CN219595854U - Front stage smoke spraying machine - Google Patents

Abstract

The utility model provides a stage front smoke spraying machine, which comprises a shell and a heating module vertically arranged in the shell, wherein the heating module is used for heating water of smoke to be gasified into smoke and then sprayed out, the heating module comprises a vertically arranged heater, two tail ends of the heater protrude from the upper end of a heat conducting piece of the heating module, so that when the heat conducting piece is partially melted due to overheating of the heater, the heat conducting piece is melted into molten metal from the upper end, and the molten metal is cooled to be solid in a high probability in the flowing process, so that the safety of the stage front smoke spraying machine is improved.

Description

Front stage smoke spraying machine

Technical Field

The utility model relates to a smoke machine in front of a stage, in particular to a smoke machine which uses a heating technology to vaporize liquid smoke water into smoke and spray out, and creates special effects on the stage.

Background

A stage smoke machine for spraying smoke on a stage to generate special effect is a stage smoke machine which can generate smoke by vaporizing smoke water into smoke through an electrothermal mode and then spraying the smoke water. The stage aerosol sprayer of the electric heating mode generally comprises an electric heater and a vaporization pipeline which surrounds the electric heater at intervals, wherein the surfaces of the electric heater and the vaporization pipeline are coated with a heat conducting piece, and the heat conducting piece is made of aluminum materials in consideration of the effect of weight and heat exchange. The electric heater and the vaporization pipeline of the commercial stage smoke machine are generally horizontally arranged, so that two tail ends of the heater can penetrate out from the side face of the heat conducting piece.

The temperature generated by the heater in the normal state is controlled so as not to melt the aluminum heat conduction member, however, if the control module of the smoke machine is abnormal or damaged, the aluminum heat conduction member (about 660 ℃) with low melting point is heated to be higher than the melting point temperature under the condition that the temperature cannot be controlled by the heater, so that a part of the aluminum heat conduction member is melted into molten metal, and if the molten metal flows to low-ignition-point objects, fire can be caused.

Disclosure of Invention

Therefore, the utility model aims to provide a stage front smoke sprayer,

the utility model provides a stage front spraying smoke sprayer, which is characterized by comprising the following components:

a housing;

a liquid storage barrel accommodated in the shell;

a pump arranged in the shell, and a conveying pipeline connected between the pump and the liquid storage barrel;

one end of the vaporization pipeline is connected with the pump, and the other end of the vaporization pipeline extends to the outer side of the shell;

a heater disposed vertically within said housing adjacent said vaporization conduit, said heater including two ends;

and a heat conducting member coupled to the vaporizing tube and the heater in a heat exchanging manner, the heat conducting member including an upper end, the two tail ends of the heater protruding from the upper end of the heat conducting member.

The stage front spraying smoke machine, wherein: the vaporization line is disposed vertically within the housing and the vaporization line is helically wrapped around the outer circumference of the heater.

The stage front spraying smoke machine, wherein: the heat conductive member further includes a lower end spaced apart from the upper end in an upright direction, the heater includes a bottom spaced apart from the two tail ends, the bottom is spaced apart from the lower end, and the vaporization pipe is spirally wound around an outer periphery of the heater, and the vaporization pipe spirally extends from near the lower end to near the upper end and then to an outer side of the housing.

The stage front spraying smoke machine, wherein still include:

the heat conduction piece, the vaporization pipeline and the heater are located in a first space partitioned by the first inner shell, and the wall surface of the first inner shell is partitioned by a distance from the heat conduction piece, the vaporization pipeline and the heater.

The stage front spraying smoke machine, wherein: the shell comprises an upper shell piece, a lower shell piece, a front shell piece and a rear shell piece, wherein the upper shell piece comprises a first end and a second end, the lower shell piece comprises a front end corresponding to the first end and a rear end corresponding to the second end, the front shell piece is arranged between the upper shell piece and the lower shell piece and combined with the first end and the front end, the rear shell piece is arranged between the upper shell piece and the lower shell piece and combined with the second end and the rear end, and the vaporization pipeline extends to the outer side of the front shell piece.

The stage front spraying smoke machine, wherein still include:

the first inner shell is fixedly arranged in the outer shell and positioned between the front shell and the rear shell, the heat conducting piece, the vaporization pipeline and the heater are positioned in a first space partitioned by the first inner shell, and the wall surface of the first inner shell is separated from the heat conducting piece, the vaporization pipeline and the heater by a distance;

the second inner shell is fixedly arranged in the outer shell and is positioned between the first inner shell and the rear shell, a second space is partitioned by the second inner shell, a third space is partitioned between the second inner shell and the rear shell, and the second space is used for accommodating the liquid storage barrel;

and the control module is arranged in the third space, and the pump is electrically connected with the control module.

The stage front spraying smoke machine, wherein: a fourth space is formed between the second inner shell and the front shell and outside the first inner shell, and the pump is accommodated in the fourth space and fixedly arranged on the surface of the first inner shell.

The stage front spraying smoke machine, wherein: the heater further comprises two electrodes extending to protrude out of the two tail ends, and the two electrodes are electrically connected with the control module.

A stage front fog machine, comprising:

a housing;

a liquid storage barrel accommodated in the shell;

a pump arranged in the shell, and a conveying pipeline connected between the pump and the liquid storage barrel;

one end of the vaporization pipeline is connected with the pump, and the other end of the vaporization pipeline extends to the outer side of the shell;

a heater disposed vertically within said housing adjacent said vaporization conduit, said heater comprising two electrodes;

and a heat conductive member coupled to the vaporizing tube and the heater in a heat-exchanging manner, the heat conductive member including an upper end, the two electrodes of the heater protruding from the upper end of the heat conductive member.

The stage front spraying smoke machine, wherein: the heat conductive member further includes a lower end spaced apart from the upper end in an upright direction, the heater includes a bottom portion spaced apart from the lower end, and the vaporization pipe is spirally wound around an outer periphery of the heater, and the vaporization pipe spirally extends from near the lower end to near the upper end and then to an outer side of the housing.

In the stage front aerosol sprayer of the utility model, the heater is vertically accommodated in the shell, and the two electrodes of the heater protrude from the upper end of the heat conducting piece, so that even if the heater is overheated to cause a part of the heat conducting piece to be melted, the temperature of the heat conducting piece close to the upper end is higher, therefore, when the temperature exceeds the melting point of the heat conducting piece, the heat conducting piece is melted into metal liquid from the upper end, and the metal liquid flows along the heat conducting piece from the upper end to the lower end, and is solidified into solid metal again due to temperature difference and contact with air, therefore, even in the overheated state of the heater, the molten metal liquid after the heat conducting piece is melted is not easy to flow randomly, and the stage front aerosol sprayer of the utility model has good safety.

The bottom of the heater is spaced apart from the lower end of the heat conductive member by a distance such that the lower end of the heat conductive member has a lower temperature than the upper end (lower than the melting point of the heat conductive member), and when a part of the upper end of the heat conductive member is melted into molten metal to flow toward the lower end, the molten metal can be directly solidified on the surface of the heat conductive member with a high probability because the lower temperature is closer to the lower end. In addition, the vertically arranged heating module can more effectively utilize the space inside the shell, so that the length of the front stage aerosol sprayer can be effectively shortened, and the volume of the whole front stage aerosol sprayer is reduced.

The heating module is erected in the first space in a way of being separated from the first inner shell, so that when the heating module works, the temperature of the outer shell is not too high, and the stage front smoke sprayer has good safety in use.

The control module is arranged in the third space and is separated from the heating module by the liquid storage barrel, so that the control module is not easily affected by the high temperature of the heating module, and the service life of the control module is reduced.

The fourth space is provided for accommodating the pump and enabling the heating module to be mutually separated from the shell, and when the stage front smoke machine operates, heat of the heating module cannot be directly transferred to the shell, so that the temperature of the shell cannot cause scalding.

The utility model will be more clearly understood from the following description of illustrative embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Fig. 1 is a perspective combination view of the present utility model.

Fig. 2 is a perspective exploded view of fig. 1.

Fig. 3 is a cross-sectional view taken along line 3-3 of fig. 1.

Fig. 4 is a cross-sectional view taken along line 4-4 of fig. 1.

Reference numerals illustrate: 10-a stage front smoke machine; 20-a housing; 22-a lower shell member; 24-front end; 26-rear end; 28-front shell member; 30-sleeving holes; 32-a rear housing member; 34-a control module; 38-an upper shell member; 40-a first end; 42-a second end; 44-opening; 46-a first inner housing member; 48-a first space; 50-nozzle sleeve; 52-a second inner housing member; 54-a second space; 56-heating the module; 57-fourth space; 58-vaporization line; 60-fume nozzle; 62-a heater; 62A-tail end; 62B-electrode; 62C-bottom. 63-a heat conducting member; 63A-upper end; 63B-lower end; 64-pump; 65-a protective shell; 66-a liquid storage barrel; 68-a conveying pipeline.

Detailed Description

All of the drawings are for purposes of illustrating the basic teachings only, and the number, position, relationship, and size of the elements making up the illustrative embodiments will be described in the drawings or will be within the skill of the art after reading and understanding the following description. Further, changes in the exact dimensions and proportions of dimensions that match specific forces, weights, strengths, and the like, will be apparent to those skilled in the art upon reading and understanding the following description.

The same reference numbers in different drawings identify the same or similar elements; additionally, it should be appreciated that terms such as "bottom," "first," "second," "front," "back," "length," "end," "side," and the like are merely convenient for a viewer to refer to the construction in the drawings and are merely used to facilitate description of the illustrative embodiments.

The smoke sprayer is suitable for being used on a stage or a recreational place, and can generate a proper amount of equipment for dispersing non-toxic smoke in a space. Referring now to fig. 1-4, the pre-stage aerosol machine 10 of the present utility model includes a housing 20, the housing 20 including a lower housing member 22, an upper housing member 38, a front housing member 28, and a rear housing member 32, wherein the lower housing member 22 includes a front end 24 and a rear end 26 spaced apart from one another.

The upper housing member 38 includes a first end 40 and a second end 42 spaced apart from each other, and the upper housing member 38 further includes an opening 44 formed between the first end 40 and the second end 42. The upper shell 38 is positioned over the lower shell 22, and the front shell 28 is positioned between the lower shell 22 and the upper shell 38 and coupled to the first end 40 and the front end 24. The rear housing member 32 is disposed between the lower housing member 22 and the upper housing member 38 and is coupled to the rear end 26 and the second end 42. The interior of the housing 20, which is formed by the upper housing member 38, the lower housing member 22, the front housing member 28 and the rear housing member 32 together, provides a suitable space for mounting other components of the front stage aerosol apparatus 10.

The stage front aerosol dispenser 10 further comprises a first inner shell member 46 and a heating module 56, the first inner shell member 46 is a substantially rectangular body and is internally provided with a first space 48, the first inner shell member 46 further comprises a nozzle sleeve 50 arranged on an outer side surface, the nozzle sleeve 50 is communicated with the first space 48, a bottom part included in the first inner shell member 46 is fixedly connected with the lower shell member 22, the first inner shell member 46 is positioned between the front shell member 28 and the rear shell member 32 and is separated from the opening 44, and the nozzle sleeve 50 is sleeved with the sleeve connecting hole 30 of the front shell member 28.

The heating module 56 is vertically received in the first space 48 along an upright direction (perpendicular to the ground), the heating module 56 includes a heater 62, the heater 62 being disposed upright with respect to the outer housing 20 and the first inner housing 46, in the embodiment of the present utility model shown in the drawings, the heater 62 being perpendicular to each other with respect to the lower housing 22, the heater 62 including two ends 62A toward the upper housing 38 and two electrodes 62B extending from the two ends 62A, the heater 62 further including a bottom 62C spaced from the two ends 62A and toward the lower housing 22. The heater 62 may be, but is not limited to, an electric heating device, that is, the heater 62 employs a suitable resistance that generates heat energy when an electric current is passed through the heater 62 due to the resistance.

The heating module 56 further includes a vaporization conduit 58 and a heat conducting member 63, wherein the vaporization conduit 58 is spirally wound around the outer periphery of the heater 62 from the bottom up and spaced from the heater 62, the heat conducting member 63 may be, but is not limited to, formed of a metal or alloy such as aluminum or other heat conducting material of good weight, the heat conducting member 63 is wrapped in contact with the outer surface of the heater 62 and the vaporization conduit 58 so that the heater 62 and the vaporization conduit 58 can exchange heat through the heat conducting member 63, the heat conducting member 63 includes an upper end 63A spaced from the upper end 63A and a lower end 63B spaced from the upper end 63A and spaced from the lower end 22, the two trailing ends 62A and the two electrodes 62B of the heater 62 protrude from the upper end 63A of the heat conducting member 63 outside the first inner housing member 46, the bottom 62C of the heater 62 protrudes from the other end 63A of the heat conducting member, and the vaporization conduit 58 protrudes from the other side wall 63A spaced from the lower end 63B of the heat conducting member.

The outer periphery of the heat conducting member 63 is covered with a protective shell 65, a smoke nozzle 60 is fixedly arranged at the position, close to the upper end 63A of the heat conducting member 63, of the outer periphery of the protective shell 65, one end of the vaporization pipeline 58 extends into the smoke nozzle 60, the heat conducting member 63, the heater 62 and the vaporization pipeline 58 are suspended and erected in the first space 48 of the first inner shell 46, and the smoke nozzle 60 is sleeved in the nozzle sleeve 50 of the first inner shell 46.

Referring to fig. 3 and 4, the lower end 63B of the heat conducting member 63 is spaced from the lower shell 22, the upper end 63A is spaced from the upper shell 38, and most of the surface of the heat conducting member 63 is spaced from the first inner shell 46 except for the suspended structure contacting the first inner shell 46, so that the heat generated by the operation of the heating module 56 is reduced to be transferred to the first inner shell 46 and the outer shell 20, and the temperature of the outer shell 20 during the operation of the pre-stage aerosol-generating device 10 is further reduced.

The pre-stage aerosol dispenser 10 of the present utility model further includes a pump 64, a second inner housing member 52 and a liquid storage tank 66, wherein the second inner housing member 52 includes a bottom portion secured to the lower housing member 22, the second inner housing member 52 defines a second space 54, the second inner housing member 52 is positioned between the first inner housing member 46 and the rear housing member 32 and is spaced from the rear housing member 32, the second space 54 is aligned with the opening 44, the space between the second inner housing member 52 and the rear housing member 32 defines a third space 55, and a fourth space 57 (as shown in fig. 3 and 4) is spaced between the front housing member 28 and the second inner housing member 52 and is positioned outside the first inner housing member 46, the first space 48, the second space 54, the third space 55 and the fourth space 57 are spaced from each other, and the second space 54 is positioned between the first space 48 and the third space 55.

The pump 64 is accommodated in the fourth space 57 and fixedly arranged on an outer surface of the first inner housing member 46, the other end of the vaporizing tube 58 is connected to an output connection portion included in the pump 64, the liquid storage tank 66 is accommodated in the second space 54, a cover included in the liquid storage tank 66 protrudes from the upper housing member 38 through the opening 44, so that the liquid storage tank 66 is conveniently filled with the mist water for vaporizing the mist, and a delivery tube 68 is provided between the liquid storage tank 66 and an input connection portion included in the pump 64, so that the mist water in the liquid storage tank 66 can be delivered into the vaporizing tube 58 through the delivery tube 68 when the pump 64 is operated.

The third space 55 accommodates a control module 34, the control module 34 may be fixed on the rear housing member 32, but not limited to, the pump 64 and the two electrodes 62B of the heater 62 are electrically connected to the control module 34, respectively, the control module 34 includes an electrical connection exposed on the rear housing member 32 so as to allow electrical connection with a power supply terminal, so that the control module 34 supplies power and controls the operation of the pump 64 and the heater 62.

The technical features of the present utility model have been described in detail, but in order to help the understanding of the present utility model, the operation of the pre-stage aerosol dispenser 10 of the present utility model will be described below, wherein the control module 34 drives the heater 62 to generate heat energy when the pre-stage aerosol dispenser 10 is operated, the heat conducting member 63 absorbs the heat energy of the heater 62 and transmits the heat energy to the vaporization pipeline 58, so that the temperature of the vaporization pipeline 58 is raised to a preset operating temperature.

After the vaporization line 58 reaches the operating temperature, the pump 64 is operated, the water of the smoke in the liquid storage tank 66 is pumped by the pump 64 through the delivery pipe 68, and further the pump 64 delivers the water of the smoke into the vaporization line 58, the water of the smoke is vaporized into the smoke after absorbing heat energy in the vaporization line 58, and the smoke is continuously ejected from the smoke nozzle 60. As such, it will be appreciated that the pre-stage aerosol dispenser 10 of the present utility model does not continue to emit aerosol when the pump 64 and the heater 62 are deactivated.

In the stage front stage aerosol dispenser 10 of the present utility model, the heater 62 is vertically accommodated in the housing 20, and the two tail ends 62A of the heater 62 protrude from the upper end 63A of the heat conducting member 63, so that even if the heat conducting member 63 is partially melted due to overheating of the heater 62, the temperature of the heat conducting member 63 near the upper end 63A is high, and thus when the temperature exceeds the melting point of the heat conducting member 63, the heat conducting member 63 is melted into molten metal from the upper end 63A, and these molten metal are solidified again into solid metal by the temperature difference and the temperature reduction by contact with air along the process of the heat conducting member 63 from the upper end 63A to the lower end 63B, so that even in the overheat state of the heater 62, the molten metal after the melting of the heat conducting member 63 is not easy to flow freely, and thus the stage front stage aerosol dispenser 10 of the present utility model has good safety.

The bottom 62C of the heater 62 is spaced apart from the lower end 63B of the heat conductive member 63 such that the lower end 63B of the heat conductive member 63 has a lower temperature than the upper end 63A (lower than the melting point of the heat conductive member 63), and when a part of the upper end 63A of the heat conductive member 63 is melted into molten metal and flows toward the lower end 63B, the molten metal can be solidified directly on the surface of the heat conductive member 63 with a high probability because the lower temperature is closer to the lower end 63B.

The vertically arranged heating module 56 can more effectively utilize the space inside the housing 20, so that the length of the front stage aerosol sprayer 10 can be effectively shortened, and the volume of the whole front stage aerosol sprayer is reduced.

The heating module 56 is installed in the first space 48 to be spaced apart from the first inner housing 46, so that the temperature of the outer housing 20 is not too high when the heating module 56 is operated, and the pre-stage aerosol sprayer 10 is safe in use.

The fourth space 57 accommodates the pump 64 and separates the heating module 56 from the housing 20, and when the pre-stage aerosol dispenser 10 is operated, the heat of the heating module 56 is not directly transferred to the housing 20, so that the temperature of the housing 20 does not cause scalding.

The control module 34 is disposed in the third space 55 and is separated from the heating module 56 by the liquid storage tank 66, so that the control module 34 is not easily affected by the high temperature of the heating module 56, and the service life is reduced.

While the basic teachings of the present utility model have been described, many extensions and variations will be apparent to those having ordinary skill in the art. For example, the two tail ends of the heater 62 may not protrude from the upper end 63A of the heat conducting member 63, but the heater 62 is still vertically disposed such that the two tail ends 62A are relatively close to the upper end 63A, and the two electrodes 62B of the heater 62 extend from the two tail ends 62A of the heat conducting member 63 and protrude from the upper end 63A of the heat conducting member 63, and in this simple variation, the heat conducting member 63 still starts to melt from the upper end 63A of the heat conducting member 63 when overheated, and also has the effect of solidifying again into solid metal due to a temperature difference and a temperature drop by contact with air, like this simple variation, still falls within the scope of protection of the present utility model.

The above description is illustrative of the utility model and is not to be construed as limiting, and it will be understood by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (10)

1. A stage front fog machine, comprising:

a housing;

a liquid storage barrel accommodated in the shell;

a pump arranged in the shell, and a conveying pipeline connected between the pump and the liquid storage barrel;

one end of the vaporization pipeline is connected with the pump, and the other end of the vaporization pipeline extends to the outer side of the shell;

a heater disposed vertically within said housing adjacent said vaporization conduit, said heater including two ends;

and a heat conducting member coupled to the vaporizing tube and the heater in a heat exchanging manner, the heat conducting member including an upper end, the two tail ends of the heater protruding from the upper end of the heat conducting member.

2. A pre-stage aerosol dispenser as set forth in claim 1, wherein: the vaporization line is disposed vertically within the housing and the vaporization line is helically wrapped around the outer circumference of the heater.

3. A pre-stage aerosol dispenser as set forth in claim 1, wherein: the heat conductive member further includes a lower end spaced apart from the upper end in an upright direction, the heater includes a bottom spaced apart from the two tail ends, the bottom is spaced apart from the lower end, and the vaporization pipe is spirally wound around an outer periphery of the heater, and the vaporization pipe spirally extends from near the lower end to near the upper end and then to an outer side of the housing.

4. The pre-stage aerosol dispenser of claim 1, further comprising:

the heat conduction piece, the vaporization pipeline and the heater are located in a first space partitioned by the first inner shell, and the wall surface of the first inner shell is partitioned by a distance from the heat conduction piece, the vaporization pipeline and the heater.

5. A pre-stage aerosol dispenser as set forth in claim 1, wherein: the shell comprises an upper shell piece, a lower shell piece, a front shell piece and a rear shell piece, wherein the upper shell piece comprises a first end and a second end, the lower shell piece comprises a front end corresponding to the first end and a rear end corresponding to the second end, the front shell piece is arranged between the upper shell piece and the lower shell piece and combined with the first end and the front end, the rear shell piece is arranged between the upper shell piece and the lower shell piece and combined with the second end and the rear end, and the vaporization pipeline extends to the outer side of the front shell piece.

6. The pre-stage aerosol dispenser of claim 5, further comprising:

the first inner shell is fixedly arranged in the outer shell and positioned between the front shell and the rear shell, the heat conducting piece, the vaporization pipeline and the heater are positioned in a first space partitioned by the first inner shell, and the wall surface of the first inner shell is separated from the heat conducting piece, the vaporization pipeline and the heater by a distance;

the second inner shell is fixedly arranged in the outer shell and is positioned between the first inner shell and the rear shell, a second space is partitioned by the second inner shell, a third space is partitioned between the second inner shell and the rear shell, and the second space is used for accommodating the liquid storage barrel;

and the control module is arranged in the third space, and the pump is electrically connected with the control module.

7. A pre-stage aerosol dispenser as set forth in claim 6, wherein: a fourth space is formed between the second inner shell and the front shell and outside the first inner shell, and the pump is accommodated in the fourth space and fixedly arranged on the surface of the first inner shell.

8. A pre-stage aerosol dispenser as set forth in claim 6, wherein: the heater also comprises two electrodes extending to protrude out of the two tail ends, and the two electrodes are electrically connected with the control module.

9. A stage front fog machine, comprising:

a housing;

a liquid storage barrel accommodated in the shell;

a pump arranged in the shell, and a conveying pipeline connected between the pump and the liquid storage barrel;

one end of the vaporization pipeline is connected with the pump, and the other end of the vaporization pipeline extends to the outer side of the shell;

a heater disposed vertically within said housing adjacent said vaporization conduit, said heater comprising two electrodes;

and a heat conductive member coupled to the vaporizing tube and the heater in a heat-exchanging manner, the heat conductive member including an upper end, the two electrodes of the heater protruding from the upper end of the heat conductive member.

10. A pre-stage aerosol dispenser as set forth in claim 9, wherein: the heat conductive member further includes a lower end spaced apart from the upper end in an upright direction, the heater includes a bottom portion spaced apart from the lower end, and the vaporization pipe is spirally wound around an outer periphery of the heater, and the vaporization pipe spirally extends from near the lower end to near the upper end and then to an outer side of the housing.