Patent ID: 12203256

DETAILED DESCRIPTION

The embodiments of the present disclosure are described in detail below. Examples of the embodiments are shown in the accompanying drawings, in which the same or similar reference numerals throughout represent the same or similar elements or elements with the same or similar functions. The embodiments described below with reference to the accompanying drawings are exemplary and are merely used to explain the present disclosure and cannot be understood as limitations of the present disclosure.

Referring toFIGS.1to4, an embodiment of the present disclosure provides a sink basin support structure, including: at least two support rods100parallel to each other. Brackets200are disposed at both ends of each of the support rods100. Each of the support rods100is provided with a fixed rod110and movable rods120movably connected to both sides of the fixed rod110. Each of the movable rods120is provided with a chute121, the fixed rod110is provided with screw holes111, and the movable rods120are fixed on the fixed rod110by respective fixing bolts130inserted into the chutes121and the screw holes111. Each of the brackets200is provided with a support block210and a fixing block220, and the support block210and the fixing block220are fixedly connected through a connecting block230. The support block210is provided with a positioning groove211that matches the respective movable rod120, the connecting block230is provided with an adjusting bolt231for adjusting a height of the respective support rod100, and the fixing block220is provided with through holes221for fixing the respective bracket200.

By providing the support rods100and the brackets200, parallel support rods100can stably support the sink basin through the brackets200, and both ends of the support rods100are fixed by means of the through holes221, improving the stability of the sink basin support structure. By providing the fixed rods110, the movable rods120, and the fixing bolts130, the length of the support rods100can be flexibly adjusted to adapt to different installation environments by changing the positions of the fixed rods110relative to the respective movable rods120and tightening the fixing bolts130for fixation, improving the compatibility of the sink basin support structure. By providing the support blocks210and the connecting blocks230, the movable rods120can be stably fixed in the respective positioning grooves211, and the height can be adjusted through the adjusting bolts231, improving the installation convenience and stability of the sink basin support structure.

In another embodiment, a buffer portion122is disposed at an end of each of the movable rods120away from the fixed rod110. By providing the buffer portions122, both ends of the support rods100are prevented from causing damage to the wall during the installation process, and the support rods100are prevented from loosening to affect the stability of the sink basin, improving the installation stability of the sink basin support structure.

In another embodiment, the buffer portion122is made of rubber. Rubber has good elasticity and wear resistance, and the buffer portion122made of rubber improves the stability and prolongs the service life of the sink basin support structure.

In another embodiment, planes on which the support block210and the fixing block220are located are both perpendicular to a plane on which the connecting block230is located. This structure ensures the structural stability of the bracket200, the support block210can stably support the respective movable rod120, and the fixing block220can be stably fixed on the wall, preventing the respective support rod100from loosening.

In another embodiment, a length direction of the adjusting bolt231is consistent with an opening direction of the positioning groove211. This structure ensures that the adjusting bolt231can accurately and smoothly raise the respective movable rod120clamped in the positioning groove211, improving the installation convenience of the sink basin support structure.

In another embodiment, the through holes221are evenly distributed on the fixing block220. This structure ensures that the fixing block220can be stably fixed on the wall, preventing a condition that the stability of the sink basin support structure is affected as the bracket200is loosened and rotated.

In another embodiment, the chute121is located on both sides of the movable rod120, and each of the fixing bolts130is locked with a nut by passing through the respective chute121and the respective screw hole111. By providing the nut, the connection stability between the fixed rod110and the movable rod120is ensured, preventing the fixing bolt from loosening with the chut and the screw hole, which could adversely affect the integrity of the support rod100.

In another embodiment, two screw holes111are provided, which correspond to two movable rods120respectively, allowing adjustment of both ends of the fixed rod110with respect to the movable rods120according to installation environments, expanding the adjustment range of the support rod100and ensuring the compatibility of the sink basin support structure.

In another embodiment, the support rods100and the brackets200are both made of stainless steel. Stainless steel has the advantages such as good corrosion resistance, high strength, and easy cleaning. The support rods100and brackets200both made of stainless steel ensure the structural stability and service life of the sink basin support structure.

In another embodiment, the fixing bolts130and the adjusting bolts231are both hexagonal bolts. Hexagonal bolts have the advantages of good self-pinching and large pre-tightened contact area. The fixing bolts130and the adjusting bolts231being both hexagonal bolts can effectively prevent the support rods100and brackets200from loosening during use and ensure the structural stability of the sink basin support structure.

The working principle of the present disclosure will be further explained below.

During the installation process, the installation positions of the brackets200are first determined based on the height of the sink basin and the height of the countertop, so that the support rods100can support the sink basin to be level with the upper surface of the countertop. Then, the fixing blocks of the brackets200at both sides are attached fixedly to the respective walls by means of the bolts inserted into the respective through holes211. Since the through holes221are evenly distributed on the fixing blocks220, it ensures that the fixing blocks220can be stably fixed on the walls, preventing the brackets200from loosening and rotating. Next, the movable rods120slide on both sides of the fixed rod110so that the length of each of the support rods100is equal to the distance between the brackets200. The brackets200are inserted into the respective positioning grooves211, and the buffer portions122on the movable rods120abut respectively against the walls. Then, the fixing bolts130are locked with the nuts by passing through the respective chutes121and the respective screw holes111, and the movable rods120on both sides are fixed on the fixed rod110. Next, the sink basin is placed on two parallel support rods100, so that the support rods100support the sink basin stably. At this time, if the upper surface of the sink basin cannot fit the lower end of the countertop, the adjusting bolts231are rotated to drive the movable rods120to move up and down, so as to adjust the position of the sink basin in the vertical direction, ensuring that the upper surface of the sink basin can fit the lower end of the countertop precisely. The entire installation process is fast and the positioning is precise. The support rods100can adapt to countertops of different widths, and the brackets200can stably support the movable rods120to prevent the sink basin from loosening during installation and use and ensure the compatibility and ease of installation of the sink basin support structure.

It can be seen from the above description that in the sink basin support structure of the present disclosure, by providing the support rods100and the brackets200, parallel support rods100can stably support the sink basin through the brackets200, and both ends of the support rods100are fixed by means of the through holes221, improving the stability of the sink basin support structure. By providing the fixed rods110, the movable rods120, and the fixing bolts130, the length of the support rods100can be flexibly adjusted to adapt to different installation environments by changing the positions of the fixed rods110relative to the respective movable rods120and tightening the fixing bolts130for fixation, improving the compatibility of the sink basin support structure. By providing the support blocks210and the connecting blocks230, the movable rods120can be stably fixed in the respective positioning grooves211, and the height can be adjusted through the adjusting bolts231, improving the installation convenience and stability of the sink basin support structure. By providing the buffer portions122, both ends of the support rods100are prevented from causing damage to the wall during the installation process, and the support rods100are prevented from loosening to affect the stability of the sink basin, improving the installation stability of the sink basin support structure.

The embodiments of the present disclosure are described in detail above in conjunction with the accompanying drawings. However, the present disclosure is not limited to the above embodiments. Within the scope of knowledge possessed by those of ordinary skill in the art, various changes can be made without departing from the purpose of the present disclosure.