CN114273646A - Be used for sealed lead acid battery cast joint shake to beat demoulding mechanism - Google Patents

Abstract

The embodiment of the invention discloses a cast-weld vibration demoulding mechanism for a sealed lead-acid storage battery, which comprises a cast-weld upper tool, a cast-weld mould arranged below the cast-weld upper tool and vibration parts symmetrically arranged at two sides of the cast-weld upper tool; wherein, shake the piece and including shaking the beating head and connecting shake the drive element who beats the head, drive element can drive shake the up-and-down motion of beating the head, through setting up two sets of or three drive element respectively in the both sides of hoist and mount board, battery cast joint accomplishes the back, starts drive element and shakes the beating to the cast joint die block, shakes through many times and beats the die block and make battery and the not hard up drawing of patterns of die block to need not increase drawing of patterns angle and drawing of patterns by force, alleviate the damage to battery pole piece when battery cast joint drawing of patterns.

Description

Be used for sealed lead acid battery cast joint shake to beat demoulding mechanism

Technical Field

The embodiment of the invention relates to the technical field of storage batteries, in particular to a cast-weld vibration demoulding mechanism for a sealed lead-acid storage battery.

Background

In the field of lead-acid storage batteries, the production mode of the batteries is usually manual welding or cast-weld production, but in the cast-weld production process of medium-sized sealed lead-acid storage batteries, the product is difficult to demold, so that the demolding is easy to damage battery pole pieces.

At present, in order to solve the problem of difficult demoulding of products, two modes are provided, wherein the first mode is to increase the demoulding angle; in the other mode, the demolding is carried out by forcibly pulling the cylinder, and the risk of damaging the battery pole piece exists in the two schemes.

Disclosure of Invention

In view of the above, an object of the embodiments of the present invention is to overcome the above existing disadvantages, and provide a vibration-striking demolding mechanism for cast welding of a sealed lead-acid storage battery, in which a bottom mold of a cast-welding mold is vibrated and struck many times to loosen a battery from the bottom mold, so that there is no need to increase a demolding angle and perform strong-pulling demolding, and damage to a battery pole piece during cast-welding demolding of the battery is reduced.

The embodiment of the invention provides a cast-weld vibration demoulding mechanism for a sealed lead-acid storage battery, which comprises a cast-weld upper tool, a cast-weld mould arranged below the cast-weld upper tool and vibration parts symmetrically arranged at two sides of the cast-weld upper tool; wherein,

the jolting piece comprises a jolting head and a driving element connected with the jolting head, and the driving element can drive the jolting head to reciprocate up and down.

Further, the cast-weld upper tooling comprises two hoisting plates and a width positioning plate, the two hoisting plates are symmetrically arranged, the width positioning plate is connected with the two hoisting plates, the width positioning plate is arranged on the edge of the upper side of each hoisting plate, a battery conveying transition die is arranged below each hoisting plate, and the cast-weld upper tooling further comprises a transmission assembly arranged above the width positioning plate.

Further, transmission assembly includes upper and lower parallel arrangement's first reinforcing plate and first mounting panel, connect through first guide arm between first reinforcing plate and the first mounting panel, first guide arm runs through first reinforcing plate and first mounting panel, just first guide arm runs through first mounting panel with the width locating plate is connected, transmission assembly still include servo electronic jar and with the transmission shaft that servo electronic jar is connected, the transmission shaft runs through first reinforcing plate and first mounting panel, just the drive head of transmission shaft passes the width locating plate.

Furthermore, the first guide rod is sleeved in the linear bearing, a second guide rod is further arranged between the first reinforcing plate and the first mounting plate, and the first guide rod and the second guide rod are both driven by a standard cylinder.

Furthermore, the first guide rods are provided with four groups and are uniformly distributed at the edges of the first reinforcing plate and the first mounting plate, and the second guide rods are also provided with four groups and are respectively arranged at one side of the first guide rods.

Further, the width positioning plate is provided with a second mounting plate.

Further, a cast-weld battery pressure plate is arranged below the width positioning plate and moves up and down through the transmission head.

Further, the driving element is any one of a vibrating cylinder, a vibrating motor or an electromagnetic vibrator.

Further, the driving elements are symmetrically arranged on two sides of the two hoisting plates respectively, and the number of the driving elements on each side is two or three.

Further, the cast-on-weld tool is further provided with a baffle plate, the baffle plate is connected with the two hoisting plates and arranged on the same side of the two hoisting plates, the lower edge of the baffle plate is flush with the lower edge of the hoisting plates, and an inductor is arranged on the baffle plate.

The invention has the beneficial effects that: according to the cast-weld vibration-beating demoulding mechanism for the sealed lead-acid storage battery, two groups or three groups of driving elements are respectively arranged on two sides of the hoisting plate, after the cast welding of the battery is finished, the driving elements are started to vibrate the cast-weld bottom die, and the battery and the bottom die are loosened and demoulded by vibrating the bottom die for multiple times, so that the demoulding angle does not need to be increased, the forced demoulding is not needed, and the damage to a battery pole piece during the cast welding demoulding of the battery is reduced.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments made with reference to the following drawings:

FIG. 1 is a schematic perspective view of a cast-weld vibration-striking demolding mechanism for a sealed lead-acid battery according to an embodiment of the present invention;

FIG. 2 is another perspective view of a cast-weld rapping stripper mechanism for a sealed lead-acid battery according to an embodiment of the present invention;

FIG. 3 is a front view of a cast-weld rapping stripper mechanism for a sealed lead-acid battery provided by an embodiment of the present invention;

FIG. 4 is a side view of a cast-on, shock-striking and demolding mechanism for a sealed lead-acid battery according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a matching state of a vibration striking piece and a cast welding mold of the vibration striking and demolding mechanism for cast welding of a sealed lead-acid battery according to the embodiment of the invention;

fig. 6 is a schematic diagram of a demoulding operation state of the cast-weld vibration demoulding mechanism for a sealed lead-acid battery provided by the embodiment of the invention.

In the figure: 100-cast welding a tool; 200-cast-weld the battery; 400-cast welding mold;

1-servo electric cylinder; 2-a first stiffener; 3-a first guide bar; 4-a linear bearing; 5-a second guide rod; 6-a first mounting plate; 7-standard cylinder; 8-a second mounting plate; 9-electric cylinder driving head; 10-width positioning plate; 11-cast welding a battery pressure plate; 12-hoisting a plate; 13-battery transport transition mold; 14-positioning the cylinder; 15-locating pin block; 16-rapping the cylinder; 17-a fourth mounting plate; 18-a solenoid valve; 19-an inductor; 20-a baffle plate; 21-rapping head.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be fully described by the detailed description with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are a part of the embodiments of the present invention, not all embodiments, and all other embodiments obtained by those of ordinary skill in the art based on the embodiments of the present invention without inventive efforts fall within the scope of the present invention.

As shown in fig. 1 to 6, an embodiment of the present invention provides a cast-weld vibration-striking demolding mechanism for a sealed lead-acid storage battery, including a cast-weld upper tool 100, a cast-weld mold 400 disposed below the cast-weld upper tool 100, and vibration-striking pieces symmetrically disposed on two sides of the cast-weld upper tool 100, wherein a cast-weld battery 200 is placed on the cast-weld mold; wherein,

the jolting piece comprises a jolting head 21 and a driving element connected with the jolting head 21, and the driving element can drive the jolting head 21 to reciprocate up and down.

Particularly, wherein frock 100 is gone up in cast joint includes two hoisting plates 12 and two of connection of symmetry and parallel arrangement hoisting plate 12's width locating plate 10, width locating plate 10 sets up hoisting plate 12's upside edge, two hoisting plate 12's below is provided with battery transport transition mould 13, and a cavity is enclosed in two hoisting plate 12, width locating plate 10 and battery transport transition mould 13, frock 100 still includes the transmission subassembly on the cast joint, the transmission subassembly sets up width locating plate 10's top.

More specifically, the transmission assembly includes a first reinforcing plate 2 and a first mounting plate 6 which are arranged in parallel up and down, the first reinforcing plate 2 is a battery lifting reinforcing plate, the first reinforcing plate 2 and the first mounting plate 6 are connected through a first guide rod 3, the first guide rod 3 penetrates through the first reinforcing plate 2 and the first mounting plate 6, the first guide rod 3 penetrates through the first mounting plate 6 and is connected with the width positioning plate 10, the transmission assembly further includes a servo electric cylinder 1 and a transmission shaft connected with the servo electric cylinder 1, wherein the first mounting plate 6 is a mounting plate for mounting a servo motor, the transmission shaft penetrates through the first reinforcing plate 2 and the first mounting plate 6, and a transmission head 9 of the transmission shaft penetrates through the width positioning plate 10.

Further, the first guide rod 3 is sleeved in the linear bearing 4, a second guide rod 5 is further arranged between the first reinforcing plate 2 and the first mounting plate 6, and the first guide rod 3 and the second guide rod 5 are both driven by a standard cylinder 7.

Further, there are four groups of the first guide rods 3 uniformly distributed at the edges of the first reinforcing plate 2 and the first mounting plate 6, and there are four groups of the second guide rods 5 respectively disposed at one side of the first guide rods 3.

Further, a second mounting plate 8 is disposed on the width positioning plate 10.

Further, a cast-on battery pressure plate 11 is arranged below the width positioning plate 10, and the cast-on battery pressure plate 11 moves up and down through the transmission head 9.

Specifically, the driving element is any one of a rapping cylinder 16, a vibrating motor or an electromagnetic vibrator; for convenience of explanation, the driving element of the present embodiment employs a jar 16;

the vibration beating cylinders 16 are symmetrically arranged on two sides of the hoisting plate 12 respectively, the number of the vibration beating cylinders 16 on each side is two or three, each vibration beating cylinder 16 is connected with the electromagnetic valve 18, after the battery cast welding is completed, the electromagnetic valve 18 is started to drive the vibration beating cylinders 16 to vibrate the cast welding bottom die, and the vibration beating cylinders 16 are installed through the fourth installation plate 17.

More specifically, the cast-on-weld tooling 100 is further provided with a baffle 20, the baffle 20 is used for blocking the pillar battery transportation transition mold 13, the baffle 20 is connected to the two hoisting plates 12 and is arranged on the same side of the two hoisting plates 12, the lower edge of the baffle 20 is flush with the lower edge of the hoisting plates 12, and the baffle 20 is provided with an inductor 19.

More specifically, the hoisting plate 12 is further provided with a positioning pin block 15 for positioning the battery conveying transition die 13, and a positioning cylinder 14 for driving the positioning pin block 15, wherein the positioning cylinder 14 is arranged on the third mounting plate.

According to the vibration beating demoulding mechanism for the cast welding of the sealed lead-acid storage battery, two groups or three groups of driving elements are respectively arranged on two sides of the hoisting plate 12, after the cast welding of the battery is finished, the driving elements are started to vibrate the cast welding bottom die, and the battery and the bottom die are loosened and demoulded by vibrating the bottom die for multiple times, so that the demoulding angle does not need to be increased, the forced demoulding is not needed, and the damage to a battery pole piece during the cast welding demoulding of the battery is reduced.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. Those skilled in the art will appreciate that the present invention is not limited to the specific embodiments described herein, and that the features of the various embodiments of the invention may be partially or fully coupled to each other or combined and may be capable of cooperating with each other in various ways and of being technically driven. Numerous variations, rearrangements, combinations, and substitutions will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. The vibrating demoulding mechanism for cast welding of the sealed lead-acid storage battery is characterized by comprising a cast welding upper tool, a cast welding mould arranged below the cast welding upper tool and vibrating parts symmetrically arranged on two sides of the cast welding upper tool; wherein,

the jolting piece comprises a jolting head and a driving element connected with the jolting head, and the driving element can drive the jolting head to reciprocate up and down.

2. The cast-weld vibrating and knocking demoulding mechanism for the sealed lead-acid storage battery according to claim 1, wherein the cast-weld assembling tool comprises two hoisting plates which are symmetrically arranged and a width positioning plate which connects the two hoisting plates, the width positioning plate is arranged at the upper side edge of the hoisting plates, a battery conveying transition die is arranged below the two hoisting plates, and the cast-weld assembling tool further comprises a transmission assembly which is arranged above the width positioning plate.

3. The cast-weld rapping demoulding mechanism for the sealed lead-acid storage battery according to claim 2, wherein the transmission assembly comprises a first reinforcing plate and a first mounting plate which are arranged in parallel up and down, the first reinforcing plate and the first mounting plate are connected through a first guide rod, the first guide rod penetrates through the first reinforcing plate and the first mounting plate, the first guide rod penetrates through the first mounting plate and is connected with the width positioning plate, the transmission assembly further comprises a servo electric cylinder and a transmission shaft connected with the servo electric cylinder, the transmission shaft penetrates through the first reinforcing plate and the first mounting plate, and a transmission head of the transmission shaft penetrates through the width positioning plate.

4. The cast-weld jolt-die mechanism for the sealed lead-acid storage battery according to claim 3, wherein the first guide rod is sleeved in the linear bearing, a second guide rod is further arranged between the first reinforcing plate and the first mounting plate, and the first guide rod and the second guide rod are both driven by a standard cylinder.

5. The cast-weld rapping mechanism for sealed lead-acid batteries according to claim 4, wherein said first guide rods are provided in four groups and uniformly distributed at the edges of said first reinforcing plate and first mounting plate, and said second guide rods are provided in four groups and respectively disposed at one side of said first guide rods.

6. The cast-weld rapping and demoulding mechanism for sealed lead-acid batteries according to any of the claims 1-5, characterized in that a second mounting plate is arranged on the width positioning plate.

7. The cast-weld jolt-demoulding mechanism for the sealed lead-acid storage battery according to claim 3, wherein a cast-weld battery pressure plate is arranged below the width positioning plate, and the cast-weld battery pressure plate moves up and down through the transmission head.

8. The cast-weld rapping and demoulding mechanism for sealed lead-acid batteries according to claim 1, characterized in that the driving element is any one of a rapping cylinder or a rapping motor or an electromagnetic shaker.

9. The cast-weld rapping and demoulding mechanism for sealed lead-acid storage batteries according to claim 2, wherein the driving elements are respectively and symmetrically arranged on two sides of two hoisting plates, and the number of the driving elements on each side is two groups or three groups.

10. The cast-weld rapping and demoulding mechanism for the sealed lead-acid storage battery as claimed in claim 2, wherein the cast-weld assembly is further provided with a baffle plate, the baffle plate is connected with the two hoisting plates and arranged on the same side of the two hoisting plates, the lower edge of the baffle plate is flush with the lower edge of the hoisting plates, and the baffle plate is provided with an inductor.

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