KR101542697B1 - Forklifts battery fluid, automatic replacement device - Google Patents

Abstract

In a device of automatically replacing a battery solution stored in a sub tank (10) by a hose (11), An automatic replacement device for forklifts battery fluid comprises several cases (100) for storing a battery solution; a supply control part (200) which is fixed to the upper end of the case, is inserted into the case, and supplies and stops the battery solution according to the level of the battery level; a supply pipe (300) which directly penetrates the supply control part. The supply pipe (300) has a T-shape which is extended to one side on the connection line with the hose (11). It is inserted into the upper or lateral part of the supply control part (200), and supplies simultaneously and successively the battery solution into the several cases (10).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a forklift battery fluid automatic replacement device,

The present invention relates to an automatic replenishing device for a forklift battery, and more particularly to a forklift battery fluid automatic replenishing device for automatically checking a battery fluid in a plurality of batteries provided in a forklift and constantly maintaining the replenishment by manual operation To a replenishing device.

The battery of an automobile supplies electric energy necessary for starting the engine. When the engine is stopped or the generator is fixed, electric energy is supplied to the electric apparatus of the automobile, and the electric energy that is sent from the generator is converted into chemical energy, stored, It plays a role in controlling the temporal imbalance between the output of the generator and the load.

The battery fluid drawn into the battery main body is an electrolyte solution that enables the chemical reaction of the battery. If the battery fluid is insufficient, the chemical reaction of the battery does not occur and the battery is easily discharged at the time of charging, You must give.

Conventionally, in order to confirm the capacity of the battery fluid accommodated in the battery, the conventional method for inspecting the capacity of the battery fluid is to place a reference line on the outer surface of the battery case and to visually identify whether the battery fluid reaches the reference line, Respectively.

If the battery fluid is not checked for a long time due to the above-mentioned troublesome troubles, an electrical failure of the battery may occur due to a lack of the battery fluid, so that starting may not be performed when starting the vehicle, When these problems occur, you can press the road traffic.

Fortunately, if the repair shop is nearby, it will not be a problem if you buy it easily, but if you can not find the repair shop, you will have a hard time. In addition, the battery liquid is made of dilute sulfuric acid, which can put the operator's body at risk when replenishing by hand.

For example, Korean Patent No. 10-0192676 discloses a " battery liquid replenishment timing display device ".

The above-mentioned patent discloses a fluorescent lamp comprising a transparent tube fixed to a lower end of a cell cap; And an indicator member housed in the tube tube in such a manner as to be vertically reciprocable and identifiable from the outside so as to check the residual amount of the battery solution from the outside, Can be checked.

However, the above-mentioned registered patent is concluded to be supplemented manually by the same method as the conventional battery fluid replenishment method, so that the effect to be improved by the registered patent may be insufficient. In recent years, there is a need for a device for automatically replenishing the battery fluid Is emerging.

Korean Registered Patent: Registration No. 10-0192676

SUMMARY OF THE INVENTION It is an object of the present invention to provide an automatic replenishing device for a battery pack for a forklift, which is derived in order to positively solve the above-mentioned problems, and which automatically replenishes the battery fluid without manual operation.

It is another object of the present invention to provide an automatic refill apparatus for a forklift battery fluid that ensures the ease of maintenance and management of the battery fluid by allowing the outside to identify and predict automatically replenished times.

In order to achieve the above object, according to the present invention, there is provided an automatic replenishing apparatus for a battery pack for a forklift,

A supply controller 200 which is fixedly mounted on the upper end of the case to enter the case and performs supply and cutoff of the battery fluid according to the level of the battery fluid; The supply pipe 300 is formed in a shape of 'T' extending to one side on a connection line with the hose 11, and is connected to the supply control unit 200 from the upper side to the lateral side of the supply control unit 200 So that the battery fluid is supplied into several cases 100 simultaneously or sequentially.

The supply control unit 200 includes a cap 210 which is seated at the upper end of the case and through which the supply pipe is passed so as to pass through, a first protrusion 220 extending downward from the cap, (240) protruding from one side of the flow band and being moved into and out of the inner space of the supply tube according to the position of the flow band, the flow band (240) being capable of flowing upwardly and downwardly as hinge- A water level identification bar 250 which is capable of flowing left and right by being hinged in a state of being crossed with the flow band; And an elevation prevention part 270 formed to extend downward from the lower end of the stopper to suppress the rise of the buoy by more than a predetermined height.

The cap 210 is further formed with an identification window 212 protruding upward while having a hollow inner space, and a water level identification bar 250 is received in the inner space of the identification window, Can be identified.

According to the present invention configured as described above, there is an effect of preventing the battery from being electrically broken when the battery fluid in the case is consumed continuously and constantly without being supplemented with the battery fluid.

In addition, since the water level of the battery fluid in the case can be identified from the outside, it is possible to predict the timing of the automatic replenishment, thereby ensuring convenience in maintenance and management.

1 is a perspective view of a typical forklift battery.
FIG. 2 is a sectional view of the automatic replenishing device for a forklift battery according to the present invention. FIG.
3 is a sectional view of Fig. 2;
Fig. 4 is an exploded perspective view of Fig. 2; Fig.
5 is a view illustrating a state of use of the automatic replenishing device for a forklift battery according to the present invention.
6 is a use state diagram of the automatic replenishing device for a battery pack for a forklift according to the present invention.
7 is a view showing another embodiment of the automatic replenishing device for a forklift battery according to the present invention.
8 is a use state diagram of Fig.

First, as shown in Fig. 1, a conventional forklift is composed of 12 to 24 batteries and is fixed and fixed to each other. As a result, when the battery is consumed, the battery is opened one by one to check the level of the battery fluid, and the battery fluid in the battery which has been lowered to a certain level is replenished or changed after the continuous use. This method is a waste of time that is important for modern people. As a result of manual battery replacement, the efficiency of the effort contributed by the workers is considerably low. Even if the battery fluid is replenished, the risk of safety accidents remains. There was no problem.

The automatic forklift automatic replenishing device for a forklift truck according to the present invention, which is derived to improve and solve the above problems, will now be described in detail with reference to the accompanying drawings. The advantages and features of the present invention and the effects The method will be described in detail with reference to the embodiments described later.

As shown in FIGS. 2 to 3, in the device 1 for automatically replenishing the battery fluid stored in the reserve cylinder 10 according to the present invention through a hose 11,

A supply controller 200 which is fixedly mounted on the upper end of the case to enter the case and performs supply and cutoff of the battery fluid according to the level of the battery fluid; The supply pipe 300 is formed in a shape of 'T' extending to one side on a connection line with the hose 11, and is connected to the supply control unit 200 from the upper side to the lateral side of the supply control unit 200 So that the battery fluid is supplied into several cases 100 simultaneously or sequentially.

In detail, the supply control unit 200 is fixed to the upper end of the case 100, and the supply pipe 300 passes through the supply control unit. The supply controller 200 controls supply and blocking of the battery fluid supplied through the supply pipe to the inner space of the case.

4, the supply control unit 200 includes a cap 210 which is seated on the upper end of the case and through which the supply pipe can pass, and a first protrusion 220 The first and second protrusions are disposed at the lower ends of the first protrusions. The first protrusions protrude from one side of the fluidized bed, A water level identification bar 250 which is capable of flowing left and right by being hinged in a state of intersecting with the flow band, And a rising prevention part 270 formed to extend downward from the lower end of the cap to prevent the rise of the buoy by more than a predetermined height.

In detail, the cap 210 may have a circular or square shape and may be supported on the upper end of the case 100 and may include a first protrusion 220; Any shape may be used as long as the diameter of the protrusion 270 can be formed.

The flow band 230 includes an opening / closing protrusion 240; A water level identification bar 250; And is configured to be hingedly coupled with the first protrusion 220 so as to be upwardly or downwardly moved in a state where the first protrusion 220 is disposed in an intersecting arrangement, .

More specifically, the opening / closing protrusion 240 is guided into and out of the inner region from the lower end of the supply pipe 300, which is performed by the buoy 260 formed at the tip of the flow field 230. That is, due to the buoyancy of the buoy 260, the fluidized bed 230 is displaced according to the level of the battery fluid to determine the flow of the opening / closing protrusion 240 into / out of the supply pipe 300. When the battery fluid in the case 100 is full, the opening / closing protrusion 240 is drawn into the supply pipe 300 to cut off the supply of the battery fluid. When the buoy 260 descends according to the level of the battery fluid, Closing protrusion 240 is separated from the supply pipe 300 so that the battery fluid accommodated in the supply pipe 300 is supplied into the case 100 and is replenished without manual operation so that maintenance and maintenance can be easily performed .

In addition, the fluidized bed 240 further includes a water level identification bar 250 protruding upward so as to predict the level of the battery fluid from the outside, and a scale 254 is formed on the upper side And can be easily identified. In order to expose the water level identification bar to the outside, the cap 210 further includes an identification window 212 protruding upward with a hollow interior space, and a water level identification bar 250 is inserted into the interior space So that the level of the battery fluid can be identified from the outside. Further, the water level identification bar is hinged in a state of intersecting with the float (230) so that the float (230) is hinged so that the float (230) The water level identification rod 250 is prevented from being caught by the side surface of the identification window 212 when the water level identification rod 250 is moved upward or downward according to the flow. At this time, the identification window 212 is made of a transparent material so as to identify the inside of the user's eyes.

On the other hand, when the buoy 260 is lifted above a predetermined level according to the level of the battery liquid, the opening / closing protrusion 240 formed on the flow base 230; And the opening / closing protrusion 240 are excessively coupled to the supply pipe 300 and are not separated even when the buoy 260 is lowered, thereby failing to replenish the battery liquid . The present invention prevents the above-mentioned problem by preventing the buoy 260 from rising beyond a predetermined upper limit line by supporting the upper end of the buoy 260 formed by extending downward from the lower end of the stopper. Purpose can be achieved.

Hereinafter, a principle will be described in which a predetermined level is continuously maintained by inducing automatic replenishment of the battery fluid accommodated in several cases 100 with the battery fluid stored in one pre-bin 10.

As shown in FIGS. 5 to 6, the automatic replenishing device 1 for a forklift battery fluid according to the present invention replenishes a battery provided in a forklift, that is, a battery fluid contained in a case, without manual operation, So that the supplementary battery fluid accommodated in the preliminary container is supplied downward, so that a smooth replenishment can be performed without a separate drive device.

More specifically, the preliminary barrel 10 stores preliminarily prepared preliminary battery fluid, and the inner area of the supply pipe 300, which is connected to the preliminary passage through the hose 11, also contains the battery fluid.

If the opening and closing protrusion 240 is inserted into the inner region from the lower end of the supply pipe 300 so that the supply pipe 300 and the opening and closing protrusion 240 are not separated from each other, the battery fluid contained in the supply pipe is supplied into the case 100 I can not. That is, when the buoy 260 is lowered due to the natural consumption of the battery fluid, and the opening / closing protrusion 240 is separated from the supply pipe 300 due to the lowering of the flow base 230, . Even if the battery fluid in the plurality of cases 100 shows a difference and is consumed spontaneously through such a principle, it is controlled correspondingly so that convenience of management and maintenance is ensured, and there is an advantage of saving labor costs and significantly reducing fatigue of the worker .

As shown in FIGS. 7 to 8, a description of the automatic replenishing device 1 for a forklift battery fluid according to the present invention will be omitted.

The supply pipe 300 may be introduced to the side of the supply control unit 200. This makes it possible to induce breakage of the supply pipe 300 due to the weight of the load placed on the upper part of the position area of the case 100 installed in the forklift and the machinery. The supply control unit 200 can be prevented from being damaged.

That is, it goes without saying that the supply pipe 300 is integrally formed with the stopper, thereby greatly improving convenience for the user. The supply pipe 300 is divided into two parts, one of which is drawn to the side of the stopper 210, Is inserted into the lower end of the stopper 210 to mutually communicate with each other, thereby supplying the battery fluid supplied from the outside to the inner space of the case. It will be appreciated that such an embodiment may be a random choice of the user and may differ depending on the source of use.

The automatic supplying device 1 for a forklift battery fluid according to the present invention as described above allows the battery fluid in several cases connected to each other through the hose 11 to be consumed so that the battery fluid is constantly maintained constantly without manual operation It is possible to prevent the electrical failure of the battery and to identify the level of the battery fluid in the case from the outside so as to predict the timing of the automatic replenishment, thereby ensuring convenience in maintenance and management.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be noted that this invention is provided to fully inform the owner of the scope of the invention. In addition, the true scope of the present invention should be construed according to the appended claims, and all technical ideas within the scope of equivalents should be construed as being included in the scope of the present invention.

1: Automatic forklift battery automatic replenishing device 10: Reservoir
11: Hose 100: Case
200: supply controller 210:
212: identification window 220: first projection
230: a moving bed 240: an opening / closing projection
250: Water level identification bar 260: Buoy
270: rising prevention part 300: supply pipe

Claims (3)

delete Several cases 100 for accommodating the battery fluid such that the battery fluid stored in the reserve cylinder 10 can be automatically replenished through the hose 11, A supply control unit 200 for supplying and shutting off the battery fluid according to the water level and a supply pipe 300 for directly passing the supply control unit, wherein the supply pipe 300 is connected to the hose 11 at one side T "shaped to extend from the upper side to the lower side of the supply control unit 200 to allow the battery fluid to be simultaneously or sequentially supplied into several cases 100. In the automatic replenishing apparatus for a forklift battery liquid, ,
The supply control unit 200 includes a cap 210 which is seated at the upper end of the case and through which the supply pipe is passed so as to pass through, a first protrusion 220 extending downward from the cap, (240) protruding from one side of the flow band and being moved into and out of the inner space of the supply tube according to the position of the flow band, the flow band (240) being capable of flowing upwardly and downwardly as hinge- A water level identification bar 250 which is capable of flowing left and right by being hinged in a state of being crossed with the flow band; And a lift preventing part (270) extending downward from the lower end of the stopper to prevent the rise of the buoy by more than a predetermined height. Value.
3. The method of claim 2,
The cap 210 is further formed with an identification window 212 protruding upward while having a hollow inner space, and a water level identification bar 250 is received in the inner space of the identification window, Of the battery pack.

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