CN219629352U - Bubble water machine - Google Patents

Abstract

The utility model discloses a bubble water machine, which belongs to the field of household appliances, and solves the problem of larger driving structure volume of a pressure reducing valve, and the technical scheme for solving the problem is mainly that the bubble water machine comprises an air supply assembly, a water supply assembly and a stirring assembly, wherein the stirring assembly comprises a stirring container, and the air supply assembly is communicated with the stirring container to convey CO ₂ The water supply assembly is communicated with the stirring container to convey water, the air supply assembly comprises an air storage container and a pressure reducing valve communicated with the air storage container, the pressure reducing valve comprises a pressure reducing valve body and a pressure reducing valve core, the pressure reducing valve core moves relative to the pressure reducing valve body to enable the pressure reducing valve to be opened or closed, one side of the pressure reducing valve is provided with an electric assembly, and the electric assembly is used for supplying electricity to the air storage containerThe movable assembly comprises a driving motor and a driving sliding block, the rear end of the driving sliding block is in transmission connection with an output shaft of the driving motor, and the front end of the driving sliding block acts on the pressure reducing valve core to enable the pressure reducing valve core to open or close the pressure reducing valve. The utility model is mainly used for enabling the electric assembly of the pressure reducing valve to be smaller and lighter.

Description

Bubble water machine

Technical Field

The utility model relates to a household appliance, in particular to a bubble water machine.

Background

Carbonated flavored beverages are becoming increasingly popular among the public, and so are the applications of bubble water machines on the market. The pressure reducing valve is an indispensable mechanism on the bubble water machine, and Chinese patent (CN 215899414U) discloses the bubble water machine, which comprises a driving structure and a pressing lever, wherein the driving structure is hinged with the fixed frame, one end of the pressing lever is hinged with the hinged seat, the other end of the pressing lever is hinged with the output end of the driving structure, the driving structure drives the pressing lever to rotate downwards, and a power arm of the pressing lever presses the air valve downwards to open the air valve; the driving structure drives the pressing lever to rotate upwards, the power arm of the pressing lever is separated from the pressure valve to enable the pressure valve to be closed, and the driving structure drives the pressing lever to rotate to control the pressure valve to be opened and closed in the patent, but because enough space is required to be provided for the rotation of the pressing lever and the driving structure, the whole volume of the pressure reducing valve is larger, the manufacturing cost is increased, and meanwhile, the pressure reducing valve is not beneficial to storage and transportation.

Disclosure of Invention

The utility model aims to provide a bubble water machine, which solves the problem of larger driving structure volume of a pressure reducing valve and enables an electric component of the pressure reducing valve to be smaller and lighter.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a bubble water machine, includes air feed subassembly, water supply subassembly and stirring subassembly, and stirring subassembly includes the stirring container, and air feed subassembly and stirring container intercommunication carry CO ₂ The water supply assembly is communicated with the stirring container to convey water, the air supply assembly comprises an air storage container and a pressure reducing valve communicated with the air storage container, the pressure reducing valve comprises a pressure reducing valve body and a pressure reducing valve core, the pressure reducing valve core moves relative to the pressure reducing valve body to enable the pressure reducing valve to be opened or closed, one side of the pressure reducing valve is provided with an electric assembly, the electric assembly comprises a driving motor and a driving sliding block, the rear end of the driving sliding block is in transmission connection with an output shaft of the driving motor, and the front end of the driving sliding block acts on the pressure reducing valve core to enable the pressure reducing valve core to open or close the pressure reducing valve.

After the technical scheme is adopted, the utility model has the following advantages:

the motor component comprises a driving motor and a driving sliding block, wherein the driving sliding block is provided with a driving motorOne end is in transmission connection with an output shaft of a driving motor, the other end acts on a pressure reducing valve core, the driving motor drives a driving sliding block to move, so that the pressure reducing valve core opens or closes a pressure reducing valve, automatic opening and closing of the pressure reducing valve are realized, potential safety hazards caused by human negligence can be eliminated, and the safety of the utility model is improved; in addition, the opening and closing of the pressure reducing valve are controlled through the electric component, manual operation can be replaced, so that a user can feel easier when making drinks, and experience is better, meanwhile, the electric component can enable the pressure reducing valve to be in an opening state within a preset time, so that the air supply of the air storage container is more accurate, stable and continuous, and the making efficiency of the drinks can be improved; secondly, the electric assembly is adopted to enable the pressure reducing valve core to move more quickly, enable the opening and closing speed of the pressure reducing valve to be higher, enable a user to accurately control the air supply amount of the air storage container and reduce CO ₂ Waste amount and can improve the taste of the beverage; moreover, the driving motor controls the driving sliding block to conduct linear motion, the pressure reducing valve can be opened or closed through a short stroke, the occupied space of the motor assembly can be effectively reduced, and the whole electric assembly is smaller and lighter and is favorable for storage and transportation, and meanwhile, the manufacturing cost of the electric assembly can be reduced.

Further, the driving sliding block is circumferentially limited on the pressure reducing valve body, a threaded hole is formed in the rear end of the driving sliding block, the driving motor is a linear motor, an output shaft of the linear motor is provided with external threads matched with the threaded hole, and the driving motor drives the driving sliding block to linearly reciprocate;

or, the rear end of the driving sliding block is provided with a rack, the driving motor is a cylindrical motor, the output shaft of the driving motor is provided with a driving gear, the driving gear is meshed with the rack, and the driving motor drives the driving sliding block to linearly reciprocate through the rack. By adopting the technical scheme, the linear motor can directly convert electric energy into linear motion of the driving sliding block, an intermediate conversion mechanism is not needed, so that the whole structure of the electric assembly is simpler, the whole volume of the electric assembly can be reduced, in addition, the linear motor is suitable for high-speed linear motion, the motion speed of the driving sliding block can be improved, and the opening and closing speed of the pressure reducing valve can be improved; and the cylindrical motor drives the driving sliding block to move through the driving gear and the rack, so that the driving sliding block has the advantage of larger transmission power, the power requirement of the driving motor can be reduced, and meanwhile, the driving gear and the rack have the advantages of long service life, stable movement and higher reliability.

Further, the moving direction of the driving sliding block is perpendicular to the moving direction of the pressure reducing valve core, and the front end of the driving sliding block is provided with a guide surface which is abutted against the pressure reducing valve core; alternatively, the direction of motion of the drive slider is parallel to the direction of motion of the pressure relief valve spool. By adopting the technical scheme, the moving direction of the driving sliding block is vertical to the moving direction of the pressure reducing valve core, so that the power transmission direction can be changed, the mounting position of the motor assembly is more diversified, and the design diversity of the utility model is improved; in addition, the guide surface can reduce the external force required by the movement of the pressure reducing valve core, so that the power required by the output of the driving motor is reduced, and the energy consumption is saved; and secondly, the motion direction of the driving sliding block is parallel to the motion direction of the pressure reducing valve core, the power transmission direction cannot be changed, a structure for changing the power direction is not required, the motor assembly is simpler to manufacture, and the manufacturing cost of the motor assembly is saved.

Furthermore, the pressure reducing valve body is provided with an air outlet connector, the air outlet connector is connected with an air outlet pipe, and the air outlet pipe is inserted into the air outlet connector and is provided with a sealing ring. By adopting the technical scheme, the sealing performance between the air outlet pipe and the air outlet joint can be improved through the sealing ring, and CO is reduced ₂ The leakage amount of the (C) is reduced, and the waste of resources is reduced.

Further, the periphery of outlet duct is equipped with the adapter sleeve, and in the adapter sleeve embedding was given vent to anger, the lateral wall that the adapter was given vent to anger was equipped with runs through the draw-in groove, runs through the outside that the draw-in groove is located the adapter sleeve, and the clamp is through running through the draw-in groove and will tighten the adapter sleeve hooping. By adopting the technical scheme, the fastening sleeve can improve the connection stability between the air outlet pipe and the air outlet joint, reduce the possibility that the air outlet pipe is separated from the air outlet joint, and ensure that the air outlet pipe is more firmly and reliably installed; in addition, the clamping hoop can clamp the air outlet pipe, and the clamping hoop is matched with the penetrating clamping groove, so that the possibility that the air outlet pipe is separated from the air outlet joint can be further reduced, and the connection stability of the air outlet pipe and the air outlet joint is improved.

Further, a stepped hole is formed in the air outlet connector, a check ring is sleeved on the air outlet pipe and located between the fastening sleeve and the sealing ring, the fastening sleeve abuts against the check ring, and the check ring tightly presses the sealing ring on the stepped surface of the stepped hole. By adopting the technical scheme, the retainer ring and the step surface are matched to limit the sealing ring, so that the possibility of movement of the sealing ring is reduced, and the tightness of the air outlet pipe and the air outlet joint is improved; in addition, the fastening sleeve can also limit the retainer ring, so that the installation stability of the sealing ring is further improved.

Furthermore, the pressure reducing valve body is provided with a mounting hole, and the front end of the driving sliding block stretches into the mounting hole to be matched in a sealing way and is abutted with the pressure reducing valve core. By adopting the technical scheme, the driving sliding block is in sealing fit with the mounting hole, so that the sealing property between the pressure reducing valve body and the driving sliding block can be improved, and CO is reduced ₂ The leakage amount of the water pump is reduced, and the waste of resources is reduced; in addition, the driving sliding block is abutted with the pressure reducing valve core, so that the movement distance of the driving sliding block can be reduced, the opening and closing time of the pressure reducing valve is shortened, and the manufacturing efficiency of the beverage is improved.

Further, the decompression valve body is fixed on a mounting bracket, the mounting bracket is fixedly connected with the casing, the driving motor is fixed on the casing, and an upper cover for covering the driving motor is arranged on the mounting bracket. By adopting the technical scheme, the upper cover and the shell form a shade for the driving motor, so that the effect of protecting the driving motor is achieved, the possibility of accidental damage of the driving motor can be reduced, and the service life of the driving motor is prolonged.

Further, the pressure reducing valve body is provided with an end cover sleeved on the driving sliding block, and the upper cover and the mounting bracket clamp the end cover; or the mounting bracket is provided with a guide cover for guiding the connection of the gas storage container and the decompression valve body. By adopting the technical scheme, the end cover can limit the movement direction of the driving slide block, so that the driving slide block can perform linear reciprocating movement, the movement of the driving slide block is more stable and smooth, the energy consumption in the movement process of the driving slide block is reduced, and the power requirement of a driving motor is lowered; in addition, the guide cover can guide the installation of the gas storage container, so that the connection between the gas storage container and the decompression valve body is more convenient and quicker, and the installation efficiency of the utility model is improved.

Further, the pressure reducing valve body is provided with a screw connected with the gas storage container. By adopting the technical scheme, the pressure reducing valve body is connected with the gas storage container through threads, so that the connection and the disassembly between the pressure reducing valve body and the gas storage container are quicker, and the replacement of the gas storage container is facilitated.

Drawings

The utility model is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic diagram of a bubble water machine according to the present utility model;

FIG. 2 is a partial cross-sectional view of a bubble water machine according to the present utility model;

FIG. 3 is an enlarged view of a portion A of FIG. 2;

FIG. 4 is an exploded view of a bubble water machine according to the present utility model;

FIG. 5 is a schematic explosion diagram of a bubble water machine according to the present utility model.

Reference numerals: the pressure reducing valve comprises a pressure reducing valve body 1, a pressure reducing valve body 11, a pressure reducing valve core 12, a mounting hole 13, an air outlet joint 14, a 141 penetrating clamping groove, a 142 clamp, a 143 stepped hole, a 144 stepped surface, a 15 air outlet pipe, a 151 fastening sleeve, a 152 retainer ring, a 153 sealing ring, a motor component 2, a driving motor 21, an output shaft 211, a driving sliding block 22, a 221 guiding surface, a 222 threaded hole, a 23 end cover, a 3 mounting bracket, a 31 guiding cover, a 4 casing, a 5 upper cover and a 6 air storage container.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments.

The terms "first," "second," "third," "fourth" and the like in the description and in the claims and in the above drawings, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the utility model described herein may be implemented in sequences other than those illustrated or otherwise described herein.

It should be understood that in the present utility model, "comprising" and "having" and any variations thereof are intended to cover non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements that are expressly listed or inherent to such process, method, article, or apparatus.

It should be understood that in the present utility model, "plurality" means two or more. "and/or" is merely an association relationship describing an association object, meaning that three relationships may exist, for example, X and/or Y may represent: x alone, X and Y together, and Y alone. The character "/" generally indicates that the context-dependent object is an "or" relationship. "comprising X, Y and Z", "comprising X, Y, Z" means that all three of X, Y, Z comprise, "comprising X, Y or Z" means that one of the three comprises X, Y, Z, and "comprising X, Y and/or Z" means that any one or any two or three of the three comprise X, Y, Z.

The technical scheme of the utility model is described in detail below by specific examples. The following specific embodiments may be combined with or replaced with each other according to actual situations, and the same or similar concepts or processes may not be described in detail in some embodiments.

As shown in fig. 1 to 5, the present embodiment provides a bubble water machine including a gas supply assembly, a water supply assembly, and a stirring assembly including a stirring container, the gas supply assembly communicating with the stirring container to deliver CO ₂ The water supply assembly is communicated with the stirring container to convey water, the air supply assembly comprises an air storage container 6 and a pressure reducing valve 1 communicated with the air storage container 6, the pressure reducing valve 1 comprises a pressure reducing valve body 11 and a pressure reducing valve body 12, the pressure reducing valve body 12 moves relative to the pressure reducing valve body 11 to enable the pressure reducing valve 1 to be opened or closed, one side of the pressure reducing valve 1 is provided with an electric assembly, the electric assembly comprises a driving motor 21 and a driving sliding block 22, and the rear end of the driving sliding block 22 is connected with the conveying of the driving motor 21The output shaft 211 is connected in a transmission manner, and the front end of the driving slide block 22 acts on the pressure reducing valve body 12, so that the pressure reducing valve body 12 opens or closes the pressure reducing valve 1.

In this embodiment, the motor assembly 2 includes a driving motor 21 and a driving slider 22, one end of the driving slider 22 is in transmission connection with an output shaft 211 of the driving motor 21, the other end acts on the pressure reducing valve body 12, the driving motor 21 drives the driving slider 22 to move, so that the pressure reducing valve body 12 opens or closes the pressure reducing valve 1, and automatic opening and closing of the pressure reducing valve 1 are realized, and in this embodiment, potential safety hazards caused by human negligence can be eliminated by adopting the motor assembly 2, and safety of this embodiment is improved; in addition, the opening and closing of the pressure reducing valve 1 is controlled through the electric component, so that manual operation can be replaced, a user can feel easier when making drinks, and experience is better, meanwhile, the electric component can enable the pressure reducing valve 1 to be in an opening state within a preset time, so that the air supply of the air storage container 6 is more accurate, stable and continuous, and the making efficiency of the drinks can be improved; secondly, the electric assembly is adopted to enable the motion of the pressure reducing valve body 12 to be faster, enable the opening and closing speed of the pressure reducing valve 1 to be faster, enable a user to accurately control the air supply amount of the air storage container 6 and reduce CO ₂ Waste amount and can improve the taste of the beverage; moreover, the driving motor 21 controls the driving sliding block 22 to perform linear motion, the pressure reducing valve can be opened or closed through a short stroke, the occupied space of the motor assembly 2 can be effectively reduced, and the whole electric assembly 2 is more compact and portable, so that the storage and the transportation are facilitated, and meanwhile, the manufacturing cost of the electric assembly 2 can be reduced.

As shown in fig. 2 and 3, in this embodiment, the driving slider 22 is circumferentially limited to the pressure reducing valve body 11, the rear end of the driving slider 22 is provided with a threaded hole 222, the driving motor 21 is a linear motor, the output shaft 211 of the linear motor is provided with an external thread matched with the threaded hole 222, the driving motor 21 drives the driving slider 22 to reciprocate linearly, the linear motor can directly convert electric energy into linear motion of the driving slider 22, an intermediate conversion mechanism is not required, the overall structure of the electric assembly is simpler, the overall volume of the electric assembly can be reduced, in addition, the linear motor is suitable for high-speed linear motion, the movement speed of the driving slider 22 can be increased, and the opening and closing speed of the pressure reducing valve 1 is increased. It will be understood that in other embodiments, the rear end of the driving slider 22 may be provided with a rack, the driving motor 21 is a cylindrical motor, the output shaft 211 of the driving motor 21 is provided with a driving gear, the driving gear is meshed with the rack, the driving motor 21 drives the driving slider 22 to reciprocate linearly through the rack, and the cylindrical motor drives the driving slider 22 to move through the driving gear and the rack, so that the driving motor has the advantage of larger transmission power, the power requirement of the driving motor 21 can be reduced, and meanwhile, the transmission of the driving gear and the rack has the advantages of long service life, stable movement and higher reliability.

As shown in fig. 2 and 3, in this embodiment, the movement direction of the driving slider 22 is perpendicular to the movement direction of the pressure reducing valve body 12, where the movement direction of the driving slider 22 is horizontal, the movement direction of the pressure reducing valve body 12 is vertical, a guiding surface 221 abutting against the pressure reducing valve body 12 is provided at the front end of the driving slider 22, and the matching of the driving slider 22 and the pressure reducing valve body 12 can change the direction of power transmission, so that the installation position of the motor assembly 2 is more diversified, and the design diversity of this embodiment is improved; in addition, the guiding surface 221 can reduce the external force required by the motion of the decompression valve body 12, thereby reducing the power required to be output by the driving motor 21 and saving energy consumption.

It will be understood, of course, that in other embodiments, the movement direction of the driving slider 22 may be parallel to the movement direction of the pressure reducing valve body 12, and the direction of power transmission may not be changed by matching the driving slider 22 with the pressure reducing valve body 12, so that a structure for changing the power direction is not required, so that the manufacturing of the motor assembly 2 is simpler, and the manufacturing cost of the motor assembly 2 is saved.

As shown in fig. 2 and 4, in this embodiment, the relief valve body 11 is provided with an air outlet connector 14, the air outlet connector 14 is connected with an air outlet pipe 15, the air outlet pipe 15 is inserted into the air outlet connector 14 and provided with a sealing ring 153, and the sealing performance between the air outlet pipe 15 and the air outlet connector 14 can be improved by the sealing ring 153, so that CO is reduced ₂ The leakage amount of the (C) is reduced, and the waste of resources is reduced.

In order to improve the connection stability of the air outlet pipe 15, in this embodiment, the outer periphery of the air outlet pipe 15 is provided with a fastening sleeve 151, the fastening sleeve 151 is embedded into the air outlet connector 14, the side wall of the air outlet connector 14 is provided with a through clamping groove 141, the through clamping groove 141 is positioned at the outer side of the fastening sleeve 151, the clamping hoop 142 is used for clamping the fastening sleeve 151 through the through clamping groove 141, the fastening sleeve 151 can improve the connection stability between the air outlet pipe 15 and the air outlet connector 14, the possibility that the air outlet pipe 15 is separated from the air outlet connector 14 is reduced, and the air outlet pipe 15 is more firmly and reliably installed; in addition, the clamping hoop 142 can clamp the air outlet pipe 15, and the clamping hoop 142 is matched with the penetrating clamping groove 141, so that the possibility that the air outlet pipe 15 is separated from the air outlet connector 14 can be further reduced, and the connection stability of the air outlet pipe 15 and the air outlet connector 14 is improved.

In order to improve the tightness between the air outlet pipe 15 and the air outlet joint 14, in this embodiment, the air outlet joint 14 is internally provided with a stepped hole 143, the air outlet pipe 15 is sleeved with a retainer ring 152, the retainer ring 152 is positioned between a fastening sleeve 151 and a sealing ring 153, the fastening sleeve 151 abuts against the retainer ring 152, the retainer ring 152 tightly presses the sealing ring 153 on a step surface 144 of the stepped hole 143, the sealing ring 153 can be limited by the cooperation of the retainer ring 152 and the step surface 144, the possibility of movement of the sealing ring 153 is reduced, and the tightness between the air outlet pipe 15 and the air outlet joint 14 is improved; in addition, the fastening sleeve 151 can limit the retainer 152, thereby further improving the mounting stability of the seal ring 153.

As shown in fig. 4 and 5, in this embodiment, the relief valve body 11 is provided with a mounting hole 13, the front end of the driving sliding block 22 extends into the mounting hole 13 to be in sealing fit and is abutted against the relief valve body 12, and the driving sliding block 22 is in sealing fit with the mounting hole 13, so that the tightness between the relief valve body 11 and the driving sliding block 22 can be improved, and the CO is reduced ₂ The leakage amount of the water pump is reduced, and the waste of resources is reduced; in addition, the driving sliding block 22 is abutted with the pressure reducing valve body 12, so that the movement distance of the driving sliding block 22 can be reduced, the opening and closing time of the pressure reducing valve 1 is shortened, and the manufacturing efficiency of the beverage is improved.

As shown in fig. 4 and 5, in this embodiment, the pressure reducing valve body 11 is fixed on the mounting bracket 3, the mounting bracket 3 is fixedly connected to the casing 4, the driving motor 21 is fixed on the casing 4, the upper cover 5 for covering the driving motor 21 is arranged on the mounting bracket 3, and the upper cover 5 and the casing 4 form a shade for the driving motor 21, so as to achieve the effect of protecting the driving motor 21, reduce the possibility of accidental damage of the driving motor 21, and improve the service life of the driving motor 21.

As shown in fig. 4 and 5, in this embodiment, the pressure reducing valve body 11 is provided with an end cover 23 that is sleeved on the driving slide block 22, the upper cover 5 and the mounting bracket 3 clamp the end cover 23, and the end cover 23 can limit the movement direction of the driving slide block 22, so as to ensure that the driving slide block 22 performs linear reciprocating movement, make the movement of the driving slide block 22 smoother and more stable, reduce the energy consumption in the moving process of the driving slide block 22, and reduce the power requirement of the driving motor 21; in addition, the upper cover 5 and the mounting bracket 3 limit the end cover 23, so that the stability of the end cover 23 is improved, and the movement of the driving slide block 22 is further stable.

In this embodiment, the mounting bracket 3 is provided with a guide cover 31 for guiding the connection between the gas storage container 6 and the pressure reducing valve body 11, the pressure reducing valve body 11 is provided with a screw connected with the gas storage container 6, the screw is located inside the guide cover 31, and the mounting of the gas storage container 6 can be guided by adopting the guide cover 31, so that the connection between the gas storage container 6 and the pressure reducing valve body 11 is more convenient and rapid, and the mounting efficiency of this embodiment is improved; in addition, the decompression valve body 11 is connected with the gas storage container 6 through threads, so that the connection and the disassembly between the decompression valve body 11 and the gas storage container 6 are quicker, and the replacement of the gas storage container 6 is facilitated.

In addition to the preferred embodiments described above, other embodiments of the present utility model are also contemplated as falling within the scope of the claimed utility model, as well as all other embodiments that may be made by one of ordinary skill in the art without making any inventive effort based on the embodiments of the present utility model.

Claims (10)

1. The utility model provides a bubble water machine, includes air feed subassembly, water supply subassembly and stirring subassembly, and stirring subassembly includes the stirring container, and air feed subassembly and stirring container intercommunication carry CO ₂ The water supply assembly is communicated with the stirring container to convey water, the air supply assembly comprises an air storage container and a pressure reducing valve communicated with the air storage container, the pressure reducing valve comprises a pressure reducing valve body and a pressure reducing valve core, the pressure reducing valve core moves relative to the pressure reducing valve body to enable the pressure reducing valve to be opened or closed, and the water supply assembly is characterized in that one side of the pressure reducing valve is provided with an electric assembly, and the electric assembly is arranged on the side of the pressure reducing valve bodyThe pressure reducing valve comprises a driving motor and a driving sliding block, wherein the rear end of the driving sliding block is in transmission connection with an output shaft of the driving motor, and the front end of the driving sliding block acts on a pressure reducing valve core to enable the pressure reducing valve core to open or close the pressure reducing valve.

2. The bubble water machine according to claim 1, wherein the driving slide block is circumferentially limited on the pressure reducing valve body, a threaded hole is formed in the rear end of the driving slide block, the driving motor is a linear motor, an output shaft of the linear motor is provided with external threads matched with the threaded hole, and the driving motor drives the driving slide block to linearly reciprocate;

or, the rear end of the driving sliding block is provided with a rack, the driving motor is a cylindrical motor, the output shaft of the driving motor is provided with a driving gear, the driving gear is meshed with the rack, and the driving motor drives the driving sliding block to linearly reciprocate through the rack.

3. The bubble water machine according to claim 1, wherein the movement direction of the driving slide block is perpendicular to the movement direction of the pressure reducing valve core, and the front end of the driving slide block is provided with a guide surface abutting against the pressure reducing valve core;

alternatively, the direction of motion of the drive slider is parallel to the direction of motion of the pressure relief valve spool.

4. The bubble water machine according to claim 1, wherein the pressure reducing valve body is provided with an air outlet joint, the air outlet joint is connected with an air outlet pipe, and the air outlet pipe is inserted into the air outlet joint and is provided with a sealing ring.

5. The bubble water machine according to claim 4, wherein a fastening sleeve is arranged on the periphery of the air outlet pipe, the fastening sleeve is embedded into the air outlet joint, a through clamping groove is formed in the side wall of the air outlet joint, the through clamping groove is located on the outer side of the fastening sleeve, and the clamping hoop clamps the fastening sleeve through the through clamping groove.

6. The bubble water machine according to claim 5, wherein the air outlet joint is internally provided with a stepped hole, the air outlet pipe is sleeved with a check ring, the check ring is positioned between the fastening sleeve and the sealing ring, the fastening sleeve abuts against the check ring, and the check ring tightly presses the sealing ring on the stepped surface of the stepped hole.

7. The bubble water machine according to claim 1, wherein the pressure reducing valve body is provided with a mounting hole, and the front end of the driving sliding block extends into the mounting hole to be matched with the pressure reducing valve core in a sealing way and is abutted against the pressure reducing valve core.

8. The bubble water machine according to claim 1, wherein the pressure reducing valve body is fixed on a mounting bracket, the mounting bracket is fixedly connected to the casing, the driving motor is fixed on the casing, and an upper cover for covering the driving motor is arranged on the mounting bracket.

9. The bubble machine according to claim 8, wherein the pressure reducing valve body is provided with an end cover sleeved on the driving slide block, and the upper cover and the mounting bracket clamp the end cover; or the mounting bracket is provided with a guide cover for guiding the connection of the gas storage container and the decompression valve body.

10. The bubble water machine according to claim 1, wherein the pressure reducing valve body is provided with a screw port connected to the air container.