CN114792608A - Drying device is used in capacitor case processing based on condenser production - Google Patents

Abstract

The invention provides a capacitor shell processing drying device based on capacitor production, which comprises a support frame, a support column, a stable base, a horizontal support plate, a drying box body, a collecting box, a capacitor shell distribution hopper assembly capable of being tiled, a collision-prevention buffering blanking plate assembly, a liftable upper drying pipe assembly, a fixed lower drying pipe assembly, a power motor, an upper hot air fan, a lower hot air guide pipe, a telescopic hose, a steam discharge connecting pipe, a drive roller, a driven roller, a drive belt, a drying conveying net belt and a control box. The invention can dry the upper surface and the lower surface of the capacitor shell simultaneously, improves the drying efficiency and quality, effectively avoids the accumulation phenomenon of the capacitor shell in the drying and conveying process by arranging the multi-stage buffering and speed reducing functions, reduces the friction and collision among the capacitor shells, reduces the abrasion to the maximum extent, eliminates the static electricity generated by the capacitor shells and improves the quality.

Description

Drying device is used in capacitor case processing based on condenser production

Technical Field

The invention belongs to the technical field of capacitor production, and particularly relates to a drying device for processing a capacitor shell based on capacitor production.

Background

Two conductors which are close to each other, with a non-conductive insulating medium in between, constitute a capacitor. When a voltage is applied across the two plates of the capacitor, the capacitor stores charge. The capacitance of the capacitor is numerically equal to the ratio of the amount of charge on one conductive plate to the voltage between the two plates. The basic unit of capacitance of a capacitor is farad (F). The capacitor element is generally denoted by letter C in the circuit diagram.

Capacitors play an important role in circuits such as tuning, bypassing, coupling, filtering, etc. The tuning circuit of the transistor radio is used, and the coupling circuit, the bypass circuit and the like of the color television are also used.

With the change of electronic information technology, the update speed of digital electronic products is faster and faster, and the production and sales volume of consumer electronic products such as flat panel televisions (LCDs and PDPs), notebook computers, and digital cameras, etc., is continuously increasing, driving the capacitor industry to grow.

In addition, the invention and creation name of the Chinese patent publication No. CN108831767A is a high-efficiency drying device for a capacitor shell, which comprises a box body and a funnel, wherein the upper half part of the box body is connected with a heat supply mechanism, rectangular holes are arranged in the middles of the left side and the right side of the box body, the rectangular holes are in sliding connection with a swing mechanism, the swing mechanism is fixedly connected with a vibration mechanism, and the funnel is fixedly connected to the bottom of an inner cavity of the box body. But current capacitor case processing is with drying equipment still has and can not dry simultaneously to capacitor case's upper and lower two sides, and capacitor case piles up easily and leads to drying efficiency lower and produce the problem of wearing and tearing easily when unloading after the stoving is accomplished.

Therefore, the invention is very necessary to provide a drying device for processing the capacitor shell based on capacitor production.

Disclosure of Invention

In order to solve the technical problems, the invention provides a drying device for processing a capacitor shell based on capacitor production, which aims to solve the problems that the conventional drying device for processing the capacitor shell cannot simultaneously dry the upper surface and the lower surface of the capacitor shell, the capacitor shell is easy to accumulate, the drying efficiency is low, and the capacitor shell is easy to wear when being discharged after being dried.

A drying device for processing a capacitor shell based on capacitor production comprises a support frame, a support column, a stable base, a horizontal support plate, a drying box body, a collecting box, a capacitor shell distribution hopper assembly capable of being tiled flatly, a collision-proof buffering blanking plate assembly, a liftable upper drying tube assembly, a fixed lower drying tube assembly, a power motor, an upper hot air blower, a lower hot air conduit, a flexible hose, a steam discharge connecting tube, a driving roller, a driven roller, a driving belt, a drying conveying net belt and a control box,

one end of the supporting column is respectively bolted at the four corners of the lower part of the supporting frame, and the other end of the supporting column is bolted at the middle position of the upper part of the stable base; the transverse support plate is transversely bolted at the lower positions of the inner sides of the two support columns; the drying box body is connected to the upper part of the support frame through bolts; the collecting box is arranged on the right side of the supporting frame and is positioned at the lower part of the anti-collision buffering blanking plate component; the capacitor shell distribution hopper assembly capable of being tiled is connected to the left side of the drying box body through screws; the anti-collision buffer blanking plate component is coupled to the right side of the support frame in a shaft manner; the liftable upper drying pipe assembly is arranged at the upper side position in the drying box body; the fixed lower drying pipe assembly is arranged at the lower part of the drying box body; the power motor is connected to the left side position of the upper part of the transverse support plate through a bolt; the upper air heater is connected to the left side of the upper part of the drying box body through a bolt; one end of the lower hot air conduit is sleeved at the air outlet end of the upper hot air blower, and the other end of the lower hot air conduit penetrates through the upper part of the drying box body and is connected with the upper end of the telescopic hose; the telescopic hose is sleeved on the upper part of the liftable upper drying pipe assembly; the steam discharge connecting pipe is embedded at the left side position of the upper part of the drying box body; the driving roller and the driven roller are respectively connected to the inner side of the support frame through bolts; one end of the driving belt is sleeved on a driven gear arranged at the front part of the driving roller, and the other end of the driving belt is sleeved on a driving gear arranged at the front part of the power motor; the drying conveying mesh belt is respectively sleeved on the outer surfaces of the driving roller and the driven roller; the control box is connected to the right upper side of the front part of the drying box body through screws.

Preferably, the drying box body also comprises a sliding slot hole, a shielding plate, a locking screw and a conveying belt through hole, and the sliding slot hole is respectively formed in the right part of the drying box body; the shielding plate is clamped in the chute hole in a sliding manner and is fixed by a locking screw; the locking screw is in threaded connection with the shielding plate; the conveying belt through holes are formed in the lower positions of the left side and the right side of the drying box body.

Preferably, the middle position of the upper part of the shielding plate is connected with an adjusting grab handle through a screw; the lower part of the shielding plate is clamped with a clamping strip, the lower part of the clamping strip is embedded with static elimination bristles, and the upper part of the clamping strip is embedded with a lead; and the top end of the lead is riveted with a connecting clamp.

Preferably, the capacitor shell distribution hopper assembly capable of being tiled comprises an adding hopper, a dredging hopper and distribution lowering hoppers, wherein the dredging hopper is integrally die-cast at the lower part of the adding hopper; the distribution lowering hopper is connected to the lower part of the dredging hopper through screws in a shape of inclining towards the right side and is communicated with the adding hopper.

Preferably, the anti-collision buffer blanking plate assembly comprises a blanking hopper, an arc-shaped connecting guide plate, a lug plate, a buffer spring, a buffer rubber strip, an anti-collision hairbrush strip and a buffer cloth strip, wherein the arc-shaped connecting guide plate is welded at the top of the blanking hopper; the lifting lug plates are respectively coupled to the left side and the right side of the upper part of the blanking hopper; the buffer springs are respectively connected to the front parts of the left side and the right side of the blanking hopper through screws; the buffering rubber strip is transversely glued to the upper part of the inner side of the discharging hopper; the anti-collision brush bar is connected to the lower part of the inner side of the discharging hopper through screws; the buffering cloth strips are riveted at the lower end of the discharging hopper.

Preferably, the liftable upper drying pipe assembly comprises a shaping frame, a telescopic rod, an upper hot gas guide pipe, a gas distribution guide pipe and an upper gas spraying cover, wherein the output end of the telescopic rod is connected to the four corners of the upper part of the shaping frame through bolts; the upper hot gas guide pipe longitudinal screw is connected to the inner side of the back-shaped frame; the transverse screw of the air distribution guide pipe is connected to the inner side of the back-shaped frame; the gas distribution duct is positioned at the lower part of the upper hot gas duct; the upper air injection cover is in threaded connection with the lower side of the air distribution guide pipe.

Preferably, the fixed lower drying pipe assembly comprises a lower air heater, a connecting bent pipe, a gas collecting pipe, a lower gas-ejecting hood and a support plate, wherein one end of the connecting bent pipe is inserted into the output end of the lower air heater, and the other end of the connecting bent pipe is inserted into the left side position inside the gas collecting pipe; the lower gas-spraying cover is in threaded connection with the upper part of the gas collecting pipe and is communicated with the inside of the gas collecting pipe; the support plates are respectively connected to the lower part of the gas collecting pipe through screws.

Preferably, the upper hot gas guide pipe is communicated with the gas distribution guide pipe; the telescopic hose is connected to the middle position of the upper part of the upper hot gas conduit in a threaded manner; the upper part of the telescopic rod is connected with the inner wall of the drying box body through bolts; and the upper part of the upper air injection cover is used for drying the upper part of the conveying mesh belt.

Preferably, the drying conveying net belt penetrates through the inner side of the perforation of the conveying belt.

Preferably, the left side and the right side of the adding hopper are connected with overturning motors through screws; the output end of the turnover motor is connected with a turnover vibration frame through a key; the buffering cloth cover covers the outer part of the turnover vibration frame and is connected with the inner wall of the adding hopper through screws.

Preferably, the lower sides of the interiors of the dredging hopper and the distributed lowering hopper are glued with dredging groove strips, and a deceleration strip is transversely arranged at the intersection of the dredging hopper and the distributed lowering hopper and is an arc-shaped silica gel strip; the deceleration strip set up the downside at dredging the channel strip.

Preferably, the lower hot air blower is connected to the upper part of the transverse support plate through a screw; the connecting bent pipe is embedded at the left lower side of the front part of the drying box body; the gas collecting pipe and the lower gas spraying cover are positioned at the lower part of the drying and conveying net belt.

Preferably, the blanking hopper is arranged on the inner side of the support frame; the lifting lug plate is in shaft joint with the support frame; the buffer spring is connected with the support column through screws.

Preferably, the dredging hopper is connected with the electric left side bolt of the drying box body; the distribution is lowered and is fought and be located the perforated left side of conveyer belt.

Preferably, the power motor, the upper hot air blower, the overturning motor, the telescopic rod and the lower hot air blower are respectively and electrically connected with the control box; the power motor, the upper air heater, the turnover motor, the telescopic rod, the lower air heater and the control box respectively adopt common equipment in the field of mechanical equipment, and can be combined for use according to the requirements of practical application.

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

the condenser case that will dry is put into the inside that adds the fill, under the effect of upset motor, drives upset vibration frame and buffering cloth cover and shakes to make the even flat of condenser case open, through dredging the upper portion that the groove strip landing was to stoving conveying mesh belt, at this in-process, the deceleration strip can play the effect that reduces the buffering, has avoided the mutual collision between the condenser case.

Then, under the effect of drive belt under power motor's effect, drive roller and driven voller and rotate, thereby drive stoving conveying mesh belt and remove, under the effect of upper portion air heater and lower part air heater, it spouts hot-blast air through the jet cover in upper portion and the jet cover blowout in lower part, thereby play and dry the upper and lower two portions of capacitor case, the efficiency and the quality of drying have been improved, insufficient drying has been avoided, at this in-process, the lift of control telescopic link, thereby drive the lift of returning the type frame, change the distance between the jet cover in upper portion and the stoving conveying mesh belt, ensure the effect of drying.

The condenser case that the stoving was accomplished is connected the baffle through the arc and is carried down on the hopper, and then in proper order through the buffering adhesive tape, prevents bumping brush strip and buffering cloth strip, falls to the collection incasement, at this in-process, plays sparse and the effect that the buffering blockked, reduces the mutual collision between the condenser case for the second time, has ensured condenser case's quality.

When the dried capacitor shell passes through the conveying belt and is perforated, the static eliminating bristles can brush the surface of the capacitor shell, so that static generated by the static eliminating bristles is eliminated through the conducting wire and the connecting clamp, and the purpose of static elimination is achieved.

This drying device is used in capacitor case processing based on condenser production can be dried simultaneously capacitor case's upper and lower two sides, has improved the efficiency and the quality of drying, and the emergence of phenomenon is piled up in drying the transportation process has effectively been avoided to the setting of multistage buffering speed reduction function to the capacitor case has been played and has been reduced the friction and collision between the capacitor case, furthest's reducing wear, and can eliminate its static that produces, improved the quality.

Drawings

Fig. 1 is a schematic structural diagram of a drying device for processing a capacitor shell based on capacitor production.

Fig. 2 is a sectional partial structure view of the drying cabinet of the present invention.

Fig. 3 is a right view structure diagram of the drying box body of the invention.

Fig. 4 is a schematic diagram of a tileable capacitor housing distribution bucket assembly of the present invention.

FIG. 5 is a schematic structural view of the anti-collision buffer blanking plate assembly of the present invention.

Fig. 6 is a schematic view illustrating a structure of a liftable upper drying duct assembly of the present invention.

Fig. 7 is a schematic structural view of a stationary lower drying duct assembly according to the present invention.

In the figure:

1. a support frame; 2. a support pillar; 3. stabilizing the base; 4. a transverse support plate; a drying box body 5 and a drying box body; 51. a sliding slot hole; 52. a shielding plate; 521. adjusting the grab handle; 522. clamping the strip; 523. static electricity eliminating bristles; 524. a wire; 525. connecting a clamp; 53. locking the screw; 54. perforating a conveying belt; 6. a collection box; 7. the capacitor shell distribution hopper assembly can be tiled; 71. an adding hopper; 711. turning over a motor; 712. turning over the vibrating frame; 713. a buffer cloth cover; 72. a dredging hopper; 721. dredging the groove strips; 722. a deceleration strip; 73. distributing downward hoppers; 8. the anti-collision buffer blanking plate component; 81. a feeding hopper; 82. the arc-shaped connecting guide plate; 83. a lug plate; 84. a buffer spring; 85. a buffering rubber strip; 86. anti-collision brush strips; 87. buffering the cloth strips; 9. a liftable upper drying pipe assembly; 91. a shaping frame; 92. a telescopic rod; 93. an upper hot gas duct; 94. a gas distribution conduit; 95. an upper air blast hood; 10. a fixed lower drying tube assembly; 101. a lower air heater; 102. connecting a bent pipe; 103. a gas collecting pipe; 104. a lower air cap; 105. a mounting plate; 11. a power motor; 12. an upper air heater; 13. a lower hot gas duct; 14. a flexible hose; 15. a steam discharge connection pipe; 16. a drive roller; 17. a driven roller; 18. a drive belt; 19. drying the conveying mesh belt; 20. a control box.

Detailed Description

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

example (b):

as shown in attached drawings 1-2, the invention provides a capacitor shell processing drying device based on capacitor production, which comprises a support frame 1, a support column 2, a stable base 3, a horizontal support plate 4, a drying box body 5, a collection box 6, a capacitor shell distribution hopper assembly 7 capable of being tiled, a bump-proof buffering blanking plate assembly 8, a liftable upper drying pipe assembly 9, a fixed lower drying pipe assembly 10, a power motor 11, an upper hot air blower 12, a lower hot air conduit 13, a flexible hose 14, a steam discharge connecting pipe 15, a driving roller 16, a driven roller 17, a driving belt 18, a drying conveying mesh belt 19 and a control box 20,

one end of the supporting column 2 is respectively bolted at four corners of the lower part of the supporting frame 1, and the other end of the supporting column is bolted at the middle position of the upper part of the stabilizing base 3; the transverse support plate 4 is transversely bolted at the lower positions of the inner sides of the two support columns 2; the drying box body 5 is connected to the upper part of the support frame 1 through bolts; the collecting box 6 is arranged on the right side of the supporting frame 1 and is positioned at the lower part of the anti-collision buffer blanking plate component 8; the capacitor shell distribution hopper assembly 7 capable of being tiled is connected to the left side of the drying box body 5 through screws; the anti-collision buffer blanking plate component 8 is coupled to the right side of the support frame 1 in a shaft manner; the liftable upper drying pipe assembly 9 is arranged at the upper side position in the drying box body 5; the fixed lower drying pipe assembly 10 is arranged at the lower part of the drying box body 5; the power motor 11 is connected to the left side of the upper part of the transverse support plate 4 through a bolt; the upper hot air blower 12 is connected to the left side of the upper part of the drying box body 5 through a bolt; one end of the lower hot air conduit 13 is sleeved at the air outlet end of the upper hot air blower 12, and the other end of the lower hot air conduit penetrates through the upper part of the drying box body 5 and is connected with the upper end of the telescopic hose 14; the telescopic hose 14 is sleeved on the upper part of the liftable upper drying pipe assembly 9; the steam discharge connecting pipe 15 is embedded at the left side position of the upper part of the drying box body 5; the driving roller 16 and the driven roller 17 are respectively bolted on the inner side of the support frame 1; one end of the driving belt 18 is sleeved on a driven gear arranged at the front part of the driving roller 16, and the other end is sleeved on a driving gear arranged at the front part of the power motor 11; the drying conveying mesh belt 19 is respectively sleeved on the outer surfaces of the driving roller 16 and the driven roller 17; the control box 20 is screwed on the right upper side of the front part of the drying box body 5.

As shown in fig. 3, in the above embodiment, specifically, the drying box 5 further includes a sliding slot hole 51, a shielding plate 52, a locking screw 53 and a conveying belt perforation 54, and the sliding slot hole 51 is respectively formed in the right portion of the drying box 5; the shielding plate 52 is slidably clamped in the sliding slot hole 51 and fixed by a locking screw 53; the locking screw 53 is in threaded connection with the shielding plate 52; the conveying belt through holes 54 are formed in the lower positions of the left side and the right side of the drying box body 5; the drying conveying net belt 19 penetrates through the inner side of the conveying belt through hole 54;

an adjusting grab handle 521 is connected to the middle position of the upper part of the shielding plate 52 through a screw; a clamping strip 522 is clamped at the lower part of the shielding plate 52, static elimination bristles 523 are embedded at the lower part of the clamping strip 522, and a lead 524 is embedded at the upper part of the clamping strip 522; the top end of the lead 524 is riveted with a connecting clip 525.

As shown in fig. 4, in the above embodiment, specifically, the capacitor case distribution hopper assembly 7 capable of being tiled includes an adding hopper 71, a dredging hopper 72 and a distribution lower hopper 73, where the dredging hopper 72 is integrally die-cast at a lower portion of the adding hopper 71; the distribution lowering hopper 73 is screwed to the lower part of the dredging hopper 72 in a shape inclined to the right and is provided to penetrate the addition hopper 71.

As shown in fig. 5, in the above embodiment, specifically, the anti-collision buffer blanking plate assembly 8 includes a blanking hopper 81, an arc-shaped connecting guide plate 82, a lifting lug plate 83, a buffer spring 84, a buffer rubber strip 85, an anti-collision hairbrush strip 86 and a buffer cloth strip 87, wherein the arc-shaped connecting guide plate 82 is welded to the top of the blanking hopper 81; the lifting lug plates 83 are respectively pivoted at the left side and the right side of the upper part of the lower hopper 81; the buffer springs 84 are respectively screwed at the front positions of the left side and the right side of the lower hopper 81; the buffering rubber strip 85 is transversely glued at the upper part of the inner side of the lower hopper 81; the anti-collision brush strip 86 is connected to the lower part of the inner side of the discharging hopper 81 through screws; the buffering cloth strips 87 are riveted at the lower end of the lower hopper 81.

As shown in fig. 6, in the above embodiment, specifically, the liftable upper drying duct assembly 9 includes a return frame 91, a telescopic rod 92, an upper hot air duct 93, a gas distribution duct 94 and an upper gas injection cover 95, and the output end of the telescopic rod 92 is bolted to the upper four corners of the return frame 91; the upper hot gas guide pipe 93 is longitudinally screwed on the inner side of the die-returning frame 91; the gas distribution guide pipe 94 is transversely screwed on the inner side of the back-shaped frame 91; the gas distribution duct 94 is positioned at the lower part of the upper hot gas duct 93; the upper jet shield 95 is threaded onto the underside of the gas distribution conduit 94.

As shown in fig. 7, in the above embodiment, specifically, the fixed lower drying duct assembly 10 includes a lower air heater 101, a connecting bent pipe 102, a gas collecting pipe 103, a lower air-ejecting hood 104 and a support plate 105, one end of the connecting bent pipe 102 is inserted into an output end of the lower air heater 101, and the other end is inserted into a left side position inside the gas collecting pipe 103; the lower gas-spraying hood 104 is connected to the upper part of the gas collecting pipe 103 through screw threads and communicated with the interior of the gas collecting pipe; the support plates 105 are respectively connected to the lower parts of the gas collecting pipes 103 through screws;

the lower hot air blower 101 is connected to the upper part of the transverse support plate 4 through a screw; the connecting bent pipe 102 is embedded at the left lower side of the front part of the drying box body 5; the gas collecting pipe 103 and the lower gas spraying hood 104 are positioned at the lower part of the drying and conveying mesh belt 19.

In the above embodiment, specifically, the upper hot gas duct 93 is communicated with the gas distribution duct 94; the telescopic hose 14 is in threaded connection with the middle position of the upper part of the upper hot air guide pipe 93; the upper part of the telescopic rod 92 is connected with the inner wall of the drying box body 5 through bolts; the upper air-jet hood 95 dries the upper part of the conveyer belt 19.

In the above embodiment, specifically, the left and right sides of the adding hopper 71 are connected with the turning motor 711 through screws; the output end of the turning motor 711 is connected with a turning vibration frame 712; the buffer cloth cover 713 is covered outside the turnover vibration frame 712 and is connected with the inner wall screw of the adding hopper 71; a dredging groove strip 721 is glued to the lower sides of the insides of the dredging hopper 72 and the distribution lowering hopper 73, a deceleration strip 722 is transversely arranged at the intersection of the dredging hopper 72 and the distribution lowering hopper 73, and the deceleration strip 722 is an arc-shaped silica gel strip; the deceleration strip 722 is arranged at the lower side of the dredging channel strips 721.

In the above embodiment, specifically, the discharging hopper 81 is arranged inside the supporting frame 1; the lifting lug plate 83 is arranged in a shaft connection way with the support frame 1; the buffer spring 84 is in screw connection with the support column 2.

In the above embodiment, specifically, the dredging hopper 72 is connected to the electric left bolt of the drying box 5; the distributed lower hopper 73 is positioned on the left side of the conveyor belt perforation 54.

In the above embodiment, specifically, the power motor 11, the upper air heater 12, the turning motor 711, the telescopic rod 92 and the lower air heater 101 are respectively electrically connected to the control box 20; the power motor 11, the upper hot air blower 12, the turnover motor 711, the expansion link 92, the lower hot air blower 101 and the control box 20 are respectively common devices in the field of mechanical devices, and can be combined for use according to actual application requirements.

Principle of operation

When the drying device is used, the steam discharge connecting pipe 15 is connected with the exhaust pipeline and is well connected with control circuit information, the capacitor shell to be dried is placed into the adding hopper 71, the overturning vibration frame 712 and the buffer cloth cover 713 are driven to shake under the action of the overturning motor 711, so that the capacitor shell is uniformly spread out and slides to the upper part of the drying conveying mesh belt 19 through the dredging groove strips 721, and in the process, the deceleration strip 722 can play a role in reducing buffer and avoid mutual collision among the capacitor shells.

Then, under the effect of driving drive belt 18 under the effect of power motor 11, drive roller 16 and driven voller 17 and rotate, thereby drive stoving conveying mesh belt 19 and remove, under the effect of upper portion air heater 12 and lower part air heater 101, spout hot-blast through the jet-propelled cover of upper portion 95 and the jet-propelled cover 104 of lower part, thereby play and dry the upper and lower two of condenser shell, the efficiency and the quality of drying have been improved, insufficient drying has been avoided, in this process, the lift of control telescopic link 92, thereby drive the lift of returning the type frame 91, change the distance between the jet-propelled cover of upper portion 95 and stoving conveying mesh belt 19, the effect of guarantee stoving.

The condenser case that the stoving was accomplished is connected on baffle 82 is carried hopper 81 down through the arc, and then passes through buffering adhesive tape 85 in proper order, prevents bumping brush strip 86 and buffering cloth 87, falls to collection box 6 in, at this in-process, plays the effect of sparse and buffering and blockking, reduces the collision each other between the condenser case for the second time, has ensured condenser case's quality.

When the dried capacitor case passes through the belt penetration hole 54, the static electricity eliminating bristles 523 brush the surface of the capacitor case, so that the static electricity generated by the static electricity eliminating bristles is eliminated through the wire 524 and the connecting clamp 525, thereby achieving the purpose of eliminating the static electricity.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a drying device is used in capacitor case processing based on condenser production, a serial communication port, this drying device is used in capacitor case processing based on capacitor production, including support frame (1), support column (2), firm base (3), horizontal support board (4), stoving box (5), collecting box (6), capacitor case distribution fill subassembly (7) that can tile, buffering lower plate subassembly (8) of preventing colliding with, liftable upper portion stoving pipe subassembly (9), fixed lower part stoving pipe subassembly (10), motor power (11), upper portion air heater (12), lower part steam conduit (13), flexible hose (14), steam discharge takeover (15), drive roller (16), driven voller (17), driving belt (18), stoving conveying mesh belt (19) and control box (20),

one end of the supporting column (2) is respectively bolted at four corners of the lower part of the supporting frame (1), and the other end of the supporting column is bolted at the middle position of the upper part of the stabilizing base (3); the transverse support plate (4) is transversely bolted at the lower positions of the inner sides of the two support columns (2); the drying box body (5) is connected to the upper part of the support frame (1) through bolts; the collecting box (6) is arranged on the right side of the supporting frame (1) and is positioned on the lower part of the anti-collision buffer blanking plate component (8); the capacitor shell distribution hopper assembly (7) capable of being tiled is connected to the left side of the drying box body (5) through screws; the anti-collision buffer blanking plate component (8) is coupled to the right side of the support frame (1) in a shaft manner; the liftable upper drying pipe assembly (9) is arranged at the upper side position in the drying box body (5); the fixed lower drying pipe assembly (10) is arranged at the lower part of the drying box body (5); the power motor (11) is connected to the left side position of the upper part of the transverse support plate (4) through a bolt; the upper hot air blower (12) is connected to the left side of the upper part of the drying box body (5) through a bolt; one end of the lower hot air conduit (13) is sleeved at the air outlet end of the upper hot air blower (12), and the other end of the lower hot air conduit penetrates through the upper part of the drying box body (5) and is connected with the upper end of the telescopic hose (14); the telescopic hose (14) is sleeved on the upper part of the liftable upper drying pipe assembly (9); the steam discharge connecting pipe (15) is embedded at the left side position of the upper part of the drying box body (5); the driving roller (16) and the driven roller (17) are respectively connected to the inner side of the support frame (1) through bolts; one end of the driving belt (18) is sleeved on a driven gear arranged at the front part of the driving roller (16), and the other end of the driving belt is sleeved on a driving gear arranged at the front part of the power motor (11); the drying conveying mesh belt (19) is respectively sleeved on the outer surfaces of the driving roller (16) and the driven roller (17); the control box (20) is connected to the right upper side of the front part of the drying box body (5) through screws.

2. The drying device for processing the capacitor shell based on capacitor production as claimed in claim 1, wherein the drying box body (5) further comprises a chute hole (51), a shielding plate (52), a locking screw (53) and a conveying belt perforation (54), and the chute hole (51) is respectively arranged at the right part of the drying box body (5); the shielding plate (52) is slidably clamped in the sliding groove hole (51) and is fixed by a locking screw (53); the locking screw (53) is in threaded connection with the shielding plate (52); the conveying belt through holes (54) are arranged at the lower parts of the left side and the right side of the drying box body (5).

3. The drying device for processing the capacitor shell produced based on the capacitor as claimed in claim 2, characterized in that the middle position of the upper part of the shielding plate (52) is connected with an adjusting handle (521) by a screw; a clamping strip (522) is clamped at the lower part of the shielding plate (52), static elimination bristles (523) are embedded at the lower part of the clamping strip (522), and a lead (524) is embedded at the upper part of the clamping strip (522); the top end of the lead (524) is riveted with a connecting clip (525).

4. The capacitor production-based drying device for capacitor housing processing as claimed in claim 1, wherein the capacitor housing distribution hopper assembly (7) capable of being tiled comprises an adding hopper (71), a dredging hopper (72) and a distribution lowering hopper (73), wherein the dredging hopper (72) is integrally die-cast at the lower part of the adding hopper (71); the distribution lowering hopper (73) is connected to the lower part of the dredging hopper (72) in a shape of a screw inclined towards the right side and is communicated with the adding hopper (71).

5. The drying device for processing the capacitor shell based on the capacitor production as claimed in claim 1, wherein the anti-collision buffering blanking plate component (8) comprises a blanking hopper (81), an arc-shaped connecting guide plate (82), a lug plate (83), a buffering spring (84), a buffering rubber strip (85), an anti-collision brush strip (86) and a buffering cloth strip (87), wherein the arc-shaped connecting guide plate (82) is welded at the top of the blanking hopper (81); the lifting lug plates (83) are respectively pivoted at the left side and the right side of the upper part of the blanking hopper (81); the buffer springs (84) are respectively connected to the front positions of the left side and the right side of the discharging hopper (81) through screws; the buffering rubber strip (85) is transversely glued to the upper part of the inner side of the lower hopper (81); the anti-collision brush strip (86) is connected to the lower part of the inner side of the discharging hopper (81) through screws; the buffering cloth strip (87) is riveted at the lower end of the lower hopper (81).

6. The capacitor housing processing drying device based on capacitor production as claimed in claim 1, wherein the liftable upper drying tube assembly (9) comprises a frame (91), a telescopic rod (92), an upper hot air duct (93), a gas distribution duct (94) and an upper gas injection cover (95), and the output end of the telescopic rod (92) is bolted to the upper four corners of the frame (91); the upper hot gas guide pipe (93) is longitudinally screwed on the inner side of the returning frame (91); the gas distribution guide pipe (94) is transversely screwed on the inner side of the back-shaped frame (91); the gas distribution duct (94) is positioned at the lower part of the upper hot gas duct (93); the upper air injection cover (95) is in threaded connection with the lower side of the air distribution guide pipe (94).

7. The drying device for processing the capacitor shell based on the capacitor production as claimed in claim 1, wherein the fixed lower drying tube assembly (10) comprises a lower air heater (101), a connecting bent tube (102), a gas collecting tube (103), a lower gas-spraying hood (104) and a support plate (105), one end of the connecting bent tube (102) is inserted into the output end of the lower air heater (101), and the other end is inserted into the left position inside the gas collecting tube (103); the lower gas-spraying hood (104) is connected to the upper part of the gas collecting pipe (103) through screw threads and is communicated with the inside of the gas collecting pipe; the support plates (105) are respectively connected to the lower parts of the gas collecting pipes (103) through screws.

8. The drying device for capacitor case processing based on capacitor production as claimed in claim 6, wherein said upper hot gas duct (93) is connected to the gas distribution duct (94); the telescopic hose (14) is in threaded connection with the middle position of the upper part of the upper hot air conduit (93); the upper part of the telescopic rod (92) is connected with the inner wall of the drying box body (5) through bolts; and the upper air injection cover (95) is used for drying the upper part of the conveying mesh belt (19).

9. The drying device for processing the capacitor shell based on capacitor production as claimed in claim 4, characterized in that the left and right screws of the adding hopper (71) are connected with a turnover motor (711); the output end of the overturning motor (711) is in key connection with an overturning vibration frame (712); the buffering cloth cover (713) is covered outside the overturning vibration frame (712) and is connected with the inner wall screw of the adding hopper (71).

10. The capacitor production-based capacitor case processing drying device as claimed in claim 7, wherein the lower hot air blower (101) is screwed on the upper part of the cross support plate (4); the connecting bent pipe (102) is embedded at the left lower side of the front part of the drying box body (5); the gas collecting pipe (103) and the lower gas spraying cover (104) are positioned at the lower part of the drying conveying mesh belt (19).

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