CN211430201U - Production equipment of degradable flowerpot - Google Patents

Abstract

The utility model relates to a production facility of degradable flowerpot. The production equipment of the degradable flowerpot is used for manufacturing the flowerpot, the flowerpot comprises a flowerpot main body and an outer edge part, and the flowerpot main body is provided with an opening and an accommodating cavity communicated with the opening; the outer edge part is arranged around the opening, and a hollow cavity is formed in the outer edge part; the connecting part is connected with the flowerpot main body. The flowerpot body is connected with the outer edge part, and the flowerpot body is provided with an opening and a containing cavity communicated with the opening, so that the flowerpot body can contain soil to plant flowers and plants; the outer edge part is arranged around the opening, so that the use convenience of the flowerpot is improved, and the strength of the flowerpot main body is improved; because the hollow cavity is formed in the outer edge part and has better strength, the plastic material consumption required by the flowerpot is saved; when the flowerpot is manufactured, air is blown from the air inlet and redundant plastic is blown from the discharge hole to form a hollow cavity, and the redundant plastic can be recycled, so that the using amount of the plastic is further saved.

Description

Production equipment of degradable flowerpot

Technical Field

The utility model relates to a manufacturing method of a flowerpot, in particular to a production device of a degradable flowerpot.

Background

For a long time, the problems of water pollution and placement of the traditional ceramic flowerpot have the defects that the traditional flowerpot is used for watering more times and the water quantity is not good. Compared with the traditional porcelain flowerpot, the plastic flowerpot has the characteristics of less watering times, relatively lower price and longer service life.

With the continuous development of society and the continuous improvement of living standard of people, people have higher and higher requirements on the plastic flowerpot, and materials of the plastic flowerpot gradually develop towards high cyclic utilization and less direction so as to further reduce the cost of the plastic flowerpot and meet the requirement of environmental protection. However, the conventional plastic flowerpot has the problem of more materials.

SUMMERY OF THE UTILITY MODEL

Therefore, a production device for degradable flower pots is needed to solve the problem that plastic flower pots are made of more materials.

A production facility of degradable flowerpot, production facility is used for making the flowerpot, the flowerpot includes:

the flowerpot comprises a flowerpot body, a plurality of clamping pieces and a plurality of clamping pieces, wherein the flowerpot body is provided with an opening and an accommodating cavity communicated with the opening;

the outer edge part is arranged around the opening, and a hollow cavity is formed in the outer edge part; the connecting part is connected with the flowerpot main body.

The production equipment of the degradable flowerpot is used for manufacturing the flowerpot, the flowerpot comprises a flowerpot main body and an outer edge part, the flowerpot main body is connected with the outer edge part, and the flowerpot main body is provided with an opening and a containing cavity communicated with the opening, so that the flowerpot main body can contain soil to plant flowers and plants; because the outer edge part is arranged around the opening, all the positions of the edge of the opening of the flowerpot main body can be connected with the outer edge part, and a user moves the flowerpot through the outer edge part, so that the use convenience of the flowerpot is improved, and meanwhile, the strength of the flowerpot main body is improved; because the hollow cavity is formed in the outer edge part and has better strength, the plastic material consumption required by the flowerpot is saved.

In one embodiment, the flowerpot body and the outer edge part are integrally formed, so that the structure of the flowerpot is compact.

In one embodiment, the flowerpot body is detachably connected with the outer edge part, so that the flowerpot body and the outer edge part can be respectively molded and assembled together; in addition, because the flowerpot main body is detachably connected with the outer edge part, when the flowerpot main body is used, any part of the flowerpot main body or the outer edge part can be replaced when damaged, and the use cost of the flowerpot is reduced.

In one embodiment, a first annular flange is formed at a position, adjacent to the connecting portion, of the outer edge, a first buckle is formed on the inner wall of the first annular flange, a first clamping groove is formed in the flowerpot body, and the first buckle is buckled into the first clamping groove, so that the outer edge is detachably connected with the flowerpot body, and meanwhile, the outer edge is quickly detached from the flowerpot body.

In one embodiment, the inner wall of the first annular flange is further provided with a reinforcing rib, the reinforcing rib extends to the buckle and is connected with the buckle, the stress intensity of the buckle is improved, the outer edge part is reliably connected with the air pot main body, and the service life of the flowerpot is prolonged.

In one embodiment, the wall thickness of each position of the hollow cavity is equal, so that the outer edge part has better strength.

In one embodiment, the flowerpot main body is provided with a water seepage hole communicated with the accommodating cavity; the flowerpot still includes the supporting part, the supporting part supports and connects the flowerpot main part, the aqua storage tank has been seted up to the supporting part, the aqua storage tank with infiltration hole intercommunication makes and holds the unnecessary moisture of intracavity earth and store in can getting into the aqua storage tank through the infiltration hole to excessively causing the flower withering of watering, can adopt the water in the aqua storage tank when watering next time simultaneously, using water wisely.

Drawings

FIG. 1 is a schematic view of a plant pot manufactured by the manufacturing apparatus of the degradable plant pot according to an embodiment;

FIG. 2 is a partial schematic view of the flower pot of FIG. 1;

FIG. 3 is a cross-sectional view of the pot of FIG. 2;

FIG. 4 is a schematic view of an outer edge portion of the flower pot of FIG. 2;

fig. 5 is a schematic view of a flowerpot body of the flowerpot shown in fig. 2.

Detailed Description

In order to facilitate understanding of the present invention, the production equipment of the degradable flowerpot will be described more fully with reference to the related drawings. The attached drawings show a preferred embodiment of the production equipment of the degradable flowerpot. However, the manufacturing apparatus of the degradable flower pot can be implemented in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided so that this disclosure of the manufacturing apparatus for the degradable plant pot will be more thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the manufacturing apparatus for the degradable flower pot is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1 and 2, a manufacturing apparatus of a degradable flowerpot according to an embodiment is used for manufacturing the flowerpot 10. In one embodiment, the pot 10 includes a pot body 100 and a rim portion 200. The port body is formed with an opening 110 and a receiving chamber 120 communicating with the opening. Referring also to fig. 3, the outer rim portion is disposed around the opening, and a hollow cavity 210 is formed in the outer rim portion. The connecting part is connected with the flowerpot main body.

The production equipment of the degradable flowerpot is used for manufacturing the flowerpot, the flowerpot comprises a flowerpot main body and an outer edge portion, the flowerpot main body is connected with the outer edge portion, and the flowerpot main body is provided with an opening and a containing cavity communicated with the opening, so that the flowerpot main body can contain soil for planting flowers and plants. Because outer edge surrounds the opening setting, each position at the opening edge of messenger's flowerpot main part all can be connected with outer edge, and the user moves the flowerpot through outer edge, improves the convenient to use nature of flowerpot, has improved flowerpot main part's intensity simultaneously. Because the hollow cavity is formed in the outer edge part and has better strength, the plastic material consumption required by the flowerpot is saved.

Further, the flowerpot main body is round platform column structure, and the tip diameter that the flowerpot main body is close to outer edge portion is greater than the tip diameter of keeping away from outer edge portion promptly to form round platform column shape and hold the chamber structure, so that hold earth better, make the structural strength of flowerpot main body better simultaneously.

In one embodiment, the flowerpot body and the outer edge part are integrally formed, so that the structure of the flowerpot is compact. In this embodiment, the flowerpot main body and the outer edge part are integrally injection-molded, so that the structure of the flowerpot is compact. In other embodiments, the flowerpot body and the outer edge part can be respectively molded and connected together through gluing.

It can be understood that the materials of the flowerpot main body and the outer edge part are both plastics, so that the flowerpot main body and the outer edge part can be both injection-molded. In one embodiment, the flowerpot body can be made of waste plastics, so that the manufacturing cost of the flowerpot body is greatly reduced. In one embodiment, the outer edge part can be made of waste plastics, and the flowerpot main body can also be made of the waste plastics, so that the manufacturing cost of the flowerpot is greatly reduced. That is to say, the whole flowerpot can be manufactured and molded by adopting waste plastics, and has the effects of low cost, environmental protection and energy conservation. In one embodiment, the flowerpot is made of degradable materials, so that the flowerpot can be automatically degraded after being discarded, and the requirement of environmental protection is met.

In one embodiment, the flowerpot body is detachably connected with the outer edge part, so that the flowerpot body and the outer edge part can be respectively molded and assembled together. In addition, because the flowerpot main body is detachably connected with the outer edge part, when the flowerpot main body is used, any part of the flowerpot main body or the outer edge part can be replaced when damaged, and the use cost of the flowerpot is reduced.

In one embodiment, as shown in FIG. 3, a first annular flange 220 is formed on the outer rim portion adjacent the connecting portion. Referring also to fig. 4, the inner wall of the first annular flange is formed with a first catch 222. Referring to fig. 5, the flowerpot body is provided with a first clamping groove 130, and the first buckle is buckled into the first clamping groove, so that the outer edge part is detachably connected with the flowerpot body, and the outer edge part and the flowerpot body can be quickly disassembled and assembled.

In one embodiment, the inner wall of the first annular flange is further provided with a reinforcing rib, the reinforcing rib extends to the buckle and is connected with the buckle, the stress intensity of the buckle is improved, the outer edge part is reliably connected with the air pot main body, and the service life of the flowerpot is prolonged.

It will be appreciated that in other embodiments, the detachable connection of the outer edge portion to the flowerpot body is not limited to a snap connection, but may also be a threaded connection. Specifically, the inner wall of the first annular flange is provided with first threads, the outer wall of the flowerpot main body is provided with second threads, and the first threads are in threaded connection with the second threads to enable the outer edge to be in threaded connection with the flowerpot main body.

As shown in fig. 3, further, the flowerpot body includes a body 100a and a connecting portion 100b connected with each other, and the body is connected with the outer edge portion through the connecting portion, so that the flowerpot body is connected with the outer edge portion. In this embodiment, hold the chamber and offer basin body and connecting portion respectively, make and hold the chamber and offer the flowerpot main part. In one embodiment, the flowerpot body and the connecting part are both in a circular truncated cone shape, so that the flowerpot body is in a circular truncated cone shape.

Furthermore, the flowerpot body and the connecting part can be detachably connected, so that the flowerpot body or the connecting part can be replaced as required, and the use cost of the flowerpot is further reduced. In this embodiment, be equipped with the third screw thread in the basin body, connecting portion are equipped with the fourth screw thread, and third screw thread and fourth screw thread threaded connection make basin body and connecting portion can dismantle and be connected. The second screw thread is arranged on the outer wall of the connecting part. It will be appreciated that in other embodiments, the basin body and the connecting portion are not limited to a threaded connection, but may be a snap connection. Of course, the flowerpot body and the connecting part can be integrally formed, so that the structure of the flowerpot main body is more compact.

In one embodiment, a second buckle is formed at a position of the basin body, which is adjacent to the connecting part, the connecting part is provided with a second clamping groove matched with the second buckle, and the second buckle is clamped into the second clamping groove, so that the basin body is connected with the connecting part in a buckling manner. In this embodiment, the structure of second buckle is the same with the structure of first buckle, and first buckle also can be connected with the buckle with the second draw-in groove, makes the basin body can be connected with outer edge portion buckle, and like this, connecting portion selectively assembles to the basin on one's body. When the soil needed by the plant is more, the flowerpot body is connected with the outer edge part through the connecting part, so that the height of the flowerpot main body is increased. On the contrary, when the soil needed by the plant is less, the connecting part is removed, so that the flowerpot body is directly connected with the outer edge part, and the height of the flowerpot main body is reduced. So, the height of flowerpot can be adjusted in a flexible way, has improved the convenient to use nature of flowerpot. It is to be understood that the number of the connecting portions is not limited to one, and may be plural. The connecting parts are stacked and buckled together. The basin body can be connected to the outer edge part through a plurality of connecting parts in a buckling mode. In an embodiment, projections of the second buckle and the first buckle in the vertical direction are overlapped, so that the first buckle and the second clamping groove can be connected in a buckling mode.

In order to make the outer edge have better strength, in one embodiment, the wall thickness of each position of the hollow cavity is equal, so that the outer edge has better strength. In one embodiment, the wall thickness of the outer edge part is 1 mm-2 mm, so that the thickness of the outer edge part is thicker, and the flowerpot has better strength.

As shown in fig. 3, in one embodiment, the flowerpot body is provided with a water seepage hole 140 communicated with the accommodating cavity. Referring to fig. 1, the flowerpot further comprises a bearing part 300, and the bearing part supports and connects the flowerpot body. In this embodiment, the supporting portion is located at the bottom of the flowerpot body. Further, the aqua storage tank has been seted up to the portion of bearing, the aqua storage tank with infiltration hole intercommunication makes and holds the unnecessary moisture of intracavity earth and store in can getting into the aqua storage tank through the infiltration hole to excessively causing the flower withering of watering, can adopt the water in the aqua storage tank when watering next time simultaneously, with the using water wisely.

In one embodiment, the bearing part is detachably connected with the flowerpot main body, when the flowerpot is used, if the flowerpot main body needs to be moved to the position where sunlight shines, the requirement of discontinuous photosynthesis of flowers and trees is met, the bearing part does not need to be moved together, and the using convenience of the flowerpot is improved. In this embodiment, the bearing part is connected with the flowerpot main body in a buckling manner.

Furthermore, the bearing part is provided with a clamping groove, the outer wall of the flowerpot body is provided with a convex buckle matched with the clamping groove, and the convex buckle is clamped into the clamping groove to clamp the bearing part and the flowerpot body. In other embodiments, the connection between the bearing part and the flowerpot main body is not limited to a clamping manner, and can also be a threaded connection.

As shown in fig. 1, in order to avoid the problem of excessive water stored in the bearing part, an overflow hole 310 is further formed at an end of the bearing part adjacent to the flowerpot body, and the overflow hole is communicated with the water storage tank, so that water in the water storage tank can be discharged through the overflow hole, and the problem of excessive water stored in the bearing part is avoided.

In order to improve the watering convenience, the flowerpot further comprises a water pump, a main pipe and a water sprinkling ring. The water inlet of the water pump is communicated with the water storage tank, so that the water pump can pump water in the water storage tank. The water pump is communicated with one end of the main pipe. The water sprinkling ring is arranged at the outer edge part and is communicated with the other end of the main pipe, so that the water pump is communicated with the water sprinkling ring through the main pipe. The extension direction of the water sprinkling ring is the same as that of the outer edge part. Spill water ring orientation and hold the direction in chamber and seted up and spill the water hole, make and spill water ring orientation and hold the intracavity and spray water, realize watering. In this embodiment, the water sprinkling ring has a ring-shaped structure. The number of the water sprinkling holes is multiple, and the water sprinkling holes are distributed along the circumferential interval of the water sprinkling ring, so that the water sprinkling ring can rapidly water the stems of the flowers and the trees in the accommodating cavity. In order to increase the watering area of the single water sprinkling hole, furthermore, each water sprinkling hole is in a cross shape, so that the watering area of the single water sprinkling hole is larger.

Furthermore, the water sprinkling ring is glued on the outer edge part, so that the water sprinkling ring is firmly connected with the outer edge part. In order to improve the convenience of the flowerpot, the water sprinkling ring and the outer edge part can be connected in a detachable connection mode. In one embodiment, the inner peripheral wall of the outer edge part is provided with a plurality of bearing blocks which support the water sprinkling ring together, so that the water sprinkling ring is rapidly arranged at the outer edge part. In this embodiment, a plurality of supporting blocks are distributed at intervals along the circumferential direction of the outer edge part, so that the outer edge part can better support the water sprinkling ring.

In one embodiment, each support block is a plastic block, and each support block is glued on the outer edge part, so that the support blocks are firmly connected with the outer edge part. In this embodiment, the rim portion and the plurality of support blocks are each formed and joined together by adhesive bonding. In other embodiments, the outer edge part and the plurality of bearing blocks can be integrally formed by injection molding, so that the flowerpot is more compact in structure.

In order to avoid the blockage of the water pump, the flowerpot further comprises a filter screen, and the filter screen is wrapped at the water inlet of the water pump. The filter screen is provided with a plurality of water filtering holes with preset diameters so as to block solid particles with the diameters larger than the preset diameters outside the filter screen and avoid the blockage of a water inlet of the water pump.

However, when the filter screen stays on the side of the water inlet deviating from the water pump, too many solid particles with larger diameters tend to block the water passing capacity of the filter screen, and the water inlet capacity of the water inlet of the water pump is poor. For the water intake ability that improves the water inlet of water pump, furtherly, the bearing part includes casing, first filter screen and second filter screen, and the aqua storage tank is seted up on the casing, and first filter screen and second filter screen are located on the casing side by side. A plurality of first via holes have been seted up to first filter screen, and a plurality of second via holes have been seted up to the second filter screen, and the diameter of first via hole is greater than the diameter of second via hole, and the diameter of second via hole is less than and predetermines the diameter, makes the great solid particle of diameter at first block the one side that deviates from the second filter screen at first filter screen, and the fixed granule of diameter second passes through first filter screen and blocks the one side that is close to first filter screen at the second filter screen after that, makes the bearing part realize filtering layer upon layer. It is understood that in other embodiments, the number of the filter screens of the carrying portion is not limited to two, and is not limited to the first filter screen and the second filter screen, and filter screens with different specifications can be additionally arranged as required.

For avoiding infiltration hole jam and the more problem of solid particle on the first filter screen, furtherly, the flowerpot still includes the primary filter screen, and the primary filter screen is located the bottom that holds the chamber of flowerpot main part, and primary filter screen and infiltration hole intercommunication make and hold the intracavity infiltration and flow out the infiltration hole after the filtration of primary filter screen earlier, avoid infiltration hole jam and the more problem of first filter screen solid particle.

Furthermore, the flowerpot also comprises a positioning sleeve, a central boss is formed on the inner wall of the containing cavity of the flowerpot main body, and the positioning sleeve is covered on the central boss. The water seepage holes are formed on the side wall of the central boss. After the cultivation plant, water in the soil that spills the water ring and hold the intracavity, absorb the remaining water of back by soil and can flow downwards, unnecessary water can enter into the position sleeve in and flow into the aqua storage tank from the infiltration hole, ensure unnecessary water and can not stop in soil, can not lead to moisture excessive when guaranteeing that soil is moist, avoid the long-term water of steeping of root of plant and influence growth rotten root necrosis even, make the difficult infiltration hole that blocks up in the infiltration hole that gets into of the great solid particle of diameter in the soil simultaneously.

In one embodiment, the primary filter screen is sleeved on the central boss and is tightly pressed between the positioning sleeve and the central boss, so that the primary filter screen is reliably positioned to primarily filter water entering the water seepage holes, and the problem that the water seepage holes are blocked by solid particles is further solved. In this embodiment, the position sleeve can be dismantled and connect in central boss to wash prefiltration net regularly, avoid the problem that prefiltration net blockked up better.

Furthermore, the central boss is provided with a first screwed part, the positioning sleeve is internally provided with a second screwed part, and the second screwed part is matched with the first screwed part to ensure that the central boss is in threaded connection with the positioning sleeve, so that the positioning sleeve can be detachably connected with the central boss. It can be understood that, in other embodiments, the central boss and the positioning sleeve are not limited to be connected in a threaded manner, but can also be connected in a clamping manner.

In order to realize automatic watering, further, the flowerpot further comprises a humidity sensor and a controller. Humidity transducer locates and holds the humidity of intracavity in order to detect earth. The controller is respectively connected with the humidity sensor and the control end of the water pump. The controller controls the switch of the water pump according to the humidity measured by the humidity sensor. When the humidity measured by the humidity sensor is lower than a preset humidity value, the controller controls the water pump to be turned on, namely, controls the water pump to work. In contrast, the controller controls the water pump to be turned off when the humidity measured by the humidity sensor is higher than or equal to a predetermined humidity value. So, realize flowerpot automatic watering control. In this embodiment, the controller is a PLC controller, so that the control program of the controller can be flexibly programmed, thereby improving the flexibility of the controller.

Further, the flowerpot also comprises a setting module, and the setting module is used for setting a preset humidity value of the plants. The setting module is connected with the controller. The user can set for corresponding predetermined humidity value according to the humidity requirement of different plants, has improved the convenient to use nature of flowerpot.

Further, the flowerpot further comprises a storage module, and the storage module is connected with the setting module and the controller respectively. The storage module is used for storing a preset humidity value. When the preset humidity value is set by the setting module, the preset humidity value is stored by the storage module so as to be directly used next time.

In order to improve the use convenience of the flowerpot, the flowerpot further comprises a selection module, and the selection module is connected with the storage module. The setting module is also used for simultaneously setting a plurality of preset humidity values, and the preset humidity values correspond to various plants one by one, so that a user can set the preset humidity values. For a specific plant, the user selects the corresponding predetermined humidity value by the selection module. The use convenience of the flowerpot is improved.

In order to improve the detection precision of the humidity of soil, the flowerpot further comprises a convex column which is positioned in the accommodating cavity and connected with the flowerpot main body. A plurality of water measuring holes are formed in the outer wall of the convex column, a cavity is formed in the convex column along the axial direction, and the cavity is communicated with the water measuring holes respectively. The humidity sensor is arranged in the cavity, so that the water on the periphery of the convex column can enter through each water measuring hole, and the humidity sensor can collect and measure the humidity value. In this embodiment, the temperature sensor is a belt structure, so that the humidity sensor can better collect and measure the humidity value. A plurality of water measuring holes are distributed on the convex column at intervals.

Furthermore, the number of the convex columns is multiple, and the convex columns are arranged in the accommodating cavity at intervals in parallel. A corresponding humidity sensor is arranged in each convex column. The controller is respectively in communication connection with the humidity sensors in the plurality of convex columns. The controller respectively analyzes humidity value data returned by the plurality of humidity sensors in the same time to obtain an average value of the humidity values in the accommodating cavity. The controller also compares the average value of the humidity values with a preset humidity value to control the on-off of the water pump, so that the controller can better control the operation of the water pump according to the actual humidity condition in the flowerpot main body. When the average value of the humidity values is lower than the preset humidity value, the controller controls the water pump to be turned on, namely controls the water pump to work. In contrast, the controller controls the water pump to be turned off when the average of the humidity values is higher than or equal to a predetermined humidity value. In this embodiment, a plurality of projection interval distribution make the moisture that holds the intracavity can get into neighbouring projection fast in holding the intracavity, make a plurality of projections can accurately survey the humidity situation that holds the chamber, have improved flowerpot automatic watering's accuracy, can avoid the operation that the flowerpot mistake was watered better.

In order to improve the use convenience of the flowerpot, furthermore, each convex column is detachably connected with the flowerpot main body, so that the humidity sensor in the convex column can be replaced or maintained, and the use convenience of the flowerpot is improved. In this embodiment, the bottom of flowerpot main part is protruding to be equipped with the boss, is equipped with the card convex part on the boss outer wall. The inner wall of each convex column is provided with a groove communicated with the cavity, and the clamping convex part is clamped in the groove to enable the flowerpot main body to be connected with the convex column in a buckling mode.

According to the production equipment of the degradable flowerpot, the flowerpot main body is connected with the outer edge part through the connecting part, and the flowerpot main body is provided with the opening and the accommodating cavity communicated with the opening, so that the flowerpot main body can contain soil to plant flowers and plants; because the outer edge part and the connecting part are arranged around the opening, and the connecting part is of a circular ring structure, all the positions of the edge of the opening of the flowerpot main body can be connected with the outer edge part through the connecting part, a user moves the flowerpot through the outer edge part, the use convenience of the flowerpot is improved, and meanwhile, the strength of the flowerpot main body is improved; because the hollow cavity is formed in the outer edge part and has better strength, the plastic material consumption required by the flowerpot is saved.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (8)

1. The production equipment of the degradable flowerpot is characterized in that the production equipment is used for manufacturing the flowerpot, and the flowerpot comprises:

the flowerpot comprises a flowerpot body, a plurality of clamping pieces and a plurality of clamping pieces, wherein the flowerpot body is provided with an opening and an accommodating cavity communicated with the opening;

the outer edge part is arranged around the opening, and a hollow cavity is formed in the outer edge part; the outer edge part is connected with the flowerpot main body.

2. The apparatus for producing a degradable flowerpot according to claim 1, wherein the flowerpot body and the outer edge part are integrally formed.

3. The apparatus for producing a degradable flowerpot according to claim 1, wherein the flowerpot body is detachably connected with the outer edge part.

4. The production equipment of the degradable flowerpot according to claim 3, wherein a first annular flange is formed on the outer edge, a first buckle is formed on the inner wall of the first annular flange, a first clamping groove is formed in the flowerpot body, and the first buckle is buckled into the first clamping groove.

5. The apparatus for producing a degradable flowerpot according to claim 4, wherein the inner wall of the first annular flange is further formed with a reinforcing rib, and the reinforcing rib extends to and is connected with the buckle.

6. The apparatus for producing a degradable flowerpot according to any one of claims 1 to 4, wherein the wall thickness of each position of the hollow cavity is equal.

7. The production equipment of the degradable flowerpot according to any one of claims 1 to 4, wherein the flowerpot body is provided with water seepage holes communicated with the containing cavity; the flowerpot further comprises a bearing part, the bearing part supports and is connected with the flowerpot main body, a water storage tank is arranged on the bearing part, and the water storage tank is communicated with the water seepage holes.

8. The production equipment of the degradable flowerpot according to any one of claims 1 to 4, wherein the flowerpot body comprises a connected pot body and a connecting part, and the pot body is connected with the outer edge part through the connecting part.

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