CN221119611U - Indoor assembled threshold - Google Patents

Abstract

The utility model discloses an indoor assembly type threshold, and relates to the technical field of fitting-up decoration. An indoor assembly type threshold comprises a supporting mechanism and threshold stones, wherein the supporting mechanism is used for supporting the threshold stones and forming the threshold. Specifically, supporting mechanism includes support chassis, mount and cushion cap, and support chassis is used for supporting cushion cap and threshold stone, and the mount is fixed support chassis subaerial, and the threshold stone cover is established with the cushion cap on, and cushion cap demountable installation is on support chassis, and the cushion cap is used for filling the inboard of threshold stone and props up the threshold stone, fixes and supports the threshold stone, makes threshold Dan Buyi take place the skew and subside. Through forming supporting mechanism with supporting chassis, mount and cushion cap equipment, need not long-time waiting for cement mortar solidification design just can support fixedly to the threshold stone to can accomplish the laying of threshold stone fast, be favorable to simplifying the installation of threshold, improve the efficiency of mating formation of threshold.

Description

Indoor assembled threshold

Technical Field

The utility model relates to the technical field of assembly type decoration, in particular to an indoor assembly type doorsill.

Background

The assembly process is a form of decoration construction that has emerged in recent years. The assembly process is as the name implies, namely, all the parts required for decoration are produced in a factory and then transported to a decoration site for combined installation, so that the traditional operations of measuring, cutting and the like of the parts in the decoration site are omitted, the construction is simpler and more convenient, the construction efficiency of the decoration site can be greatly improved, the construction site is more neat and attractive, excessive decoration material garbage is not generated, and the assembly process is a more environment-friendly decoration construction form.

When the doorsill of the bathroom is paved conventionally, the approximate shape of the doorsill is generally put out on a floor surface cushion layer or a floor surface by using masonry, then a boss is formed by pouring cement mortar, and then the doorsill stone is paved on the boss after being completely solidified. However, the traditional paving material generally takes cement mortar as a main material, the time for waiting for the solidification of the cement mortar is long, as the boss solidified by the cement mortar is required to support for the installation and fixation of the threshold stone, the threshold stone cannot be supported and fixed before the cement mortar is completely solidified, so that the traditional threshold paving efficiency is lower, the pollution of the cement mortar is larger, the on-site environment is easy to be messy, the floor surface module needs to be cut and decorated and restored for later maintenance, the difficulty is brought for the later maintenance, and water is easy to permeate cement and permeate a toilet from the threshold after a long time. Therefore, more and more people can choose an assembly type process with more convenient installation and maintenance and higher paving efficiency to carry out threshold paving.

Disclosure of utility model

In order to simplify the installation process of the doorsill and improve the paving efficiency of the doorsill, the application provides an indoor assembly doorsill.

The application provides an indoor assembly type threshold, which adopts the following technical scheme:

The indoor assembly type threshold comprises a supporting mechanism and threshold stones, wherein the supporting mechanism sequentially comprises a supporting underframe, a fixing frame and a bearing platform from bottom to top, the fixing frame is arranged on two sides of the supporting underframe, the top of the fixing frame is clamped with the supporting underframe, and the bottom of the fixing frame is fixedly connected with the ground; the bearing platform is arranged at the top of the supporting underframe and is detachably connected with the supporting underframe; the threshold stone is sleeved on the outer side of the bearing platform.

Through adopting above-mentioned technical scheme, utilize to support chassis, mount and cushion cap equipment formation supporting mechanism, need not long-time waiting for cement mortar solidification design and just can support fixedly to the threshold stone to can accomplish the laying of threshold stone fast, be favorable to simplifying the installation of threshold, improve the efficiency of mating formation of threshold.

Optionally, the support chassis includes support diaphragm, support riser and braced frame, support diaphragm with the braced frame passes through support riser interconnect, the mount inserts support diaphragm with between the braced frame.

Through adopting above-mentioned technical scheme, utilize the mount to insert from supporting mechanism both sides and support between diaphragm and the braced frame, thereby support the diaphragm and support the top and the below on top of frame respectively and all carry out spacingly with the braced frame, make the mount can only keep away from the braced chassis towards supporting mechanism's both sides and dismantle, because after the installation is accomplished, building basic unit such as screed-coat, filling layer and ceramic tile layer have all been buried to supporting mechanism's both sides, the mount just is fully compressed tightly this moment, and be difficult for keeping away from the braced chassis towards supporting mechanism both sides, thereby the mount does benefit to the mount and will support the chassis fully fix subaerial.

Optionally, a groove cavity is formed in the inner side of the supporting frame, and the groove cavity is communicated with the ground; the support diaphragm has seted up a plurality of pouring hole, the pouring hole is followed the length direction of support diaphragm is arranged in proper order, the pouring hole vertically runs through the support riser with the carriage, and with the supporting shoe is seted up the cell chamber intercommunication each other, the pouring hole is used for toward the carriage water cement mortar in the cell chamber.

Through adopting above-mentioned technical scheme, after the staff fills a certain amount of cement mortar in the slot chamber from the pouring hole, cement mortar can solidify and the cement seat that forms in the slot chamber, and the cement seat can provide holding power for supporting the chassis, makes the supporting chassis can fully bear the trampling dynamics of transmission on the threshold stone, and the supporting chassis is not fragile, is favorable to improving the life of threshold.

Optionally, the inner side walls of the groove cavities of the supporting frame are all obliquely arranged from bottom to top towards the outer side.

Through adopting above-mentioned technical scheme, the inboard lateral wall of cell chamber is from down upwards towards outside slope setting to the cross section of cell chamber presents the trapezoidal shape of falling, after the staff pours into a certain amount of cement mortar into the cell chamber from the pouring hole, cement mortar can solidify and form the trapezoidal cement seat of falling in the cell chamber, the trapezoidal cement seat of falling and the mutual joint of braced frame, thereby can further fix the support chassis subaerial, difficult dismantlement.

Optionally, an insert block corresponding to the pouring hole is arranged at the bottom of the bearing platform, and the insert block is inserted into the pouring hole of the supporting transverse plate.

Through adopting above-mentioned technical scheme, utilize the inserted block to peg graft the cushion cap on supporting the diaphragm, can dismantle between cushion cap and the support chassis promptly and be connected, the inserted block not only can fix a position the cushion cap installation, improves the installation effectiveness of threshold, can conveniently pull down the cushion cap under the circumstances of not dismantling the support chassis moreover to change the cushion cap of equidimension not according to not unidimensional threshold stone, be favorable to improving supporting mechanism's suitability.

Optionally, the threshold stone include the threshold board and set up in the terminal foot at threshold board both ends, the threshold board with the terminal foot will the cushion cap surrounds, support the upper surface of chassis seted up with the corresponding water-stop groove of terminal foot, the threshold stone with support the water-stop groove of chassis peg graft each other.

Through adopting above-mentioned technical scheme, when the terminal pin of threshold stone inserts in the water stop groove, the water stop groove not only can carry out spacing fixed to the threshold stone, both be convenient for the installation of threshold stone also can prevent the offset of threshold stone, the water stop groove has formed a sunken recess moreover, when in the gap between water infiltration threshold stone and the support chassis, water just can flow into in the water stop groove, and can not further infiltration supporting mechanism in, also be favorable to the waterproof opposite side that permeates to the threshold from supporting mechanism in advance.

Optionally, sealing rubber strips are arranged on the groove walls on two sides of the water stopping groove.

Through adopting above-mentioned technical scheme, in the end foot of threshold stone inserts the water stop groove, can fully support tight extrusion with joint strip to seal the water stop groove, realize the purpose of water stop groove manger plate, be favorable to the pre-waterproof gap infiltration between end foot and the support chassis to advance in the supporting mechanism, thereby improve the life of supporting mechanism and threshold, and the pre-waterproof opposite side that permeates to the threshold from among the supporting mechanism.

Optionally, a hydrophobic cloth is laid between the threshold stone and the supporting mechanism.

Through adopting above-mentioned technical scheme, lay hydrophobic cloth between threshold stone and supporting mechanism, can further prevent in the infiltration supporting mechanism of water, not only can further improve the life of supporting mechanism and threshold, but also can further prevent the permeability of water from penetrating to the opposite side of threshold in the supporting mechanism in advance, further improve the impermeability of threshold.

In summary, the embodiments of the present application have at least any one of the following beneficial effects:

1. Through utilizing supporting chassis, mount and cushion cap equipment to form supporting mechanism, need not long-time waiting cement mortar solidification design just can support fixedly to the threshold stone to can accomplish the laying of threshold stone fast, be favorable to simplifying the installation of threshold, improve the efficiency of mating formation of threshold.

2. Through pouring into a certain amount of cement mortar into the cell chamber from the pouring hole, cement mortar solidifies and forms the trapezoidal cement seat of falling in the cell chamber, and trapezoidal cement seat of falling and the mutual joint of support chassis to not only can further fix the support chassis subaerial, be difficult to dismantle, the cement seat can provide holding power for the support chassis moreover, makes the support chassis can fully bear the trampling dynamics of transmission on the threshold stone, and the support chassis is not fragile, is favorable to improving the life of threshold.

3. Through lay hydrophobic cloth between threshold stone and supporting mechanism, can further prevent in the infiltration supporting mechanism, not only can further improve the life of supporting mechanism and threshold, but also can further prevent infiltration to the opposite side of threshold in the follow supporting mechanism in advance, further improve the impermeability of threshold.

Drawings

Fig. 1 is a schematic view of an installation structure of an indoor assembled door sill in an embodiment of the present application.

Fig. 2 is an exploded view of a supporting mechanism of an indoor assembled threshold and a threshold stone according to an embodiment of the present application.

Fig. 3 is a cross-sectional view of an indoor assembled rocker in which the screed, filling layers and tile layers around the rocker are hidden, in an embodiment of the application.

Fig. 4 is a partial enlarged view of a in fig. 3.

Reference numerals illustrate:

1. A support mechanism; 11. a support chassis; 111. a supporting cross plate; 1111. pouring holes; 1112. a water stop groove; 1113. a sealing rubber strip; 112. supporting a vertical plate; 113. a support frame; 1131. a slot cavity; 12. a fixing frame; 121. a fastener; 13. bearing platform; 131. inserting blocks; 2. a threshold stone; 21. a threshold plate; 22. an end pin; 3. a leveling layer; 4. a filling layer; 5. a ceramic tile layer; 6. a cement seat; 7. a hydrophobic cloth.

Detailed Description

The application is described in further detail below with reference to fig. 1-4.

The embodiment of the application discloses an indoor assembly type threshold. Referring to fig. 1, an indoor assembled threshold comprises a supporting mechanism 1 and a threshold stone 2, wherein the supporting mechanism 1 is used for supporting the threshold stone 2 and forming a threshold, and two sides of the supporting mechanism 1 and the threshold stone 2 are sequentially provided with a leveling layer 3, a filling layer 4 and a ceramic tile layer 5 from bottom to top. Specifically, the supporting mechanism 1 includes a supporting chassis 11, a fixing frame 12 and a bearing platform 13, the supporting chassis 11 is used for supporting the bearing platform 13 and the threshold stone 2, the fixing frame 12 fixes the supporting chassis 11 on the ground, the bearing platform 13 is detachably installed on the supporting chassis 11 and is matched with the threshold stone 2, the threshold stone 2 is sleeved on the bearing platform 13, the bearing platform 13 is used for filling the inner side of the threshold stone 2 and supporting the threshold stone 2, and the threshold stone 2 is fixed and supported, so that the threshold stone 2 is not easy to deviate and collapse. Through with supporting chassis 11, mount 12 and cushion cap 13 equipment formation supporting mechanism 1, need not long-time waiting for cement mortar solidification design just can support fixedly to threshold stone 2 to can accomplish the laying of threshold stone 2 fast, be favorable to simplifying the installation of threshold, improve the efficiency of mating formation of threshold.

Referring to fig. 2, the support chassis 11 includes a support cross plate 111, a support riser 112, and a support frame 113, wherein the support riser 112 is disposed at the top of the support frame 113, the support cross plate 111 is disposed at the top end of the support riser 112, and the support cross plate 111 and the support frame 113 are connected to each other through the support riser 112. In this embodiment, the cross section of the fixing frame 12 is in a zigzag shape, and the corners of the fixing frame 12 are all right angles, specifically, the top of the fixing frame 12 is inserted between the supporting transverse plate 111 and the supporting frame 113 from two sides of the supporting chassis 11 and abuts against the supporting vertical plate 112, the bottom of the fixing frame 12 is connected with a fastening piece 121, the fixing frame 12 is fixedly connected with the ground through the fastening piece 121, and in this embodiment, the fastening piece 121 is an explosion bolt. So that the fixing frame 12 fixes the supporting chassis 11 to the ground.

Referring to fig. 2 and 3, in the present embodiment, a groove cavity 1131 is formed on a side of the supporting frame 113 facing away from the supporting transverse plate 111, and the groove cavity 1131 is mutually communicated with the ground, so that the cross section of the supporting frame 113 presents a "冂" shape. The side walls of the groove cavity 1131 of the supporting frame 113 are all inclined from bottom to top towards the outer side, so that the inner side of the groove cavity 1131 of the supporting frame 113 presents an inverted trapezoid structure. The supporting transverse plate 111 is provided with a plurality of pouring holes, the pouring holes 1111 are sequentially arranged along the length direction of the supporting transverse plate 111, and the pouring holes 1111 on the supporting transverse plate 111 vertically extend downwards and penetrate through the supporting vertical plate 112 and the supporting frame 113 and are mutually communicated with the groove cavity 1131 of the supporting frame 113. After the fixing frame 12 fixes the supporting underframe 11, a worker can pour a certain amount of cement mortar into the groove cavity 1131 from the pouring hole 1111, so that the cement seat 6 with the inverted trapezoid cross section is solidified and formed in the supporting frame 113, and the cement seat 6 and the supporting frame 113 are clamped with each other, so that the supporting underframe 11 can be further fixed on the ground, the dismounting is difficult, the cement seat 6 can provide supporting force for the supporting underframe 11, the supporting underframe 11 can fully bear the trampling force transmitted on the threshold stone 2, the supporting underframe 11 is not easy to damage, and the service life of the threshold is prolonged.

Referring to fig. 2 and 3, a plurality of insert blocks 131 are disposed at the bottom of the bearing platform 13, the plurality of insert blocks 131 correspond to the pouring holes 1111, and when the pouring of the cement base 6 is completed, the bearing platform 13 can be installed by inserting the insert blocks 131 into the pouring holes 1111, and since the cement base 6 is poured on the inner side of the supporting base frame 11, the bearing platform 13 is installed on the supporting base frame 11, the supporting base frame 11 is sufficient to support the bearing platform 13, and thus, the bearing platform 13 can be installed without waiting for the complete solidification and shaping of the cement base 6. The cushion cap 13 and the supporting underframe 11 can be detachably mounted at the moment, so that the cushion cap 13 can be detached at any time, and different sizes of cushion caps 13 can be mounted by being matched with different threshold stones 2, so that the threshold stones 2 with different sizes can be fully fixed and supported, and the adaptability of the supporting mechanism 1 can be improved.

Referring to fig. 2, 3 and 4, the threshold stone 2 includes a threshold plate 21 and end feet 22 disposed at both sides of the threshold plate 21, and the threshold plate 21 and the end feet 22 form a figure 冂. The water stop groove 1112 corresponding to the end pin 22 is formed in the supporting transverse plate 111, the sealing rubber strips 1113 are arranged on the inner side wall of the water stop groove 1112, when the threshold stone 2 is sleeved on the bearing platform 13, the end pin 22 of the threshold stone 2 is inserted into the water stop groove 1112 of the supporting transverse plate 111 and fully abuts against the sealing rubber strips 1113 to prevent water from penetrating from one side to the other side of the threshold, and accordingly permeability resistance of the threshold is improved.

Referring to fig. 3 and 4, in order to further improve the impermeability of the threshold, a hydrophobic cloth 7 is further laid between the threshold stone 2 and the supporting mechanism 1, and both sides of the hydrophobic cloth 7 extend all the way to the ground along the fixing frame 12, thereby sufficiently preventing water flow infiltration.

The implementation principle of the indoor assembly type threshold of the embodiment of the application is as follows:

When the threshold is installed, the supporting underframe 11 is placed on the ground, then the fixing frame 12 is inserted between the supporting transverse plate 111 and the supporting frame 113 from two sides of the supporting frame, and the bottom of the fixing frame 12 is fixed on the ground by using expansion bolts, so that the fixing of the supporting underframe 11 is completed.

Then, a certain amount of cement mortar is poured into the groove cavity 1131 of the supporting frame 113 from the pouring hole 1111 of the supporting transverse plate 111 to form the cement base 6, and after the pouring is completed, the insert 131 of the bearing platform 13 can be inserted into the pouring hole, and the installation of the bearing platform 13 is completed.

Next, a layer of water repellent 7 is laid on the surface of the supporting mechanism 1, and the threshold stone 2 is covered on the peripheral side of the base 13, and the end pins 22 at both ends of the threshold stone 2 are inserted into the water-stop grooves 1112 on the supporting cross plates 111, and the joint strips 1113 are sufficiently abutted, thereby completing the installation of the threshold. And finally, paving a leveling layer 3, a filling layer 4 and a ceramic tile layer 5 on two sides of the threshold in sequence.

The installation is simple and convenient, need not long-time waiting cement mortar solidification design just can support fixedly threshold stone 2, can accomplish the laying of threshold stone 2 fast, is favorable to improving the efficiency of mating formation of threshold.

The present embodiment is merely illustrative of the present application and not limiting, and one skilled in the art, after having read the present specification, may make modifications to the embodiment without creative contribution as required, but is protected by patent law within the scope of the claims of the present application.

Claims (8)

1. An indoor assembled threshold, its characterized in that: the supporting mechanism (1) comprises a supporting underframe (11), a fixing frame (12) and a bearing platform (13) from bottom to top, wherein the fixing frame (12) is arranged on two sides of the supporting underframe (11), the top of the fixing frame (12) is clamped with the supporting underframe (11) mutually, and the bottom of the fixing frame (12) is fixedly connected with the ground; the bearing platform (13) is arranged at the top of the supporting underframe (11) and is detachably connected with the supporting underframe (11); the threshold stone (2) is sleeved on the outer side of the bearing platform (13).

2. An indoor assembled threshold as in claim 1, wherein: the support chassis (11) comprises a support transverse plate (111), a support vertical plate (112) and a support frame (113), wherein the support transverse plate (111) and the support frame (113) are connected with each other through the support vertical plate (112), and the fixing frame (12) is inserted between the support transverse plate (111) and the support frame (113).

3. An indoor assembled threshold as in claim 2, wherein: a groove cavity (1131) is formed in the inner side of the supporting frame (113), and the groove cavity (1131) is communicated with the ground; the support diaphragm (111) has seted up a plurality of pouring hole (1111), pouring hole (1111) are followed the length direction of support diaphragm (111) is arranged in proper order, pouring hole (1111) are vertical run through support riser (112) with braced frame (113), and with the supporting shoe is seted up slot chamber (1131) intercommunication each other, the pouring hole is used for in braced frame (113) in slot chamber (1131) watering cement mortar.

4. A room-mounted threshold as claimed in claim 3, wherein: the inner side walls of the groove cavities (1131) of the supporting frames (113) are all obliquely arranged from bottom to top to the outer side.

5. A room-mounted threshold as claimed in claim 3, wherein: the bottom of the bearing platform (13) is provided with inserting blocks (131) corresponding to the pouring holes (1111), and the inserting blocks (131) are mutually inserted into the pouring holes (1111) of the supporting transverse plate (111).

6. An indoor assembled threshold as in claim 1, wherein: threshold stone (2) include threshold board (21) and set up in end foot (22) at threshold board (21) both ends, threshold board (21) with end foot (22) will cushion cap (13) are encircleed, support chassis (11) upper surface seted up with corresponding water stopping groove (1112) of end foot (22), threshold stone (2) with support chassis (11) water stopping groove (1112) peg graft each other.

7. An indoor assembled threshold as in claim 6, wherein: sealing rubber strips (1113) are arranged on the groove walls on two sides of the water stopping groove (1112).

8. An indoor assembled threshold as in claim 1, wherein: a hydrophobic cloth (7) is laid between the threshold stone (2) and the supporting mechanism (1).