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CN-224227904-U - Spliced counter basin

CN224227904UCN 224227904 UCN224227904 UCN 224227904UCN-224227904-U

Abstract

The utility model discloses a spliced counter basin which comprises a basin liner and a basin edge, wherein the basin liner is provided with a basin cavity, the bottom of the basin cavity is provided with a water outlet, the basin edge and the basin liner are arranged in a split mode, the basin edge is spliced and connected to the top of the basin liner, and the basin edge is provided with a flushing structure capable of flushing the inner side surfaces around the basin cavity. The design of split arrangement and assembly firstly enables each part to be produced independently, and compared with the integrated counter basin in the prior art, the complexity of the production process is effectively reduced, the production efficiency is effectively improved, the production period is shortened, and the production cost is reduced. In addition, the split design is also beneficial to ensuring the stability of the product quality and reducing the local deformation and fracture risks possibly caused by the integrated structure, thereby improving the reliability and the service life of the product.

Inventors

  • LIN XIAOFA
  • LIN XIAOSHAN
  • WU FUGUI
  • HE QIXIAN
  • ZHONG CHUANSHENG

Assignees

  • 九牧厨卫股份有限公司

Dates

Publication Date
20260512
Application Date
20250603

Claims (10)

  1. 1. The spliced counter basin comprises a basin liner and a basin edge, wherein the basin liner is provided with a basin cavity, and the bottom of the basin cavity is provided with a water outlet.
  2. 2. The spliced basin according to claim 1, wherein the basin edge and the top of the basin liner are fixed together by a plurality of fasteners, and a sealing gasket is matched between the basin edge and the basin liner.
  3. 3. The spliced basin of claim 2, wherein the basin is provided with a ring of first outer flanges along the outer side surface, the outer side of the top of the basin liner is provided with a ring of second outer flanges, the first outer flanges are positioned above the second outer flanges and are fixed together by the plurality of fasteners, and the sealing gasket is pressed between the first outer flanges and the second outer flanges.
  4. 4. The spliced basin according to claim 3, wherein a circle of cavities extending along the circumferential direction of the basin edge is formed during molding of the basin edge, the basin edge is cut to keep the bottom wall and the inner ring side wall of the cavities, the bottom wall of the reserved cavities forms the first outer flange, and the cutting surface of the basin edge is an inclined surface capable of being subjected to inclined surface splicing with the mounting table surface of the basin.
  5. 5. The splice tray of any of claims 2 to 4, wherein the fastener comprises a bolt and a nut adapted to the bolt.
  6. 6. The spliced counter basin according to claim 1, wherein the flushing structure comprises a water supply channel and a water outlet part, the water outlet part comprises a plurality of water outlet holes distributed along the circumferential direction of the basin edge, or the water outlet part comprises a circle of water outlet gaps arranged along the circumferential direction of the basin edge, the water outlet direction of the water outlet part is obliquely downward or vertically downward relative to the horizontal plane and is coplanar with the central axis of the basin cavity, the water supply channel is communicated with the water outlet part, and a circle of water curtain flowing downwards along the inner side surfaces of the periphery of the basin cavity is formed when the water outlet part discharges water.
  7. 7. The spliced basin according to claim 6, wherein the water supply channel is arranged along the circumferential direction of the basin rim and forms a closed-loop waterway, the water supply channel is provided with a water inlet, the water inlet is positioned in the radial direction of the water supply channel, and when water is supplied from the water inlet, water flow is divided into two paths and flows in opposite directions along the water supply channel respectively.
  8. 8. The spliced basin as claimed in any one of claims 6-7, wherein the water supply channel is arranged separately from the basin edge, the water supply channel is clamped in a circle of grooves arranged along the periphery of the basin edge, and the notch of each groove is arranged downwards.
  9. 9. The spliced counter basin according to claim 8, wherein a circle of water retaining flanges extending downwards are arranged on the basin edge, enter the basin liner, form a circle of water passing gap with the top of the inner side surface of the basin liner, the water outlet part is arranged in the water supply channel, and water output by the water outlet part enters the basin cavity through the water passing gap.
  10. 10. The spliced basin according to claim 9, wherein the water supply channel is a water pipe and comprises a water outlet hose and a water inlet tee joint, the water outlet hose is provided with a plurality of water outlet holes, the water outlet hose extends along the circumference of the groove, two ends of the water outlet hose are respectively communicated with two ends of the water inlet tee joint one by one, and the ports of the remaining end of the water inlet tee joint form a water inlet of the water supply channel.

Description

Spliced counter basin Technical Field The utility model relates to the field of bathrooms, in particular to a spliced counter basin. Background The counter basin is a sanitary ware widely applied to places such as families, hotels, public washrooms and the like, and is mainly used for daily washing. However, the traditional basin has obvious cleaning difficulty in the use process that dirt is easily accumulated on the inner side surface of the basin, and the water discharged from the faucet cannot be directly washed to the areas, so that a user has to clean the basin by means of an additional cleaning tool. This not only increases the cumbersome nature of cleaning, but also may cause bacteria to grow due to incomplete cleaning, affecting the hygienic condition. In order to solve the cleaning problem of the traditional basin, the basin with the flushing function appears in the prior art, and the cleaning function of the inner side surfaces around the basin can be realized. However, the basin adopts an integrated structure to realize water flushing, and the manufacturing process is to design all parts into an integrated structure in the early stage, and then the whole basin body is manufactured through firing. However, this design has problems in terms of productivity and cycle time, since the integrated structure requires a large number of small parts during the production process, which results in reduced productivity for personnel and greatly increased production cycle time. In addition, the design of the integrated structure also obviously increases the manufacturing difficulty of the wash-out structure of the counter basin. This design not only makes the production process more complex, but also easily leads to a risk of local breakage or deformation during production, thereby affecting the overall quality and reliability of the product. Disclosure of utility model Aiming at the technical problems existing in the prior art, the utility model provides the spliced type counter basin, wherein the basin body is designed in a split mode and is assembled, the design effectively reduces the complexity of the production process, remarkably improves the production efficiency, and simultaneously is beneficial to ensuring the stability of the product quality. The technical scheme includes that the spliced type counter basin comprises a basin liner and basin edges, wherein the basin liner is provided with a basin cavity, the bottom of the basin cavity is provided with a water outlet, the basin edges and the basin liner are arranged in a split mode, the basin edges are spliced and connected to the top of the basin liner, and the basin edges are provided with flushing structures capable of flushing the inner side surfaces around the basin cavity. In a preferred embodiment, the basin rim and the top of the basin liner are fixed together by a plurality of fasteners, and a sealing gasket is matched between the basin rim and the basin liner. In a preferred embodiment, the basin is provided with a circle of first outer flange along the outer side surface, the outer side of the top of the basin liner is provided with a circle of second outer flange, the first outer flange is positioned above the second outer flange, the first outer flange and the second outer flange are fixed together by the fasteners, and the sealing gasket is pressed between the first outer flange and the second outer flange. In a preferred embodiment, a circle of cavity extending along the circumferential direction of the basin edge is formed when the basin edge is molded, the basin edge is used for reserving the bottom wall and the inner ring side wall of the cavity through cutting, the reserved bottom wall of the cavity forms the first outer flange, and the cutting surface of the basin edge is an inclined surface capable of being in inclined surface splicing with the mounting table surface of the counter basin. In a preferred embodiment, the fastener comprises a bolt and a nut adapted to the bolt. In a preferred embodiment, the flushing structure comprises a water supply channel and a water outlet part, wherein the water outlet part comprises a plurality of water outlet holes distributed along the circumferential direction of the basin edge, or the water outlet part comprises a circle of water outlet gaps arranged along the circumferential direction of the basin edge, the water outlet direction of the water outlet part is inclined downwards or vertically downwards relative to the horizontal plane and is coplanar with the central axis of the basin, the water supply channel is communicated with the water outlet part, and a circle of water curtain downwards flowing along the inner side surfaces of the periphery of the basin is formed when the water outlet part discharges water. In a preferred embodiment, the water supply channel is arranged along the circumferential direction of the basin edge and forms a closed-loop waterway, the water supply channel is