CN210467610U - Sealing oil collecting device for capacitor assembling machine - Google Patents

Abstract

The utility model discloses a seal oil collection device for electric capacity assemblage machine, including the board, still include guide spare, oil absorption subassembly and oil storage device, guide spare sets up on the board, and this guide spare is used for making the material to connect the drainage simultaneously greatly through the discharging device that guide spare got into the assemblage machine and seals oil, still is provided with on the guide spare and leads the hydraulic fluid port, oil absorption subassembly respectively with lead hydraulic fluid port, oil storage device intercommunication, lead the hydraulic fluid port and be arranged in making to seal the oil inflow oil absorption subassembly, during the oil absorption subassembly is arranged in making to seal the oil flow in with higher speed and leads the hydraulic fluid port, the oil storage device is used for storing the oil that seals that oil absorption subassembly flows. The utility model discloses can collect unnecessary sealing oil, avoid sealing the oil and flow into board below damage motor or other electronic component, extension equipment life reduces cost of maintenance.

Description

Sealing oil collecting device for capacitor assembling machine

Technical Field

The utility model relates to an electric capacity production facility technical field, concretely relates to seal oily collection device for electric capacity assemblage machine.

Background

The production process of the aluminum electrolytic capacitor comprises the following steps: cutting positive and negative aluminum foils according to the process size, respectively nailing a lead on the positive and negative aluminum foils, then winding the positive and negative aluminum foils and an electrolytic paper into a cylinder to manufacture a capacitor core, assembling the capacitor core in an aluminum shell through an assembling machine, placing a rubber plug in an aluminum shell opening to fix the capacitor core, and in order to seal and fix the aluminum shell and the rubber plug, the prior art generally adopts a girdling process, namely, in the assembling machine, a sealing needle is propped at the aluminum shell opening and is extruded into the aluminum shell, and the aluminum shell rotates for a circle to form a circle of groove on the aluminum shell opening, so that the aluminum shell and the rubber plug can be sealed and fixed. And the capacitor after the girdling is finished is a bare capacitor, the bare capacitor is pushed into the discharging device by the pushing mechanism of the assembling machine and is stored in the material frame through the discharging device, and the sleeve is performed in the next sleeve process after waiting.

Because the sealing needle and the aluminum shell are both made of metal, when the waist is restrained, the sealing needle and the aluminum shell are in direct contact friction, and in order to ensure that the sealing needle can smoothly slide on the aluminum shell and simultaneously cool the sealing needle, lubricating oil, namely sealing oil, needs to be continuously dripped into the sealing needle. And the discharging device of the assembling machine is close to the waist binding device, part of the sealing oil dripped on the sealing needle falls on the machine table, after the sealing oil is produced for a long time, a large amount of sealing oil is accumulated on the machine table, so that the machine table of the assembling machine is dirty and poor, even part of the sealing oil flows into the lower part of the machine table along the gap of the machine table, and drips on the motor or other electronic elements, so that the motor or other electronic elements are damaged, the service life of the equipment is shortened, and the failure rate and the maintenance cost of the equipment are increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve is that the long-term accumulation of sealing oil is on the board on current aluminium electrolytic capacitor assemblage machine, lead to the board health in disorder poor, and make discharging device, be stained with sealing oil on the naked article electric capacity, increase the technical problem of the cleaning load of naked article electric capacity, aim at provides one kind and can collect unnecessary sealing oil, avoid sealing the oil and go into board below damage motor or other electronic component, extension equipment life, reduce cost of maintenance's the oil collection device that seals that is used for aluminium electrolytic capacitor assemblage machine.

The utility model discloses a following technical scheme realizes: the utility model provides a seal oily collection device for electric capacity assemblage machine, includes the board, still includes guide spare, oil absorption subassembly and oil storage ware, and guide spare sets up on the board, and this guide spare is arranged in connecing the drainage simultaneously greatly as discharging channel and seals oil, still is provided with on the guide spare and leads the hydraulic fluid port, the oil absorption subassembly respectively with lead hydraulic fluid port, oil storage ware intercommunication, lead the hydraulic fluid port and be arranged in making to seal the oil inflow oil absorption subassembly, during the oil absorption subassembly is arranged in making to seal the oil and flow into with higher speed and leads the hydraulic fluid port, the oil storage ware is used for storing the oil that seals that the oil absorption.

Furthermore, the material guide part comprises a slope plate, an extension plate and two vertical plates, wherein the two vertical plates are symmetrically arranged on two sides of the slope plate, the extension plate is horizontally and upwards obliquely arranged at the high-position end of the slope plate, and the extension plate is used for containing sealing oil and guiding the sealing oil to the slope plate; the oil guide port is arranged at the high-position end of the slope plate, the oil guide port is arranged along the width direction of the slope plate, and the length of the oil guide port is equal to the width of the slope plate.

When the assembling machine is used for girdling a bare capacitor, the bare capacitor is placed on the positioning table, and when the girdling is finished, the pushing mechanism of the assembling machine pushes out the bare capacitor, so that the bare capacitor is thrown into the discharging device in a flat throwing motion mode.

In order to avoid the accumulation of redundant sealing oil on the machine table, prevent that unnecessary sealing oil from flowing into the machine table below and damaging motor or other electronic components, this technical scheme sets up guide, oil absorption subassembly and oil reservoir, and the extension board of guide extends to the location platform, during the installation, the needle that seals, it all sets up directly over the extension board to seal oil drip with the device, when sealing oil drips, unnecessary sealing oil just in time drops on the extension board, because extension board one end is fixed on the ramp plate, the extension board other end is the free end and upwarps, so the sealing oil that drips on the extension board flows into the ramp plate along the extension board, and then realize will connect sealing oil greatly and will seal the mesh of oil water conservancy diversion to the ramp plate, and set up the hydraulic fluid port on the ramp plate, make the sealing oil that flows into the ramp plate flow into in the hydraulic fluid port. Meanwhile, the oil absorption assembly is communicated with an external vacuum pump and the oil absorption assembly is communicated with the oil guide opening, the oil absorption assembly forms smaller negative pressure in the oil guide opening, so that the air on the periphery above the oil guide opening drives the sealing oil on the periphery of the oil guide opening to flow into the oil guide opening in an accelerating mode, and the bare capacitor cannot be sucked into the oil guide opening by the smaller negative pressure. The seal oil sucked into the oil suction assembly is finally stored in the oil reservoir. Compared with the prior art, the oil storage device has the advantages that the extension plate, the slope plate, the oil guide port, the oil absorption assembly and the oil storage device are adopted, a large amount of oil accumulation on the machine table is avoided, redundant sealing oil is prevented from flowing into the lower portion of the machine table to damage a motor or other electronic elements, the service life of the equipment is prolonged, and the maintenance cost is reduced.

Furthermore, the oil suction assembly comprises a shell, a vertical partition plate and a vacuum suction joint, the shell comprises a small cavity and a large cavity positioned below the small cavity, the large cavity and the small cavity are both of rectangular structures, and the small cavity is communicated with the oil guide port;

the vacuum suction joints are arranged at the top of the large cavity and are positioned at two sides of the small cavity;

the vertical partition plates are vertically arranged in the small cavity at equal intervals, and the distance between the vertical partition plates is smaller than the diameter of the capacitor.

In order to form less negative pressure in leading the hydraulic fluid port, make and lead the peripheral seal oil of hydraulic fluid port and flow to leading the hydraulic fluid port with higher speed, avoid sealing because of its self mobile influence and adhere to on the ramp plate and flow slowly, this technical scheme adopts the big cavity and the little cavity constitution shell that are the rectangle structure, the shell is whole for following the boss form that supreme ladder diminishes, and the ladder change department is the right angle, and the vacuum suction head sets up the ladder change department at the shell, the vacuum suction head sets up the both sides that are located little cavity simultaneously at the top of big cavity promptly, little cavity is located big cavity top and leads the hydraulic fluid port intercommunication simultaneously. During the use, the shell is connected in the below of ramp plate vertically, the vacuum suction head communicates with outside vacuum pump, form less negative pressure in big cavity and little cavity, make near leading the hydraulic fluid port form same negative pressure, make lead the peripheral air of hydraulic fluid port drive lead the peripheral oil of sealing of hydraulic fluid port flow direction with higher speed lead the hydraulic fluid port when being inhaled and lead the hydraulic fluid port, avoid sealing because of its self mobile influence attached to ramp plate and flow slowly, after sealing the hydraulic fluid port and flow into little cavity in, because the vacuum suction head sets up the collective change department and the shell ladder change department of shell is the right angle, so seal the hydraulic fluid along the direct drippage of little cavity inner wall in big cavity bottom, avoid sealing the hydraulic fluid along big cavity inner wall flow direction vacuum suction head and be inhaled in the outside vacuum pump.

In order to avoid the bare capacitor from accidentally falling into the oil guide port and being sucked into the oil absorption assembly, the technical scheme is that a plurality of vertical partition plates are arranged in the small cavity, the vertical partition plates are arranged at equal intervals, and gaps between the vertical partition plates are smaller than the diameter of the bare capacitor.

Furthermore, the vertical partition plate is parallel to the vertical plate, the top end of the vertical partition plate is lower than the oil guide port in the vertical direction and is set to be an inclined plane, and the inclined plane at the top end of the vertical partition plate is parallel to the slope plate.

Further, still include the arc, the cross section of arc is the arc, and the length of arc equals with the length of leading the hydraulic fluid port, and the arc setting is on the bead of leading the hydraulic fluid port that is close to ramp plate low level end, and the arc sets up with the concave surface down simultaneously, the arc is used for avoiding the material to stagnate and erects the baffle and lead the step department between the hydraulic fluid port, guarantees that the material that falls into in leading the hydraulic fluid port can continue to roll to ramp plate low level end along the convex surface of arc.

Because the vertical partition plate is arranged in the small cavity, when the bare capacitor accidentally falls into the oil guide port, in order to enable the bare capacitor to continue to move downwards along the slope plate, the vertical partition plate is parallel to the vertical plate, and the top end of the vertical partition plate is arranged to be an inclined plane parallel to the slope plate.

In order to further prevent the sealing oil on the slope plate above the oil guide port from flowing to the slope plate below the oil guide port along the slope at the top end of the vertical clapboard, meanwhile, the bare capacitor which accidentally falls into the oil guide port can continue to move downwards along the slope plate, the technical proposal ensures that the inclined plane at the top end of the vertical clapboard is lower than the oil guide port, namely, the height difference exists between the inclined plane at the top end of the vertical clapboard and the oil guide port, and the arc-shaped plate is arranged on the edge port of the oil guide port, so that the situation that the height difference exists between the inclined plane at the top end of the vertical clapboard and the oil guide port to prevent the bare capacitor from moving downwards along the slope plate is avoided, and thus the sealing oil on the slope plate above the oil guide port flows into the oil guide port, even if the sealing oil flows along the inclined plane at the top end of the vertical partition plate, the sealing oil can only flow in the small cavity below the oil guide port due to the height difference between the inclined plane at the top end of the vertical partition plate and the oil guide port, so that the sealing oil is prevented from flowing to the slope plate below the oil guide port along the inclined plane at the top end of the vertical partition plate. When the bare capacitor accidentally falls into the oil guide port, the bare capacitor can cross the step between the inclined plane at the top end of the vertical partition plate and the oil guide port along the convex surface of the arc-shaped plate due to the inertia of the bare capacitor, and then continuously moves downwards along the slope plate.

Further, an oil pipe and a ball valve are arranged on the oil storage device, the ball valve is arranged on the oil pipe, and the oil pipe is communicated with the oil storage device and the large cavity.

After the sealing oil sucked into the oil suction assembly enters the large cavity, the sealing oil continues to flow into the oil storage device along the oil pipe for storage, so that a large amount of accumulated oil on the machine table is avoided, and the redundant sealing oil is prevented from flowing into the lower part of the machine table to damage a motor or other electronic elements. Because the negative pressure formed by the vacuum joint in the large cavity is small, the negative pressure in the large cavity has no influence on the sealing oil flowing into the oil reservoir. And in normal use, the ball valve is in an open state on the oil pipe, when the oil storage device is filled with sealing oil, the ball valve can be manually closed, the sealing oil in the oil storage device is transferred or replaced by another empty oil storage device, at the moment, the sealing oil in the oil absorption assembly is temporarily stored in the large cavity, and when the sealing oil in the oil storage device is transferred or the oil storage device is replaced, the ball valve is opened again.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

the utility model discloses an extend the board, the ramp plate, lead the hydraulic fluid port, oil absorption subassembly and oil storage device, set up simultaneously on the ramp plate and lead the hydraulic fluid port, during the installation, the seal needle, it all sets up directly over the extension board to seal oil dripping device, when sealing oil and dripping, unnecessary sealing oil just in time drops on the extension board, will seal oil by the extension board and lead to the ramp plate in, then seal oil and flow into the oil absorption subassembly through leading the hydraulic fluid port, in the oil storage device, a large amount of long-pending oils have been avoided appearing on the board, prevent unnecessary sealing oil and flow into board below damage motor or other electronic component, equipment life has been prolonged, maintenance cost is reduced.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

fig. 1 is a front view of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a schematic view of the material guiding member;

reference numbers and corresponding part names in the drawings:

the device comprises a machine table 1, a slope plate 2, a vertical partition plate 3, an arc plate 4, a vertical plate 5, a large cavity 6, a vacuum suction joint 7, a small cavity 8, a ball valve 9, an oil pipe 10, an oil reservoir 11, a positioning table 12, an extension plate 13 and a sealing needle 14.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

Examples

As shown in fig. 1-3, a sealing oil collection device for capacitor assembling machine, including board 1, still include guide spare, oil absorption subassembly and oil storage 11, guide spare sets up on board 1, and this guide spare is used for connecing the drainage simultaneously greatly as discharging channel and seals oil, still is provided with on the guide spare and leads the hydraulic fluid port, oil absorption subassembly respectively with lead hydraulic fluid port, oil storage 11 intercommunication, lead the hydraulic fluid port and be arranged in making to seal the oil inflow oil absorption subassembly, during the oil absorption subassembly was used for making to seal the oil flow with higher speed and leads the hydraulic fluid port, oil storage 11 was used for storing the sealing oil that the oil absorption subassembly flowed.

Further, the material guide part comprises a slope plate 2, an extension plate 13 and two vertical plates 5, the two vertical plates 5 are symmetrically arranged on two sides of the slope plate 2, the extension plate 13 is horizontally and upwards obliquely arranged at the high-position end of the slope plate 2, and the extension plate 13 is used for containing sealing oil and guiding the sealing oil to the slope plate 2; the oil guide port is arranged at the high-position end of the slope plate 2, the oil guide port is arranged along the width direction of the slope plate 2, and the length of the oil guide port is equal to the width of the slope plate 2.

When the assembling machine is used for girdling the bare capacitor, the bare capacitor is placed on the positioning table 12, and when the girdling is finished, the pushing mechanism of the assembling machine pushes out the bare capacitor, so that the bare capacitor is thrown into the discharging assembly in a flat throwing motion mode.

In order to avoid accumulation of redundant sealing oil on a machine table and prevent the redundant sealing oil from flowing into the lower part of the machine table to damage a motor or other electronic elements, the technical scheme is provided with a material guide piece, an oil absorption assembly and an oil storage device 11, an extension plate 13 of the material guide piece extends to a positioning table 12, during installation, a sealing needle 14 and a sealing oil dripping device are both arranged right above the extension plate 13, when the sealing oil drips, the redundant sealing oil just drops on the extension plate 13, one end of the extension plate 13 is fixed on a slope plate 2, the other end of the extension plate 13 is a free end and is tilted upwards, so the sealing oil dripping on the extension plate 13 flows into the slope plate 2 along the extension plate 13, the purposes of containing the sealing oil and guiding the sealing oil to the slope plate 2 are achieved, and an oil guide opening is arranged on the slope plate 2, so that the sealing oil flowing into the slope plate 2 flows into the oil guide opening. Meanwhile, the oil absorption assembly is communicated with an external vacuum pump and the oil absorption assembly is communicated with the oil guide opening, the oil absorption assembly forms smaller negative pressure in the oil guide opening, so that the air on the periphery above the oil guide opening drives the sealing oil on the periphery of the oil guide opening to flow into the oil guide opening in an accelerating mode, and the bare capacitor cannot be sucked into the oil guide opening by the smaller negative pressure. The seal oil sucked into the oil suction assembly is finally stored in the oil reservoir 11. Compared with the prior art, the oil storage device has the advantages that the extension plate 13, the slope plate 2, the oil guide port, the oil absorption assembly and the oil storage device 11 are adopted, a large amount of oil accumulation on the machine table 1 is avoided, redundant sealing oil is prevented from flowing into the lower portion of the machine table to damage a motor or other electronic elements, the service life of the equipment is prolonged, and the maintenance cost is reduced.

Further, the oil suction assembly comprises a shell, a vertical partition plate 3 and a vacuum suction joint 7, the shell comprises a small cavity 8 and a large cavity 6 positioned below the small cavity 6, the large cavity 6 and the small cavity 8 are both rectangular structures, and the small cavity 8 is communicated with the oil guide port;

the vacuum suction joints 7 are arranged at the top of the large cavity 6 and are positioned at two sides of the small cavity 6;

the vertical partition plates 3 are vertically arranged in the small cavity 6 at equal intervals, and the distance between the vertical partition plates 3 is smaller than the diameter of the capacitor.

In order to form less negative pressure in leading the hydraulic fluid port, make and lead the peripheral seal oil of hydraulic fluid port and flow to leading the hydraulic fluid port with higher speed, avoid sealing because of its self mobile influence and adhere to on ramp plate 2 and flow slowly, this technical scheme adopts big cavity 6 and little cavity 8 that are the rectangle structure to constitute the shell, the shell is whole for following the boss form that supreme ladder diminishes, and the ladder change department is the right angle, and vacuum suction joint 7 sets up the ladder change department at the shell, vacuum suction joint 7 sets up the top at big cavity 6 and lies in the both sides of little cavity 6 simultaneously promptly, little cavity 8 is located big cavity 6 top and leads the hydraulic fluid port intercommunication simultaneously. During the use, the shell is connected in the below of ramp plate 2 vertically, vacuum suction head 7 and outside vacuum pump intercommunication, form less negative pressure in big cavity 6 and little cavity 8, make near leading the hydraulic fluid port form same negative pressure, make lead the peripheral air of hydraulic fluid port drive lead the peripheral oil of sealing of hydraulic fluid port flow to lead the hydraulic fluid port with higher speed by being inhaled when leading the hydraulic fluid port, avoid sealing because its self mobile influence attached to ramp plate 2 and flow slowly, after sealing oil from leading the hydraulic fluid port inflow little cavity 8 in, because vacuum suction head 7 sets up the collective change department at the shell and the shell ladder change department is the right angle, so seal oil along the direct drippage of little cavity 8 inner wall in big cavity 6 bottom, avoid sealing oil along the flow of big cavity 6 inner wall to vacuum suction head 7 and be inhaled in the outside vacuum pump.

In order to avoid the bare capacitor from accidentally falling into the oil guide port and being sucked into the oil absorption assembly, the technical scheme is that the plurality of vertical partition plates 3 are arranged in the small cavity 8, the vertical partition plates 3 are arranged at equal intervals, gaps among the vertical partition plates 3 are smaller than the diameter of the bare capacitor, and therefore when the bare capacitor accidentally falls into the oil guide port, the bare capacitor is prevented from falling into the oil absorption assembly due to the existence of the vertical partition plates 3.

Further, the vertical partition plate 3 is parallel to the vertical plate 5, the top end of the vertical partition plate 3 is lower than the oil guide port in the vertical direction and is set to be an inclined surface, and the inclined surface at the top end of the vertical partition plate 3 is parallel to the slope plate 2.

Further, still include arc 4, the cross section of arc 4 is the arc, and the length of arc 4 equals with the length of leading the hydraulic fluid port, and arc 4 sets up on the bead of leading the hydraulic fluid port that is close to 2 low level ends of ramp, and arc 4 sets up with the concave surface down simultaneously, arc 4 is used for avoiding the material to stay in erecting baffle 4 and leading the step department between the hydraulic fluid port, guarantees that the material that falls into in leading the hydraulic fluid port can continue to roll to 2 low level ends of ramp along the convex surface of arc 4.

Because be provided with perpendicular baffle 3 in the little cavity 8, when the bare article electric capacity falls into the oil guide mouth by accident, in order to make bare article electric capacity can continue to move down along ramp plate 2, this technical scheme will erect baffle 3 and parallel with riser 5 and set up the top of erecting baffle 3 into the inclined plane parallel with ramp plate 2, like this when bare article electric capacity falls into the oil guide mouth by accident, bare article electric capacity also can continue to move down along the inclined plane of erecting baffle 3, if erect baffle 3 and perpendicular to riser 5 and set up, just form the clearance of perpendicular to riser 5 between a plurality of perpendicular baffles 3, when bare article electric capacity falls into the oil guide mouth by accident, bare article electric capacity can not fall into in the clearance, but is very easily detained on erecting baffle 3, lead to bare article electric capacity can not continue to move down along ramp plate 2.

In order to further prevent the sealing oil on the slope plate 2 above the oil guide port from flowing to the slope plate 2 below the oil guide port along the inclined plane at the top end of the vertical partition plate 3 and simultaneously ensure that the bare capacitor accidentally falling into the oil guide port can continuously move downwards along the slope plate 2, the technical scheme simultaneously makes the inclined plane at the top end of the vertical partition plate 3 lower than the oil guide port, namely, the height difference exists between the inclined plane at the top end of the vertical partition plate 3 and the oil guide port, and simultaneously the arc-shaped plate 4 is arranged on the bead of the oil guide port, so that the height difference between the inclined plane at the top end of the vertical partition plate 3 and the oil guide port is prevented from hindering the downward movement of the capacitor along the slope plate 2, and after the sealing oil on the slope plate 2 above the oil guide port flows into the oil guide port, even if the sealing oil flows along the inclined plane at the top end of the vertical partition plate 3, the sealing oil can only, the sealing oil is prevented from flowing to the slope plate 2 below the oil guide port along the slope at the top end of the vertical clapboard 3. When the bare capacitor accidentally falls into the oil guide port, the bare capacitor can cross the step between the inclined plane at the top end of the vertical partition plate 3 and the oil guide port along the convex surface of the arc-shaped plate 4 due to the inertia of the bare capacitor, and then continuously moves downwards along the slope plate 2.

Further, an oil pipe 10 and a ball valve 9 are arranged on the oil reservoir 11, the ball valve 9 is arranged on the oil pipe 10, and the oil pipe 10 is communicated with the oil reservoir 11 and the large cavity 6.

After entering the large cavity 6, the sealing oil sucked into the oil suction assembly continues to flow into the oil storage 11 along the oil pipe 10 for storage, so that a large amount of oil accumulation on the machine table 1 is avoided, and the redundant sealing oil is prevented from flowing into the lower part of the machine table 1 to damage a motor or other electronic elements. In normal use, the ball valve 9 is in an open state on the oil pipe 10, when the oil reservoir 11 is full of seal oil, the ball valve 9 can be manually closed, the seal oil in the oil reservoir 11 is transferred or replaced by another empty oil reservoir 11, the seal oil in the oil suction assembly is temporarily stored in the large cavity 6, and when the seal oil in the oil reservoir 11 is transferred or the oil reservoir 11 is replaced, the ball valve 9 is reopened.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (6)

1. The utility model provides a seal oil collection device for electric capacity assemblage machine, includes board (1), its characterized in that: still include guide spare, oil absorption subassembly and oil storage ware (11), the guide spare sets up on board (1), and this guide spare is used for receiving the drainage simultaneously greatly as discharging channel and seals oil, still is provided with on the guide spare and leads the hydraulic fluid port, the oil absorption subassembly respectively with lead hydraulic fluid port, oil storage ware (11) intercommunication, lead the hydraulic fluid port and be arranged in making to seal the oil inflow oil absorption subassembly, during the oil absorption subassembly is arranged in making to seal the oil and flow into with higher speed and leads the hydraulic fluid port, oil storage ware (11) are used for storing the sealing oil that the oil absorption subassembly flows.

2. The sealing oil collecting device for the capacitor assembling machine as claimed in claim 1, wherein: the material guide piece comprises a slope plate (2), an extension plate (13) and two vertical plates (5), the two vertical plates (5) are symmetrically arranged on two sides of the slope plate (2), the extension plate (13) is arranged at the high-position end of the slope plate (2) in a horizontal and upward inclined mode, and the extension plate (13) is used for containing sealing oil and guiding the sealing oil to the slope plate (2); the oil guide port is arranged at the high-position end of the slope plate (2), the oil guide port is arranged along the width direction of the slope plate (2), and the length of the oil guide port is equal to the width of the slope plate (2).

3. The sealing oil collecting device for the capacitor assembling machine as claimed in claim 1, wherein: the oil absorption assembly comprises a shell, a vertical partition plate (3) and a vacuum suction joint (7), the shell comprises a small cavity (8) and a large cavity (6) positioned below the small cavity (8), the large cavity (6) and the small cavity (8) are both rectangular structures, and the small cavity (8) is communicated with an oil guide port;

the vacuum suction joints (7) are arranged at the top of the large cavity (6) and are positioned at two sides of the small cavity (8);

the vertical partition plates (3) are vertically arranged in the small cavity (8) at equal intervals, and the distance between the vertical partition plates (3) is smaller than the diameter of the capacitor.

4. The sealing oil collecting device for the capacitor assembling machine as claimed in claim 3, wherein: the vertical partition plate (3) is parallel to the vertical plate (5), the top end of the vertical partition plate (3) is lower than the oil guide port in the vertical direction and is set to be an inclined plane, and the inclined plane at the top end of the vertical partition plate (3) is parallel to the slope plate (2).

5. The sealing oil collecting device for the capacitor assembling machine as claimed in claim 4, wherein: still include arc (4), the cross section of arc (4) is the arc, and the length of arc (4) equals with the length of leading the hydraulic fluid port, and arc (4) set up on the bead of leading the hydraulic fluid port near ramp plate (2) low level end, and arc (4) set up with the concave surface down simultaneously, arc (4) are used for avoiding the material to stagnate in erecting baffle (3) and lead the step department between the hydraulic fluid port, guarantee to fall into the material of leading in the hydraulic fluid port and can continue to roll to ramp plate (2) low level end along the convex surface of arc (4).

6. The sealing oil collecting device for the capacitor assembling machine as claimed in claim 1, wherein: an oil pipe (10) and a ball valve (9) are arranged on the oil storage device (11), the ball valve (9) is arranged on the oil pipe (10), and the oil pipe (10) is communicated with the oil storage device (11) and the large cavity (6).

Images