CN109724042B - Smoke flame simulating device - Google Patents

Abstract

The invention discloses a smoke simulation flame device which comprises a shell, a liquid storage container, a flame component, an atomizer and an air flow driving device, wherein a containing channel is arranged between the shell and the upper end of the liquid storage container; the liquid storage container is provided with a first air inlet hole; the flame component is provided with a smoke channel, the head part of the flame component is provided with a smoke outlet, the flame component passes through the accommodating channel in a clearance way, the lower end of the flame component is provided with a first blocking part, and the first blocking part is blocked below the first air inlet hole and the accommodating channel; the atomizer is arranged at the inner bottom of the liquid storage container; the air flow driving device is used for driving air flow to enter the liquid storage container from the first air inlet hole so as to form an air curtain for blocking smoke from entering the accommodating channel between the first air inlet hole and the first blocking part. The smoke simulation flame device can simulate the smoke state of the real flame when burning, and has good simulation effect.

Description

Smoke flame simulating device

Technical Field

The invention relates to a flame simulating device, in particular to a smoke flame simulating device.

Background

Most of the existing flame simulating devices only simulate the flame combustion dynamics and cannot simulate the effect of smoke generated by combustion; or only simulate the effect of generating smoke after combustion, and not simulate the flame combustion dynamics. In addition, although a small part can drive the flame head to swing through the driving device, the water tank and the atomizer are arranged at the same time to enable the flame head to generate smoke, so that the flame head can swing and generate smoke.

However, such simulated flame devices do not appear realistic because the flame head requires a certain amount of space to move about, and a gap is required between the flame head and the housing through which the fumes generated by the simulated flame devices are exhausted; thus, when viewed from the outside, smoke is generated from a position between the root of the flame head and the housing; however, in practice, smoke generated when the flame head burns is generated at the ignition point, that is, at the upper end of the flame head, and thus, the simulation effect of such smoke discharge is not ideal.

Disclosure of Invention

The invention aims to provide a smoke simulation flame device with good simulation effect.

In order to achieve the above purpose, the smoke simulated flame device provided by the invention comprises a shell, a liquid storage container, a flame component, an atomizer and an air flow driving device, wherein the liquid storage container is arranged in an inner cavity of the shell, and a containing channel is arranged between the shell and the upper end of the liquid storage container; the liquid storage container is provided with a first air inlet hole which is communicated with the inner cavity and the inside of the liquid storage container around the periphery of the accommodating channel; the flame component is provided with a smoke channel communicated with the liquid storage container, the head part of the flame component is provided with a smoke outlet communicated with the smoke channel, the flame component passes through the accommodating channel in a clearance way so that the head part extends out of the shell, the lower end of the flame component is provided with a first blocking part, the first blocking part is positioned at the upper side in the liquid storage container, and the first blocking part is blocked below the first air inlet hole and the accommodating channel at a certain distance from the first air inlet hole and the accommodating channel; the atomizer is arranged at the inner bottom of the liquid storage container to generate smoke; the air flow driving device is arranged in the inner cavity and is used for driving air flow to enter the liquid storage container from the first air inlet hole, so that an air curtain for blocking smoke from entering the accommodating channel is formed between the first air inlet hole and the first blocking part, and meanwhile, the smoke is driven to enter the smoke channel and be discharged from the smoke outlet.

Compared with the prior art, the first air inlet hole communicated with the inner cavity and the interior of the liquid storage container is formed in the periphery of the accommodating channel, the smoke channel is formed in the flame component, the smoke outlet communicated with the smoke channel is formed in the head part of the flame component, the first blocking part is arranged at the lower end of the flame component, and the first blocking part is blocked below the first air inlet hole and the accommodating channel at a certain distance from the first air inlet hole and the accommodating channel; therefore, when the air flow enters the liquid storage container from the first air inlet hole, an air curtain is formed, and the air curtain can prevent smoke from being discharged from the accommodating channel, namely, the smoke is prevented from being generated from the root of the flame component, and meanwhile, the smoke is forced to enter from the smoke channel and be discharged from the smoke outlet.

Preferably, the liquid storage container is provided with a second air inlet hole, and the second air inlet hole is positioned at the periphery of the first air inlet hole. The second air inlet hole can enable air flow in the inner cavity to enter the liquid storage container, so that smoke in the liquid storage container is driven to enter the smoke channel.

Preferably, the flame member is swingably provided. The swinging of the flame component can simulate the flash effect of the flame, so that the flame component is more vivid.

Specifically, be equipped with the support in the stock solution container, the support extends the pillar, the pillar is in clearance ground cover in the smog passageway, flame part load in the pillar. By hanging the flame component on the support column, the swinging resistance of the flame component can be reduced, so that the flame component swings more naturally and vividly, and the medicine electric energy is saved.

Specifically, a luminous body is arranged in the liquid storage container, the luminous body is fixed on the outer side of the support column, and the luminous body irradiates towards the flame component. By providing a light, the light may illuminate the head of the flame component, thereby bringing the flame component closer to the visual effect of a real flame.

Preferably, a luminous body is arranged in the liquid storage container, and the luminous body irradiates towards the flame component.

Specifically, a second blocking part is arranged in the liquid storage container and is positioned below the smoke channel. The second blocking part is used for blocking splash splashed during the working of the atomizer, so that the splash is prevented from splashing on the smoke channel and gathering near the inlet of the smoke channel to block the smoke channel, and the smooth discharge of the smoke is ensured.

Specifically, the both ends of support are equipped with first lug, the inner wall of stock solution container is equipped with first L type groove, first lug with first L type groove cooperation realizes the support with the stock solution container is connected. Therefore, the bracket and the liquid storage container can be quickly assembled and disassembled, and the maintenance is convenient and fast.

Specifically, the smoke simulation flame device further comprises a driving device for driving the flame component to swing.

Specifically, the driving device comprises a magnet arranged on the first blocking part and an electromagnetic coil for driving the magnet to act.

Preferably, the liquid storage container comprises an upper cover and a lower box body, and the upper cover is detachably covered on the lower box body.

Preferably, the outer wall of the upper cover is provided with a second lug, the inner wall of the lower box body is provided with a second L-shaped groove, and the second lug is connected with the second L-shaped groove in a matching way. Therefore, the upper cover and the lower box can be quickly installed and detached, and maintenance is convenient and fast.

Preferably, the smoke simulated flame device further comprises a circuit module for controlling each electrical component and a power supply device for supplying power to each electrical component.

Preferably, the shell comprises an upper shell and a base, and the upper shell is detachably connected with the base. Through detachable connection, the upper shell can be detached from the base, so that a user can conveniently maintain the inside.

Specifically, one of the upper shell and the base is provided with a self-locking switch, the other is provided with a clamping part, and the self-locking switch is clamped with the clamping part. Through the cooperation of self-locking switch and block portion, the user only need press once before dismantling go up the casing can the unblock go up the casing with the connection of base presses once again and can lock both connections to make the user install and dismantle more conveniently, greatly improve the convenience of use.

Drawings

Fig. 1 is a perspective view of a smoke simulated flame device of the present invention.

Fig. 2 is an exploded view of the smoke-simulated flame device of the present invention.

Fig. 3 is a cross-sectional view of a smoke-simulated flame device of the present invention.

Fig. 4 is an enlarged view of the upper portion of the smoke-simulating flame apparatus of the invention.

Detailed Description

In order to describe the technical content, the constructional features and the effects achieved by the present invention in detail, the following description is made with reference to the embodiments in conjunction with the accompanying drawings.

As shown in fig. 1 to 4, the smoke simulated flame device 100 of the present invention comprises a housing 1, a liquid storage container 2, a flame member 3, an atomizer 4, an airflow driving device 5, a circuit module 6 and a power supply device 7, wherein the airflow driving device 5 is a fan. The liquid storage container 2 is arranged in the inner cavity 11 of the shell 1, and a space for air flow to pass through is arranged between the outer wall of the liquid storage container 2 and the inner cavity 11 of the shell 1. The center of the inner top of the shell 1 is provided with a through hole 12, the center of the upper end of the liquid storage container 2 is provided with a containing hole 21, and after the upper end of the liquid storage container 2 is in butt joint with the inner top of the shell 1, the through hole 12 and the containing hole 21 are coaxially connected to form a containing channel 101. The accommodating channel 101 is used for allowing the flame component 3 to pass through the liquid storage container 2 and extend out of the upper surface of the shell 1. The inner underside of the reservoir 2 is used for storing liquid, such as clear water or perfume; the upper side of the interior of the liquid storage container 2 is a cavity. The upper end of the liquid storage container 2 surrounds the periphery of the accommodating channel 101 and is provided with a first air inlet hole 22 which is communicated with the inner cavity 11 and the cavity of the liquid storage container 2; the number of the first air inlet holes 22 is at least two, and the first air inlet holes 22 each form a circle around the center of the accommodating channel 101, for example, two semicircular first air inlet holes 22 form a circle around the accommodating channel 101; the number of the first air inlet holes 22 may be plural, and in the same way, the plural first air inlet holes 22 all enclose a circle with the center of the accommodating channel 101 as the center point.

As shown in fig. 2, 3 and 4, a smoke passage 31 communicating with the liquid storage container 2 is provided in the flame member 3, a smoke outlet 32 communicating with the smoke passage 31 is provided at a head portion of the flame member 3, the flame member 3 passes through the accommodating passage 101 with a gap so that the head portion extends out of the housing 1, a first blocking portion 33 is provided at a lower end of the flame member 3, the first blocking portion 33 has a disc-shaped structure, the first blocking portion 33 is located in a cavity of the liquid storage container 2, and the first blocking portion 33 is blocked from the first air inlet hole 22 and the accommodating passage 101 by a certain distance below the first air inlet hole 22 and the accommodating passage 101; the atomizer 4 is arranged at the inner bottom of the liquid storage container 2 to generate smoke; the airflow driving device 5 is disposed at the bottom of the inner cavity 11, and is configured to drive airflow from the first air inlet hole 22 into the liquid storage container 2, so as to form an air curtain between the first air inlet hole 22 and the first blocking portion 33, which blocks smoke from entering the accommodating channel 101, and drive the smoke from the smoke channel 31 and from the smoke outlet 32. The circuit module 6 is disposed in the housing 1 and electrically connected to the atomizer 4 and the air flow driving device 5. The power supply device 7 is disposed in the housing 1 and electrically connected to the circuit module 6, so as to supply power to the atomizer 4 and the air flow driving device 5 under the control of the circuit module 6. The power supply device 7 may be a battery pack installed in the housing 1, or may be a power connector to supply power through an external power source.

Referring to fig. 2 and 4, the flame member 3 is swingably disposed. The rocking of the flame component 3 can simulate the drifting effect of the flame, so that the flame component is more vivid. Specifically, a support 23 is disposed in the liquid storage container 2, the support 23 extends to one side of the cavity of the liquid storage container 2 to form a support column 231, the support column 231 is sleeved in the smoke channel 31 with a gap, a mounting groove is disposed on the support column 231, a thread 34, such as a steel wire, is disposed in the flame component 3, and the thread 34 is hung in the mounting groove, so that the flame component 3 is hung on the support column 231. By mounting the flame member 3 on the stay 231, the resistance to rocking of the flame member 3 can be reduced, thereby making rocking of the flame member 3 more natural and realistic, and saving electric power for medicine.

As shown in fig. 2 and 4, the liquid storage container 2 is provided with a second air inlet hole 35, and the second air inlet hole 35 is located at the periphery of the first air inlet hole 22. The second air inlet 35 may enable the air flow in the inner cavity 11 to enter the liquid storage container 2, so as to drive the smoke in the liquid storage container 2 into the smoke channel 31.

Referring to fig. 3 and 4, a second blocking portion 24 is disposed in the liquid container 2, the second blocking portion 24 is located below the first blocking portion 33, the second blocking portion 24 has a disc-shaped structure, and the second blocking portion 24 is located below the smoke channel 31. The second blocking portion 24 of the present embodiment is disposed on the support 23 and is integrally formed with the support 23. The second blocking portion 24, the pillar 231, the first blocking portion 33, the smoke passage 31, and the accommodating passage 101 are all coaxially disposed. The second blocking part 24 is used for blocking splash splashed during the operation of the atomizer 4, so as to prevent water droplets from splashing on the smoke channel 31 and gathering near the inlet of the smoke channel 31 to block the smoke channel 31, and ensure smooth smoke discharge.

Referring to fig. 2 and 3, the liquid storage container 2 is provided with light emitters 8, the light emitters 8 are LED lamps, the number of the light emitters 8 is two, the two light emitters 8 are respectively fixed on the base 234 outside the pillar 231, and the light emitters 8 are electrically connected with the circuit module 6 and irradiate toward the flame component 3. The LED lamp can be changed into seven colors, and the LED lamp is controlled by the circuit module 6, so that a user can light the LED lamp into different colors according to the needs. By providing a light 8, the light 8 may illuminate the head 35 of the flame component 3, thereby bringing the flame component 3 closer to the visual effect of a real flame. The luminous body 8 may be disposed at another position in the liquid storage container 2, and it is only necessary to ensure that the luminous body 8 irradiates the flame member 3.

As shown in fig. 2, the support 23 transversely extends to form two legs 232, two ends of each leg 232 are provided with a first protrusion 233, the inner wall of the liquid storage container 2 is provided with a first L-shaped groove 25, and the first protrusion 233 cooperates with the first L-shaped groove 25 to connect the support 23 with the liquid storage container 2. In this way, the bracket 23 and the liquid storage container 2 can be quickly assembled and disassembled, and the maintenance is convenient.

Referring again to fig. 2, the smoke-simulating flame apparatus 100 further includes a driving device for driving the flame member 3 to swing. The driving device includes a magnet 91 provided at an edge of the first stopper 33, and an electromagnetic coil 92 for driving the magnet 91 to operate. The electromagnetic coil 92 is disposed on the bracket 23 and electrically connected to the circuit module 6. The electromagnetic coil 92 may be energized intermittently to generate an electromagnetic field to drive the magnet 91 to move, and the magnet 91 may drive the flame member 3 to swing.

Referring to fig. 2 again, the liquid storage container 2 includes an upper cover 2a and a lower case 2b, and the upper cover 2a is detachably covered on the lower case 2b. The first air inlet 22 and the second air inlet 35 are both provided on the upper cover 2 a. Specifically, the outer wall of the upper cover 2a is provided with a second protruding block 2a1, the inner wall of the lower box 2b is provided with a second L-shaped groove 2b1, and the second protruding block 2a1 is connected with the second L-shaped groove 2b1 in a matching manner. Therefore, the upper cover 2a and the lower box can be quickly installed and detached, and maintenance is convenient.

Referring to fig. 2 and 3, the housing 1 includes an upper casing 1a and a base 1b, and the upper casing 1a and the base 1b are detachably connected. By detachable connection, the upper housing 1a can be detached from the base 1b, thereby facilitating the maintenance of the interior by a user. The upper shell 1a is cylindrical, the upper surface is in the shape of a candle, and the whole upper shell 1a can also be made of true wax so as to improve the simulation effect. Of course, the upper case 1a may be formed in other shapes, not limited thereto. Specifically, one of the upper housing 1a and the base 1b is provided with a self-locking switch 1c, and the other is provided with an engaging portion 1d, and the self-locking switch 1c is engaged with the engaging portion 1 d. In order to make the structure more compact, the engaging portion 1d is connected to and located at the inner top of the upper housing 1a, the outer wall of the liquid storage container 2 extends upwards to form a support column, and the self-locking switch 1c is disposed at the upper end of the support column and located under the engaging portion 1 d; when the upper case 1a is fitted, the engaging portion 1d engages with the self-locking switch 1c to lock the same. Through the cooperation of self-locking switch 1c and block portion 1d, the user only need press once before dismantling upper casing 1a can the unblock upper casing 1a presses once again can lock again and connect to make the user install and dismantle more conveniently, greatly improve the convenience of use. In addition, a control switch and an indicator lamp are arranged on the base 1b, and the control switch and the indicator lamp are connected with the circuit module 6 to control the work of each electrical component.

In summary, as shown in fig. 3, when in operation, the airflow driving device 5, the atomizer 4, the illuminant 8 and the driving device 9 are started, and the atomizer 4 atomizes the water in the liquid storage container 2. At the same time, the air flow driving device 5 drives air flow from outside into the inner cavity 11 through the air inlet of the housing 1. Then, the air flow is divided into two paths, and the first path of air flow (in the direction of the dotted arrow) enters the liquid storage container 2 from the first air inlet hole 22, so that an annular air curtain is formed between the first air inlet hole 22 and the first blocking portion 33, and the air curtain surrounds the accommodating channel 101 to isolate the accommodating channel 101 from the liquid storage container 2. And, the air flow blown out by the air curtain is blocked by the first blocking part 33 and flows to the inner edge of the liquid storage container 2. The second air flow enters the liquid storage container 2 from the second air inlet hole 35, the air pressure inside the liquid storage container 2 is increased under the driving of the second air flow and the first air flow, and due to the isolation of the air curtain, the smoke cannot enter the accommodating channel 101, and finally the smoke (in the direction of solid arrows) is forced to enter the smoke channel 31 and is discharged from the smoke outlet 32 through the smoke channel 31. In addition, in the above process, the circuit module 6 intermittently energizes the electromagnetic coil 92, so that the electromagnetic coil 92 intermittently generates an electromagnetic field, thereby pushing the magnet 91 to act, and the magnet 91 drives the flame member 3 to swing. The flame component 3 generates smoke at the position of the head 35 while swinging, and forms a realistic flame burning effect under the irradiation of the luminous body 8.

Compared with the prior art, the first air inlet hole 22 communicated with the inner cavity 11 and the interior of the liquid storage container 2 is arranged at the periphery of the accommodating channel 101, the smoke channel 31 is arranged in the flame component 3, the head 35 is provided with the smoke outlet 32 communicated with the smoke channel 31, the first blocking part 33 is arranged at the lower end of the flame component 3, and the first blocking part 33 is blocked below the first air inlet hole 22 and the accommodating channel 101 by a certain distance from the first air inlet hole 22 and the accommodating channel 101; so that a curtain of air is formed when the air flow enters the interior of the reservoir 2 from the first air inlet aperture 22, which curtain of air can block smoke from escaping from the receiving channel 101, i.e. prevent smoke from being generated from the root of the flame component 3, while forcing smoke from the smoke channel 31 into and out of the smoke outlet 32; in addition, a driving device 9 and a luminous body 8 for driving the flame component 3 to swing are arranged, so that the flame component 3 generates smoke at the head 35 while swinging, and a vivid flame combustion effect is formed under the irradiation of the luminous body 8. Therefore, the invention can simulate the states of real flame combustion and smoke, and has good simulation effect.

The structure and operation of the airflow-driven device 5, atomizer 4, and driving device 9, which are referred to in the smoke-simulated flame device 100 of the present invention, are well known to those skilled in the art, and will not be described in detail herein.

The foregoing disclosure is merely illustrative of the principles of the present invention, and thus, it is intended that the scope of the invention be limited thereto and not by this disclosure, but by the claims appended hereto.

Claims (15)

1. A smoke simulated flame device, characterized by: the flame type air flow control device comprises a shell, a liquid storage container, a flame component, an atomizer and an air flow driving device, wherein the liquid storage container is arranged in an inner cavity of the shell, and a containing channel is arranged between the shell and the upper end of the liquid storage container; the liquid storage container is provided with a first air inlet hole which is communicated with the inner cavity and the inside of the liquid storage container around the periphery of the accommodating channel; the flame component is provided with a smoke channel communicated with the liquid storage container, the head part of the flame component is provided with a smoke outlet communicated with the smoke channel, the flame component passes through the accommodating channel in a clearance way so that the head part extends out of the shell, the lower end of the flame component is provided with a first blocking part, the first blocking part is positioned at the upper side in the liquid storage container, and the first blocking part is blocked below the first air inlet hole and the accommodating channel at a certain distance from the first air inlet hole and the accommodating channel; the atomizer is arranged at the inner bottom of the liquid storage container to generate smoke; the air flow driving device is arranged in the inner cavity and is used for driving air flow to enter the liquid storage container from the first air inlet hole, so that an air curtain for blocking smoke from entering the accommodating channel is formed between the first air inlet hole and the first blocking part, and meanwhile, the smoke is driven to enter the smoke channel and be discharged from the smoke outlet.

2. A smoke-simulated flame device as claimed in claim 1 wherein: the liquid storage container is provided with a second air inlet hole, and the second air inlet hole is positioned at the periphery of the first air inlet hole.

3. A smoke-simulated flame device as claimed in claim 1 wherein: the flame member is swingably provided.

4. A smoke-simulated flame device as claimed in claim 3 wherein: the liquid storage container is internally provided with a support, the support extends out of the support, the support is sleeved in the smoke channel in a clearance way, and the flame component is hung on the support.

5. The smoke-simulated flame device of claim 4 wherein: the liquid storage container is internally provided with a luminous body, the luminous body is fixed on the outer side of the support column, and the luminous body irradiates towards the flame component.

6. A smoke-simulated flame device as claimed in claim 1 wherein: the liquid storage container is internally provided with a luminous body, and the luminous body irradiates towards the flame component.

7. A smoke-simulated flame device as claimed in claim 1 wherein: the liquid storage container is internally provided with a second blocking part, and the second blocking part is positioned below the smoke channel.

8. The smoke-simulated flame device of claim 4 wherein: the two ends of the support are provided with first protruding blocks, the inner wall of the liquid storage container is provided with a first L-shaped groove, and the first protruding blocks are matched with the first L-shaped groove to realize that the support is connected with the liquid storage container.

9. A smoke-simulated flame device as claimed in claim 3 wherein: the smoke simulation flame device further comprises a driving device for driving the flame component to swing.

10. A smoke-simulated flame device as claimed in claim 9 wherein: the driving device comprises a magnet arranged on the first blocking part and an electromagnetic coil for driving the magnet to act.

11. A smoke-simulated flame device as claimed in claim 1 wherein: the liquid storage container comprises an upper cover and a lower box body, and the upper cover is detachably covered on the lower box body.

12. A smoke-simulated flame device as claimed in claim 11 wherein: the outer wall of upper cover is equipped with the second lug, the inner wall of lower box is equipped with the second L type groove, the second lug with the cooperation of second L type groove is connected.

13. A smoke-simulated flame device as claimed in claim 1 wherein: the smoke simulated flame device also comprises a circuit module for controlling each electric component and a power supply device for supplying power to each electric component.

14. A smoke-simulated flame device as claimed in claim 1 wherein: the shell comprises an upper shell and a base, wherein the upper shell is detachably connected with the base.

15. A smoke-simulated flame device as claimed in claim 14 wherein: one of the upper shell and the base is provided with a self-locking switch, the other is provided with a clamping part, and the self-locking switch is clamped with the clamping part.