CN112467089A - Method and special equipment for solidifying and drying accumulator plate - Google Patents

Abstract

The invention discloses a method for solidifying and drying a storage battery polar plate and special equipment, wherein a solidifying chamber and a drying chamber are integrated, namely an atomizing part and a drying part of an atomizing and drying mechanism are matched with a base formed by a water tank, the polar plate hung on each hanging pipe of the atomizing part is atomized by the atomizing part, so that lead plaster is bonded and solidified on the polar plate, after solidification is finished, the atomizing amount is controlled to be reduced, the polar plate is prevented from being seriously dehydrated and cracked or separated when drying is started, the drying part is started to dry the polar plate, and the atomizing part is gradually closed along with drying; after the solidification and drying are finished, the movable plate on the base is detached, and then the polar plate is taken down from the hanging tube. The invention solves the problems that the existing pole plate has larger occupied space for curing and drying, the rate of finished products of the pole plate is lower, and intensive production cannot be met. The invention is suitable for the technical field of processing of the pole plate in the production process of the storage battery.

Description

Method and special equipment for solidifying and drying accumulator plate

Technical Field

The invention belongs to the technical field of pole plate processing in a production process of a storage battery, and particularly relates to a method for solidifying and drying a storage battery pole plate and special equipment.

Background

In the working procedure of the pole plate processing, it is important to coat the lead plaster on the pole plate, and solidify and dry the lead plaster on the pole plate, so that the lead plaster is bonded on the pole plate, and the problem of performance reduction of the storage battery caused by partial lead plaster falling off is solved. However, the current production process is generally completed in two areas, one is a curing chamber and the other is a drying chamber; at first will scribble the polar plate that has the lead plaster and place the solidification in the curing chamber in to make the temperature and the humidity in the curing chamber keep at fixed range, and make the polar plate be in atomizing steam completely, after a period, with the polar plate after the solidification transfer to the drying chamber in, in this section distance of transporting, need use wet cloth etc. to place the shelf of polar plate and cover, in order to avoid the transportation in polar plate humidity to reduce and the phenomenon that drops takes place. Therefore, the existing polar plate has large occupied space for curing and drying, and the yield of the polar plate is low, so that intensive production cannot be met.

Disclosure of Invention

The invention provides a method for curing and drying a storage battery pole plate and special equipment, which are used for solving the problems that the existing pole plate curing and drying method occupies a large space, the rate of finished products of the pole plate is low, and intensive production cannot be met.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

a method of curing and drying battery plates comprising the steps of:

s1, hanging the polar plates of the storage battery on hanging pipes of the atomization drying mechanism side by side;

s2, starting an atomization part of the atomization drying mechanism, atomizing and humidifying each polar plate on each hanging pipe, and controlling the polar plates to be in an environment with the temperature of 6.3-9.5 ℃ and the humidity of 98.2% for 25-28 min;

s3, gradually reducing the atomization amount, gradually starting a drying part of the atomization drying mechanism to enable the polar plate to be in hot water mist with certain moisture content for 10-12min, then closing the atomization part, and completely opening the drying part;

s4, drying for 10h, sampling the polar plate at 9h, and detecting;

s5, after drying is finished, the polar plates are detached from the hanging pipes and are transferred to the next procedure in a centralized manner;

s6, continuously repeating the steps S1-S5.

The invention also discloses special equipment for solidifying and drying the accumulator plate, which comprises a base consisting of a water tank, wherein a vertical mounting plate and a movable plate which is arranged opposite to the mounting plate are fixedly assembled on the base, the movable plate is detachably connected on the base, an atomization drying mechanism is connected on the mounting plate, the atomization drying mechanism comprises an atomization part and a drying part, the atomization part is communicated with the inner cavity of the base and is provided with a plurality of rows of hanging tube groups which are arranged at intervals along the vertical direction, hanging tubes of each group of hanging tube groups vertically penetrate through the movable plate along the horizontal direction through the mounting plate, and atomization holes are uniformly formed in each hanging tube.

Furthermore, a support plate is arranged between the mounting plate and the movable plate, each hanging pipe penetrates through the support plate, and the lower end of the support plate abuts against the upper surface of the base.

Further, atomizing stoving mechanism still includes the gas-liquid distribution module with atomizing portion and stoving portion intercommunication respectively, the gas-liquid distribution module includes water route and the gas circuit with atomizing portion and stoving portion intercommunication respectively, just water route and gas circuit are mutually independent.

Furthermore, the atomizing part comprises an inlet pipe and an outlet pipe which are respectively communicated with the water pump of the base and the water channel of the gas-liquid distribution module, an inlet control valve and an outlet control valve are respectively installed on the inlet pipe and the outlet pipe, each hanging pipe penetrates through the mounting plate and is respectively assembled on the gas-liquid distribution module, and each hanging pipe is communicated with the water channel.

Furthermore, a connecting flange is formed at one end of the hanging pipe close to the gas-liquid distribution module, and the connecting flange and the corresponding end face of the gas-liquid distribution module are fixed through a plurality of fixing bolts.

Furthermore, the water path comprises a main water path communicated with the outlet pipe of the water pump, the main water path is communicated with a plurality of branch water paths which are respectively in one-to-one correspondence with the hanging pipe groups, each branch water path is respectively communicated with a plurality of branch water paths which are respectively communicated with the hanging pipes, and the end parts of the hanging pipes are respectively connected with the gas-liquid distribution module through the branch water paths.

Further, the stoving portion includes the air pump of the gas circuit intercommunication of outlet duct and gas-liquid distribution module, in the tolerance control valve is installed to the outlet duct, and installs electric heating wire on the outlet duct, in each the hanging pipe embeds there is the stoving pipe, the one end of stoving pipe is assembled in gas-liquid distribution module, and each stoving pipe and gas circuit intercommunication, has opened the stoving hole on the stoving pipe uniformly, the hole of drying staggers each other with the atomizing hole on the corresponding hanging pipe.

Further, the gas circuit includes the total gas circuit with air pump outlet duct intercommunication, total gas circuit intercommunication has a plurality of branch gas circuits with each string nest of tubes one-to-one respectively, and each branch gas circuit communicates respectively has a plurality of branch gas circuits that communicate with the drying duct respectively, and the tip of each drying duct is connected with gas-liquid distribution module through a branch gas circuit respectively.

Furthermore, a plurality of universal wheels are installed at the lower end of the base.

Due to the adoption of the structure, compared with the prior art, the invention has the technical progress that: the invention combines the curing chamber and the drying chamber into a whole, namely, an atomizing part and a drying part of an atomizing and drying mechanism are matched with a base formed by a water tank, and polar plates hung on various hanging pipes of the atomizing part are atomized by the atomizing part, so that lead plaster is bonded and cured on the polar plates; in order to avoid the influence of the external environment, a cover can be arranged to cover the special equipment of the invention; after solidification and drying are finished, the movable plate on the base is detached, and then the polar plate is taken down from the hanging pipe; the temperature and humidity of the polar plate can be detected by the thermometer and the hygrometer arranged in the housing, so that the adaptability adjustment can be conveniently carried out; in conclusion, the invention solves the problems that the existing polar plate has larger occupied space for curing and drying, the yield of the polar plate is lower, and intensive production cannot be met.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of another embodiment of the present invention;

FIG. 3 is a side view of a structure according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of a gas-liquid distribution module connected to a hanging pipe according to an embodiment of the present invention;

FIG. 5 is a side view of the gas-liquid distribution module according to the embodiment of the present invention;

fig. 6 is a schematic structural view of a water path of the gas-liquid distribution module according to the embodiment of the present invention;

fig. 7 is a schematic structural diagram of a gas path of the gas-liquid distribution module according to the embodiment of the invention;

FIG. 8 is a schematic structural view of the hanging pipe and the drying pipe after being assembled according to the embodiment of the present invention;

FIG. 9 is a schematic structural view of a hanging tube according to an embodiment of the present invention;

fig. 10 is a schematic structural view of a drying duct according to an embodiment of the present invention.

Labeling components: 1-base, 2-mounting plate, 3-gas-liquid distribution module, 301-total water path, 302-branch water path, 303-branch water path, 304-total gas path, 305-branch gas path, 306-branch gas path, 4-movable plate, 5-support plate, 6-hanging pipe, 601-atomization hole, 602-connecting flange, 7-drying pipe, 701-drying hole, 8-universal wheel, 9-water pump, 10-inlet control valve, 11-outlet control valve, 12-air pump, 13-air outlet pipe, 14-electric heating wire and 15-air flow control valve.

Detailed Description

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood that the preferred embodiments described herein are for purposes of illustration and explanation only and are not intended to limit the present invention.

The invention discloses a method for solidifying and drying a storage battery pole plate, which comprises the following steps:

s1, hanging the polar plates of the storage battery on the hanging pipes 6 of the atomization drying mechanism side by side;

s2, starting an atomization part of the atomization drying mechanism, atomizing and humidifying each polar plate on each hanging tube 6, and controlling the polar plates to be in an environment with the temperature of 6.3-9.5 ℃ and the humidity of 98.2% for 25-28 min;

s3, gradually reducing the atomization amount, gradually starting a drying part of the atomization drying mechanism to enable the polar plate to be in hot water mist with certain moisture content for 10-12min, then closing the atomization part, and completely opening the drying part;

s4, drying for 10h, sampling the polar plate at 9h, and detecting;

s5, after drying is finished, the polar plates are detached from the hanging tube 6 and are transferred to the next procedure in a centralized manner;

s6, continuously repeating the steps S1-S5.

The invention also discloses special equipment for solidifying and drying the accumulator plate, which comprises a base 1 and an atomizing and drying mechanism, wherein the base 1 is formed by a water tank, a plurality of universal wheels 8 are arranged at the lower end of the base 1 so as to be convenient to move, or the base 1 is arranged on a guide rail, as shown in figures 1-2. The base 1 is fixedly provided with a mounting plate 2, the mounting plate 2 is vertically arranged on the base 1, the base 1 is further provided with a movable plate 4, the movable plate 4 is arranged opposite to the mounting plate 2, the bottom of the movable plate 4 is provided with a connecting edge, the connecting edge is fixed on the base 1 through bolts, and then the movable plate 4 is detachably connected with the base 1. Foretell atomizing drying mechanism installs on mounting panel 2, and this atomizing drying mechanism includes atomizing portion and drying portion, and in the interim, atomizing portion and base 1's inner chamber intercommunication, and atomizing portion have the multirow along the hanging tube 6 group of vertical direction interval setting, and the hanging tube 6 of each group hanging tube 6 group passes fly leaf 4 perpendicularly along the horizontal direction by mounting panel 2, opens evenly on every hanging tube 6 has atomizing hole 601. The working principle and the advantages of the invention are as follows: the invention combines the curing chamber and the drying chamber into a whole, namely, an atomizing part and a drying part of an atomizing and drying mechanism are matched with a base 1 consisting of a water tank, polar plates hung on each hanging pipe 6 of the atomizing part are atomized by the atomizing part, so that lead plaster is bonded and cured on the polar plates, after the curing is finished, the atomizing amount is controlled to be reduced, the polar plates are prevented from being seriously dehydrated and cracked or separated when the drying is started, the drying part is opened, the polar plates are dried, and the atomizing part is gradually closed along with the drying; in order to avoid the influence of the external environment, a cover can be arranged to cover the special equipment of the invention; after curing and drying are finished, the movable plate 4 on the base 1 is detached, and then the polar plate is taken down from the hanging pipe 6; the temperature and humidity of the polar plate can be detected by the thermometer and the hygrometer arranged in the housing, so that the adaptability adjustment can be conveniently carried out; in conclusion, the invention solves the problems that the existing polar plate has larger occupied space for curing and drying, the yield of the polar plate is lower, and intensive production cannot be met.

As a preferred embodiment of the present invention, as shown in fig. 2, a support plate 5 is disposed between the mounting plate 2 and the movable plate 4, each hanging pipe 6 penetrates the support plate 5, and the lower end of the support plate 5 abuts on the upper surface of the base 1. When dismantling fly leaf 4, be close to or keep away from mounting panel 2 through adjusting backup pad 5, and then realize sharing the weight of hanging pipe 6 upper plate to the phenomenon of avoiding hanging pipe 6 to warp takes place. The supporting plate 5 of the present embodiment is detachable from one side of the movable plate 4 to provide convenience for mounting the electrode plate on the hanging tube 6.

As a preferred embodiment of the present invention, as shown in fig. 2 to 3, the atomizing and drying mechanism further includes a gas-liquid distribution module 3 respectively communicated with the atomizing part and the drying part, the gas-liquid distribution module 3 includes a water path and a gas path respectively communicated with the atomizing part and the drying part, and the water path and the gas path are independent of each other. In the embodiment, the water for atomization and the gas for drying are respectively supplied to the atomizing part and the drying part corresponding to the polar plate through the water channel and the gas channel. Wherein, the atomizing part includes a water pump 9, an inlet pipe and an outlet pipe of the water pump 9 are respectively communicated with the water ways of the base 1 and the gas-liquid distribution module 3, an inlet control valve 10 and an outlet control valve 11 are respectively installed on the inlet pipe and the outlet pipe, as shown in fig. 4, each hanging pipe 6 penetrates through the mounting plate 2 and is respectively assembled on the gas-liquid distribution module 3, and each hanging pipe 6 is communicated with the water way. As shown in fig. 9, a connection flange 602 is configured at one end of the hanger pipe 6 near the gas-liquid distribution module 3, and an end face of the connection flange 602 corresponding to the gas-liquid distribution module 3 is fixed by a plurality of fixing bolts. As shown in fig. 5 to 6, the water path of the present invention includes a main water path 301 communicated with an outlet pipe of the water pump 9, the main water path 301 is communicated with a plurality of branch water paths 302 respectively corresponding to each group of the hanging pipes 6, each branch water path 302 is communicated with a plurality of branch water paths 303 respectively communicated with the hanging pipes 6, and an end of each hanging pipe 6 is connected with the gas-liquid distribution module 3 through the branch water paths 303 respectively. The working principle of the embodiment is as follows: the water pump 9 supplies the water stored in the base 1 to the gas-liquid distribution module 3, and then the water is supplied to each hanging pipe 6 through a water path of the gas-liquid distribution module 3, and is atomized through the atomizing holes 601 on the hanging pipes 6 to be supplied to the pole plates.

As a preferred embodiment of the present invention, as shown in fig. 2-3, the drying part includes an air pump 12, an air outlet pipe 13 of the air pump 12 is communicated with an air passage of the gas-liquid distribution module 3, an air amount control valve 15 is installed on the air outlet pipe 13, and an electric heating wire 14 is installed on the air outlet pipe 13, as shown in fig. 8, a drying pipe 7 is installed in each hanging pipe 6, one end of the drying pipe 7 is assembled to the gas-liquid distribution module 3, and each drying pipe 7 is communicated with the air passage, as shown in fig. 10, drying holes 701 are uniformly formed on the drying pipe 7, the drying holes 701 are staggered with the corresponding atomizing holes 601 on the hanging pipe 6, since the drying holes 701 and the atomizing holes 601 are staggered, hot air entering the hanging pipe 6 through the drying holes 701 and acting with the inner wall of the hanging pipe 6, hot air with most of energy being offset is separated from the hanging pipe 6 through the atomizing holes 601, and the plate is dried, the phenomenon that the polar plate is heated unevenly due to the fact that hot air directly acts on the polar plate is avoided. As shown in fig. 5 and 7, the air path of the present embodiment includes a main air path 304 communicated with the air outlet pipe 13 of the air pump 12, the main air path 304 is communicated with a plurality of branch air paths 305 respectively corresponding to the hanging pipes 6 in groups, each branch air path 305 is communicated with a plurality of branch air paths 306 respectively communicated with the drying pipes 7, and the end portions of the drying pipes 7 are respectively connected with the air-liquid distribution module 3 through the branch air paths 306. The working principle of the embodiment is as follows: the air pump 12 supplies air to the gas-liquid distribution module 3, the air is heated by the heating wires in the process of passing through the air outlet pipe 13, and then is supplied to each drying pipe 7 through the air path of the gas-liquid distribution module 3, and is discharged through the drying holes 701 on the drying pipes 7, and then the atomization holes 601 are supplied to the polar plates.

In the process of atomization, humidification and solidification, the air pump 12 can be controlled to be started, the electric heating wire 14 is properly controlled to be started or the electric heating wire 14 is not started to control the temperature, and when airflow enters the hanging pipe 6 from the drying pipe 7, pressure water in the hanging pipe 6 is atomized to the outside of the hanging pipe 6 under the action of the air, so that the proper atomization effect is more sufficient.

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 scope of the claims of the present invention.

Claims (10)

1. A method of curing and drying battery plates, comprising the steps of:

s1, hanging the polar plates of the storage battery on hanging pipes of the atomization drying mechanism side by side;

s2, starting an atomization part of the atomization drying mechanism, atomizing and humidifying each polar plate on each hanging pipe, and controlling the polar plates to be in an environment with the temperature of 6.3-9.5 ℃ and the humidity of 98.2% for 25-28 min;

s3, gradually reducing the atomization amount, gradually starting a drying part of the atomization drying mechanism to enable the polar plate to be in hot water mist with certain moisture content for 10-12min, then closing the atomization part, and completely opening the drying part;

s4, drying for 10h, sampling the polar plate at 9h, and detecting;

s5, after drying is finished, the polar plates are detached from the hanging pipes and are transferred to the next procedure in a centralized manner;

s6, continuously repeating the steps S1-S5.

2. The utility model provides a battery plate solidification and dry professional equipment which characterized in that: include the base that constitutes by the water tank, in fixed assembly has the perpendicular mounting panel of putting on the base, and the fly leaf that sets up relatively with the mounting panel, the fly leaf can be dismantled and connect on the base, in be connected with atomizing stoving mechanism on the mounting panel, atomizing stoving mechanism includes atomizing portion and drying portion, the inner chamber intercommunication of atomizing portion and base, and atomizing portion have the multirow along the hanging pipe group that vertical direction interval set up, the hanging pipe of each group hanging pipe group passes the fly leaf perpendicularly along the horizontal direction by the mounting panel, opens evenly on each hanging pipe has the atomizing hole.

3. The special apparatus for curing and drying battery plates according to claim 2, characterized in that: and support plates are arranged between the mounting plate and the movable plate, each hanging pipe penetrates through the support plates, and the lower ends of the support plates are abutted against the upper surface of the base.

4. The special apparatus for curing and drying battery plates according to claim 2, characterized in that: the atomizing and drying mechanism further comprises a gas-liquid distribution module communicated with the atomizing part and the drying part respectively, the gas-liquid distribution module comprises a water channel and a gas channel which are communicated with the atomizing part and the drying part respectively, and the water channel and the gas channel are mutually independent.

5. The special apparatus for curing and drying battery plates according to claim 4, wherein: the atomizing part comprises a water pump, wherein the water pump is communicated with the water paths of the base and the gas-liquid distribution module through an inlet pipe and an outlet pipe, an inlet control valve and an outlet control valve are respectively installed on the inlet pipe and the outlet pipe, the hanging pipes penetrate through the mounting plate and are respectively assembled on the gas-liquid distribution module, and the hanging pipes are communicated with the water paths.

6. The special apparatus for curing and drying battery plates according to claim 5, wherein: and a connecting flange is formed at one end of the hanging pipe close to the gas-liquid distribution module, and the connecting flange and the corresponding end surface of the gas-liquid distribution module are fixed through a plurality of fixing bolts.

7. The special apparatus for curing and drying battery plates according to claim 5, wherein: the water channel comprises a main water channel communicated with an outlet pipe of the water pump, the main water channel is communicated with a plurality of branch water channels which are respectively in one-to-one correspondence with the hanging pipe groups, each branch water channel is respectively communicated with a plurality of branch water channels which are respectively communicated with the hanging pipes, and the end parts of the hanging pipes are respectively connected with the gas-liquid distribution module through the branch water channels.

8. The special apparatus for curing and drying battery plates according to claim 4, wherein: the drying part comprises an air pump communicated with the air path of the air outlet pipe and the gas-liquid distribution module, an air flow control valve is installed on the air outlet pipe, an electric heating wire is installed on the air outlet pipe, a drying pipe is arranged in each hanging pipe, one end of each drying pipe is assembled on the gas-liquid distribution module, each drying pipe is communicated with the air path, drying holes are uniformly formed in the drying pipes, and the drying holes are mutually staggered with atomization holes in the corresponding hanging pipes.

9. The special apparatus for curing and drying battery plates according to claim 8, wherein: the air path comprises a main air path communicated with an air outlet pipe of the air pump, the main air path is communicated with a plurality of branch air paths which are respectively in one-to-one correspondence with the hanging pipe groups, each branch air path is respectively communicated with a plurality of branch air paths which are respectively communicated with the drying pipes, and the end parts of the drying pipes are respectively connected with the air-liquid distribution module through the branch air paths.

10. The special apparatus for curing and drying battery plates according to claim 2, characterized in that: and a plurality of universal wheels are arranged at the lower end of the base.

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