CN216939151U - Jacking positioning mechanism for welding battery tray - Google Patents

Abstract

The utility model discloses a jacking positioning mechanism for welding a battery tray, which comprises a positioning jacking component I, a positioning jacking component II, a detection tray component and a positioning bottom plate, wherein the positioning jacking component I is arranged on the top of the battery tray; location jacking subassembly I, location jacking subassembly II, detection tray subassembly are all fixed on the bottom plate of fixing a position, and location jacking subassembly I, location jacking subassembly II are located the left and right sides that detects tray subassembly respectively. Wherein, location jacking subassembly I includes cylinder mounting panel I, cylindric lock mounting panel, cushion I, cylindric lock, switch bracket I, proximity switch I, tablet I, takes guide arm cylinder I. And the positioning jacking assembly II comprises an air cylinder mounting plate II, a diamond pin mounting plate, a cushion block II, a diamond pin, a switch bracket II, a proximity switch II, an induction plate II and an air cylinder II with a guide rod. The utility model can ensure the accurate positioning of the tray so as to ensure the welding quality.

Description

Jacking positioning mechanism for welding battery tray

Technical Field

The utility model relates to a device on a battery welding tray conveying line, and belongs to a jacking positioning mechanism for welding a battery tray.

Background

Along with the increasing use amount of battery cores, the production line matched with the battery cores is improved. When the battery electric core is assembled on the tray, the tray needs to be welded on line. The existing jacking positioning mechanism for welding has the following defects: the two positioning round pins are fixed on a whole supporting plate, two jacking mechanisms are arranged below the supporting plate, even if the two jacking mechanisms are asynchronous, the cylindrical pins can be inserted into two holes of the tray, and the welding tray is not accurately positioned, so that the welding quality is influenced; meanwhile, the two jacking mechanisms are inconvenient to install and debug below the whole plate; and secondly, when the two positioning pins are only propped against the lower surface of the tray and are not inserted into the holes of the tray, the tray is easy to tip over to damage the tray due to no early warning measure.

Disclosure of Invention

The utility model aims to provide a jacking positioning mechanism for welding a battery tray, which can ensure the tray to be accurately positioned so as to ensure the welding quality. Meanwhile, the tray can be effectively prevented from being turned over. In addition, the positioning jacking assembly is convenient to install and debug.

The utility model discloses a jacking positioning mechanism for welding a battery tray, which comprises a positioning jacking assembly I, a positioning jacking assembly II, a detection tray assembly and a positioning bottom plate; location jacking subassembly I, location jacking subassembly II, detection tray subassembly are all fixed on the positioning bottom plate, and location jacking subassembly I, location jacking subassembly II are located the left and right sides that detects tray subassembly respectively.

Further, the detection tray assembly comprises a detection bracket and a proximity switch IV; the detection support is fixed on the positioning bottom plate, the proximity switch IV is arranged on the detection support, and the detection support is located in the middle of the positioning bottom plate.

Furthermore, the positioning jacking assembly I comprises an air cylinder mounting plate I, a cylindrical pin mounting plate, a cushion block I, a cylindrical pin, a switch bracket I, a proximity switch I, an induction plate I and an air cylinder I with a guide rod; the cylinder part of the cylinder I with the guide rod is fixed on the cylinder mounting plate I, and the guide rod of the cylinder I is fixedly connected with the cylindrical pin mounting plate; the front end and the rear end of the upper surface of the cylindrical pin mounting plate are respectively fixed with a cushion block I, the cylindrical pin penetrates through a hole of the cushion block I and is matched with the cushion block I, and the upper end of the cylindrical pin is higher than the cushion block I; the sensing plate I is fixed on the side face of the cylindrical pin mounting plate and corresponds to one cushion block I in position; the switch bracket I is arranged on the side surface of the induction plate I, and the proximity switch I is arranged on the switch bracket I; cylinder mounting panel I, switch support I all fix on the positioning bottom plate.

Furthermore, the positioning jacking assembly II comprises an air cylinder mounting plate II, a diamond pin mounting plate, a cushion block II, a diamond pin, a switch bracket II, a proximity switch II, an induction plate II and an air cylinder II with a guide rod; the cylinder part of the cylinder II with the guide rod is fixed on the cylinder mounting plate II, and the guide rod of the cylinder II is fixedly connected with the diamond pin mounting plate; a cushion block II is fixed at the front end and the rear end of the upper surface of the diamond pin mounting plate respectively, the diamond pin penetrates through a hole of the cushion block II and is matched with the cushion block II, and the upper part of the diamond pin is in a diamond shape and is higher than the cushion block II; the sensing plate II is fixed on the side surface of the diamond pin mounting plate and corresponds to one cushion block II in position; the switch bracket II is arranged on the side surface of the induction plate II, and the proximity switch II is arranged on the switch bracket II; and the cylinder mounting plate II and the switch bracket II are fixed on the positioning bottom plate.

Furthermore, the positioning jacking assembly II also comprises a detection pin, a spring, a switch bracket III and a proximity switch III, the detection pin penetrates through the other cushion block II, the spring is arranged between the detection pin and the cushion block II, the switch bracket III is arranged on the side surface of the lower part of the detection pin, and the proximity switch III is arranged on the switch bracket III; and the switch bracket III is fixed on the positioning bottom plate.

The jacking positioning mechanism for welding the battery tray has the advantages that: firstly, when the battery tray is positioned, the cylindrical pin and the diamond pin respectively extend into one hole of the battery tray: the cylindrical pins play a positioning role, and the diamond pins play a directional role, so that the tray is accurately positioned, and the welding quality is ensured; secondly, when the battery tray is conveyed to the jacking positioning mechanism: if the cylindrical pin and the diamond-shaped pin extend into the hole of the battery tray, the proximity switch III detects the detection pin, and the battery tray is reliably positioned; if the cylindrical pin and the diamond pin do not extend into the hole of the battery tray, the near switch III cannot detect the detection pin, and the cylinder with the guide rod does not work to avoid jacking and overturning the tray; and the three and two groups of independent positioning jacking components are convenient to install and debug.

Drawings

FIG. 1 is a perspective view of a jacking positioning mechanism for welding a battery tray according to the present invention;

FIG. 2 is a top view of the jacking positioning mechanism for welding the battery tray of the present invention;

FIG. 3 is a perspective view of the positioning jacking assembly I;

FIG. 4 is a front view of FIG. 3;

FIG. 5 is a right side view of FIG. 3;

FIG. 6 is a perspective view of the positioning jacking assembly II;

FIG. 7 is a front view of FIG. 6;

fig. 8 is a left side view of fig. 6.

Detailed Description

Example 1

As can be seen from fig. 1 and 2, the jacking positioning mechanism for welding the battery tray comprises a positioning jacking assembly I1, a positioning jacking assembly II 2, a detection tray assembly 3 and a positioning bottom plate 4; location jacking subassembly I1, location jacking subassembly II 2, detection tray subassembly 3 all fix on location bottom plate 4, and location jacking subassembly I1, location jacking subassembly II 2 are located the left and right sides that detects tray subassembly 3 respectively.

When the battery tray was transported on jacking positioning mechanism, detect tray subassembly 3 earlier work and make battery tray stop motion, location jacking subassembly I1, location jacking subassembly II 2 work again makes it fix a position and hold the battery tray to the battery tray, then the rethread fastener is connected battery tray and location bottom plate 4, welds the battery tray at last.

Example 2

As can be seen from fig. 1 and 2, the jacking positioning mechanism for welding the battery tray of the utility model comprises: the detection tray assembly 3 comprises a detection bracket 3-1 and a proximity switch IV 3-2; the detection support 3-1 is fixed on the positioning bottom plate 4, the proximity switch IV 3-2 is arranged on the detection support 3-1, and the detection support 3-1 is positioned in the middle of the positioning bottom plate 4.

When the proximity switch IV 3-2 detects that the battery tray is conveyed to the jacking positioning mechanism, the battery tray stops conveying.

Example 3

As can be seen from fig. 1, 2, 3, 4, and 5, the lift positioning mechanism for welding a battery tray according to the present invention: the positioning jacking assembly I1 comprises an air cylinder mounting plate I1-1, a cylindrical pin mounting plate 1-2, a cushion block I1-3, a cylindrical pin 1-4, a switch bracket I1-5, a proximity switch I1-6, an induction plate I1-7 and an air cylinder I1-8 with a guide rod; the cylinder part of the cylinder I1-8 with the guide rod is fixed on the cylinder mounting plate I1-1, and the guide rod is fixedly connected with the cylindrical pin mounting plate 1-2; the front end and the rear end of the upper surface of the cylindrical pin mounting plate 1-2 are respectively fixed with a cushion block I1-3, the cylindrical pin 1-4 penetrates through a hole of the cushion block I1-3 and is matched with the cushion block I1-3, and the upper end of the cylindrical pin is higher than the cushion block I1-3; the induction plate I1-7 is fixed on the side face of the cylindrical pin mounting plate 1-2 and corresponds to the position of one cushion block I1-3; the switch bracket I1-5 is arranged on the side face of the induction plate I1-7, and the proximity switch I1-6 is arranged on the switch bracket I1-5; the cylinder mounting plate I1-1 and the switch support I1-5 are fixed on the positioning bottom plate 4.

As can be seen from fig. 1, 2, 6, 7, and 8, the lift positioning mechanism for welding a battery tray according to the present invention: the positioning jacking assembly II 2 comprises an air cylinder mounting plate II 2-1, a diamond pin mounting plate 2-2, a cushion block II 2-3, a diamond pin 2-4, a switch bracket II 2-5, a proximity switch II 2-6, an induction plate II 2-7 and an air cylinder II 2-8 with a guide rod; the cylinder part of the cylinder II 2-8 with the guide rod is fixed on the cylinder mounting plate II 2-1, and the guide rod is fixedly connected with the diamond pin mounting plate 2-2; a cushion block II 2-3 is respectively fixed at the front end and the rear end of the upper surface of the diamond pin mounting plate 2-2, the diamond pin 2-4 penetrates through a hole of the cushion block II 2-3 and is matched with the cushion block II 2-3, and the upper part of the diamond pin is in a diamond shape and is higher than the cushion block II 2-3; the induction plate II 2-7 is fixed on the side face of the diamond pin mounting plate 2-2 and corresponds to the position of one cushion block II 2-3; the switch bracket II 2-5 is arranged on the side face of the induction plate II 2-7, and the proximity switch II 2-6 is arranged on the switch bracket II 2-5; and the air cylinder mounting plate II 2-1 and the switch bracket II 2-5 are fixed on the positioning bottom plate 4.

When the battery tray stops moving: a cylinder I1-8 with a guide rod in the positioning jacking assembly I1 works, a guide rod of the positioning jacking assembly I extends out to drive a cylindrical pin mounting plate 1-2 to move upwards, and a cylindrical pin 1-4 extends into one hole of a battery tray to be positioned; meanwhile, a cylinder II 2-8 with a guide rod in the positioning jacking assembly II 2 works, the guide rod extends out to drive the diamond pin mounting plate 2-2 to move upwards, and the diamond pin 2-4 extends into one hole of the battery tray for guiding. Then, the two cushion blocks I1-3 and the two cushion blocks II 2-3 are in contact with the battery tray and lift the battery tray. The proximity switches I1-6 are used for stroke induction output of the cylinders I1-8 with the guide rods; the proximity switches II 2-6 are used for stroke induction output of the cylinders II 2-8 with the guide rods. Namely, when the battery tray is conveyed to the position above the jacking positioning mechanism and stops moving, the cylindrical pins 1-4 and the diamond-shaped pins 2-4 respectively extend into one hole of the battery tray: the cylindrical pins 1-4 play a positioning role, and the diamond-shaped pins 2-4 play an orientation role, so that the tray is accurately positioned.

Example 5

As can be seen from fig. 1, 2, 6, 7, and 8, the lift positioning mechanism for welding a battery tray according to the present invention: the positioning jacking assembly II 2 further comprises a detection pin 2-9, a spring 2-10, a switch support III 2-11 and a proximity switch III 2-12, the detection pin 2-9 penetrates through the other cushion block II 2-3, the spring 2-10 is arranged between the detection pin 2-9 and the cushion block II 2-3, the switch support III 2-11 is arranged on the side face of the lower portion of the detection pin 2-9, and the proximity switch III 2-12 is arranged on the switch support III 2-11; and the switch brackets III 2-11 are fixed on the positioning bottom plate 4.

When the battery tray is conveyed to the jacking positioning mechanism: if the cylindrical pins 1-4 and the diamond-shaped pins 2-4 extend into the holes of the battery tray, the battery tray can press the detection pins 2-9 to enable the battery tray to integrally move downwards, the proximity switches III 2-12 detect the detection pins 2-9, the battery tray is positioned reliably, and at the moment, the cylinder with the guide rods continues to work to enable the tray to be supported and lifted by the four cushion blocks and then is welded; if the cylindrical pin 1-4 and the diamond-shaped pin 2-4 do not extend into the holes of the battery tray, namely the cylindrical pin 1-4 and the diamond-shaped pin 2-4 support the battery tray, the detection pin 2-9 cannot move down integrally, and the proximity switch III 2-12 cannot detect the detection pin 2-9, the cylinder with the guide rod does not work to avoid overturning the tray.

The jacking positioning mechanism for welding the battery tray has the advantages that: firstly, the tray is accurately positioned by adopting the directional diamond pins and the positioning cylindrical pins, so that the welding quality is ensured; secondly, preventing the tray from being turned over by arranging a detection pin; and the three and two groups of independent positioning jacking components are convenient to install and debug.

Claims (5)

1. Jacking positioning mechanism is used in battery tray welding, characterized by: the device comprises a positioning jacking assembly I (1), a positioning jacking assembly II (2), a detection tray assembly (3) and a positioning bottom plate (4); location jacking subassembly I (1), location jacking subassembly II (2), detection tray subassembly (3) are all fixed on location bottom plate (4), and location jacking subassembly I (1), location jacking subassembly II (2) are located the left and right sides that detects tray subassembly (3) respectively.

2. The battery tray welding jacking positioning mechanism of claim 1, wherein: the detection tray assembly (3) comprises a detection bracket (3-1) and a proximity switch IV (3-2); the detection support (3-1) is fixed on the positioning bottom plate (4), the proximity switch IV (3-2) is arranged on the detection support (3-1), and the detection support (3-1) is located in the middle of the positioning bottom plate (4).

3. The jacking positioning mechanism for welding the battery tray as claimed in claim 1, wherein: the positioning jacking assembly I (1) comprises an air cylinder mounting plate I (1-1), a cylindrical pin mounting plate (1-2), a cushion block I (1-3), a cylindrical pin (1-4), a switch bracket I (1-5), a proximity switch I (1-6), an induction plate I (1-7) and an air cylinder I (1-8) with a guide rod; the cylinder part of the cylinder I (1-8) with the guide rod is fixed on the cylinder mounting plate I (1-1), and the guide rod is fixedly connected with the cylindrical pin mounting plate (1-2); the front end and the rear end of the upper part of the cylindrical pin mounting plate (1-2) are respectively fixed with a cushion block I (1-3), the cylindrical pin (1-4) penetrates through a hole of one cushion block I (1-3) and is matched with the cushion block I (1-3), and the upper end of the cylindrical pin is higher than the cushion block I (1-3); the sensing plate I (1-7) is fixed on the side face of the cylindrical pin mounting plate (1-2) and corresponds to the position of one cushion block I (1-3); the switch bracket I (1-5) is arranged on the side surface of the induction plate I (1-7), and the proximity switch I (1-6) is arranged on the switch bracket I (1-5); the cylinder mounting plate I (1-1) and the switch support I (1-5) are fixed on the positioning bottom plate (4).

4. The jacking positioning mechanism for welding the battery tray as claimed in claim 1, wherein: the positioning jacking assembly II (2) comprises an air cylinder mounting plate II (2-1), a diamond pin mounting plate (2-2), a cushion block II (2-3), a diamond pin (2-4), a switch bracket II (2-5), a proximity switch II (2-6), an induction plate II (2-7) and an air cylinder II with a guide rod (2-8); the cylinder part of the cylinder II (2-8) with the guide rod is fixed on the cylinder mounting plate II (2-1), and the guide rod is fixedly connected with the diamond pin mounting plate (2-2); a cushion block II (2-3) is respectively fixed at the front end and the rear end of the upper part of the diamond pin mounting plate (2-2), the diamond pin (2-4) penetrates through a hole of the cushion block II (2-3) and is matched with the cushion block II (2-3), and the upper part of the diamond pin is in a diamond shape and is higher than the cushion block II (2-3); the induction plate II (2-7) is fixed on the side face of the diamond pin mounting plate (2-2) and corresponds to the position of one cushion block II (2-3); the switch bracket II (2-5) is arranged on the side face of the induction plate II (2-7), and the proximity switch II (2-6) is arranged on the switch bracket II (2-5); and the air cylinder mounting plate II (2-1) and the switch bracket II (2-5) are fixed on the positioning bottom plate (4).

5. The battery tray welding of claim 4 uses the jacking positioning mechanism, its characterized by: the positioning jacking assembly II (2) further comprises a detection pin (2-9), a spring (2-10), a switch bracket III (2-11) and a proximity switch III (2-12), the detection pin (2-9) penetrates through the other cushion block II (2-3) and the spring (2-10) is arranged between the detection pin and the cushion block II (2-3), the switch bracket III (2-11) is arranged on the side face of the lower part of the detection pin (2-9), and the proximity switch III (2-12) is arranged on the switch bracket III (2-11); the switch bracket III (2-11) is fixed on the positioning bottom plate (4).

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