after passing through the first through hole of the annular frame, the second through hole of the supporting plate and the second end of the chain, so that the chain can be conveniently installed.

Preferably, the annular frame is provided with a plurality of annular frame fixing holes, the supporting plate is provided with a plurality of supporting plate fixing holes, and the supporting plate is locked on the supporting plate fixing holes after penetrating through the annular frame fixing holes respectively by a plurality of bolts; the first through hole of the annular frame and one of the plurality of annular frame fixing holes are positioned at the same hole site; the second through hole of the supporting plate and one of the plurality of supporting plate fixing holes are positioned at the same hole site.

Preferably, the support plate is made of a metal material.

Preferably, the supporting plate is made of ferromagnetic material, and a magnet is arranged on the top of at least one of the supporting frames to absorb the supporting plate, so as to ensure that the window structure is not accidentally lifted.

Preferably, nine vent holes are used as a subarea in the plurality of vent holes and are symmetrically distributed in a cross shape.

Preferably, the bottom of the base plate is provided with crisscrossed ribs, and the supporting frame is formed by cutting the ribs at the bottom of the base plate; the gap between the top of the support frame and the top of the substrate corresponds to the height of the window structure, so that the window structure can be flush with the substrate when supported by the support frame.

By the structure, the purposes of facilitating ventilation, observing, overhauling and operating various devices below the honeycomb window floor unit under the condition of not disassembling the honeycomb window floor unit can be achieved.

To achieve the above and other objects, the present utility model adopts the technical means, components and effects thereof, which are described below in conjunction with a preferred embodiment and with the accompanying drawings.

Drawings

Fig. 1 is a perspective view of a first embodiment of the present utility model.

Fig. 2 is a schematic view of a window structure according to a first embodiment of the present utility model.

Fig. 3 is an enlarged view of section a of fig. 2 in accordance with the present utility model.

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

Fig. 5 is an exploded view of another angle of the window structure of the first embodiment of the present utility model.

Fig. 6 is a schematic diagram of a second embodiment of the present utility model.

Reference numerals illustrate: 100-honeycomb window floor units; 1-a substrate; 11-a first opening; 12-through holes; 13-a first groove; 14-a first hinge fixing hole; 2. 2 a-a support frame; 21-notch; 3. 3 a-window structure; 31-a ring frame; 311-a second opening; 312-annular grooves; 313-ring frame fixing holes; 3131-a bolt; 314-a second groove; 315-a second hinge fixing hole; 32-a transparent plate; 33. 33 a-a support plate; 331-a third opening; 332-supporting plate fixing holes; 4-hinges; 5-a chain; 51-a ring; 52-a first end; 53-a first bolt; 54-second end; 55-a second bolt; 56-nut; 6 a-magnet.

Detailed Description

Fig. 1 to 5 show a first embodiment of the present utility model. As shown in fig. 1 to 5, the present utility model provides a honeycomb window floor unit 100 including: the substrate 1 is provided with at least one first opening 11, a plurality of vent holes 12 are formed in the part of the substrate 1 outside the first opening 11, and 9 vent holes 12 are used as a subarea in the plurality of vent holes 12 and are symmetrically distributed in a well shape; a plurality of support frames 2 which are arranged at the bottom of the base plate 1 and protrude towards the center of the first opening 11 of the base plate 1; at least one window structure 3, detachably disposed on the first opening 11 of the substrate 1 and disposed on the plurality of supporting frames 2, the window structure 3 further comprises: a ring frame 31 having a second opening 311, and the bottom of the ring frame 31 having a ring-shaped groove 312 surrounding the second opening 311; a transparent plate 32 disposed in the annular groove 312 of the annular frame 31; a supporting plate 33 having at least one third opening 331 disposed at the bottom of the ring frame 31; firstly, arranging a transparent plate 32 in an annular groove 312 at the bottom of an annular frame 31, and then fixing the transparent plate 32 on the annular frame 31 by using a supporting plate 33, so that the transparent plate 32 is fixed between the supporting plate 33 and the annular frame 31; with this structure, the objects of having high ventilation and facilitating observation, maintenance, and operation of various devices under the honeycomb window-floor unit 100 without disassembling the honeycomb window-floor unit 100 can be achieved. As will be described in detail below.

The honeycomb window floor unit 100 of the present utility model is used to cooperate with structures such as a foot rest (not shown) to erect an elevated floor. One of the objects of the present utility model is to enable the observation, maintenance and operation of the various devices under the honeycomb window floor unit 100 without removing the honeycomb window floor unit 100 from the foot stand.

As shown in fig. 2, the substrate 1 has at least one first opening 11. The substrate 1 may have, for example, one to four first openings 11, in the first embodiment the substrate 1 has two first openings 11 being exemplified. The first opening 11 of the substrate 1 may take various shapes, for example, a generally square shape, depending on the requirements of the application, for providing the window structure 3. The substrate 1 has a plurality of vent holes 12 in a portion other than the first opening 11, so that the substrate 1 has high ventilation.

As shown in fig. 3, a plurality of supporting frames 2 are disposed at the bottom of the substrate 1 and protrude toward the center of the first opening 11 of the substrate 1 for supporting the window structure 3.

As shown in fig. 3 to 4, the window structure 3 is detachably disposed in the first opening 11 of the substrate 1 and is disposed on a plurality of support frames 2, and is composed of a ring frame 31, a transparent plate 32 and a support plate 33. The support frame 2 can be additionally arranged at the bottom of the base plate according to different use requirements, or can be formed by cutting the ribs at the bottom of the base plate under the condition that the criss-cross ribs are arranged at the bottom of the base plate. In other words, after the first opening 11 of the base plate 1 is provided, the support frames 2 are formed by cutting off the lower partial ribs. In addition, a notch 21 may be cut at the top of the support frame 2, so that the gap between the top of the support frame 2 and the top of the substrate 1 may correspond to the height of the window structure 3, so that the window structure 3 may be flush with the substrate 1 when supported by the support frame 2. The ring frame 31 and the support plate 33 may be made of metal materials, the ring frame 31 may be made of plastic materials, structures such as screw holes may be conveniently provided, and strength may be increased to protect the transparent plate 32. The transparent plate 32 may be made of a material such as acryl, glass, or the like. By means of the cooperation of the second opening 311 of the ring-shaped frame 31, the transparent plate 32 and the third opening 331 of the supporting plate 33, when the window structure 3 is covered on the first opening 11 of the base plate 1, a user can directly observe the situation under the honeycomb window-floor unit 100 through the transparent plate 32. In addition, when the window structure 3 is lifted, it is convenient to observe, overhaul and operate various devices under the honeycomb window floor unit 100 without disassembling the honeycomb window floor unit 100.

As shown in fig. 3 to 5, the bottom of the ring frame 31 has an annular groove 312 surrounding the second opening 311 for positioning the transparent plate 32, thereby protecting and holding the transparent plate 32 together with the support plate 33. The ring frame 31 may have a plurality of ring frame fixing holes 313, and the support plate 33 may have a plurality of support plate fixing holes 332, and the plurality of bolts 3131 may be respectively passed through the ring frame fixing holes 313 and then fastened to the support plate fixing holes 332 to fasten the transparent plates 32 together.

As shown in fig. 3, at least one hinge 4 may be disposed between the ring frame 31 and the base plate 1, so as to connect the window structure 3 with the base plate 1, so that the window structure 3 can swing and lift based on the hinge 4, and a user can lift the window structure 3 conveniently. In addition, the substrate 1 has at least one first groove 13, and the ring frame 31 has at least one second groove 314; the two ends of the hinge 4 are respectively embedded in the first groove 13 of the substrate 1 and the second groove 314 of the annular frame 31, so that the hinge 4 is flush with the top of the substrate 1, thereby maintaining the flat state of the top surface of the substrate 1 and facilitating the walking of a person and a vehicle on the substrate 1. In addition, as shown in fig. 3 to 5, the first groove 13 of the base plate 1 has three first hinge fixing holes 14, and the second groove 314 of the ring frame 31 has three second hinge fixing holes 315, and the second hinge fixing holes 315 of the ring frame 31 correspond to the first hinge fixing holes 14 of the base plate 1.

At least one chain 5 is provided between the support plate 33 and the base plate 1 to control the swingable angle of the window structure 3. The chain 5 is formed by a plurality of annular bodies 51 in a hasp manner; a screw hole (not shown) may be formed on a side wall of the first opening 11 of the base plate 1, and the first end 52 of the chain 5 is provided with a first bolt 53, and the first bolt 53 passes through the first end 52 of the chain 5 and is locked on the screw hole of the base plate 1; the annular frame 31 may have a first through hole (not shown) thereon, the first through hole may be located at the same hole as one of the plurality of annular frame fixing holes 313, the supporting plate 33 may have a second through hole (not shown) thereon, the second through hole may be located at the same hole as one of the plurality of supporting plate fixing holes 332, the second end 54 of the chain 5 may be provided with a second bolt 55 and a nut 56, and the second bolt 55 may be fastened with the nut 56 after passing through the first through hole of the annular frame 31, the second through hole of the supporting plate 33, and the second end 54 of the chain 5, so as to facilitate installation of the chain 5.

The support plate may be made of a metal material having a light weight and high strength, such as an aluminum alloy. In addition, as shown in fig. 6, in the second embodiment of the present utility model, the supporting plate 33a may be made of ferromagnetic material, and a magnet 6a is provided on the top of at least one of the supporting frames 2a to attract the supporting plate 33a, thereby ensuring that the window structure 3a is not accidentally lifted.

The above description is illustrative of the utility model and is not to be construed as limiting, and it will be understood by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims

1. A honeycomb window floor unit comprising:

a substrate having at least a first opening, and a plurality of ventilation holes at the position outside the first opening;

the support frames are arranged at the bottom of the substrate and protrude towards the center of the first opening of the substrate;

at least one window structure, which is detachably arranged at the first opening of the base plate and is arranged on the plurality of supporting frames, the window structure also comprises:

the annular frame is provided with a second opening, and the bottom of the annular frame is provided with an annular groove surrounding the second opening;

a transparent plate arranged in the annular groove of the annular frame;

the support plate is provided with at least one third opening and is arranged at the bottom of the annular frame, and the support plate is fixed on the annular frame, so that the transparent plate is fixed between the support plate and the annular frame.

2. A cellular window floor unit according to claim 1, wherein: at least one hinge is arranged between the annular frame and the base plate.

3. A cellular window floor unit according to claim 2, wherein: the base plate is provided with at least one first groove, the annular frame is provided with at least one second groove, and two ends of the hinge are respectively embedded in the first groove of the base plate and the second groove of the annular frame, so that the hinge is flush with the top of the base plate.

4. A cellular window floor unit according to claim 3, wherein: the first groove of the base plate is provided with three first hinge fixing holes, the second groove of the annular frame is provided with three second hinge fixing holes, and the second hinge fixing holes of the annular frame correspond to the first hinge fixing holes of the base plate.

5. A cellular window floor unit according to claim 1, wherein: at least one chain is arranged between the supporting plate and the base plate; the chain is formed by a plurality of annular body buckles; a screw hole is formed in one side wall of the first opening of the base plate, a first bolt is arranged at the first end of the chain, and the first bolt penetrates through the first end of the chain and is then locked on the screw hole of the base plate; the annular frame is provided with a first through hole, the supporting plate is provided with a second through hole, the second end of the chain is provided with a second bolt and a nut, and the second bolt is locked with the nut after passing through the first through hole of the annular frame, the second through hole of the supporting plate and the second end of the chain.

6. The cellular window floor unit of claim 5, wherein: the annular frame is provided with a plurality of annular frame fixing holes, the supporting plate is provided with a plurality of supporting plate fixing holes, and the supporting plate is locked on the supporting plate fixing holes after penetrating through the annular frame fixing holes respectively by a plurality of bolts; the first through hole of the annular frame and one of the plurality of annular frame fixing holes are positioned at the same hole site; the second through hole of the supporting plate and one of the plurality of supporting plate fixing holes are positioned at the same hole site.

7. A cellular window floor unit according to claim 1, wherein: the support plate is made of a metallic material.

8. A cellular window floor unit according to claim 1, wherein: the supporting plate is made of ferromagnetic materials, and a magnet is arranged at the top of at least one of the supporting frames and can adsorb the supporting plate.

9. A cellular window floor unit according to claim 1, wherein: nine vent holes are used as a subarea in the plurality of vent holes and are symmetrically distributed in a well shape.

10. A cellular window floor unit according to claim 1, wherein: the bottom of the base plate is provided with crisscrossed ribs, and the supporting frame is formed by cutting the ribs at the bottom of the base plate; the top of the supporting frame is cut into a notch, so that the gap between the top of the supporting frame and the top of the substrate corresponds to the height of the window structure, and the window structure can be flush with the substrate when being supported on the supporting frame.