CN218882067U - Inner yarn structure sedimentation type drainage structure - Google Patents

Abstract

The utility model discloses an inner yarn structure sedimentation type drainage structure, which relates to the technical field of drainage structures and aims to solve the technical problem that the drainage structure in the prior art is not provided with a sedimentation type floor drain drainage structure and cannot ensure drainage performance while realizing the inner yarn structure; subside the inside first drainage mechanism that is included of formula drainage assembly, the first drainage mechanism outside is close to indoor second drainage mechanism that is provided with, the second is said drainage mechanism outside and is close to indoor third drainage mechanism that is provided with, the third drainage mechanism outside is close to indoor fourth drainage mechanism that is provided with, subside the inside silicification top of formula drainage assembly, this drainage structure can play the effect of multichannel formula floor drain drainage through subside formula drainage assembly, also can guarantee drainage performance when making it realize interior yarn structure.

Description

Inner yarn structure sedimentation type drainage structure

Technical Field

The utility model belongs to the technical field of drainage structures, concretely relates to interior yarn structure subsides formula drainage structures.

Background

Nowadays, the window frame is mostly provided with a step type drainage structure, steps are convenient to drain, the bottom of the three-layer glass window is gradually improved from outside to inside, except for the innermost glass window which is arranged from inside, the rest glass windows can be arranged from outside only, the glass windows are not easy to be arranged, and the bottom step structure has a plurality of grooves which are not easy to clean.

At present, a utility model patent with the patent number of 202121745715.1 discloses a door and window internal circulation type hidden drainage structure, which relates to the technical field of door and window drainage structures and comprises a window frame, a mullion and a window sash, wherein a mullion water guide cavity is arranged at the outer side of the mullion, a mullion drainage hole group is arranged on the mullion water guide cavity, a window sash water guide cavity is arranged at the outer side of a lower sash frame of the window sash, a window sash drainage hole group is arranged on the window sash water guide cavity, a window frame water guide cavity is also arranged at the outer side of the lower frame of the window frame, a window frame drainage hole group is arranged on the window frame water guide cavity, and the mullion water guide cavity, the window sash water guide cavity and the window frame water guide cavity are communicated with each other; and carry out the punching press trompil in the outdoor side for destroy outdoor side support cavity, reduced the problem of the outdoor side's of door and window intensity, but this drainage structure function is comparatively simple, and the part that the casement corresponds on the window frame is not flat, is not convenient for clean, does not set up subsides formula floor drain drainage structures, can't guarantee drainage performance when realizing interior yarn structure.

Therefore, to the above-mentioned drainage structures do not set up subside formula floor drain drainage structures, can't guarantee the problem of drainage performance when realizing interior yarn structure, need to solve urgently to improve drainage structures's use scene.

SUMMERY OF THE UTILITY MODEL

(1) Technical problem to be solved

To the deficiency of the prior art, the utility model aims to provide an interior yarn structure subsides formula drainage structures, this drainage structures aim at solving prior art drainage structures and do not set up and subside formula floor drain drainage structures, can't guarantee drainage performance's technical problem in the realization of yarn structure.

(2) Technical scheme

In order to solve the technical problem, the utility model provides a settling drainage structure with an inner yarn structure, which comprises a window frame, a settling drainage component arranged on the window frame, and a horizontal push-pull window sash connected with the settling drainage component; the sedimentation type drainage assembly is internally provided with a first drainage mechanism, a second drainage mechanism is arranged in the first drainage mechanism and close to the room, a third drainage mechanism is arranged in the second drainage mechanism and close to the room, a fourth drainage mechanism is arranged in the third drainage mechanism and close to the room, the sedimentation type drainage assembly is internally provided with silicification wool tops, and the fourth drainage mechanism is internally provided with a drainage upper guide rail.

When using this technical scheme's drainage structures, through settling the setting of formula drainage subassembly, can play the effect that the formula floor drain drainage was subsided to the multichannel, also can guarantee drainage performance when making it realize interior yarn structure, and through first drainage mechanism, the drainage mechanism is said to the second, the setting of third drainage mechanism and fourth drainage mechanism, can play high-efficient drainage effect, the performance is taken into account with the ventilation, it repels in outdoor again to the track under each layer with wind and rain drainage, it is more smooth to drain.

Furthermore, a first vertical drainage guide groove is formed in the fourth drainage mechanism, a first side wool top is arranged in the window frame, and the effect of preliminary matching drainage can be achieved through the arrangement of the first vertical drainage guide groove and the first side wool top.

Furthermore, a first transverse drainage guide groove matched with the first vertical drainage guide groove for use is formed in the fourth drainage mechanism, and the guide rail on the drainage can play a role in guiding and sealing drainage through the arrangement of the first transverse drainage guide groove and comprises a positioning buckle block.

Furthermore, an oblique end face anti-skidding buckle plate is arranged inside the positioning buckle block, a positioning clamping groove is formed inside the positioning buckle block, and installation accuracy can be ensured through the arrangement of the end face anti-skidding buckle plate and the positioning clamping groove.

Furthermore, the inside drainage direction rail that is included of third drainage mechanism, drainage direction rail is inside to be seted up the mass flow direction drainage and to erect the groove, through the setting in the perpendicular groove of drainage direction rail and mass flow direction drainage, can play the effect of multichannel drainage simultaneously.

Furthermore, second side wool tops which are symmetrically arranged in a matched mode with the afflux guide drainage vertical groove are arranged inside the drainage guide frame rail, and heat insulation strips are arranged inside the drainage guide frame rail and can play a role in heat insulation protection through the arrangement of the heat insulation strips.

Furthermore, the second drainage mechanism and the first drainage mechanism are internally provided with an outer drainage guide frame rail, an outer vertical drainage groove is formed in the second drainage mechanism, third side wool tops are symmetrically arranged in the second drainage mechanism, wool top clamping grooves are clamped in the outer drainage guide frame rail, a mass flow discharge outer groove is formed in the outer drainage guide frame rail, heat insulation clamping grooves are formed in the side face of the outer drainage guide frame rail, two groups of horizontal push-pull window sashes are provided with downwards extending flow guide portions close to the outer sides, a multi-channel sedimentation type floor drain drainage effect can be achieved through arrangement of the outer vertical drainage grooves, the drainage performance can be guaranteed while the inner yarn structure is achieved, meanwhile, the efficient drainage effect can be achieved, the performance and ventilation are taken into consideration, wind and rain are drained to each layer of lower rail and then to the outside, drainage is smoother, the window frame upper window sashes correspond to the flat portion, the window sashes are convenient to clean, glass can be installed indoors, and wind and water prevention can be installed.

(3) Advantageous effects

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model discloses a settlement formula drainage component's setting can play the multichannel and subside the effect of formula floor drain drainage, also can guarantee the drainage performance when making it realize interior yarn structure.

2. The utility model discloses a first way drainage mechanism, second say drainage mechanism, third way drainage mechanism and fourth way drainage mechanism's setting can play high-efficient drainage effect, and the performance is compromise with the ventilation, drains each layer lower track with the wind and rain and repels in outdoor again, and the drainage is more smooth.

Drawings

FIG. 1 is a schematic structural view of a drainage structure according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a drainage upper guide rail according to an embodiment of the present invention;

FIG. 3 is a schematic structural view of an outer drainage guide frame rail according to an embodiment of the present invention;

fig. 4 is an enlarged schematic structural view of a place a in fig. 3 according to an embodiment of the present invention;

fig. 5 is an enlarged schematic view of a drainage structure of fig. 3 according to an embodiment of the present invention;

fig. 6 is a schematic view of a drainage line structure according to an embodiment of the present invention.

The labels in the figures are: 1. a window frame; 2. a sedimentation type drainage component; 3. horizontally pushing and pulling the window sash; 4. a first drainage mechanism; 5. a second drainage mechanism; 6. a third drainage mechanism; 7. a fourth drainage mechanism; 8. silicifying wool tops; 9. a drainage upper guide rail; 10. a first vertical drainage channel; 11. a first side wool top; 12. a first lateral drainage channel; 13. positioning the buckling block; 14. an end surface anti-skid buckle plate; 15. a positioning clamping groove; 16. a drainage guide frame rail; 17. a flow-collecting guide water drainage vertical tank; 18. second side wool tops; 19. a heat insulating strip; 20. an outer drainage guide frame rail; 21. an external vertical drainage channel; 22. a third side wool top; 23. wool top clamping grooves; 24. collecting and discharging the collected fluid out of the outer tank; 25. a heat insulation clamping groove; 26. a flow guide part.

Detailed Description

As shown in fig. 1-6, the utility model provides an interior yarn structure subsides formula drainage structures, include window frame 1, install subside formula drainage components 2 on the window frame 1, connect in the horizontal push-and-pull casement 3 of subside formula drainage components 2, the quantity of horizontal push-and-pull casement 3 is 3, and outside-in is two glass casement and an interior yarn fan in proper order, and interior yarn fan sets up guide rail 9 top on the drainage, and first vertical drainage guide slot 10 is located the frame medial surface of interior yarn fan. Subside formula drainage component 2 is inside including first drainage mechanism 4, the 4 outsides of first drainage mechanism are close to indoor second way drainage mechanism 5 that is provided with, the 5 outsides of second way drainage mechanism are close to indoor third way drainage mechanism 6 that is provided with, the 6 outsides of third way drainage mechanism are close to indoor fourth way drainage mechanism 7 that is provided with, subside formula drainage component 2 is inside including silicification wool top 8, guide rail 9 on the drainage is gone up including the drainage to fourth way drainage mechanism 7 inside.

For the present embodiment, the number and shape of the siliconized wool tops 8 can be adjusted and set according to the design requirement.

The fourth drainage mechanism 7 is internally provided with a first vertical drainage guide groove 10, the window frame 1 is internally provided with a first side wool top 11, the fourth drainage mechanism 7 is internally provided with a first transverse drainage guide groove 12 matched with the first vertical drainage guide groove 10 for use, the drainage upper guide rail 9 is internally provided with a positioning buckle block 13, the positioning buckle block 13 is internally provided with an oblique end surface anti-skid buckle plate 14, and the positioning buckle block 13 is internally provided with a positioning clamping groove 15.

In addition, the third drainage mechanism 6 includes a drainage guide frame rail 16 inside, a flow-collecting guide drainage vertical groove 17 is formed inside the drainage guide frame rail 16, second side wool tops 18 matched and symmetrically arranged with the flow-collecting guide drainage vertical groove 17 are arranged inside the drainage guide frame rail 16, a heat insulation strip 19 is arranged inside the drainage guide frame rail 16, an outer side drainage guide frame rail 20 is arranged inside the second drainage mechanism 5 and the first drainage mechanism 4, an outer vertical drainage groove 21 is formed inside the second drainage mechanism 5, third side wool tops 22 are symmetrically arranged inside the second drainage mechanism 5, a wool top clamping groove 23 is clamped inside the outer side drainage guide frame rail 20, a flow-collecting drainage outer groove 24 is formed inside the outer side drainage guide frame rail 20, a heat insulation clamping groove 25 is formed in the side surface of the outer side drainage guide frame rail 20, and a flow guide portion 26 extending downwards is arranged on the lower side of the outer two sets of horizontal push-pull window sashes 3.

It should be noted that the shape and specification of the heat insulation clamping groove 25 can be adjusted according to actual needs, and the two sets of guiding portions 26 are respectively matched with the third side wool tops 22 and the second side wool tops 18.

When the drainage structure of the technical scheme is used, firstly, the effect of preliminary matching drainage can be achieved through the first vertical drainage guide groove 10 and the first side wool tops 11, the effect of guiding, sealing and drainage can be achieved through the first horizontal drainage guide groove 12, the accuracy of installation can be guaranteed by the aid of the end face anti-skidding buckle plates 14 and the positioning clamping grooves 15, then, the effect of multi-channel simultaneous drainage can be achieved through the drainage guide frame rails 16 and the flow-collecting guide drainage vertical grooves 17, the effect of multi-channel sedimentation type floor drain drainage can be achieved by the aid of the external vertical drainage grooves 21, water flows of all parts flow out of one side of the window frame 1, the drainage performance can be guaranteed while the internal yarn structure is achieved, efficient drainage effect can be achieved, performance and ventilation are taken into consideration, wind and rain are drained to the lower rails of each layer and then are repelled outdoors, drainage is smoother, the part corresponding to the window sashes on the window frame 1 is flat, convenience and cleanness are achieved, glass indoor installation can achieve wind and water prevention.

Claims (7)

1. A settling type drainage structure with an inner yarn structure comprises a window frame, a settling type drainage component arranged on the window frame, and a horizontal push-pull window sash connected with the settling type drainage component; the settling type water draining assembly is characterized in that a first draining mechanism is arranged inside the settling type water draining assembly, a second draining mechanism is arranged in the position, close to the room, of the outer side of the first draining mechanism, a third draining mechanism is arranged in the position, close to the room, of the outer side of the third draining mechanism, a fourth draining mechanism is arranged in the position, close to the room, of the outer side of the third draining mechanism, a silicification wool top is arranged inside the settling type water draining assembly, and a guide rail is arranged inside the fourth draining mechanism and comprises water draining.

2. The internal yarn structure settling drainage structure as claimed in claim 1, wherein a first vertical drainage guide groove is formed inside the fourth drainage mechanism, and a first side wool top is installed inside the window frame.

3. The internal yarn structure settling drainage structure as claimed in claim 2, wherein a first horizontal drainage guide groove matched with the first vertical drainage guide groove is formed in the fourth drainage mechanism, and the drainage upper guide rail comprises a positioning buckle block.

4. The internal yarn structure settling type drainage structure as claimed in claim 3, wherein an inclined end face anti-skid buckle plate is arranged inside the positioning buckle block, and a positioning buckle groove is formed inside the positioning buckle block.

5. The internal yarn structure settling drainage structure as claimed in claim 4, wherein the third drainage mechanism comprises a drainage guide frame rail, and a flow-collecting guide drainage vertical groove is formed in the drainage guide frame rail.

6. The internal yarn structure settling drainage structure as claimed in claim 5, wherein the drainage guide frame rail is internally provided with second side wool tops symmetrically arranged in match with the flow concentration guide drainage vertical grooves, and the drainage guide frame rail is internally provided with heat insulation strips.

7. The internal yarn structure settling drainage structure as claimed in claim 1, wherein the second drainage mechanism and the first drainage mechanism include an external drainage frame rail, the second drainage mechanism is provided with an external vertical drainage groove, the second drainage mechanism is symmetrically provided with third side wool tops, the external drainage frame rail is provided with a wool top clamping groove in an internal clamping manner, the external drainage frame rail is provided with an external flow collection and drainage groove in an internal clamping manner, the external drainage frame rail is provided with a heat insulation clamping groove on a side surface, and the lower sides of the horizontal sliding window sashes in the outer two sets are provided with flow guiding portions extending downwards.

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