TW201302051A - Combination-closeness type hollow pot body structure for pot culture - Google Patents

Abstract

The invention relates to a combination-closeness type hollow pot body structure for pot culture. The pot body structure at least comprises an internal pot body, an external pot body, an anti-leak element, a hollow conduit and a drainage weeping element. The internal pot body comprises a bottom surface and a side surface. The side surface surrounds the bottom surface around to define a concave containing region. The bottom surface is formed with an inward part, and the inward part is provided with a weeping hole thereon. The drainage weeping element, which is capable of being disposed on the inward part of the internal pot body so that one end of the drainage weeping element can penetrate through the weeping hole of the internal pot body and protrudedly extend to the other side of the weeping hole. The internal pot body further comprises a binding part that is formed at an appropriate site and located at a periphery of the containing region. The transparent external pot body is provided with a full-flow mark region comprises a connection part that is able to assemble on the binding part of the internal pot body. Accordingly, the anti-leak element can be tightly clamped between the internal pot body and the external pot body to form a hollow spatial region which is provided with a combination-closeness type upper region. Besides, the hollow conduit, which comprises one end capable of being inserted into the spatial region for communication, is utilized to provide air communication between the spatial region and the exterior of the spatial region.

Description

Combined closed hollow potted basin structure

The invention belongs to a combined potted pot body, in particular to a research with direct visual inspection and control of the maximum water level height of water to be added, observation of soil moisture, observation of plant growth, observation of the flow direction and flow rate of stored water, and no need of daily The technical field of watering can keep plants growing normally.

According to the conventional flower pot or tree pot structure, the material of the pot body can be divided into ceramic or plastic products, and the basin body is formed by the thickness of a single layer, wherein the bottom surface of the basin body and the side wall surface thereof are A drain hole is formed on the bottom surface of the accommodating chamber, and the drain hole is connected with the accommodating chamber; therefore, when the consumer buys the pot back and fills the plant At the same time, a larger diameter shallow concave vessel is placed on the bottom of the basin, so that when the water is too much water in the future, the excess water will be mixed with the soft soil or mud sand through the drain hole to the vessel. However, although the above creation can achieve its creative purpose, when it is used, it will cause the following problems:

One. Because in the process of planting flower seedlings or saplings, water must be watered every day to maintain a certain degree of humidity in the soil. However, the general knowledge of planting plants is only a little bit known, plus subjectively When pouring too much water will be more beneficial to plants than pouring insufficient water, it is often preferred to pour too much water so that too much water will be mixed with dirt or mud directly from the drain hole into the vessel, and the inside of the vessel will be It often keeps a certain amount of water and muddy sand (ie sewage), especially in the hot weather in summer, which is more likely to breed germs and mosquitoes. As a result, it tends to make the environment near the flower pots or tree pots dirty and messy. It will be a major problem for mosquitoes and germs.

two. In order to improve the above-mentioned shortcomings, consumers tend to choose to water for a while. However, since the conventional basin is non-transparent, it is impossible to directly observe the humidity of the soil, especially in the hot summer, whether or not the pot is placed. Indoor (that is, blowing cold air) or outdoor (that is, the sun is shining), it is easy to cause the water in the soil to be quickly lost, which makes it easier for the planted plants to die.

In view of the above, the present invention is directed to the lack of the above-mentioned prior art, and proposes a combined closed hollow potted basin structure to effectively overcome the above problems, in order to benefit all consumers and manufacturers.

The main content of the combined closed hollow potted pot body structure of the present invention is to provide a joint portion formed by an inner pot body having a recessed accommodating area, an inner recessed portion and a water permeable hole as an already overflowing portion. The joint portion of the transparent outer basin of the full indicator zone can be assembled on the joint portion of the inner basin body, and the leakage preventing component can be tightly sandwiched between the inner basin body and the outer basin body to form a combined airtight seal. a hollow space region in the upper half of the region, and uses the function of the hollow conduit to serve as a communication space region and air circulation outside the space region; further, the present invention can also have a plurality of interconnected micro-inductions The drainage member of the channel can be placed in the inner concave portion of the inner basin body, and one end of the drainage water seepage member can pass through the water seepage hole and protrude into the space region to effectively control the flow through the accommodating area and the space area. The water flow direction, micro flow rate and flow rate, and the drainage water seepage parts can be immersed in water for a long time without corrosion, and has the effect of adjusting the soil moisture in the accommodating area and having a long-term filtering effect. Due to the surface tension of water molecules, the micro-channel of the seepage water seepage, the water absorption of the soil, and the arrangement of the upper half of the space and the hollow duct, the water molecules can easily follow the microscopic water seepage The direction of the approach road slowly infiltrates into the soil in the accommodating area to achieve the effect of passive micro-automatic water supply, which results in maintaining a certain proportion of humidity in the soil, and can eliminate the over-wet and decay plants of the well-known flower pot bottom. The phenomenon of the roots, and can provide a clean and comfortable environment in the vicinity of the basin, in order to effectively prevent the breeding of vector mosquitoes, and have the arrangement of green indoor space, and can reduce the work pressure of office workers, thereby increasing the survival of plants. The probability of being able to continue planting without watering during the period of going abroad and the environmental protection policy that meets the requirements of watering without dripping is a great progressive effect; in addition, the invention can also provide consumers with direct visual control and control of the highest water level that should be added. Height, soil moisture, observation of plant growth, observation of the flow direction and flow rate of stored water, and soil Maintain a certain degree of humidity to ensure that the water storage in the space zone can be continuously supplied for a period of time without additional water, so as to achieve the normal survival of the plants without watering every day when going out or traveling. Increasing the convenience of consumer care, thereby greatly improving consumers' willingness to use, purchasing desire, increasing market competitiveness and possession rate, and further improving their effectiveness.

The present invention relates to a combined closed hollow potted pot body structure, as shown in the first to seventh figures, which includes at least an inner pot body 1, an outer pot body 2, a leak stop element 3 and a hollow duct 4 The inner pot body 1 is preferably made of a transparent material, and a joint portion 12 is formed at a suitable portion thereof, and the joint portion 12 is located at a periphery of the recessed accommodation portion 13 of the inner pot body 1. [refers to the outside of the side 11 of the inner basin 1 (not shown), or the annular facade 115 adjacent to the side 11 (as shown in the first figure)] for the joint 22 of the transparent outer basin 2 The group is disposed on the joint portion 12 of the inner basin 1 and allows the outer basin 2 to be located on the outer peripheral side of the inner basin 1 such that a hollow space region 15 is formed between the inner basin 1 and the outer basin 2, and The use of the leakage preventing member 3 is tightly sandwiched between the inner basin 1 and the outer basin 2 such that the upper half region 150 of the space region 15 forms a true combined sealed state; and the recessed receiving region 13 refers to the inner portion The bottom surface 10 and the side surface 11 of the basin 1 are surrounded by a surrounding area, and an inner concave portion 101 is formed on the bottom surface 10, and a water penetration is formed in the inner concave portion 101. The hole 102 is such that the water seepage hole 102 can communicate with the space region 15; and the combination between the joint portion 12 and the joint portion 22 can be a screwing manner (such as the first figure) or a track rotation mode (such as The figure 7 is the best, and the joint portion 12 is a thread, an orbital guide groove, a guide column, and the like, and the outer pot body 2 is a hollow concave transparent material, and is formed at a suitable place. The joint portion 22 is disposed on the joint portion 12 of the inner basin body 1; further, a suitable overflow portion 23 is formed at a suitable portion of the outer basin 2, and the overflow mark portion 23 can be disposed on the outer basin The inner surface or the outer surface of the outer surface of the outer surface of the outer surface of the outer surface of the outer surface of the outer surface of the outer surface of the outer surface of the outer surface of the outer surface of the outer surface of the outer surface of the outer surface of the outer surface of the outer surface of the outer surface of The method is such that the consumer can directly visually identify the highest water level that should be added to the water level; and the overflow indicator area 23 can be a horizontally aligned or straightly arranged groove, or convex The part, or the pattern, or the ribbon is optimal, and the above-mentioned joint portion 22 is a thread, a guide post, an orbital guide groove, etc. The leakage preventing member 3 is hollow elastic and can be disposed on the outer side of the inner surface of the inner basin 1 or the side surface 11 or the outer side of the annular surface, or the outer top surface or the outer side of the outer basin 2 The joint portion 22 of the outer basin 2 is disposed on the joint portion 12 of the inner basin 1 so that the inner top end surface of the inner basin 1 and the outer top end surface of the outer basin 2 are tightly sandwiched between the outer leakage preventing members 3 The upper and lower end faces are such that the upper half region 150 of the hollow space region 15 formed between the inner basin 1 and the outer basin 2 is in a tight airtight state; the hollow conduit 4 has a top end 40 and space The air outside the zone 15 is in contact, and the bottom end 41 thereof is connected to the space zone 15 for communication between the space zone 15 and the air outside the space zone 15; in addition, the hollow duct 4 is integrally formed in the interior. Suitable places of the basin 1 or the outer basin 2 are optimal, or are combined with each other in an appropriate manner in the inner basin 1 or the outer basin 2; the drainage seepage member 7 is composed of a plurality of metal powders a particle composition, wherein the metal powder particles are iron particles, silver particles, tin particles, copper particles, etc., in particular, in plural The composition of the copper particles is optimal; please refer to the fifth figure, wherein the surface or the interior of the drainage water infiltration member 7 is composed of a plurality of metal powder particles 70, 70' (especially copper particles are optimal). The micro-channel 71 is formed in the communication gap between the adjacent metal powders 70, 70' so that the micro-channel 71 is in an irregular or regular state, and the drainage water-permeable member 7 can be placed into Preferably, the inner concave portion 101 between the recessed accommodating portion 13 and the space portion 15 and the one end of the drainage water seeping member 7 can pass through the water permeable hole 102 and protrude into the space region 15; when used, It is only necessary to first place the drainage water infiltration member 7 (i.e., composed of a plurality of non-corrosive metal powder particles and having microchannels 71 formed therein or on the surface) into the inner concave portion 101 of the transparent inner basin body 1. And the bottom end of the drainage water infiltration member 7 can be just protruded beyond the water seepage hole 102, and then the soil 8 and the plant 90 are sequentially placed in the concave receiving area 13 of the inner basin body 1; , the water can be directly poured into the hollow transparent concave outer basin 2 (as shown in the second figure) until the water level is adjacent to the overflowing area 2 of the outer basin 2 3 (but not exceeding the height of the overflow marked area 23) to prevent the water level already located in the outer basin 2 from being squeezed into the outer basin 2 by the partial volume of the inner basin 1, thereby causing the volume of the inner basin 1 The amount of water in the outer basin 2 can be increased, and the drainage body 7 can be installed from the top edge of the outer basin 2 before the inner basin 1 and the outer basin 2 are not combined into a sealed state. The joint portion 12 (i.e., the thread) of the soil 8 and the inner pot 1 of the plant 90 can be screwed directly onto the joint portion 22 (i.e., the thread) of the outer pot body 2 until the outer top end surface of the outer pot body 2 is tightly pressed to stop the leak. Before the element 3 is deformed (that is, the leakage preventing element 3 is tightly sandwiched between the inner end surface of the inner basin 1 and the outer end surface of the outer basin 2), the inner basin 1 and the outer basin 2 are sandwiched. a hollow space region 10 having a closed upper half region 105, and the volume of the inner basin 1 is placed into the depression of the outer basin 2, forcing the amount of water already located in the concave outer basin 2 to be Push up, and make the water level synchronously flow from the bottom end 41 of the hollow conduit 4 to the appropriate height (such as the third, fourth, and sixth figures); at this time, although it has been clamped The upper half region 150 of the hollow space region 15 between the inner basin 1 and the outer basin 2 (ie, the region between the joint portion 22 of the outer basin 2 and the water seepage hole 102, or the outer basin) The joint portion 22 of the 2 to the region between the edges of the bottom end 41 of the hollow conduit 4 is sealed, however, since the water level already located in the hollow conduit 4 is subjected to gravity and the bottom end of the draining member 7 has been The convex contact reaches the water level in the space region 15 to cause capillary action and the dry soil 8 already located in the accommodating region 13 absorbs, so that the water molecules can flow upward through the capillary of the drainage water seeing member 7 to be absorbed by the soil 8, and The water level in the hollow conduit 4 is first lowered to the bottom end 41 (i.e., a part of the soil 8 to the space area 15 is filled with water molecules), at this time, if the soil 8 is intended to continuously absorb the moisture in the space area 15 Then, the other part of the dried or volatilized soil 8 is subjected to the first absorption force, so that the water molecules can flow upward from the space region 15, and the pressure in the upper half region 150 of the space region 15 is slightly Below atmospheric pressure, allowing atmospheric pressure to flow from the hollow conduit 4 The closed upper half region 150 of the space region 15 (i.e., air supplementation) serves to provide the amount of water already located in the space region 15 to continue to flow in the direction of the soil 8 (i.e., siphoning) until the soil 8 is absorbed. When the water molecules are kept at a certain proportion of humidity, finally, when the water molecules in the soil 8 are absorbed by the plant roots 90 or volatilized by the air outside the soil 8, the water molecules in the space region 15 continue to seep through the drainage water. The capillary action between the piece 7 and the water seepage hole 102 and the siphoning action flow up into the soil 8 and the water level in the space zone 15 will be lowered (as shown in the fourth figure), thereby providing the consumer with direct visual observation of the water level. , soil moisture, observation of plant growth, observation and adjustment of the flow direction and flow rate of stored water, in order to control the soil 8 to maintain a certain humidity, and ensure that the water storage in the space area 15 can be continuously supplied for a period of time without additional water In order to achieve a long-distance or out-of-town travel, it is not necessary to water the water every day to maintain the normal growth and growth of the plants, and to increase the convenience of consumer care and improve consumption. In addition to the willingness to use, the desire to purchase, the increase in market competitiveness and the occupancy rate, it is also possible to have a passive micro-automatic water supply consisting of the principle of capillary and siphon, so that the water content of the soil 8 in the recessed accommodation area 13 Keeping under a certain humidity (ie, slightly wet), it can eliminate the phenomenon that the bottom of the flower pot is too wet and rot the root of the plant, and can provide a neat, clean and comfortable environment near the basin, and can effectively Preventing the growth of vector mosquitoes and improving the layout of green indoor spaces to reduce the progressive effects of office workers' work pressure; please refer to the sixth figure, the invention can also be composed of transparent material inner and outer basins 1, 2 The hollow space area 15 is provided, and the landscaping object 85, the planting aquatic plant 91 and the cultured aquatic animal 92 can be arranged in the space area 15 to allow light to penetrate into the space area 15 as an aquatic plant. 91 photosynthesis, and increase the oxygen content in the water and as the basis for the aquatic animals 92 edible grass, so that the space area 15 becomes an ecological area, and provides more activated oxygen than the oxygen As for the 90 plants have been planted in the growing of it with the 1 in the basin, and thus can be used as, the researchers observed students in plant growth and ecological sciences for another effect.

Although the joint portion 12 (ie, the thread) of the inner basin 1 of the present invention and the joint portion 22 (ie, the thread) of the outer tub 2 are screwed, the present invention can also be trajectory rotated (ie, the joint portion 12). The alignment between the track groove and the joint portion 22 is as shown in the seventh figure (the detailed structure is as described above, and therefore will not be described).

Please refer to the eighth embodiment, which is a diagram of another embodiment of the present invention. The main modification is that the joint portion 12 of the original inner basin 1 and the joint portion 22 of the outer basin 2 are screwed together. The method is changed to that the joint portion 12 of the inner basin 1 is the joint portion 22 of the track groove and the outer basin 2, which is a mutual track rotation manner between the guide columns, and is also in the inner basin 1 or the outer basin 2 In addition, a water injection unit 5 is additionally added, and the water injection unit 5 is connected to the space area 15 formed between the inner basin body 1 and the outer basin 2, and the water injection unit 5 can be locked by the cover member 55. The cover is closed, and a leak stop 50 is interposed between the water injection unit 5 and the cover member 55 for sealing and airtight; and as for the main structure of the inner basin 1 and the outer basin 2, It is described in detail above, so it will not be described here.

The above description of the invention is only one of the embodiments of the present invention, and it is intended that the features and spirits of the present invention should be included in the scope of the present invention.

1. . . Inner basin

10. . . Bottom

101. . . Inner recess

102. . . Water seepage hole

11. . . side

115. . . Ring facade

12. . . combination

13. . . Included area

15. . . Space area

150. . . Upper half area

2. . . Outer basin

twenty two. . . Joint

twenty three. . . Overfilled area

3. . . Leak stop component

4. . . catheter

40. . . top

41. . . Bottom end

5. . . Water injection unit

50. . . Stopper

55. . . Cover

7. . . Drainage seepage

70. . . Powder

70’. . . Powder

71. . . Microchannel

8. . . soil

85. . . Landscaping

90. . . plant

91. . . Aquatic plant

92. . . aquatic

The first figure is a schematic exploded view of the plane of the present invention.

The second figure is a cross-sectional state diagram of the present invention when water is added to the outer basin.

The third figure is a combined sectional state diagram at the beginning of the assembly of the first figure.

The fourth figure is a planar combined perspective state diagram of the third figure.

The fifth figure is a partial combined section state diagram of the third figure.

The sixth drawing is a plan view of a planar combination perspective view of still another embodiment of the present invention.

Figure 7 is a plan sectional exploded view showing still another embodiment of the present invention.

Figure 8 is a plan sectional exploded view showing another embodiment of the present invention.

1. . . Inner basin

10. . . Bottom

101. . . Inner recess

102. . . Water seepage hole

11. . . side

115. . . Ring facade

12. . . combination

13. . . Included area

2. . . Outer basin

twenty two. . . Joint

twenty three. . . Overfilled area

3. . . Leak stop component

4. . . catheter

40. . . top

41. . . Bottom end

Claims (25)

The utility model relates to a combined closed hollow potting basin structure, which comprises at least an inner basin body, an outer basin body, a leakage preventing component and a hollow duct, wherein: the inner basin body has a joint portion formed thereon, and the joint portion is formed Located at the periphery of the concave receiving area of the inner basin body, the joint portion of the transparent outer basin can be assembled on the joint portion of the inner basin body, and the outer basin body can be located on the outer peripheral side of the inner basin body. The inner basin body and the outer basin body are sandwiched to form a hollow space region; and the recessed accommodating region refers to a region surrounded by the bottom surface and the side surface of the inner basin body, and is formed on the bottom surface. There is a water-permeable hole penetrating so that the water-permeable hole can communicate with the space zone; the outer basin body is a hollow concave transparent material, and a joint portion is formed thereon, so that the joint portion can be assembled in the inner basin body a hollow space region is formed between the inner basin body and the outer basin body; the leakage preventing component is tightly sandwiched between the inner basin body and the outer basin body, and is disposed inside The upper half of the hollow space between the basin and the outer basin is tight and airtight. ; Hollow conduit, which may be in contact with the tip line of the outside air in the space area, and which may be communicated to the bottom end of said space-based region to region as the inside of the air space in communication with the region outside of the space available. The combined closed hollow potted pot body structure according to the first aspect of the invention, wherein the outer basin is formed with a full-filled marking area, and the overflow marked area can be disposed on the inner surface of the outer basin or outside. At the surface. The combined closed hollow potting basin structure according to claim 2, wherein the combination between the outer basin and the overflowing marked area can be integrally formed, so that the consumer can directly visually Ways to identify the maximum amount of water that can be added. The combined closed hollow potted pot body structure according to the second aspect of the patent application, wherein the combination between the outer basin and the overflowing marked area may be a post-processing method for the consumer to directly Visually identify the maximum amount of water that can be added. The combined closed hollow potted pot body structure according to the fourth aspect of the invention, wherein the post-processing method between the outer pot body and the overflow-filled marking area means adhesive processing or color processing. The combined closed hollow potted pot body structure according to claim 3, wherein the joint portion on the outer basin is threaded and combined with the inner basin of the joint portion of the outer basin. The portion may be a thread such that the joint between the joint portion of the outer basin and the inner pot body is screwed together to form a hollow space region. The combined closed hollow potted pot body structure according to claim 6, wherein the space zone is connected to the outer side of the space zone by a hollow duct, and the hollow duct is integrally formed into the inner basin body or On the outer basin. The combined closed hollow potted pot body structure according to claim 7, wherein the bottom surface of the inner pot body is formed with an inner concave portion, and a water seepage hole penetrating therethrough is formed in the inner concave portion. The combined closed hollow potted pot body structure according to the invention of claim 8, wherein the inner recess of the inner basin is provided for the drainage seepage member to be disposed therein, and one end of the drainage seepage member can pass through the water seepage The hole enters into a space region between the inner basin and the outer basin; in addition, the drainage water seepage member is composed of a plurality of metal particles and a micro-channel formed between adjacent metal particles. The combined closed hollow potted pot body structure according to claim 9, wherein the inner basin or the outer basin is provided with a water injection unit, and the water injection unit is connected to the inner basin and the outer basin. The space formed in the space is formed, and the other end of the water injection unit can be locked and covered by the cover member, and a leakage member is interposed between the water injection unit and the cover member for sealing and airtight. . The combined closed hollow potted pot body structure according to claim 10, wherein the inner pot body is made of a transparent material. The combined closed hollow potted pot body structure according to claim 6, wherein the space zone is connected to the outer side of the space zone by a hollow duct, and the hollow ducts are combined with each other in the inner basin body. Or the outer basin. The combined closed hollow potted pot body structure according to claim 12, wherein the bottom surface of the inner pot body is formed with an inner concave portion, and a water seepage hole penetrating therethrough is formed in the inner concave portion. The combined closed hollow potted pot body structure according to claim 13, wherein the inner recess of the inner pot body is provided for the drainage water seeping member to be disposed therein, and one end of the drainage seepage member passes through the water seepage hole. And entering into the space between the inner basin and the outer basin, in addition, the drainage seepage is composed of several metal particles and a micro-channel formed between adjacent metal particles. The combined closed hollow potted pot body structure according to claim 14, wherein the inner basin or the outer basin is provided with a water injection unit, and the water injection unit is connected to the inner basin and the outer basin. The space formed in the gap is formed, and the other end of the water injection unit can be locked and covered by the cover member, and a leak stop member is interposed between the water injection unit and the cover member for sealing and airtight. The combined closed hollow potted pot body structure according to claim 15, wherein the inner pot body is made of a transparent material. The combined closed hollow potted pot body structure according to claim 3, wherein the joint portion on the outer pot body is a guide post and the inner pot body of the joint portion with respect to the outer pot body is The joint portion may be a track groove, such that the joint portion of the outer pot body and the inner pot body are combined with each other in a trajectory rotation manner to form a hollow space region. The combined closed hollow potted pot body structure according to claim 17, wherein the space zone is connected to the outer side of the space zone by a hollow duct, and the hollow duct is integrally formed into the inner basin body or Outer basin. The combined closed hollow potted pot body structure according to claim 18, wherein the bottom surface of the inner pot body is formed with an inner concave portion, and a water seepage hole penetrating therethrough is formed in the inner concave portion. The combined closed hollow potted pot body structure according to claim 19, wherein the inner recess of the inner pot body is provided for the drainage seepage member to be disposed therein, and one end of the drainage seepage member passes through the seepage hole. And entering into the space between the inner basin and the outer basin, in addition, the drainage seepage is composed of several metal particles and a micro-channel formed between adjacent metal particles. The combined closed hollow potted pot body structure according to claim 20, wherein the inner pot body is made of a transparent material. The combined closed hollow potted pot body structure according to claim 17, wherein the space zone is connected to the outer side of the space zone by a hollow duct, and the hollow duct is assembled to the inner basin body in a group manner. Or on the outer basin. The combined closed hollow potted pot body structure according to claim 22, wherein the bottom surface of the inner pot body is formed with an inner concave portion, and a water seepage hole penetrating therethrough is formed in the inner concave portion. The combined closed hollow potted pot body structure according to claim 23, wherein the inner recess of the inner basin is provided for the drainage seepage member to be disposed therein, and one end of the drainage seepage member passes through the seepage hole. And entering into the space between the inner basin and the outer basin, in addition, the drainage seepage is composed of several metal particles and a micro-channel formed between adjacent metal particles. The combined closed hollow potted pot body structure according to claim 24, wherein the inner pot body is made of a transparent material.