CN111900882A - High-frequency modular electrophoresis rectifier for distributed electrophoresis process - Google Patents

Abstract

The invention discloses a high-frequency modular electrophoresis rectifier for a distributed electrophoresis process, which structurally comprises a rectifying device, a control switch, a handle, an access door and a charging hole, wherein the rectifying device is provided with a circuit board, components, a conversion pool, a fixed frame, a ventilation mechanism and a sealing box, a rotating mechanism rotates on the inner side of a connecting ring through a ball body, a bent block slides on the outer side of a fixed shaft after a limiting ring synchronously rotates to prevent the limiting ring from reversely rotating to generate suction force on external air, the effect of preventing dust from accumulating inside to influence heat dissipation is achieved, the speed of the dust exceeds the heat dissipation speed of the rectifier, the continuous improvement of the temperature of the rectifier is avoided, an adsorption plate adsorbs tiny dust in wind power, the wind power is enabled to be coiled on a blocking ring to avoid the dust entering by wind, then the dust is filtered again through a pasting net, the dust enters an air inlet pipe and then is replaced by, reduce inside temperature, avoid inside to receive the influence of dust and temperature.

Description

High-frequency modular electrophoresis rectifier for distributed electrophoresis process

Technical Field

The invention relates to the field of rectifiers, in particular to a high-frequency modular electrophoresis rectifier for a distributed electrophoresis process.

Background

The electrophoresis rectifier is the device that turns into the direct current with the alternating current, the effect of supplying with the load after having the filtering, and provide charging voltage for the battery, it carries the function to have to charge, and because the rectifier relates to the electric power problem, be in comparatively inclosed environment, prevent the entering of rainwater, but because at the conversion current in-process, the inside great heat that can produce of rectifier, a large amount of heat discharges through the vent, the vent is under the effect of external wind-force, bring the rectifier surface to the dust in the air, dust piles up behind the certain degree, can influence the inside thermal giving off of rectifier, cause the inside heat of rectifier too high, influence the conversion of alternating current, and the vent is less, the speed that leads to the rectifier to give off the heat can not keep up with the speed of heat discharge, cause the continuous improvement of rectifier temperature, influence operating time and obtain the length.

Disclosure of Invention

The invention is realized by the following technical scheme: the utility model provides a high frequency modularization electrophoresis rectifier for distributed electrophoresis technology, its structure includes fairing, control switch, handle, access door, the hole of charging, control switch inlays the surface at the access door, the handle is installed in the surface of access door, the hole of charging is located fairing's side, fairing is equipped with circuit board, components and parts, conversion pond, fixed frame, ventilation mechanism, seal box, the circuit board is located the inside of seal box, the circuit board is installed in the components and parts upper end, components and parts inlay the surface in the conversion pond, the conversion pond is installed in fixed frame's inside upper end, ventilation mechanism is located the right side in conversion pond, the circuit board laminating is in control switch's inside, ventilation mechanism is equipped with five, upper and lower align to grid distribution.

As a further improvement of the invention, the ventilation mechanism is provided with a fixed rod, a blower, a circulating pipe, a connecting pipe, a rotating mechanism and a circulating mechanism, wherein the blower is embedded and fixed in the middle of the fixed rod, the circulating pipe is communicated with the fixed rod, the connecting pipe is connected to the upper end of the rotating mechanism, the circulating mechanism is positioned on the right side of the rotating mechanism, the fixed rod is embedded and fixed on the side surface of the fixed frame, and the circulating mechanism and the rotating mechanism are positioned on the same axis.

As a further improvement of the invention, the rotating mechanism is provided with a stressed shaft, a rotating mechanism, a connecting ring, a sphere and a circular hole, the rotating mechanism and the stressed shaft are positioned on the same central axis, the sphere is attached to the outer side of the rotating mechanism, the sphere is positioned on the inner side of the connecting ring, the connecting ring is installed on the right side of the connecting ring, the connecting ring is embedded and fixed at the lower end of the connecting pipe, and the left side of the stressed shaft is of a conical structure.

As a further improvement of the invention, the rotating mechanism is provided with a rotating rod, a sponge net and a limiting mechanism, the rotating rod is attached to the outer side of the limiting mechanism, the sponge net is positioned on the outer side of the limiting mechanism, the limiting mechanism is embedded and fixed in the stressed shaft, the sponge net is of an inclined structure and has a unidirectional property, and the sponge net is of a net-shaped structure.

As a further improvement of the invention, the limiting mechanism is provided with a fixed shaft, a limiting ring, a bending block and a sliding ball, the sliding ball is attached to the outer side of the fixed shaft, the bending block is embedded and fixed on the inner side of the limiting ring, the sliding ball is positioned on the inner side of the limiting ring, the limiting ring is embedded and fixed on the inner side of the rotating rod, and the outer side of the fixed shaft is of a triangular structure and is attached to the bending block.

In a further improvement of the present invention, the flow mechanism includes a speed reduction port, an adsorption plate attached to an inner side of the speed reduction port, a flow tube connected to a left side of the flow tube, a curved tube attached to a right side of the speed reduction port, and an air intake mechanism located inside the curved tube and connected to a lower end of the flow tube, the adsorption plate has viscosity, and the speed reduction port has a semi-annular shape.

As a further improvement of the invention, the air inlet mechanism is provided with an air inlet pipe, a connecting shaft, a blocking ring and a pasting net, wherein the air inlet pipe is positioned on the central axis of the connecting shaft, the blocking ring is embedded and fixed on the right side of the connecting shaft, the pasting net is attached to the inner side of the blocking ring, the pasting net is positioned on the inner side of the bent pipe, and the blocking ring is in a ring shape and has slight inclination.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that:

1. when the hair-dryer discharges the inside heat of seal box, the effort of production acts on slewing mechanism through the atress axle, make the wind that the hair-dryer blew out have and accelerate slewing mechanism pivoted effect, thereby slewing mechanism rotates through the spheroid in the go-between inboard, and the spacing ring synchronous rotation back bending piece slides in the fixed axle outside, bending piece block is structural at the triangle-shaped in the fixed axle outside when stopping, carry out spacing rotation when making bending piece follow the spacing ring and rotate, prevent that it from reversing and produce suction to the outside air, reach and prevent that dust from piling up the effect of carrying out the influence in inside to the heat dissipation, avoid influencing the conversion of alternating current, improve the speed of heat emission, make it exceed the rectifier and give off thermal speed, avoid the continuous improvement of rectifier temperature.

2. When outside wind-force acted on circulation mechanism, its wind-force was through flowing the pipe and is got into the speed reduction mouth, when speed reduction mouth turned to wind-force, comparatively tiny dust adsorbed in the adsorption plate was to wind-force, have the effect that prevents dust entering inside, then get into the inboard air inlet mechanism of crooked pipe, make wind-force spiral on the barrier ring, get into inside seam to external wind-force once more and filter, avoid wind to carry the dust entering, then filter dust once more through pasting the net, change the air through the runner pipe behind the entering air-supply line, reduce inside temperature, avoid inside influence that receives dust and temperature.

Drawings

Fig. 1 is a schematic structural diagram of a high-frequency modular electrophoresis rectifier for a distributed electrophoresis process according to the present invention.

Fig. 2 is a schematic side view of a rectifying device according to the present invention.

Fig. 3 is a schematic top view of a ventilation mechanism according to the present invention.

Fig. 4 is a schematic side view of a rotating mechanism according to the present invention.

Fig. 5 is a schematic plan view of a rotating mechanism according to the present invention.

Fig. 6 is a schematic plan structure view of a limiting mechanism of the present invention.

Fig. 7 is a schematic side view of a flow mechanism according to the present invention.

Fig. 8 is a schematic side view of an air intake mechanism according to the present invention.

In the figure: rectifying device-1, control switch-2, handle-3, access door-4, charging hole-5, circuit board-11, component-12, conversion pool-13, fixed frame-14, ventilation mechanism-15, seal box-16, fixed rod-151, blower-152, circulating pipe-153, connecting pipe-154, rotating mechanism-155, circulating mechanism-156, stressed shaft-a 1, rotating mechanism-a 2, connecting ring-a 3, sphere-a 4, circular hole-a 5, rotating rod-a 21, sponge net-a 22, limiting mechanism-a 23, fixed shaft-w 1, limiting ring-w 2, bending block-w 3, sliding bead-w 4, speed reduction port-b 1, adsorption plate-b 2, flowing pipe-b 3, A bending pipe-b 4, an air inlet mechanism-b 5, an air inlet pipe-b 51, a connecting shaft-b 52, a blocking ring-b 53 and a sticking net-b 54.

Detailed Description

The technology of the present invention is further described with reference to the accompanying drawings:

example 1:

as shown in fig. 1-6:

the invention relates to a high-frequency modular electrophoresis rectifier for a distributed electrophoresis process, which structurally comprises a rectifying device 1, a control switch 2, a handle 3, an access door 4 and charging holes 5, wherein the control switch 2 is embedded on the surface of the access door 4, the handle 3 is installed on the surface of the access door 4, the charging holes 5 are positioned on the side surface of the rectifying device 1, the rectifying device 1 is provided with a circuit board 11, a component 12, a conversion pool 13, a fixed frame 14, a ventilation mechanism 15 and a sealing box 16, the circuit board 11 is positioned inside the sealing box 16, the circuit board 11 is installed at the upper end of the component 12, the component 12 is embedded on the surface of the conversion pool 13, the conversion pool 13 is installed at the upper end inside the fixed frame 14, the ventilation mechanism 15 is positioned on the right side of the conversion pool 13, the circuit board 11 is attached inside the control switch 2, the ventilation mechanisms 15 are five, the air is distributed in an up and down uniform arrangement, and the hot air emitted from the conversion tank 13 in the sealed box 16 is discharged and circulated by the suction force generated by the ventilation mechanism 15.

The ventilation mechanism 15 is provided with a fixing rod 151, a blower 152, a circulating pipe 153, a connecting pipe 154, a rotating mechanism 155, and a circulating mechanism 156, wherein the blower 152 is embedded in the middle of the fixing rod 151, the circulating pipe 153 is communicated with the fixing rod 151, the connecting pipe 154 is connected to the upper end of the rotating mechanism 155, the circulating mechanism 156 is located on the right side of the rotating mechanism 155, the fixing rod 151 is embedded in the side surface of the fixing frame 14, the circulating mechanism 156 and the rotating mechanism 155 are located on the same axis, and the blower 152 rotates for blowing outwards to accelerate the dissipation of internal heat.

Wherein, rotary mechanism 155 is equipped with atress axle a1, slewing mechanism a2, go-between a3, spheroid a4, circular hole a5, slewing mechanism a2 is located same central axis with atress axle a1, spheroid a4 laminating is in slewing mechanism a 2's outside, spheroid a4 is located the inboard of go-between a3, go-between a3 is installed in the right side of go-between a3, go-between a3 inlays the lower extreme at connecting pipe 154, atress axle a1 left side is the toper structure for the wind that hair-dryer 152 blew has the effect of accelerating slewing mechanism a2 and rotates, improves inside heat's the giveaway.

Wherein, slewing mechanism a2 is equipped with dwang a21, sponge net a22, stop gear a23, dwang a21 laminates in stop gear a 23's the outside, sponge net a22 is located stop gear a 23's outside, stop gear a23 inlays admittedly in atress axle a1 inside, sponge net a22 is the inclined structure, has the unidirectionality, and sponge net a22 is network structure, avoids dust to get into inside, prevents that dust from piling up and influencing the heat dissipation in inside.

Wherein, stop gear a23 is equipped with fixed axle w1, spacing ring w2, crooked piece w3, slip pearl w4, slip pearl w4 laminating in the outside of fixed axle w1, crooked piece w3 inlays the inboard at spacing ring w2, slip pearl w4 is located the inboard of spacing ring w2, spacing ring w2 inlays the inboard at dwang a21, the outside of fixed axle w1 is the triangle-shaped structure, laminates with crooked piece w3 mutually for crooked piece w3 carries out spacing rotation when following spacing ring w2 and rotates, prevents that it from reversing and produces suction to the outside air.

The embodiment has the following specific use modes and functions:

in the invention, in the ventilation mechanism 15, the suction force generated by the blower 152 discharges and circulates the hot air emitted from the conversion pool 13 in the sealed box 16, and the circulation mechanism 156 makes the outside air enter the sealed box, and the heat inside the sealed box 16 is quickly dissipated by one inlet and one outlet, when the blower 152 discharges the heat inside the sealed box 16, the generated acting force acts on the rotating mechanism a2 through the stressed shaft a1, so that the wind blown out by the blower 152 has the effect of accelerating the rotation of the rotating mechanism a2, therefore, the rotating mechanism a2 rotates on the inner side of the connecting ring a3 through the sphere a4, the emission of the internal heat is improved, meanwhile, the sponge net a22 prevents dust from entering the sealed box 16, and after the limiting ring w2 synchronously rotates, the bending block w3 slides on the outer side of the fixed shaft w1, when the stop, the bending block w3 is clamped on the triangular structure on the outer side of the fixed shaft 1, so that the bending block w3 rotates along with the limiting ring 2, prevent that it from reversing and producing suction to outside air, reach and prevent that dust from piling up and carry out the effect that influences in inside to the heat dissipation, avoid influencing the conversion of alternating current, improve the speed of heat emission, make it exceed rectifier radiating thermal speed, avoid the continuation of rectifier temperature to improve.

Example 2:

as shown in fig. 7-8:

the circulation mechanism 156 is provided with a speed reduction port b1, an adsorption plate b2, a flow pipe b3, a bent pipe b4 and an air inlet mechanism b5, the adsorption plate b2 is attached to the inner side of the speed reduction port b1, the speed reduction port b1 is connected to the left side of the flow pipe b3, the bent pipe b4 is installed on the right side of the speed reduction port b1, the air inlet mechanism b5 is located on the inner side of the bent pipe b4, the b5 is connected to the lower end of the circulation pipe 153, the adsorption plate b2 has viscosity, the speed reduction port b1 is in a semi-circular ring shape and adsorbs relatively fine dust, and the speed reduction port b1 turns to wind power to prevent the dust from entering the inside.

Wherein, air inlet mechanism b5 is equipped with air-supply line b51, connecting axle b52, barrier ring b53, pastes net b54, air-supply line b51 is located the center axis of connecting axle b52, barrier ring b53 inlays the right side at connecting axle b52, paste net b54 laminating in barrier ring b 53's inboard, it is inboard that net b54 is located crooked pipe b4 to paste, barrier ring b53 is the annular shape, and has slight tiltability for wind-force spirals on barrier ring b53, filters the inside seam of external wind-force entering once more, avoids wind to carry the dust entering.

The embodiment has the following specific use modes and functions:

in the invention, when external wind acts on the circulating mechanism 156, the wind enters the speed reduction port b1 through the flow pipe b3, the speed reduction port b1 turns the wind, and simultaneously the adsorption plate b2 adsorbs relatively fine dust in the wind, so that the dust is prevented from entering the inside, and then enters the air inlet mechanism b5 on the inner side of the bent pipe b4, so that the wind is coiled on the blocking ring b53, the gap where the external wind enters the inside is filtered again, so that the dust carried by the wind is prevented from entering, then the dust is filtered again through the adhesive net b54, and the air is replaced through the flow pipe 153 after entering the air inlet pipe b51, so that the internal temperature is reduced, and the influence of the dust and the temperature on the inside is avoided.

The technical scheme of the invention is utilized, or a similar technical scheme is designed by a person skilled in the art based on the inspiration of the technical scheme of the invention, so that the technical effects are achieved, and the technical scheme and the method fall into the protection scope of the invention.

Claims (7)

1. The utility model provides a high frequency modularization electrophoresis rectifier for distributed electrophoresis technology, its structure includes fairing (1), control switch (2), handle (3), access door (4), hole (5) of charging, control switch (2) are embedded on the surface of access door (4), install in the surface of access door (4) handle (3), hole (5) of charging is located the side of fairing (1), its characterized in that:

rectifying device (1) is equipped with circuit board (11), components and parts (12), conversion pond (13), fixed frame (14), ventilation mechanism (15), seal box (16), circuit board (11) are located the inside of seal box (16), install in components and parts (12) upper end circuit board (11), components and parts (12) are inlayed on the surface of conversion pond (13), the inside upper end in fixed frame (14) is installed in conversion pond (13), ventilation mechanism (15) are located the right side of conversion pond (13), circuit board (11) laminating is in the inside of control switch (2).

2. A high frequency modular electrophoretic rectifier for a distributed electrophoretic process as claimed in claim 1, wherein: the ventilating mechanism (15) is provided with a fixing rod (151), a blower (152), a circulating pipe (153), a connecting pipe (154), a rotating mechanism (155) and a circulating mechanism (156), the blower (152) is embedded in the middle of the fixing rod (151), the circulating pipe (153) is communicated with the fixing rod (151), the connecting pipe (154) is connected to the upper end of the rotating mechanism (155), the circulating mechanism (156) is located on the right side of the rotating mechanism (155), and the fixing rod (151) is embedded in the side face of the fixing frame (14).

3. A high frequency modular electrophoretic rectifier for a distributed electrophoretic process as claimed in claim 2, wherein: the rotating mechanism (155) is provided with a stressed shaft (a1), a rotating mechanism (a2), a connecting ring (a3), a ball body (a4) and a circular hole (a5), the rotating mechanism (a2) and the stressed shaft (a1) are located on the same central axis, the ball body (a4) is attached to the outer side of the rotating mechanism (a2), the ball body (a4) is located on the inner side of the connecting ring (a3), the connecting ring (a3) is installed on the right side of the connecting ring (a3), and the connecting ring (a3) is fixedly embedded at the lower end of the connecting pipe (154).

4. A high frequency modular electrophoretic rectifier for a distributed electrophoretic process as claimed in claim 3, wherein: slewing mechanism (a2) is equipped with dwang (a21), sponge net (a22), stop gear (a23), the outside at stop gear (a23) is laminated in dwang (a21), sponge net (a22) is located stop gear (a 23)'s the outside, stop gear (a23) are inlayed and are fixed inside atress axle (a 1).

5. A high frequency modular electrophoretic rectifier for a distributed electrophoretic process as claimed in claim 4, wherein: stop gear (a23) is equipped with fixed axle (w1), spacing ring (w2), crooked piece (w3), slip pearl (w4), slip pearl (w4) laminating in the outside of fixed axle (w1), crooked piece (w3) are inlayed and are fixed in the inboard of spacing ring (w2), slip pearl (w4) are located the inboard of spacing ring (w2), spacing ring (w2) are inlayed and are fixed in the inboard of dwang (a 21).

6. A high frequency modular electrophoretic rectifier for a distributed electrophoretic process as claimed in claim 2, wherein: circulation mechanism (156) are equipped with speed reduction mouth (b1), adsorption plate (b2), flow tube (b3), curved tube (b4), air inlet mechanism (b5), adsorption plate (b2) laminating is in the inboard of speed reduction mouth (b1), speed reduction mouth (b1) are connected on the left side of flow tube (b3), curved tube (b4) are installed in the right side of speed reduction mouth (b1), air inlet mechanism (b5) are located the inboard of curved tube (b4), circulation tube (153) lower extreme is connected in (b 5).

7. A high frequency modular electrophoretic rectifier for a distributed electrophoretic process as claimed in claim 6, wherein: air inlet mechanism (b5) is equipped with air-supply line (b51), connecting axle (b52), barrier ring (b53), pastes net (b54), air-supply line (b51) are located the central axis of connecting axle (b52), the right side at connecting axle (b52) is inlayed and fixed in barrier ring (b53), paste the inboard of net (b54) laminating at barrier ring (b53), it is inboard that net (b54) are located crooked pipe (b4) to paste.

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