Ampelopsis grossedentata beverage filling machine capable of preventing air flow from blowing away output fluid by utilizing electrostatic rectification
Technical Field
The invention relates to the field of beverage filling, in particular to a vine tea beverage filling machine which prevents airflow from blowing away output fluid by utilizing electrostatic rectification.
Background
Current filling devices typically force the beverage inside out through the straight tube by pressure or vacuum. And the output and closing of the inner vine tea beverage is controlled by the transverse valve, but in this way this easily results:
when carrying out the filling work, beverage through straight tube output is when the inside of following the upper end inflow bottle, have one section and atmosphere contact when the flow of external air current is stronger, fluidic direction changes easily, the inside of bottle does not flow into, thereby influence the filling effect, also can make the surface of filling equipment receive the influence, thereby produce the spot of large tracts of land, simultaneously through horizontal valve and vertically rivers, closing pressure, rivers flow in addition by a segment time when the valve backpressure, cause the condition of drippage to appear, thereby the volume of the output of the inside rivers of more difficult control.
Disclosure of Invention
Aiming at the defects of the prior art, the invention is realized by the following technical scheme: utilize static rectification to prevent that air current from blowing away vine tea beverage filling machine of output fluid, its structure includes: device casing, trachea, power frame, output tube, activity filling device, the activity filling device be located the inside of device casing simultaneously with device casing swing joint, both ends and with device casing through connection about the device casing are located to the output tube, power frame and device casing mutually perpendicular and embedding device casing and activity filling device swing joint, the trachea is located the right side terminal surface of power frame and is connected with the power frame cooperation simultaneously, the trachea is the cylinder type structure of the plastic type of through-hole type.
As a further optimization of the invention, the movable filling device is provided with a matching guide frame, a movable mounting frame and a wedge block, wherein the wedge block is positioned on the lower side surface of the movable mounting frame and fixedly connected with the movable mounting frame, the matching guide frame is arranged in the movable mounting frame and fixedly connected with the movable mounting frame, and the wedge block is a rectangular block body in a chamfer shape.
As a further optimization of the invention, the matching guide frame is provided with a fixed frame, a conveying pipe, a protection plate and a guide block, the conveying pipe is positioned on the right side surface of the fixed frame and is matched and connected with the fixed frame, the protection plate is positioned on the lower side surface of the fixed frame and is fixedly connected with the fixed frame, and the guide block is arranged on the lower surface of the fixed frame and is integrated with the fixed frame.
As a further optimization of the invention, the fixed frame is provided with an adjusting frame, a fixture block, a movable block, a fit column, a lead and a dielectric medium, the lead is positioned on the lower side surface of the dielectric medium and is electrically connected with the dielectric medium, the movable block is arranged on the outer side end surface of the dielectric medium and is fixedly connected with the dielectric medium, the fit column is positioned on the outer side of the movable block and is integrated with the movable block, the fixture block is arranged on the upper side surface of the movable block and is welded with the movable block, and the adjusting frame is arranged on the rear side end surface of the fixture block and is movably connected with the fixture block.
As a further optimization of the invention, the adjusting frame is provided with a rotary column, a clamping plate, a telescopic rod, a universal shaft, a magnet, an electromagnet and a mounting plate, wherein the clamping plate is positioned on the lower side surface of the rotary column and is fixedly connected with the rotary column, the telescopic rod is positioned on the left side of the rotary column and is perpendicular to the clamping plate, the universal shaft is arranged on the outer side end face of the telescopic rod and is movably connected with the telescopic rod, the magnet is positioned on the right side end face of the universal shaft and is mechanically connected with the universal shaft, and the electromagnet is positioned on the outer side end face of the mounting plate and is movably connected.
As a further optimization of the invention, the movable mounting frame is provided with a fixed seat, a telescopic frame, an opening and closing block, a shaft frame, a cylindrical frame, a pressure plate, a block body and an input tube, wherein the fixed seat is positioned on the lower side surface of the cylindrical frame and fixedly connected with the cylindrical frame, the input tube is embedded in the cylindrical frame and is of an integrated structure with the cylindrical frame, the shaft frame is arranged on the upper side end surface of the input tube and is movably connected with the input tube, the opening and closing block is embedded in the shaft frame and is movably connected with the input tube, the telescopic frame is positioned in the opening and closing block and is movably connected with the opening and closing block, the pressure plate is arranged at the upper end of the cylindrical frame and is movably connected with the cylindrical frame, and the block body is positioned on the upper side surface of the pressure plate and.
As a further optimization of the invention, the flow guide block is of a cylindrical through hole type block structure, the protection plate is of a frustum type through hole structure, and a certain clearance hole frame is arranged between the protection plate and the flow guide block.
As a further optimization of the invention, the movable block is a special-shaped structure which is a rectangular block body structure with a cambered surface on one side and is provided with a barb-shaped block body with a radian on the lower side.
As a further optimization of the invention, the magnet is a permanent magnet with inward N poles, and a movable universal ball is arranged inside the universal shaft.
As a further optimization of the invention, the opening and closing block is of a structure with one end sealed and the other end provided with a through hole provided with a movable baffle, and the telescopic frame is of an embedded movable structure of a cylinder.
Advantageous effects
The invention is applied to a vine tea beverage filling machine which prevents air flow from blowing away and outputting fluid by utilizing electrostatic rectification, when filling work is carried out, the vine tea beverage filling machine is connected with a water tank through an output pipe, simultaneously, the water flow in the vine tea beverage filling machine is pressurized to enter the interior of a device shell along the output pipe, then, a power frame above the vine tea beverage filling machine is electrified to operate, air pressure is pumped into the interior of equipment through an air pipe, simultaneously, a block body in the vine tea beverage filling machine is stressed and pressed downwards, simultaneously, a pressing plate above the vine tea beverage filling machine is enabled to press downwards a switching block below the vine tea beverage filling machine, simultaneously, the switching block is enabled to be changed into a through hole surface from a sealing surface, simultaneously, a conveying pipe at the front end is matched with the switching block, so that the water flow is switched on, a flow guide block is embedded in the interior of the equipment, then, the water flow impacts a, the water flow is dragged by the protection plate and the electrostatic field, the gathered flow is output, so that the filling work can be directionally and stably completed, meanwhile, the movable block above the movable block displaces, so that the rotary column rotates, meanwhile, the fixture block resets after passing through, and the fixture block cannot be pressed back, the electromagnet above the movable block needs to be electrified, the magnetism of the S pole is generated to attract the magnet on the universal shaft, so that the telescopic rod stirs the rotary column to reset the fixture block, the internal dielectric medium can be stably pressed, the internal electrostatic field is always kept, so that the auxiliary filling work can be better, after filling, the power of the power frame is lost, the internal airflow is reduced, the block is reset, after the pressure of the water flow is reduced, the opening and closing block is reset through the telescopic frame, and the movable baffle inside the through hole surface provided with the movable baffle automatically resets, the output water flow is blocked, and then the sealing surface is switched rapidly, so that the water flow can be prevented from leaking.
According to the invention, the guide frame and the movable mounting frame are matched, the power frame sucks air to drive the block body inside to descend, then the pressing plate presses the opening and closing block below the guide frame, the opening and closing adjustment of water flow is carried out through the structural characteristic that the through hole of the movable baffle is arranged at one end of the opening and closing block in a sealing mode, so that the situation that water leakage is caused due to the fact that the water flow inside cannot be directly closed when the valve is reset can be prevented, meanwhile, the water flow is driven to pass through the water pressure to move the fixing frame inside the fixing frame through pressure, the piezoelectric effect is generated inside the fixing frame, and therefore, the current is continuously output through the fixing of the adjusting frame, the guide block is provided with.
According to the invention, through the fixed frame, the arc-shaped movable block deforms the dielectric medium on the rear side under the impact of high-pressure water flow input through the conveying pipe to generate current, the guide block below the guide block generates an electrostatic field through the lead, and the passing fluid is adsorbed, so that the fluid can be better gathered and output, and the filling is stably carried out.
According to the invention, the clamping block pushes against the pressing plate inside through the adjusting frame, so that the rotary column rotates, meanwhile, the clamping block is reset after passing through, the clamping block cannot be pressed back, the electromagnet above the clamping block is electrified to generate S-pole magnetism to attract the magnet on the universal shaft, and the telescopic rod pulls the rotary column to reset the clamping block, so that the dielectric medium inside can be stably pressed, the electrostatic field inside is always kept, and the filling work can be better assisted.
Drawings
Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
fig. 1 is a schematic cross-sectional view of a vine tea beverage dispenser of the present invention utilizing electrostatic rectification to prevent air flow from blowing the output fluid.
Fig. 2 is a schematic structural diagram of a movable filling device of a vine tea beverage filling machine, which prevents air flow from blowing away output fluid by utilizing electrostatic rectification.
Fig. 3 is a schematic structural view of a guide frame matched with the ampelopsis grossedentata beverage pouring machine for preventing air flow from blowing out output fluid by utilizing electrostatic rectification.
Fig. 4 is a schematic structural diagram of a fixing frame of the vine tea beverage filling machine for preventing the air flow from blowing the output fluid by utilizing electrostatic rectification.
Fig. 5 is a schematic view of the rotating displacement structure of the adjusting bracket of the vine tea beverage filling machine of the present invention for preventing the air flow from blowing the output fluid by using electrostatic rectification.
Fig. 6 is a schematic structural diagram of a movable mounting rack of the vine tea beverage pouring machine of the invention which prevents air flow from blowing the output fluid by utilizing electrostatic rectification.
In the figure: the device comprises a device shell-1, an air pipe-2, a power frame-3, an output pipe-4, a movable filling device-5, a matched guide frame-51, a movable mounting frame-52, a wedge-shaped block-53, a fixed frame-511, a delivery pipe-512, a protection plate-513, a guide block-514, an adjusting frame-5111, a clamping block-5112, a movable block-5113, a fitting column-5114 and a lead-5115, the device comprises a dielectric medium-5116, a rotating column-a, a clamping plate-s, a telescopic rod-d, a universal shaft-f, a magnet-g, an electromagnet-h, a mounting plate-j, a fixed seat-521, a telescopic frame-522, an opening and closing block-523, a shaft frame-524, a cylindrical frame-525, a pressing plate-526, a block-527 and an input pipe-528.
Detailed Description
In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.
Examples
Referring to fig. 1, the present invention provides a vine tea beverage pouring machine using electrostatic rectification to prevent airflow from blowing out output fluid, the structure of which includes: device casing 1, trachea 2, power frame 3, output tube 4, activity filling device 5 is located device casing 1's inside simultaneously and device casing 1 swing joint, output tube 4 locate device casing 1 about both ends and with device casing 1 through connection, power frame 3 and device casing 1 mutually perpendicular and embedding device casing 1 and activity filling device 5 swing joint, trachea 2 is located the right side terminal surface of power frame 3 and is connected with power frame 3 cooperation simultaneously, trachea 2 is the cylinder type structure of the plastic type of through-hole type, can not receive when the air current gets into through-hole type cylinder structure and block to output power that can be better.
Referring to fig. 2, the present invention provides a vine tea beverage pouring machine using electrostatic rectification to prevent airflow from blowing out output fluid, the structure of which includes: activity filling device 5 is equipped with cooperation water conservancy diversion frame 51, movable mounting frame 52, wedge 53 is located both fixed connection of movable mounting frame 52's downside surface, cooperation water conservancy diversion frame 51 locates movable mounting frame 52's inside simultaneously and movable mounting frame 52 fixed connection, wedge 53 is the rectangular block body of chamfer type, and the inside cooperation water conservancy diversion frame 51 of card that can be better through the rectangular block body that is equipped with the chamfer type to better restriction cooperation water conservancy diversion frame 51's position guarantees the wholeness of equipment.
Referring to fig. 3, the present invention provides a vine tea beverage pouring machine using electrostatic rectification to prevent airflow from blowing out output fluid, the structure of which includes: cooperation water conservancy diversion frame 51 is equipped with mount 511, conveyer pipe 512, protection plate 513, water conservancy diversion piece 514, conveyer pipe 512 is located the right side surface of mount 511 and is connected with the cooperation of mount 511 simultaneously, both fixed connection of lower side surface that protection plate 513 is located mount 511, water conservancy diversion piece 514 is located the lower surface of mount 511 and is as an organic whole knot with mount 511, water conservancy diversion piece 514 is the block structure of cylinder through-hole type, installs the conducting layer through inside through-hole to carry out the connecing of electric current and draw, protection plate 513 be frustum type through-hole structure and with be equipped with certain clearance hole frame between the water conservancy diversion piece 514 to can prevent one of rivers from leaking and the rivers dispersion that leads to down.
Referring to fig. 4, the present invention provides a vine tea beverage pouring machine using electrostatic rectification to prevent the airflow from blowing away the output fluid, the structure of which includes: the fixed frame 511 is provided with an adjusting frame 5111, a clamping block 5112, a movable block 5113, a fitting column 5114, a lead 5115 and a dielectric 5116, the wire 5115 is located on the underside surface of the dielectric 5116 and is electrically connected to the dielectric 5116, the movable block 5113 is provided at the outer end face of the dielectric 5116 and is fixedly connected to the dielectric 5116, the fitting post 5114 is located at the outer side of the movable block 5113 and is integrally formed with the movable block 5113, the clamping block 5112 is arranged on the upper surface of the movable block 5113 and is welded with the movable block 5113, the adjusting bracket 5111 is movably connected with the rear end face of the clamping block 5112, the movable block 5113 is a rectangular block structure with a cambered surface on one side and is in a special-shaped structure with a cambered barb block on the lower side, the impact force of water flow impact is prevented by the cambered surface structure to achieve a buffering effect, and the position is limited by the barb block body below, so that the displacement transition is prevented, and the upper water flow is prevented from infiltrating the device.
Referring to fig. 5, the present invention provides a vine tea beverage pouring machine using electrostatic rectification to prevent airflow from blowing out output fluid, the structure of which includes: the adjusting frame 5111 is provided with a rotary column a, a clamping plate s, a telescopic rod d, a universal shaft f, a magnet g, an electromagnet h and a mounting plate j, wherein the clamping plate s is located on the lower side surface of the rotary column a and is fixedly connected with the rotary column a, the telescopic rod d is located on the left side of the rotary column a and is perpendicular to the clamping plate s, the universal shaft f is located on the outer side end face of the telescopic rod d and is movably connected with the telescopic rod d, the magnet g is located on the right side end face of the universal shaft f and is mechanically connected with the universal shaft f, the electromagnet h is located on the outer side end face of the mounting plate j and is movably connected with the magnet g, the magnet g is a permanent magnet with an inward N pole, a movable universal ball is arranged inside the universal shaft f, and the magnet can be effectively adjusted and rotated in multiple directions.
Referring to fig. 6, the present invention provides a vine tea beverage pouring machine using electrostatic rectification to prevent airflow from blowing out output fluid, the structure of which includes: the movable mounting frame 52 is provided with a fixed seat 521, an expansion bracket 522, an opening and closing block 523, a shaft bracket 524, a cylindrical bracket 525, a pressing plate 526, a block 527 and an input tube 528, the fixed seat 521 is positioned on the lower side surface of the cylindrical bracket 525 and is fixedly connected with the cylindrical bracket 525, the input tube 528 is embedded in the cylindrical bracket 525 and is integrated with the cylindrical bracket, the shaft bracket 524 is arranged on the upper side end surface of the input tube 528 and is movably connected with the input tube 528, the opening and closing block 523 is embedded in the shaft bracket 524 and is movably connected with the input tube 528, the expansion bracket 522 is positioned in the opening and closing block 523 and is movably connected with the opening and closing block 523, the pressing plate 526 is arranged at the upper end of the cylindrical bracket 525 and is movably connected with the cylindrical bracket 525, the block 527 is positioned on the upper side surface of the pressing plate 526 and is fixedly connected with the pressing plate 526, the opening and closing block 523 is of a structure with a through hole provided, the sealing surface is closed, the through hole surface of the movable baffle plate is reset and shielded after water pressure removal, so that the dripping leakage is prevented, the telescopic frame 522 is an embedded movable structure of a cylinder and can stretch out and draw back in a small-range structure, and the adjusting work of the opening and closing block 523 above the telescopic frame is assisted.
When filling is carried out, the water tank is connected with the output pipe 4, meanwhile, the water flow in the water tank enters the device shell 1 along the output pipe 4 through pressurization, then the power frame 3 above is electrified to operate, air pressure is pumped into the device through the air pipe 2, meanwhile, the block 527 in the device is pressed downwards under the stress, meanwhile, the pressing plate 526 above is pressed downwards to move the opening and closing block 523 below, meanwhile, the opening and closing block 523 is changed from a sealing surface into a through hole surface, meanwhile, the conveying pipe 512 at the front end is matched with the opening and closing block 523 to enable the water flow to be communicated, the guide block 514 is embedded in the device, then the water flow impacts the movable block 5113 in the device through the conveying pipe 512, the movable block 5113 moves backwards to press the dielectric 5116 behind, then the dielectric 5116 is pressed to generate a piezoelectric effect, so that current is generated, and an electrostatic field is generated in the guide block 514 below through a, the water flow is dragged by the protection plate 513 and the electrostatic field, the gathered flow is output, so that the filling work can be directionally and stably completed, meanwhile, the movable block 5113 above the water flow displaces when displacing, so that the rotary column a rotates, meanwhile, the movable block 5112 is reset after passing through, and the movable block 5112 cannot be pressed back, the electromagnet h above the water flow is electrified to generate the magnetic attraction of the S pole to the magnet g on the universal shaft f, so that the telescopic rod d stirs the rotary column a to reset the fixed block, so that the internal dielectric 5116 can be stably pressed, so that the internal electrostatic field is always kept, so that the auxiliary filling work can be better performed, after filling, the power of the power frame 3 is lost, the internal air flow is reduced, the block 527 is reset, after the pressure of the water flow is reduced, the opening and closing block 523 is reset through the telescopic frame 522, and the movable baffle inside of the through hole surface provided with the movable baffle automatically resets, the output water flow is blocked, and then the sealing surface is switched rapidly, so that the water flow can be prevented from leaking.
While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.