CN217140991U - Magnetic filtering rubber basin - Google Patents

Abstract

The utility model discloses a magnetic filtration rubber basin, including gluing the basin body, the top of gluing the basin body is provided with the overflow frame, the inboard of gluing the basin body is provided with into gluey baffle, it is provided with the overflow launder all around to glue basin body top, the inboard of overflow launder is provided with cage magnetic force mechanism, the inboard intercommunication in bottom of overflow launder has overflow liquid level control mechanism, cage magnetic force mechanism activity is placed in the overflow launder, and glue crosses magnetic area and improves by a wide margin, and because the overflow launder in the glue liquid velocity of flow slow, magnetic impurity is adsorbed by the magnetic plate more easily and is caught; the cage-shaped magnetic force mechanism is movably laid at the bottom of the overflow tank, so that the operation is convenient, the cage-shaped magnetic force mechanism can be taken out and cleaned at any time, the production is not required to be stopped, the production efficiency is improved, and the situation that adsorbed magnetic impurities cannot be removed in time under the supersaturated adsorption capacity of the magnetic plate can be effectively prevented; the cage-shaped design is safer, and the mutual adsorption between the magnetic plates can be effectively prevented when workers clean or store the magnetic plates, so that the workers are injured by clamping.

Description

Magnetic filtering rubber basin

Technical Field

The utility model relates to a rubberizing machine technical field, in particular to magnetic filter glues basin.

Background

The gluing machine is the main equipment for producing the prepreg for the copper-clad plate, is mainly used for impregnating glass cloth with glue to finish a gluing process, and needs a glue basin in the using process of the gluing machine.

The existing gumming machine is with soaking or presoaking the gluey basin, does not install magnetic filter equipment or only glues 1 or 2 magnetic filter sticks of basin bottom installation, does not install magnetic filter equipment: magnetic impurities seriously exceed the standard, the copper-clad plate reliability is influenced, and only 1 or 2 magnetic filter rods are arranged at the bottom of the glue basin: the over-magnetic area of the glue is small, the total amount of the adsorbed magnetic impurities is limited, and the effective filtering effect of the magnetic impurities in the glue cannot be achieved. The installation and cleaning processes of the magnetic filter rod are complex, the magnetic filter rod needs to be stopped for cleaning, production interruption is caused, and if the production is not interrupted, magnetic impurities adsorbed by the magnetic filter rod cannot be removed in time, so that the adsorption capacity of the magnetic filter rod is weakened.

SUMMERY OF THE UTILITY MODEL

The main object of the utility model is to provide a basin is glued in magnetic filtration can effectively solve the problem among the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the magnetic filtering rubber basin comprises a rubber basin body, wherein an overflow frame is arranged at the top end of the rubber basin body, a rubber inlet baffle is arranged on the inner side of the overflow frame, overflow grooves are formed in the periphery of the top end of the rubber basin body, cage-shaped magnetic force mechanisms are arranged on the inner sides of the overflow grooves, and an overflow liquid level control mechanism is communicated with the inner sides of the bottoms of the overflow grooves.

Further, the inner side of the bottom end of the rubber basin body is communicated with a rubber inlet pipe, the rubber inlet pipe is arranged on the lower side of the rubber inlet baffle, and the rubber inlet pipe is connected with an external rubber storage groove through a rubber inlet pipe.

Furthermore, the inner side of the top end of the glue inlet baffle is provided with a glue inlet hole, the diameter of the glue inlet hole is 2.5-3.5mm, the inner side of the top end of the glue inlet baffle is additionally provided with at least one glue return hole, the diameter of the glue return hole is 3-5cm, and the glue return hole is connected with an external glue storage tank through a glue return pipeline.

Furthermore, the top of the overflow frame is serrated.

Furthermore, the cage-shaped magnetic force mechanism comprises a first cage-shaped outer frame and a second cage-shaped outer frame which are arranged on the inner side of the overflow groove, and the inner sides of the first cage-shaped outer frame and the second cage-shaped outer frame are fixedly connected with a first magnetic force plate and a second magnetic force plate respectively.

Furthermore, a plurality of cage-shaped magnetic force mechanisms can be continuously and closely arranged in the overflow groove, and the cage-shaped magnetic force mechanisms fully pave the overflow groove.

Further, the overflow liquid level control mechanism comprises a glue outlet pipe communicated with the overflow groove, the top end of the glue outlet pipe is communicated with at least one glue return cylinder, preferably, four glue return cylinders are uniformly arranged at four corners of the overflow groove, glue flowing holes are formed in the inner sides of the peripheries of the glue return cylinders, the diameter of each glue flowing hole is 0.5-1.5cm, a sleeve is movably connected to the outer side of each glue return cylinder, the movable connection mode is not particularly limited, such as but not limited to spiral connection, the total height of the glue return cylinders and the sleeve when the glue return cylinders and the sleeve are used in a matched mode is 3 times the thickness of the first magnetic plate, and the glue return cylinders and the sleeve are both in a hollow tubular shape.

Further, the distance between the first magnetic plate and the second magnetic plate and the upper surface and the lower surface of the first cage-shaped outer frame and the distance between the second magnetic plate and the upper surface and the lower surface of the second cage-shaped outer frame are respectively 1 time of the thickness of the first magnetic plate and the second magnetic plate.

The utility model discloses following beneficial effect has:

compared with the prior art, the glue pouring device is provided with an overflow frame, a glue inlet baffle, a glue inlet hole, a sleeve, a first cage-shaped outer frame, a first magnetic plate, a second cage-shaped outer frame, a second magnetic plate, a glue returning cylinder, a glue flowing hole and an overflow groove; the cage-shaped magnetic force mechanism is movably arranged in the overflow groove, the over-magnetized area of the glue is greatly increased, and the glue in the overflow groove has low flow rate (natural flowing), so that magnetic impurities are more easily adsorbed and captured by the magnetic plate; the cage-shaped magnetic force mechanism is movably laid at the bottom of the overflow tank, so that the operation is convenient, the cage-shaped magnetic force mechanism can be taken out and cleaned at any time, the production is not required to be stopped, the production efficiency is improved, and the situation that adsorbed magnetic impurities cannot be removed in time under the supersaturated adsorption capacity of the magnetic plate can be effectively prevented; by using the overflow liquid level control mechanism, the distance that glue flows through the magnetic plate can be accurately controlled (for example, the distance that glue flows through the magnetic plate is less than or equal to 1cm), and the adsorption capacity of the magnetic plate is maximally utilized; the cage-shaped design is safer, and the mutual adsorption between the magnetic plates can be effectively prevented when workers clean or store the magnetic plates, so that the workers are injured by clamping.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings required for the technical description of the present invention will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

FIG. 1 is a schematic view of the overall structure of a magnetic filtering rubber basin of the present invention;

FIG. 2 is a schematic view of the inner structure of an overflow frame of the magnetic filtering rubber basin of the present invention;

fig. 3 is a schematic view of an installation structure of a first magnetic plate of the magnetic filtering rubber basin of the present invention;

FIG. 4 is a schematic structural view of a first cage-shaped outer frame of a magnetic filtering rubber basin according to the present invention;

FIG. 5 is a schematic view of the structure of the glue inlet baffle of the magnetic filtering glue basin of the present invention;

fig. 6 is a schematic view of the installation structure of the sleeve of the magnetic filtering rubber basin of the present invention.

In the figure: 1. a rubber basin body; 2. feeding a rubber tube; 3. an overflow frame; 4. a glue inlet baffle plate; 5. a glue inlet hole; 6. glue returning holes; 7. a sleeve; 8. a first cage-shaped outer frame; 9. a first magnetic plate; 10. a second cage-shaped outer frame; 11. a second magnetic plate; 12. discharging the rubber tube; 13. returning the rubber cylinder; 14. glue flowing holes; 15. an overflow trough.

Detailed Description

The present invention will be further described with reference to the following embodiments, wherein the drawings are for illustrative purposes only and are not intended to be limiting, and in order to better illustrate the embodiments of the present invention, some components of the drawings may be omitted, enlarged or reduced and do not represent the size of an actual product.

Examples

As shown in fig. 1 to 6, a magnetic filtration glue pot includes a glue pot body 1, an overflow frame 3 is disposed at a top end of the glue pot body 1, a glue inlet baffle 4 is disposed at an inner side of the glue pot body 1, an overflow groove 15 is disposed around the top end of the glue pot body 1, a cage-shaped magnetic force mechanism is disposed at an inner side of the overflow groove 15, an overflow liquid level control mechanism is communicated with an inner side of a bottom end of the overflow groove 15, a depth of the overflow groove 15 is not particularly limited, for example, the depth of the overflow groove 15 may be 1% to 100% of the depth of the glue pot body 1.

By adopting the technical scheme: glue basin body 1 bottom inboard intercommunication and have into rubber tube 2, and advance rubber tube 2 and set up the downside at advancing gluey baffle 4, and advance rubber tube 2 and say through advancing the rubber tube and connect external glue storage tank.

By adopting the technical scheme: the glue inlet baffle 4 is characterized in that a glue inlet hole 5 is formed in the inner side of the top end of the glue inlet baffle 4, the diameter of the glue inlet hole 5 is 2.5-3.5mm, the glue inlet flow of glue can be kept appropriate, at least one glue return hole 6 is additionally formed in the inner side of the top end of the glue inlet baffle 4, the diameter of the glue return hole 6 is 3-5cm, the glue return hole 6 is connected with an external glue storage tank through a glue return pipeline, and solid powder in the glue can be effectively prevented from settling to the bottom of the glue basin body.

By adopting the technical scheme: the top of the overflow frame 3 is in a sawtooth shape, so that glue can flow conveniently.

By adopting the technical scheme: the cage-shaped magnetic force mechanism comprises a first cage-shaped outer frame 8 and a second cage-shaped outer frame 10 which are arranged on the inner side of the overflow groove 15, the inner sides of the first cage-shaped outer frame 8 and the second cage-shaped outer frame 10 are fixedly connected with a first magnetic plate 9 and a second magnetic plate 11 respectively, the cage-shaped magnetic force mechanism is movably placed in the overflow groove 15, the over-magnetized area of glue is greatly improved, and magnetic impurities are more easily adsorbed and captured by the first magnetic plate 9 and the second magnetic plate 11 due to the slow glue flow rate (natural flowing) in the overflow groove 15; the overflow launder 15 bottoms are laid in the activity of cage shape magnetic force mechanism, and convenient operation can take out clean cage shape magnetic force mechanism at any time, need not to shut down and interrupt production, improves production efficiency, and can prevent effectively that under the magnetic plate adsorption capacity oversaturation state, can't in time clear away absorbent magnetic impurities.

By adopting the technical scheme: a plurality of cage-shaped magnetic mechanisms can be continuously and closely arranged in the overflow groove 15, and the overflow groove 15 is fully paved by the cage-shaped magnetic mechanisms, so that the cleaning effect and the cleaning efficiency are improved.

By adopting the technical scheme: the overflow liquid level control mechanism comprises a glue outlet pipe 12 communicated with the glue basin body 1, the top end of the glue outlet pipe 12 is communicated with four glue return cylinders 13, the four glue return cylinders 13 are uniformly arranged at the four corners of the overflow groove 15, glue flowing holes 14 are formed in the inner sides of the periphery of each glue return cylinder 13, the diameter of each glue flowing hole is 0.5-1.5cm, the outer side of each glue return cylinder 13 is spirally connected with a sleeve 7, the total height of the glue return cylinders 13 and the sleeves 7 in combined use is 3 times the thickness of the first magnetic force plate 9, and the overflow liquid level control mechanism can accurately control the distance between the glue flowing through the first magnetic force plate 9 and the second magnetic force plate 11 to be less than or equal to 1cm, so that the adsorption capacity of the first magnetic force plate 9 and the second magnetic force plate 11 is utilized to the maximum.

By adopting the technical scheme: the distance between the first magnetic plate 9 and the second magnetic plate 11 and the upper and lower surfaces of the first cage-shaped outer frame 8 and the second cage-shaped outer frame 10 is 1 time of the thickness of the first magnetic plate 9 and the thickness of the second magnetic plate 11 respectively, for example, the thickness of the first magnetic plate 9 and the thickness of the second magnetic plate 11 are 1cm, the distance between the first magnetic plate 9 and the second magnetic plate 11 and the upper and lower surfaces of the first cage-shaped outer frame 8 and the second cage-shaped outer frame 10 are 1cm respectively, the total height when the glue returning cylinder 13 and the sleeve 7 are used in a matched mode is 3cm, the liquid level of glue in the overflow groove 15 can be controlled to be 3cm, and the adsorption range of the magnetic plates is within 1cm from the surfaces, the height setting of the glue returning cylinder 13 and the sleeve 7 can maximize the adsorption capacity of the magnetic plates, and the magnetic force can be greatly reduced when the distance exceeds the distance.

It should be noted that, the utility model relates to a magnetic filtration glues basin, through advancing rubber tube 2 toward the inboard glue conveying glue of advancing baffle 4 when using, glue flows the inboard of overflow frame 3 through advancing gluey hole 5, glue flows the upper and lower surface of first magnetic plate 9 and second magnetic plate 11 through the border flow of overflow frame 3 simultaneously, first magnetic plate 9 and second magnetic plate 11 can carry out magnetism to the impurity in the glue and inhale, and glue after magnetism is inhaled gets into the inboard of glue section of thick bamboo 13 through glue flow hole 14 and sleeve 7 top, and flow out through going back glue section of thick bamboo 13, simultaneously through rotating sleeve 7, can adjust sleeve 7 and the relative position who returns glue section of thick bamboo 13, thereby the control flow.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a basin is glued in magnetic filtration, includes gluey basin body (1), its characterized in that: the glue basin is characterized in that an overflow frame (3) is arranged at the top end of the glue basin body (1), a glue inlet baffle (4) is arranged on the inner side of the glue basin body (1), an overflow groove (15) is arranged on the periphery of the top end of the glue basin body (1), a cage-shaped magnetic force mechanism is arranged on the inner side of the overflow groove (15), and an overflow liquid level control mechanism is communicated with the inner side of the bottom end of the overflow groove (15).

2. The magnetic filter glue basin of claim 1, wherein: glue basin body (1) bottom inboard intercommunication and have into rubber tube (2), and advance rubber tube (2) and set up the downside at advancing gluey baffle (4), and advance rubber tube (2) and connect external glue storage tank through advancing rubber tube way.

3. The magnetic filter glue basin of claim 1, wherein: the glue feeding device is characterized in that a glue feeding hole (5) is formed in the inner side of the top end of the glue feeding baffle plate (4), the diameter of the glue feeding hole (5) is 2.5-3.5mm, at least one glue returning hole (6) is formed in the inner side of the top end of the glue feeding baffle plate (4), the diameter of the glue returning hole (6) is 3-5cm, and the glue returning hole (6) is connected with an external glue storage tank through a glue returning pipeline.

4. The magnetic filter glue basin of claim 1, wherein: the top of the overflow frame (3) is serrated.

5. The magnetic filter glue basin of claim 1, wherein: the cage-shaped magnetic force mechanism comprises a first cage-shaped outer frame (8) and a second cage-shaped outer frame (10) which are arranged on the inner side of the overflow groove (15), and the inner sides of the first cage-shaped outer frame (8) and the second cage-shaped outer frame (10) are fixedly connected with a first magnetic force plate (9) and a second magnetic force plate (11) respectively.

6. The magnetic filter glue basin of claim 4, wherein: a plurality of cage-shaped magnetic force mechanisms can be continuously and closely arranged in the overflow groove (15), and the cage-shaped magnetic force mechanisms fully pave the overflow groove (15).

7. The magnetic filter glue basin of claim 1, wherein: the overflow liquid level control mechanism comprises rubber outlet pipes (12) communicated with an overflow groove (15), the top ends of the rubber outlet pipes (12) are communicated with rubber return cylinders (13), the number of the rubber return cylinders (13) is four, the rubber return cylinders are uniformly arranged at the four corners of the overflow groove (15), rubber flow holes (14) are formed in the inner sides of the periphery of the rubber return cylinders (13), the diameter of each rubber flow hole is 0.5-1.5cm, sleeves (7) are spirally connected to the outer sides of the rubber return cylinders (13), and the total height of the rubber return cylinders (13) and the sleeves (7) in matched use is 3 times of the thickness of the first magnetic plate (9).

8. The magnetic filter glue basin of claim 5, wherein: the distance between the first magnetic plate (9) and the second magnetic plate (11) and the upper and lower surfaces of the first cage-shaped outer frame (8) and the second cage-shaped outer frame (10) is 1 time of the thickness of the first magnetic plate (9) and the second magnetic plate (11) respectively.

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