JP2009052352A - Garbage receiving device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a garbage receiving device having an increased garbage storage volume, capable of securing water flowing efficiency for a long period even if garbage is stored, and enabling the easy removal of the stored garbage. <P>SOLUTION: This garbage receiving device comprises a garbage reservoir 4 attached to a drain hole 3 formed in the bottom surface of a water receiving member 2. The upper surface side of the garbage reservoir 4 is opened upward and recessed downward to form a flat bottom part 5. A tilted surface part 6 tilted downward while reducing the inner diameter is formed from an upper opening 7 toward the bottom part 5. The bottom 5 of the garbage reservoir 4 is deviated from the center of the upper opening 7 when viewed from above. A large number of water flowing holes 8 are formed at the tilted surface 6 and the bottom 5. The opening area rate of the water holes 8 at the bottom 5 is made larger than that at the tilted surface 6, or the formation density of the water holes 8 at the bottom 5 is made larger than that at the tilted surface 6. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a dust receiving device installed at a drain outlet.

  Conventionally, as shown in FIG. 3, there is known a garbage receiving device 1 installed at a drain outlet 3 established in a bottom surface of a water receiving member 2 such as a kitchen sink or a bathroom floor pan (for example, Patent Document 1). The dust receiving device 1 has a dust receiving body 4 'that is a container-shaped eye plate that opens upward so that dust contained in the drainage of the water receiving member 2 is captured and removed. 3 is formed in a conical shape whose outer end is pointed, and the position of the lower end which is the apex of the inclined surface portion 6 of this conical shape is a plan view of the dust receiving body 4 ′. In FIG. 3, the upper opening 7 is arranged so as to be unevenly distributed from the center. Since the dust receiving body 4 'has a conical outer shape, the dust trapped at the lower end can be collected, and the lower end where the dust accumulates can be shifted from the central position of the drainage flow to smoothly drain the waste. Trying to secure the flow.

However, since the outer shape of the dust receiving body 4 ′ is conical, the amount of dust that can be accumulated at the lower end cannot be increased, and the wire is crossed vertically and horizontally over the entire length. There are a large number of water passage holes 8 through which drainage passes, but the water passage holes 8 balance with the wire material whose density increases toward the lower side. Therefore, the water passage hole 8 is closed relatively early due to the accumulated dust, and there is a problem that the water passage efficiency is lowered. Furthermore, the drainage of the water receiving member 2 that has flowed into the cone-shaped dust receiving main body 4 ′ is concentrated intensively at the lower end via the inclined surface portion 6 to become a vigorous flow, and is accumulated and accumulated. Garbage concentrates the weight in the lowermost layer and crushes the lowermost layer, and the crushed garbage enters into the water passage hole 8 together with the above-mentioned vigorous drainage flow. In addition to strengthening the closed state of the water passage hole 8, when removing the collected dust by removing the dust receiving body 4 ′ from the drain port 3, the dust is strongly caught by the water passage hole 8 and is difficult to remove. It also caused such problems.
JP 2006-2423 A

  The present invention has been made in view of the above points, and the object of the present invention is to increase the dust retaining volume and ensure the water passing efficiency over a long period of time even if the dust is collected, and has been accumulated. An object of the present invention is to provide a dust receiving device that can easily remove dust.

  In order to solve the above-described problem, the dust receiving apparatus according to claim 1 has a dust receiving body 4 attached to the drain port 3 established at the bottom surface of the water receiving member 2, and the upper surface of the dust receiving body 4. The side 5 is opened upward and is recessed downward to form a flat bottom 5, and an inclined surface 6 that is inclined downward while narrowing the inner diameter from the upper opening 7 toward the bottom 5 is formed. In a plan view of the dust receiving body 4 and is arranged to be unevenly distributed from the center portion of the upper opening 7, a plurality of water passage holes 8 are formed in the inclined surface portion 6 and the bottom portion 5, and the water passage holes 8 in the bottom portion 5 are formed. The opening area ratio is made larger than the opening area ratio of the water passage holes 8 in the inclined surface portion 6, or the formation density of the water passage holes 8 in the bottom portion 5 is compared with the formation density of the water passage holes 8 in the inclined surface portion 6. Characterized by being enlarged.

  According to this, while opening the upper surface side of the refuse receptacle main body 4 attached to the drain outlet 3 opened in the bottom face part of the water receiving member 2 upwards and making it dent downward, the flat bottom part 5 is formed, and from the upper opening 7 Since the inclined surface portion 6 that is inclined downward while narrowing the inner diameter toward the bottom portion 5 is formed, and the position of the bottom portion 5 is unevenly arranged from the center portion of the upper opening 7 in a plan view of the dust receiving body 4, The amount of dust collected at the bottom 5 at the lower end of the dust receiving body 4 can be increased, and the bottom 5 where dust is collected can be shifted from the central position of the drainage flow to ensure a smooth drainage flow. The collected waste water is not collected intensively at the lower end of the water receiving member 2, and the load accumulated on the dust accumulated in the flat bottom 5 is not concentrated intensively. Bottom of collected garbage Since there is less risk of entering the water passage hole 8 in the bottom portion 5 due to the momentum of the drained water that has been crushed and collected, the accumulated dust can be easily removed. The opening area ratio of the water holes 8 (ratio of the opening area of the water passage holes 8 in the bottom 5 area) is the opening area ratio of the water holes 8 in the inclined surface part 6 (ratio of the opening area of the water holes 8 in the inclined surface part 6 area). ) Or the formation density of the water holes 8 in the bottom 5 (the ratio of the number of water holes 8 formed in the unit area of the bottom 5) is the formation density of the water holes 8 in the inclined surface part 6 ( The ratio of the number of water passage holes 8 formed in the unit area of the inclined surface portion 6) is larger than that of the inclined surface portion 6, so that even if dust accumulates in the bottom portion 5, the passage of the bottom portion 5 of the dust receiving body 4 over a relatively long period of time. The water performance was secured.

  Further, in the dust receiving apparatus according to claim 2, in claim 1, the water passage hole 8 of the inclined surface portion 6 is formed in a long hole shape whose longitudinal direction is from the upper opening 7 toward the bottom portion 5. It is characterized by that.

  According to this, the longitudinal direction of the long hole-shaped water passage hole 8 of the inclined surface portion 6 is the same as the flow direction along the inclined surface portion 6 of the drainage of the water receiving member 2, so that the water receiver that has flowed into the dust receiver body 4. The drainage of the member 2 can be efficiently caused to flow down from the water passage hole 8 of the inclined surface portion 6 to the drain outlet 3, and the water passage performance of the dust receiving body 4 can be improved.

  The dust receiver according to claim 3 has a lid body 9 that closes the upper opening 7 of the dust receiver body 4 according to claim 1 or 2, and is provided between the lid body 9 and the dust receiver body 4. Is provided with positioning means 10 that enables the lid body 9 to be arranged in the upper opening 7 in a predetermined posture, and a main inflow hole for allowing the drainage of the water receiving member 2 to flow down to a position above the bottom portion 5 of the dust receiving body 4 in the lid body 9. 11 is formed, and the position of the bottom 5 is unevenly distributed from the center of the upper opening 7 in a plan view of the dust receiving body 4, and thus, among the gently inclined surface portion 6 a and the steeply inclined surface portion 6 b formed on the inclined surface portion 6. The auxiliary inflow hole 12 for allowing the drainage of the water receiving member 2 to flow down is formed above the upper edge of the gently inclined surface portion 6a, and the auxiliary inflow hole 12 is formed smaller than the main inflow hole 11. Features.

  According to this, most of the drainage of the water receiving member 2 flows down directly to the bottom 5 of the dust receiving body 4 through the main inflow hole 11 of the lid 9, and the waste contained in the drainage is captured at the bottom 5 of the dust receiving body 4. After that, the remaining small amount of drainage of the water receiving member 2 can flow from the water flow hole 8 in the bottom portion 5 to the drain outlet 3, and the gently inclined surface portion 6 a of the dust receiving body 4 from the auxiliary inlet 12 of the lid body 9. The waste water that has flowed into the main inlet hole 11 and has adhered to the gently inclined surface portion 6a so as not to obstruct the main drainage flow from the main inlet hole 11 is drained from the water hole 8 of the dust receiver body 4 to the drain port 3 while being washed off to the bottom portion 5. In other words, it is possible to efficiently collect and store the dust on the bottom 5 of the dust receiving body 4 without reducing the water passing efficiency of the dust receiving body 4.

  Further, in the dust receiving device according to claim 4, in any one of claims 1 to 3, the surface of the dust receiving body 4 is provided with water repellency and the water contact angle is 90 degrees or more, or The water drop sliding angle is 20 degrees or less.

  According to this, the accumulated dust can be favorably separated from the surface of the dust receiving body 4, and the removal of the dust from the dust receiving body 4 can be facilitated.

  The present invention has an advantage that the dust retaining volume is increased, the water passing efficiency is ensured over a long period of time even if the dust is accumulated, and the accumulated dust can be easily removed.

  Hereinafter, the present invention will be described based on embodiments shown in the accompanying drawings.

  As shown in FIG. 1, the dust receiving device 1 of the present example includes a bottomed cylindrical dust receiving main body 4 that opens upward and is attached to a drain opening 3 opened on the bottom surface of a water receiving member 2. The lid 9 is attached to the upper opening 7, and the waste water of the water receiving member 2 is passed through the dust receiving body 4 so that the dust contained in the waste water can be captured. Here, the water receiving member 2 of the present example is a kitchen sink 20 that opens upward, and it is assumed that the garbage captured by the garbage receiving body 4 is cooking scraps such as vegetable chips produced during cooking. Further, the kitchen sink 20 of the present example has a concave bottom surface 22 that is recessed downward from the bottom surface 21, and a vertical tubular drain that communicates with a drain pipe (not shown) at the downstream end of the concave bottom surface 22. The upstream end of mouth 3 is opened. The dust receiving body 4 is formed with a flange 13 protruding outward at the edge of the upper opening 7, and this flange 13 is placed on the upper edge of the drain port 3 (on the concave bottom surface 22 of the kitchen sink 20). Thus, the dust receiving body 4 is detachably disposed in the drain port 3 so as to be accommodated in the drain port 3.

  As shown in FIG. 2, the dust receiving body 4 has a truncated cone-shaped outer shape formed by opening the upper surface side of the thin plate member upward and recessing it downward. Specifically, the dust receiving body 4 has an inclined surface portion 6 that is inclined downward while narrowing the inner diameter from the upper opening 7 toward the bottom portion 5, and a flat bottom portion 5 that is continuous with the lower end of the inclined surface portion 6. Yes. The position of the bottom 5 is unevenly distributed from the center of the upper opening 7 in a plan view of the dust receiving body 4. Therefore, the gradient from the bottom 5 of the inclined surface portion 6 varies depending on the circumferential direction. Therefore, the inclined surface portion 6 includes a steeply inclined surface portion 6b having a relatively large gradient and a gently inclined surface portion 6a having a relatively small gradient. Can be divided. That is, the steeply inclined surface portion 6b is formed by a portion of the inclined surface portion 6 hanging from the edge portion of the upper opening 7 close to the bottom portion 5 in plan view, and the gently inclined surface portion 6a is the edge of the upper opening 7 where the bottom portion 5 is separated. A portion of the inclined surface portion 6 depending from the portion constitutes this. The plane area ratio of the bottom 5 to the upper opening 7 is preferably 0.7 or less.

  A large number of water passage holes 8 are formed in the inclined surface portion 6 and the bottom portion 5, respectively. The water passage hole 8 is a hole for draining the drainage of the water receiving member 2 flowing into the dust receiving body 4 to the downstream side of the drainage port 3. In this example, the water passage hole 8 formed in the bottom portion 5 is formed in a circular hole shape, but the water passage hole 8 formed in the inclined surface portion 6 is in the shape of a long hole whose longitudinal direction is the inclined direction of the inclined surface portion 6. Is formed. Since the inclined direction of the inclined surface portion 6 is the same as the flow-down direction of the drainage of the water receiving member 2 that has flowed into the dust receiving body 4, it is formed by a long hole-shaped water passage hole 8 whose longitudinal direction is the inclined direction of the inclined surface portion 6. Then, the drainage flowing down along the inclined surface portion 6 can be efficiently introduced and passed, and can flow down to the drainage port 3 and be drained.

  Further, in this example, the opening area ratio of the water passage hole 8 in the bottom portion 5 (ratio of the opening area of the water passage hole 8 in the area of the bottom portion 5) is the opening area ratio of the water passage hole 8 in the inclined surface portion 6 (inclined surface portion 6 area). The ratio of the opening area of the water passage hole 8 in FIG. Further, the formation density of the water passage holes 8 in the bottom portion 5 (ratio of the number of water passage holes 8 formed in the unit area of the bottom portion 5) is defined as the formation density of the water passage holes 8 in the inclined surface portion 6 (the passage in the unit area of the inclined surface portion 6). The ratio of the number of water holes 8 formed). Therefore, the water flow efficiency by the water flow hole 8 in the bottom part 5 is larger (efficiently) than the water flow efficiency by the water flow hole 8 in the inclined surface part 6. The water passage hole 8 is preferably formed with an opening width of 0.2 to 2.5 mm in view of dust capture performance.

  According to the dust receiving body 4 configured as described above, when the drainage of the water receiving member 2 is drained to the drain port 3 through the water passage hole 8, the dust contained in the drainage of the water receiving member 2 is on the upper surface side of the dust receiving body 4. The trapped dust is collected in the dust storage portion 14 which is an upwardly extending concave portion surrounded by the inclined surface portion 6 and the bottom portion 5, and the lower end portion exemplified in the prior art. As compared with the cone-shaped dust receiving body 4 'having a sharp edge, the dust holding volume can be increased. The collected dust can be removed from the dust receiving body 4 by removing the dust receiving body 4 from the drain port 3 and turning it over so that the upper opening 7 faces downward. Thus, by having the dust storage part 14 with a large dust retaining volume, the frequency of removing dust from the dust receiving body 4 can be reduced. In addition, it is preferable to provide the dust receiving body 4 with a handle that can be picked by the user because the workability of the dust removal work can be improved.

  Further, the dust collected in the dust storage portion 14 is substantially stacked and stored on the bottom portion 5, and the dust stacked and stored on the bottom portion 5 may block the water passage holes 8 of the bottom portion 5. However, in the dust receiving body 4 of the present example, since the high number of holes 8 and the opening area of the water holes 8 in the bottom 5 are devised to realize high water flow efficiency as described above, it can be used for a relatively long time. Thus, there is an advantage that the water passing performance of the bottom portion 5 of the dust receiving body 4 can be secured. That is, the dust receiving body 4 'exemplified in the prior art has a large number of water passage holes 8 through which drainage is passed between the wires by crossing the wires vertically and horizontally over the whole. The hole 8 has a balance with the wire whose density becomes higher as it goes downward, and its opening area ratio or formation density becomes smaller as it goes downward, and the water passage hole 8 becomes relatively early due to accumulated dust. Although it was blocked, the dust receiving body 4 of this example has a larger number of water passage holes 8 that are not blocked by dust compared to the conventional dust receiving body 4 ′. The water flow performance of the bottom 5 of the receiving body 4 has been ensured over a relatively long period.

  Further, in the conventional dust receiving body 4 ′ having a sharp lower end, the drainage of the water receiving member 2 that has flowed into the conical dust receiving body 4 ′ passes through the inclined surface portion 6 and reaches the lower end. The dust collected in a concentrated manner creates a vigorous flow, and the accumulated dust accumulates the weight intensively in the lowermost layer portion, but has the flat bottom portion 5 in this example. In the refuse receiving body 4, the concentration phenomenon of the waste water flow and the accumulated dust weight does not occur. Therefore, in the garbage receiver main body 4 of this example, the dust in the lowermost layer portion is crushed due to the concentration of the accumulated dust weight, and the rushed wastewater flow is concentrated due to the concentrated dust in the lowermost layer portion. Therefore, there is no occurrence of the phenomenon that occurs in the conventional dust receiving body 4 ′ such as entering the water passage hole 8, and therefore, it is possible to avoid the strong catching of dust on the water passage hole 8 and easily remove the accumulated dust. It also has the advantage that it can.

  More specifically, water repellency is imparted to the surface of the dust receiving body 4 of this example, so that the water contact angle is 90 degrees or more, or the water droplet sliding angle is 20 degrees or less. Here, as a specific means for imparting water repellency to the surface of the dust receiving body 4, the dust receiving body 4 itself is formed of a water repellent component such as polytetrafluoroethylene, silicon or fluorine, Means for coating can be employed. The water drop sliding angle refers to the minimum inclination angle of the material surface on which the water drop dropped on the material surface slides. In this example, the water drop sliding angle is measured using a water drop having a volume of 0.03 ml. The water repellency provided on the surface of the dust receiving body 4 can prevent dust and scale from adhering to the surface. In other words, good separation performance of the accumulated dust from the surface of the dust receiving body 4 is ensured, and The removal from the dust receiving body 4 is facilitated.

  Further, the lid 9 of the dust receiving device 1 of this example is disk-shaped, and is provided with a main inflow hole 11 having a relatively large opening and a sub inflow hole 12 having a relatively small opening. The upper opening 7 is attached in a predetermined posture via the positioning means 10. The predetermined posture of the lid body 9 is that the main inflow hole 11 is positioned right above the bottom 5 of the dust receiving body 4 and the sub inflow hole 12 is the true edge of the upper edge of the gently inclined surface portion 6a of the dust receiving body 4. This is the mounting posture with respect to the dust receiving main body 4 located at the upper position. The positioning means 10 includes, for example, a non-circular positioning hole 15 formed in the flange 13 of the dust receiving body 4, and a positioning protrusion 16 that protrudes downward from the outer edge portion of the lid 9 and fits into the positioning hole 15. However, any other means can be adopted. In this example, the positioning hole 15 is formed in a rectangular hole shape, and the positioning protrusion 16 is formed in a rectangular column shape.

  In this way, when the lid 9 is placed in a predetermined posture and attached so as to close the upper opening 7 of the dust receiving body 4, most of the drainage of the water receiving member 2 passes through the main inflow hole 11 of the lid 9 and the dust receiving body 4. The bottom portion 5 of the dust receiving body 4 captures the dust contained in the drainage and then flows down from the water passage hole 8 in the bottom portion 5 to the drain port 3. The remaining small amount of waste water 2 flows into the gently inclined surface portion 6a of the dust receiving body 4 from the sub-inflow hole 12 of the lid 9, and enters the gently inclined surface portion 6a to the extent that the main drainage flow from the main inflow hole 11 is not hindered. The attached dust can be drained from the water passage hole 8 of the dust receiver body 4 to the drain port 3 while washing off the bottom portion 5, that is, the dust receiver body without reducing the water passing efficiency of the dust receiver body 4. Efficiently collects and collects garbage at the bottom 5 of 4 Cormorant than that which is to be able to.

It is side sectional drawing of the state which installed the refuse receiving device of the example of embodiment of this invention in the drain outlet. It is a disassembled perspective view of the refuse receiver of the example of embodiment of this invention. It is a sectional side view of the state which installed the refuse receiver of the example of the prior art in the drain outlet.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Dust receiving apparatus 2 Water receiving member 3 Drain outlet 4 Dust receiving main body 5 Bottom part 6 Inclined surface part 6a Slightly inclined surface part 6b Steeply inclined surface part 7 Upper opening 8 Water flow hole 9 Cover body 10 Positioning means 11 Main inflow hole 12 Sub inflow hole

Claims (4)

  It has a dust receiving body attached to the drain outlet opened on the bottom surface of the water receiving member, and the upper surface side of this dust receiving body is opened upward and recessed downward to form a flat bottom, and from the upper opening to the bottom An inclined surface portion that is inclined downward while narrowing the inner diameter toward the surface is formed, and the position of the bottom portion is unevenly distributed from the center portion of the upper opening in a plan view of the dust receiving body, and there are many inclined surface portions and bottom portions. The opening area ratio of the water passage holes in the bottom portion is made larger than the opening area ratio of the water passage holes in the inclined surface portion, or the formation density of the water passage holes in the bottom portion is increased in the inclined surface portion. A dust receiving device characterized in that it is larger than the formation density of water holes.   2. The dust receiving apparatus according to claim 1, wherein the water passage hole of the inclined surface portion is formed in a long hole shape having a direction from the upper opening toward the bottom as a longitudinal direction.   The lid body closes the upper surface opening of the dust receiving body, and a positioning means is provided between the lid body and the dust receiving body so that the lid body can be disposed in the upper surface opening in a predetermined posture. A main inflow hole for allowing the drainage of the water receiving member to flow down is formed at an upper position of the bottom, and the position of the bottom is unevenly distributed from the center of the upper opening in the plan view of the dust receiving main body, so that the inclined surface is formed. A sub inflow hole for allowing the drainage of the water receiving member to flow down is formed at a position above the upper edge of the gently inclined surface portion of the gently inclined surface portion and the steeply inclined surface portion, and the sub inflow hole is made smaller than the main inflow hole. The dust receiver according to claim 1, wherein the dust receiver is formed.   The dust according to any one of claims 1 to 3, wherein the surface of the dust receiving body is provided with water repellency so that the water contact angle is 90 degrees or more, or the water drop sliding angle is 20 degrees or less. Receiving device.

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