CN109549272B

CN109549272B - Automatic rose that holds

Info

Publication number: CN109549272B
Application number: CN201910109275.1A
Authority: CN
Inventors: 王燕红; 陈宇欣; 蔡语倩; 李欣怡; 戴佳静; 王英姿; 吴玟遐
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-02-08
Filing date: 2019-02-08
Publication date: 2020-06-05
Anticipated expiration: 2039-02-08
Also published as: CN109549272A

Abstract

The invention discloses an automatic rose, which comprises a flower stem part, a flower support part, a petal part, a control pipe and a control mechanism, wherein the flower stem part is arranged on the flower support part; the petal parts are adhered to the upper end of the receptacle part according to the shape of the blooming rose, and the middle part of the inner side of each petal part is connected with one end of the pull rope; the other end of the pull rope enters the flower handle part; a piston is arranged in the handle part, the upper end of the piston is connected with a connecting ring, and the lower end of the pull rope is tied on the connecting ring; a spring is arranged between the flower support part and the piston, an effervescent pipe for containing a plurality of effervescent tablets is bonded on one side of the upper part of the inner wall of the control pipe, and water is also filled at the lower part of the control pipe; the upper end and the lower end of the effervescence tube are opened, and a baffle plate is adhered to the inner wall of the control tube below the effervescence tube; the side wall of the effervescence tube is provided with a through hole; the control mechanism comprises a control box, a control rod, a control ring and a bimetallic strip; the control ring is positioned between the baffle plate and the effervescent pipe; the middle part of the control rod is sleeved with an annular plug; the bimetallic strip is bonded with one end of the control rod far away from the control ring. The invention has novel structure and strong interest, and can be repeatedly and automatically opened.

Description

Automatic rose that holds

Technical Field

The invention belongs to the field of art ornaments, and particularly relates to a structure for automatically containing roses.

Background

In order to satisfy the wish that people can see the rose opening anytime and anywhere, the prior art also utilizes various modes such as air pressure and the like to deform the receptacle so as to achieve the scene that the rose is opened, the receptacle can deform and the rose can be opened to a larger extent, but when the receptacle contracts after being opened, the petals can support each other, so that the contraction amplitude is relatively small, and the receptacle looks relatively fluffy. And utilize effervescent tablet to produce gas, make the receptacle warp through atmospheric pressure, do not have the function that makes the rose close automatically, open the back at every turn, all need the manual work to carry out the gassing operation to it and make the receptacle reset, and need add effervescent tablet again and just can make the receptacle open next time, greatly increased the cost of labor like this, increased the cost of later maintenance.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the defects in the prior art, the rose which has novel structure and strong interest and can be repeatedly and automatically bloomed is provided.

In order to realize the purpose of the invention, the following technical scheme is adopted for realizing the purpose:

an automatic rose comprises a hard hollow tubular flower stem part, a flower support part connected to the upper end of the flower stem part, and a plurality of elastic petal parts fixedly connected to the upper end of the flower support part; the control tube is hermetically connected to the lower end of the handle part of the flower and is provided with an opening at the upper end, and the control mechanism is connected with the control tube;

the upper end of the flower support part is a concave spherical surface, and a through hole communicated with the flower handle part is formed in the middle of the flower support part from top to bottom; the petal parts are adhered to the upper end of the receptacle part according to the shape of the blooming rose, and the middle part of the inner side of each petal part is connected with a pull rope; one end of the pull rope is adhered to the petal part, and the other end of the pull rope penetrates through the petal part on the inner side and enters the petal part through the through hole;

a piston matched with the inner wall of the flower stem part is further arranged in the flower stem part, the middle of the upper end of the piston is fixedly connected with a connecting ring, and the lower end of the pull rope is tied on the connecting ring; a spring is also arranged between the receptacle part and the piston, the spring is sleeved outside the pull rope, the lower end of the spring is in abutting connection with the piston, and the upper end of the spring is in abutting connection with the receptacle part; the spring downwards extrudes the piston, so that the piston downwards pulls the pull rope, and the petal parts are in an inwards contracted state;

an effervescent tube containing a plurality of effervescent tablets is bonded on one side of the upper part of the inner wall of the control tube, and water for dissolving the effervescent tablets is also filled at the lower part of the control tube; the upper end and the lower end of the effervescent pipe are opened, and a baffle plate for preventing the effervescent tablets from falling into water is also bonded on the inner wall of the control pipe below the effervescent pipe; the side wall of the effervescent pipe is provided with a through hole, and the through hole is positioned between the baffle plate and the effervescent pipe;

the control mechanism comprises a control box which is bonded on the upper end opening of the outer side wall of the control tube, a cover plate which is detachably connected with the opening part of the control box in a covering mode, a control rod which is movably inserted in the through hole, a control ring which is connected with the end, close to the effervescent tube, of the control rod, and a bimetallic strip of which the lower end is fixedly connected with the inner bottom wall of the control box; the control ring is positioned between the baffle plate and the effervescent pipe, and one effervescent tablet is arranged in the control ring; the middle part of the control rod is sleeved with an annular plug for sealing the through hole; the bimetallic strip is heated to bend towards the control tube; the bimetallic strip is bonded with one end of the control rod, which is far away from the control ring; the side wall of the control box, which is far away from the control pipe, is provided with an air outlet;

the rose is placed in a high-temperature environment, the bimetallic strip is heated and bends towards the direction of the control rod, the control rod is pushed into the control pipe after the bimetallic strip bends, when the control ring is completely dislocated with the baffle, the effervescent piece in the control ring falls into water, at the moment, the gap between the through hole and the control rod is blocked by the annular plug, the effervescent piece is dissolved in the water to gradually generate carbon dioxide, so that the air pressure below the piston gradually rises, the lower ends of the piston and the pull rope are gradually pushed upwards by the air pressure, and the petal parts are gradually reset and opened under the self elasticity; when the ambient temperature reduces gradually, bimetallic strip temperature also reduces gradually, and bimetallic strip resets gradually and is pulling control lever and control ring and resets gradually, and annular stopper and through-hole separation, carbon dioxide are discharged from through-hole and venthole, and the spring promotes the piston and moves down to reset, and the stay cord moves down the in-process at the piston and pulls petal portion downwards, and petal portion contracts inwards, and after the control ring resets completely, the effervescent tablet in the effervescence pipe drops an entering control ring again.

Further optimally: the upper port part of the effervescent pipe is inserted with a plug for preventing the effervescent tablets from pouring out.

Further optimally: the middle part of the lower end of the flower support part is bonded with a rubber insertion part, the through hole penetrates through the insertion part, the insertion part is inserted into the upper end of the flower stem part, and the outer wall of the insertion part is in interference fit with the inner wall of the flower stem part.

Further optimally: the flower handle part is in threaded connection with the control pipe, an internal thread is arranged on the inner wall of the flower handle part close to the mouth part, and an external thread matched with the internal thread is arranged on the outer wall of the control pipe close to the mouth part; the external thread is arranged above the cover plate.

Further optimally: the pull rope is a transparent nylon wire.

Further optimally: the control box and the cover plate are made of transparent materials.

Compared with the prior art, the invention has the main beneficial effects that: 1. the pull rope is pulled downwards by the piston through the spring, so that the petal parts are directly pulled to contract inwards, the pulling force of the pull rope can better overcome the supporting force among the petal parts, and compared with the traditional method of utilizing the receptacle to reset to fold the petals, the petal parts can be folded more thoroughly and more compactly through the spring and the pull rope, and cannot be fluffy. 2. Utilize effervescent tablet to dissolve in water, emit carbon dioxide and increase pressure and upwards promote the piston for the spring is extruded, and the stay cord lower extreme shifts up, and the stay cord no longer pulls the petal downwards, and petal portion will reset under self elasticity like this, resumes the flourishing state of rose, thereby reaches the effect of flourishing blooming. 3. The flowers can be bloomed generally under the condition of high temperature, the invention utilizes the bimetallic strip to deform the bimetallic strip through the temperature of the environment, thereby driving the control rod and the control ring to move, enabling the control ring to be staggered with the baffle plate, so that the effervescent pieces in the control ring can fall into water to generate carbon dioxide for driving the piston, and the invention is more in line with the natural law. 4. The bimetallic strip still makes the annular stopper plug up the through-hole when the drive control lever removes, has just so formed airtight space between control tube and the piston, and the bimetallic strip has played the effect of controlling more, and the design is very ingenious. 5. When the temperature is reduced, the bimetallic strip pulls the control rod, the control ring and the annular plug to move together, the annular plug leaves the through hole, carbon dioxide in the control pipe is discharged from the through hole and the air outlet hole, so that the spring can push the piston to move downwards, the piston can pull the pull rope downwards, and the pull rope can pull the petal part to enable the petal part to contract; the control ring is reset, and the effervescent tablets in the effervescent tubes fall into the control ring again, so that the effervescent tablets can be used when the temperature rises next time. Thus, the following problems in the background art are solved: can not repeatedly bloom, can artificially release gas, can be added with effervescent tablets again, and the like. If more effervescent tablets are placed in the effervescent tube, the more times the invention is opened, so that the later maintenance intervals can be longer. Compared with the prior art, the labor cost is reduced, and the later maintenance cost is reduced. 6. The upper end of the effervescent pipe is inserted with a plug, and when the plug is pulled out, effervescent tablets can be added into the effervescent pipe, so that later maintenance is facilitated; when the plug is inserted, during transport. Can prevent the effervescent tablet from being poured out of the effervescent tube. 7. The flower support part is inserted on the flower handle part through the insertion part, so that the assembly and disassembly of the flower support part and the flower handle part are convenient, and the spring, the piston or the pull rope and the like can be conveniently replaced in the later period, so that the flower support is not disposable and can be used for a long time. 8. The flower handle part is in threaded connection with the control tube, after the effervescent tablets in the effervescent tube are used up, the control tube can be conveniently unscrewed from the flower handle part, then the effervescent tablets are added into the effervescent tube, and water in the control tube can also be cleaned and added again. 9. The pull rope is a transparent nylon thread, so that people cannot easily find the pull rope when watching the invention, and the beauty and the authenticity of the invention are not easily influenced. 10. The control box and the cover plate are made of transparent materials, so that sunlight can irradiate the bimetallic strip when the sunlight exists, the bimetallic strip can be heated, the bimetallic strip is easy to heat and deform, the control rod and the control ring can be pushed, and the purpose of the invention is achieved more easily.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a partially exploded schematic view of the structure of the present invention.

FIG. 3 is a schematic view of the connection between the pull wire and the petal part.

Fig. 4 is a perspective view of the control tube and control box of the present invention.

FIG. 5 is a cross-sectional view of the control tube and control mechanism of the present invention.

Fig. 6 is a schematic view of the positions of the control ring, control rod, etc. when the bimetal of the present invention is not bent.

Fig. 7 is a schematic view of the position of the control ring, lever, etc. when the bimetal of the present invention is bent.

Fig. 8 is a schematic view of the petal section of the present invention when fully opened.

Reference numerals: 1. a flower stalk portion; 11. a spring; 12. a piston; 121. a connecting ring; 2. a receptacle portion; 21. a plug-in part; 3. a petal section; 31. pulling a rope; 4. a control tube; 41. an effervescent tube; 411. a plug; 42. a baffle plate; 5. a control mechanism; 51. a control box; 52. a cover body; 53. a control lever; 531. an annular plug; 54. a control loop; 55. a bimetal strip.

Detailed Description

A detailed description of an embodiment of the present invention is provided below with reference to fig. 1-8.

Example 1

This embodiment is an automatic rose, as shown in fig. 1 and 2: comprises a hard hollow tubular flower stem part 1, a flower support part 2 connected at the upper end of the flower stem part 1, and a plurality of elastic petal parts 3 fixedly connected at the upper end of the flower support part 2. The flower-stem-type flowerpot further comprises a control tube 4 which is connected to the lower end of the flower stem part 1 in a sealing mode and is provided with an opening at the upper end, and a control mechanism 5 which is connected with the control tube 4.

The upper end of the flower support part 2 is a concave spherical surface, and a through hole communicated with the flower handle part 1 is formed in the middle of the flower support part 2 from top to bottom. The petal parts 3 are adhered to the upper end of the flower support part 2 according to the shape of the blooming rose (as shown in figure 8), and the middle part of the inner side of each petal part 3 is connected with a pull rope 31. As shown in fig. 3, the string 31 has one end bonded to the petal section 3 connected thereto, and the other end penetrating the inner petal section 3 and entering the shank section 1 through the through hole.

As shown in fig. 2: the inside of the handle part 1 is also provided with a piston 12 matched with the inner wall of the handle part 1, the middle part of the upper end of the piston 12 is fixedly connected with a connecting ring 121, and the lower end of the pull rope 31 is tied on the connecting ring 121. Still be equipped with spring 11 between receptacle portion 2 and the piston 12, spring 11 overlaps outside the stay cord 31, and spring 11 lower extreme is contradicted with piston 12 and is connected, and the upper end is contradicted with receptacle portion 2 and is connected. The spring 11 presses the piston 12 downward, so that the piston 12 pulls the pull rope 31 downward, so that the petal portions 3 are in an inwardly contracted state.

As shown in fig. 5: an effervescent tube 41 for containing a plurality of effervescent tablets is bonded on one side of the upper part of the inner wall of the control tube 4, and water for dissolving the effervescent tablets is also filled at the lower part of the control tube 4. The upper end and the lower end of the effervescence tube 41 are opened, and a baffle 42 for preventing the effervescence tablets from falling into water is also bonded on the inner wall of the control tube 4 below the effervescence tube 41. The side wall of the effervescent pipe 41 is provided with a through hole, and the through hole is positioned between the baffle plate 42 and the effervescent pipe 41.

As shown in fig. 5-6: the control mechanism 5 comprises a control box 51 which is bonded on the upper end opening of the outer side wall of the control tube 4, a cover plate which is detachably covered on the opening part of the control box 51, a control rod 53 which is movably inserted in the through hole, a control ring 54 which is connected with the end of the control rod 53 close to the effervescent tube 41, and a bimetallic strip 55 of which the lower end is fixedly connected with the inner bottom wall of the control box 51. The control rod 53 is preferably made of an elastic material, which better accommodates the bending of the bimetal 55, so that it is better pushed into the control tube 4 by the bimetal 55. The control rod 53 is integrally formed with the control ring 54. The control ring 54 is positioned between the baffle 42 and the effervescent pipe 41, and one effervescent tablet is arranged in the control ring 54. The middle part of the control rod 53 is sleeved with an annular plug 531 for sealing the through hole, and the annular plug 531 is adhered to the control rod 53. The bimetal 55 is bent in the direction of the control tube 4 by heat. The end of the control rod 53 remote from the control ring 54 is bonded to the bimetal 55. The side wall of the control box 51 far away from the control tube 4 is provided with an air outlet.

During the use, preferably open the apron earlier, place this rose in high temperature environment again, bimetallic strip 55 is heated and is crooked to control lever 53 direction, bimetallic strip 55 is crooked after to promote control lever 53 in controlling pipe 4, after control ring 54 misplaces with baffle 42 completely (as shown in fig. 7), the effervescent tablet in the control ring 54 falls into in the water, annular stopper 531 and the outer wall in control pipe 4 in close contact with this moment, and plug up the gap between through-hole and control lever 53, the effervescent tablet dissolves and produces carbon dioxide in the water gradually, make the atmospheric pressure of piston 12 below rise gradually, piston 12 and stay cord 31 lower extreme are upwards promoted by atmospheric pressure gradually, petal portion 3 resets gradually under self elasticity, the rose is flourished (as shown in fig. 8, the rose side view). When the ambient temperature is gradually reduced, the temperature of the bimetallic strip 55 is also gradually reduced, the bimetallic strip 55 is gradually reset and pulls the control rod 53 and the control ring 54 to be gradually reset, the annular plug 531 is separated from the through hole, carbon dioxide is discharged from the through hole and the air outlet, the spring 11 pushes the piston 12 to move downwards for resetting, the pull rope 31 pulls the petal part 3 downwards in the downward moving process of the piston 12, the petal part 3 contracts inwards, and when the control ring 54 is completely reset, the effervescent tablets in the effervescent pipe 41 fall into the control ring 54.

The upper port of the effervescent tube 41 is plugged with a plug 411 for preventing the effervescent tablets from pouring out.

The middle part of the lower end of the flower support part 2 is bonded with a rubber insertion part 21, a through hole penetrates through the insertion part 21, the insertion part 21 is inserted into the upper end of the flower stem part 1, and the outer wall of the insertion part 21 is in interference fit with the inner wall of the flower stem part 1.

The flower stalk portion 1 and control tube 4 threaded connection, the 1 inner wall of flower stalk portion is close to the oral area and is equipped with the internal thread, the 4 outer walls of control tube are close to the oral area and are equipped with the external screw thread that matches with the internal thread. The external thread is arranged above the cover plate.

The pull rope 31 is a transparent nylon thread.

The petal part can be made of metal sheet or plastic sheet, and the surface is coated with rose-like color paint, such as pink paint.

The control box 51 and the cover plate are made of transparent materials, such as transparent PE plastics.

Example 2

This embodiment also sets up the control tube lower extreme as the opening on embodiment 1's basis, and this opening part inserts the rubber buffer, and when will pouring the water in the control tube, as long as pull out the rubber buffer can, it is convenient than embodiment 1, and can not pollute the effervescent pipe when clearing up water like in embodiment 1.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and those skilled in the art should be able to make general changes and substitutions within the technical scope of the present invention.

Claims

1. An automatic rose comprises a hard hollow tubular flower stem part, a flower support part connected to the upper end of the flower stem part, and a plurality of elastic petal parts fixedly connected to the upper end of the flower support part; the method is characterized in that: the control tube is hermetically connected to the lower end of the handle part of the flower and is provided with an opening at the upper end, and the control mechanism is connected with the control tube;

the control mechanism comprises a control box which is bonded on the upper end opening of the outer side wall of the control tube, a cover plate which is detachably connected with the opening part of the control box in a covering mode, a control rod which is movably inserted in the through hole, a control ring which is connected with the end, close to the effervescent tube, of the control rod, and a bimetallic strip of which the lower end is fixedly connected with the inner bottom wall of the control box; the control ring is positioned between the baffle plate and the effervescent pipe, and one effervescent tablet is arranged in the control ring; the middle part of the control rod is sleeved with an annular plug for sealing the through hole; the bimetallic strip is heated to bend towards the control tube; the bimetallic strip is bonded with one end of the control rod, which is far away from the control ring; and the side wall of the control box, which is far away from the control tube, is provided with an air outlet.

2. An automatically-contained rose according to claim 1 wherein: the upper port part of the effervescent pipe is inserted with a plug for preventing the effervescent tablets from pouring out.

3. An automatically-contained rose according to claim 1 wherein: the middle part of the lower end of the flower support part is bonded with a rubber insertion part, the through hole penetrates through the insertion part, the insertion part is inserted into the upper end of the flower stem part, and the outer wall of the insertion part is in interference fit with the inner wall of the flower stem part.

4. An automatically-contained rose according to claim 1 wherein: the flower handle part is in threaded connection with the control pipe, an internal thread is arranged on the inner wall of the flower handle part close to the mouth part, and an external thread matched with the internal thread is arranged on the outer wall of the control pipe close to the mouth part; the external thread is arranged above the cover plate.

5. An automatically-contained rose according to claim 1 wherein: the pull rope is a transparent nylon wire.

6. An automatically-contained rose according to claim 1 wherein: the control box and the cover plate are made of transparent materials.

7. The use of an automatically-contained rose as claimed in claim 1, wherein: the rose is placed in a high-temperature environment, the bimetallic strip is heated and bends towards the control rod, the control rod is pushed into the control pipe after the bimetallic strip bends, when the control ring is completely dislocated with the baffle, the effervescent piece in the control ring falls into water, at the moment, the gap between the through hole and the control rod is blocked by the annular plug, the effervescent piece is dissolved in the water to gradually generate carbon dioxide, so that the air pressure below the piston gradually rises, the lower ends of the piston and the pull rope are gradually pushed upwards by the air pressure, and the petal part is gradually reset and opened under the self elasticity; when the ambient temperature reduces gradually, bimetallic strip temperature also reduces gradually, and bimetallic strip resets gradually and is pulling control lever and control ring and resets gradually, and annular stopper and through-hole separation, carbon dioxide are discharged from through-hole and venthole, and the spring promotes the piston and moves down to reset, and the stay cord moves down the in-process at the piston and pulls petal portion downwards, and petal portion contracts inwards, and after the control ring resets completely, the effervescent tablet in the effervescence pipe drops an entering control ring again.