CN110860624A - Battery module explosion-proof sensor stitch simplex position field angle setting device - Google Patents

Abstract

The invention relates to the technical field of battery sensor pin forming equipment, in particular to a battery module explosion-proof sensor pin single-station opening angle forming device which comprises an opening angle device mounting seat, an explosion-proof sensor pressing and fixing device and a pin poking mechanism.

Description

Battery module explosion-proof sensor stitch simplex position field angle setting device

Technical Field

The invention relates to the technical field of battery sensor pin forming equipment, in particular to a battery module explosion-proof sensor pin single-station opening angle shaping device.

Background

The battery module sensor monitors and feeds back voltage, current, temperature and the like in the use process of the battery, and the use performance and safety of the battery are improved. Before the pins of the battery module sensor are connected with the circuit board, the overlong pins of the battery module sensor need to be subjected to pin shearing, bending and opening angle forming treatment. The existing common flare angle shaping method is to use an independent flare angle shaping machine to carry out multi-station flare angle and shaping treatment on the stitch, cannot realize multi-procedure continuous operation of trimming, bending and flare angle shaping on the stitch for testing the performance of the battery module sensor, has low production efficiency, and is difficult to meet the requirement of mass production.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to improve the production efficiency and quality and meet the requirement of multi-station continuous production, the invention provides a single-station opening angle shaping device for pins of an explosion-proof sensor of a battery module.

The technical scheme adopted by the invention for solving the technical problems is as follows: a battery module explosion-proof sensor stitch single-station opening angle shaping device comprises an opening angle device mounting seat, an explosion-proof sensor pressing and fixing device and a stitch opening mechanism, wherein the explosion-proof sensor pressing and fixing device is fixedly arranged at the top of the opening angle device mounting seat, the stitch opening mechanism is arranged on the side wall of the opening angle device mounting seat, the explosion-proof sensor fixing and pressing device comprises a fixing and pressing cylinder and a fixing and pressing block, a cylinder barrel of the fixing and pressing cylinder is fixedly connected with the top of the opening angle device mounting seat, the telescopic end of the fixing and pressing cylinder is vertically downward, the fixing and pressing block is fixedly connected with the telescopic end of the fixing and pressing cylinder, when the telescopic end of the fixing and pressing cylinder extends out, the fixing and pressing block can press on the surface of an explosion-proof sensor, the stitch opening mechanism comprises an opening mechanism mounting plate which can slide up and down and is arranged on the side wall of the opening angle device mounting, it has the mounting panel lift cylinder of strutting mechanism still fixed mounting on the lateral wall of horn device mount pad, and the mounting panel lift cylinder of strutting mechanism is located the below of strutting the mechanism mounting panel, and the flexible end of strutting the mechanism mounting panel lift cylinder is vertical upwards, and the flexible end of strutting the mechanism mounting panel lift cylinder passes through the connecting plate and struts mechanism mounting panel fixed connection, install the piece that struts on the mechanism mounting panel of strutting, strut the setting of piece level, the one end and the mounting panel of strutting of piece are connected, and the upper portion of the other end of piece that struts upwards extends has most advanced wedge up.

Because the interval is less between two stitches, in order to facilitate inserting the distraction piece, one side of the wedge block towards the distraction mechanism mounting plate is an inner side surface, a wedge plate with an upward tip is fixedly arranged on the inner side surface of the wedge block, and the height of the wedge plate is higher than that of the wedge block.

Further, specifically, a vertical distraction mechanism linear slide rail is arranged on the side wall of the distraction device mounting seat, a distraction mechanism slide block is fixedly mounted on the side surface of the distraction mechanism mounting plate, and the distraction mechanism slide block is in sliding fit with the distraction mechanism linear slide rail.

Furthermore, in order to enable the opening angle between the two pins to be adjustable, the wedge block is downwards from the tip at the top of the wedge block, the wedge block and the spreading block are uniformly divided into a first spreading block and a second spreading block, the first spreading block and the second spreading block are connected to the mounting plate of the spreading mechanism through a four-bar linkage mechanism of a spreading angle, the wedge block is uniformly divided into a first wedge block and a second wedge block from the tip at the top of the wedge block downwards, the first wedge block is fixedly connected with the first spreading block, and the second wedge block is fixedly connected with the second spreading block,

the opening angle four-bar mechanism comprises a first opening angle connecting bar, a second opening angle connecting bar, a third opening angle connecting bar and a fourth opening angle connecting bar, wherein the upper end of the first opening angle connecting bar is hinged with the upper end of the second opening angle connecting bar, a hinged shaft at the upper end of the first opening angle connecting bar and the upper end of the second opening angle connecting bar is fixed on the side surface of the opening mechanism mounting plate, the lower end of the first opening angle connecting bar is hinged with the upper end of the third opening angle connecting bar, the lower end of the second opening angle connecting bar is hinged with the upper end of the fourth opening angle connecting bar, the lower end of the third opening angle connecting bar is hinged with the lower end of the fourth opening angle connecting bar, a connecting bar mechanism up-and-down driving cylinder is fixedly connected below the opening angle four-bar mechanism on the side surface of the opening mechanism mounting plate, the telescopic end of the connecting bar mechanism up-and-down driving cylinder is vertically upwards arranged, the telescopic end of the connecting bar mechanism up-and-down driving, the second opening block is fixedly connected with the lower end of the second opening angle connecting rod.

In order to prevent the distance between the stitches from being expanded too much, the outer side surface of the fixed pressing block (the outer side surface of the fixed pressing block facing the stitch opening mechanism) is also fixedly connected with a closing-up limiting connecting plate, the bottom of the closing-up connecting plate is downwards extended to the outer side of the closing-up limiting connecting plate, two symmetrical opening angle limiting plates are fixedly arranged on the outer side surface of the closing-up limiting connecting plate to the outer side surface of the closing-up limiting baffle, a space is arranged between the two opening angle limiting plates, the space is gradually increased from top to bottom, the bottoms of the two opening angle limiting plates are exposed out of the bottom of the closing-up limiting baffle, and the bottoms of the two opening angle limiting plates can,

when the telescopic end of the lifting cylinder of the opening mechanism mounting plate extends out, the opening mechanism mounting plate rises, and the opening mechanism mounting plate drives the opening block to rise, so that the wedge block on the opening block is positioned between the bottom of the closing-in connecting plate and the inner side of the closing-in limiting baffle.

The battery module explosion-proof sensor pin single-station opening angle shaping device has the advantages that the bent explosion-proof sensor pins are separated, namely the explosion-proof sensor pins are opened through the opening blocks from bottom to top, the opening angle of the explosion-proof sensor pins can be limited by the two opening angle limiting plates, the opening angle is prevented from being too large, the opening mechanism is formed at one time and is fast and in place, the structural design of the whole device is reasonable, the use is convenient, the working efficiency is high, and the requirement of automatic testing is met.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of the structure of the explosion-proof sensor of the present invention.

FIG. 2 is a schematic structural diagram of a cover plate of a pressing block mounting groove which is not mounted on a workpiece fixing seat provided with an explosion-proof sensor.

FIG. 3 is a schematic structural diagram of a sensor pressing block of the workpiece fixing seat according to the present invention.

FIG. 4 is a schematic structural diagram of the explosion-proof sensor before the stitch flare angle.

Fig. 5 is a schematic structural diagram of the battery module explosion-proof sensor pin single-station opening angle shaping device of the invention.

Fig. 6 is a schematic structural diagram of the battery module explosion-proof sensor pin single-station opening angle shaping device without the explosion-proof sensor pressing and fixing device.

Fig. 7 is a partially enlarged view of the battery module explosion-proof sensor pin single-station flare angle shaping device of the present invention.

Fig. 8 is a working state diagram of the battery module explosion-proof sensor pin single-station opening angle shaping device of the invention.

FIG. 9 is a schematic structural diagram of the explosion-proof sensor after the stitch flare angle of the sensor.

In the figure: 1. the rotary worktable comprises 100 parts of a workpiece fixing seat, 102 parts of an explosion-proof sensor, 1021 parts of a pin mounting part, 1022 parts of a pin mounting groove hole, 1023 parts of an explosion-proof sensor pin, 103 parts of a sensor pressing block, 1031 parts of an outer convex part, 104 parts of a sensor mounting groove, 1041 parts of a first opening, 105 parts of a pressing block mounting groove, 106 parts of a pin mounting part support, 107 parts of a sensor pin bracket, 1071 parts of a pin supporting table, 1072 parts of a needle groove, 108 parts of a pressing block mounting groove cover plate, 10231 parts of a vertical part, 10232 parts of a transverse part,

701. an opening angle device mounting seat, 702, an explosion-proof sensor pressing and fixing device, 7021, a fixed pressing cylinder, 7022, a fixed pressing block, 703, a pin opening mechanism, 7031, an opening mechanism mounting plate, 7032, an opening mechanism mounting plate lifting cylinder, 704, an opening block, 7041, a wedge block, 7042, a wedge plate, 7043, a second opening block, 7044, a first opening block, 705, a linear sliding rail of the opening mechanism, 706, a sliding block of the opening mechanism, 7071, a first opening angle connecting rod, 7072, a second opening angle connecting rod, 7073, a third opening angle connecting rod, 7074, a fourth opening angle connecting rod, 7075, a support lug, 708, a connecting rod mechanism up and down driving cylinder, 709, a closing-up limit connecting plate, 710, a closing-up limit baffle, 711 and a closing-up limit plate.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1-4, a plurality of workpiece fixing seats 100 are disposed at a position close to the outer edge of the rotary table 1, a sensor mounting groove 104 and a pressing block mounting groove 105 which are communicated with each other are disposed on the surface of the workpiece fixing seat 100, a main body portion of the explosion-proof sensor 102 is embedded in the sensor mounting groove 104, a sensor pressing block 103 is disposed in the pressing block mounting groove 105, an elastic mechanism is further disposed in the pressing block mounting groove 105, the sensor pressing block 103 abuts against the rear end of the explosion-proof sensor 102 through the pressure of the elastic mechanism, an opening 1041 is disposed at the front end of the sensor mounting groove 104, the front end of the explosion-proof sensor 102 extends forward from the opening 1041 and forms a pin mounting portion 1021 outside the sensor mounting groove 104, a pin mounting groove hole 1022 is disposed on the front end surface of the pin mounting portion 1021, a pin mounting portion support 106 is further integrally disposed, the upper surface of the pin mounting part support 106 is provided with a sensor pin bracket 107, the upper surface of the sensor pin bracket 107 is provided with a pin tray 1071, the pin mounting part 1021 is positioned between the pin tray 1071 and the outer edge of the upper end of the workpiece fixing seat 100, and the pin tray 1071 is provided with a front needle groove 1072 and a rear needle groove which are communicated with each other.

A connecting part of the sensor mounting groove 104 and the pressing block mounting groove 105 is provided with a communicating opening 109, an outer convex part 1031 extends forwards on the front end surface of the sensor pressing block 103, and the outer convex part 1031 penetrates through the communicating opening 109 and then presses the rear end of the upper surface of the explosion-proof sensor 102. In order to facilitate the removal of the explosion-proof sensor 102, the front end surface of the outer protrusion 1031 is a circular arc surface. The elastic mechanism is a compression spring (not shown in the figure), and the compression spring is compressed between the rear end face of the sensor pressing block 103 and the rear side face in the pressing block mounting groove 105. The upper port of the pressing block mounting groove 105 is detachably provided with a pressing block mounting groove cover plate 108 through a screw.

Stitch installation slotted hole 1022 on stitch installation department 1021 is towards the periphery of swivel work head 1, the back end of explosion-proof sensor stitch 1023 is inserted in the stitch installation slotted hole 1022 of explosion-proof sensor 102 front end, the height that stitch saddle 1071 set up just in time makes the middle part of explosion-proof sensor stitch 1023 inlay in needle groove 1072, and explosion-proof sensor stitch 1023 does not take place deformation, stitch saddle 1071 is the effect of bearing the stitch only, the front portion of explosion-proof sensor stitch 1023 exposes in stitch saddle 1071, as the state of fig. 4, explosion-proof sensor stitch 1023 is the state before the flare angle.

As shown in fig. 5, which is a preferred embodiment of the present invention, a battery module explosion-proof sensor pin single-station flare angle setting device includes a flare angle device mounting seat 701, an explosion-proof sensor pressing and fixing device 702 and a pin opening mechanism 703, wherein the explosion-proof sensor pressing and fixing device 702 is fixedly disposed at the top of the flare angle device mounting seat 701, the pin opening mechanism 703 is disposed on the side wall of the flare angle device mounting seat 701, the explosion-proof sensor fixing and pressing device 702 includes a fixing and pressing cylinder 7021 and a fixing and pressing block 7022, the cylinder of the fixing and pressing cylinder 7021 is fixedly connected to the top of the flare angle device mounting seat 701, the telescopic end of the fixing and pressing cylinder 7021 is vertically downward, the fixing and pressing block 7022 is fixedly connected to the telescopic end of the fixing and pressing cylinder 7021, when the telescopic end of the fixing and pressing cylinder 7021 extends, the fixing and pressing block 7022 can press on the surface of the explosion-proof sensor,

the pin spreading mechanism 703 comprises a spreading mechanism mounting plate 7031 which is arranged on the side wall of the angle-opening device mounting seat 701 and can slide up and down, a vertical spreading mechanism linear slide rail 705 is arranged on the side wall of the angle-opening device mounting seat 701, a spreading mechanism sliding block 706 is fixedly arranged on the side surface of the spreading mechanism mounting plate 7031, and the spreading mechanism sliding block 706 is in sliding fit with the spreading mechanism linear slide rail 705. It has the mounting panel lift cylinder 7032 of opening mechanism to prop still fixed mounting on the lateral wall of horn device mount pad 701, it is located the below of the mounting panel 7031 of opening mechanism to prop the mounting panel lift cylinder 7032 of opening mechanism, it is vertical upwards to prop the flexible end of the mounting panel lift cylinder 7032 of opening mechanism, the flexible end of the mounting panel lift cylinder 7032 of opening mechanism passes through the connecting plate and props the mounting panel 7031 fixed connection of opening mechanism, it props the piece 704 to install on the mounting panel 7031 of opening mechanism, prop the horizontal setting of piece 704, the one end of propping the piece 704 and prop the mounting panel 7031 of opening mechanism and connect, the upper portion of the other end of propping the piece 704 upwards extends there is most advanced wedge 7041 up.

The side of the wedge 7041 facing the distractor mounting plate 7031 is an inner side, a wedge plate 7042 with an upward pointed end is fixedly arranged on the inner side of the wedge 7041, and the height of the wedge plate 7042 is higher than that of the wedge 7041. The tip of the wedge block 7041 and the tip of the wedge plate 7042 are both in a vertical plane that passes a certain radius of the rotary table 1.

The wedge block 7041 vertically downwards from the tip of the top part thereof divides the wedge block 7041 and the strutting block 704 into a first strutting block 7044 and a second strutting block 7043, the first strutting block 7044 and the second strutting block 7043 are connected on the strutting mechanism mounting plate 7031 through an opening angle four-bar linkage, the wedge block 7041 is divided into a first wedge block and a second wedge block downwards from the tip of the top part thereof, the first wedge block is fixedly connected with the first strutting block 7044, the second wedge block is fixedly connected with the second strutting block 7043,

the flare angle four-bar linkage comprises a flare angle connecting rod I7071, a flare angle connecting rod II 7072, a flare angle connecting rod III 7073 and a flare angle connecting rod IV 7074, the upper end of the flare angle connecting rod I7071 is hinged with the upper end of the flare angle connecting rod II 7072, a hinged shaft at the upper end of the flare angle connecting rod I7071 and the upper end of the flare angle connecting rod II 7072 is fixed on the side surface of the distraction mechanism mounting plate 7031, the lower end of the flare angle connecting rod I7071 is hinged with the upper end of the flare angle connecting rod III 7073, the lower end of the flare angle connecting rod II 7072 is hinged with the upper end of the flare angle connecting rod IV 7074, the lower end of the flare angle connecting rod III 7073 is hinged with the lower end of the flare angle connecting rod IV 7074, a connecting rod mechanism up-down driving cylinder 708 is fixedly connected below the flare angle four-bar linkage on the side surface of the distraction mechanism mounting plate 7031, the telescopic end of the connecting rod mechanism up-down driving cylinder 708 is vertically upwards arranged, and the telescopic end of the connecting, the support lug 7075 is fixedly connected with the telescopic end of the upper and lower driving cylinder 708 of the link mechanism, the first distraction block 7044 is fixedly connected with the lower end of the first flare angle link 7071, and the second distraction block 7043 is fixedly connected with the lower end of the second flare angle link 7072.

The outer side face of the fixed pressing block 7022 (one side of the fixed pressing block 7022 facing the stitch opening mechanism is the outer side face) is also fixedly connected with a closing-up limiting connecting plate 709, the bottom of the closing-up limiting connecting plate 709 is basically flush with the bottom of the fixed pressing block 7022, a closing-up limiting baffle 710 extends downwards from the bottom of the closing-up connecting plate 709 close to the outer side of the closing-up connecting plate 709, two symmetrical opening angle limiting plates 711 are fixedly arranged on the outer side face of the closing-up limiting baffle 710 side by side on the outer side face of the closing-up limiting connecting plate 709, a space is formed between the two opening angle limiting plates 711 and gradually increases from top to bottom, the bottoms of the two opening angle limiting plates 711 are exposed at the bottom of the closing-up limiting baffle 710, when the telescopic end of the opening mechanism mounting plate lifting cylinder 7032 extends out, the opening mechanism mounting plate 7031 rises, the opening mechanism mounting plate 7031 drives the opening block 704 to rise, so that the wedge And (3) removing the solvent.

Battery module explosion-proof sensor stitch simplex position wide angle setting device theory of operation: the upper surface of the sensor pin bracket has a pin saddle 1071, and the front part of the explosion-proof sensor pin 1023 is exposed out of the pin saddle 1071 and is bent, as shown in the state of fig. 4. The front of the sensor pin carrier 107 is convex to the front of the pin mounting seat 106. The front end face of the sensor pin carrier 107 is flush with the front end face of the pin holder 1071, both facing the periphery of the rotary table 1. The rotary worktable 1 rotates to drive the workpiece fixing seat 100 to rotate to the pin opening angle station of the explosion-proof sensor, namely, the explosion-proof sensor is pressed between the fixing device 702 and the pin opening mechanism 703,

first, the telescopic end of the fixed compressing cylinder 7021 extends downward, so that the fixed compressing block 7022 is compressed on the surface of the explosion-proof sensor 102 to fix the explosion-proof sensor 102, at this time, the closing-in limit baffle 710 is located in front of the stitch saddle 1071, and a distance is provided between the closing-in limit baffle 710 and the front end surface of the stitch saddle 1071, and the distance is used for the entering of the wedge 7041 and the wedge 7042.

Next, the extending end of the lifting cylinder 7032 of the strutting mechanism mounting plate on the side wall of the angle device mounting base 701 extends upwards to drive the strutting mechanism mounting plate 7031 to move upwards (the strutting mechanism sliding block 706 slides upwards on the strutting mechanism linear sliding rail 705 and the sliding mechanism guides and limits the position), so that the parts on the strutting mechanism mounting plate 7031 move upwards together, including the wedge 7041, the wedge 7041 moves upwards along the front end surface of the sensor pin bracket 107 and the front end surface of the pin saddle 1071, the tip of the wedge 7041 can just enter between two explosion-proof sensor pins 1023 at first, and the width of the wedge 7041 gradually widens from top to bottom, so that the two explosion-proof sensor pins 1023 can be separated towards two sides gradually to form an angle opening state. The bottom of two open angle limiting plates 711 exposes in the bottom of binding off limit baffle 710, and the bottom interval of two open angle limiting plates 711 is greater than the width at wedge 7041 middle part, and the anterior horizontal portion 10232 of explosion-proof sensor stitch 1023 is less than vertical portion 10231 of explosion-proof sensor stitch 1023, and consequently, the bottom of two open angle limiting plates 711 just in time can block the both sides of the horizontal portion 10232 of two explosion-proof sensor stitches 1023, prevents that the open angle of two explosion-proof sensor stitches 1023 is too big.

The opening angle four-bar linkage mechanism can further adjust the opening angle of the two explosion-proof sensor pins 1023, at the moment, the wedge block 7041 needs to be designed into a split type, namely, the wedge block 7044 is divided into a first opening block 7044 and a second opening block 7043, when the connecting rod mechanism up-down driving cylinder 708 does not work, the telescopic end of the connecting rod mechanism up-down driving cylinder 708 is in a retraction state, when the telescopic end of the connecting rod mechanism up-down driving cylinder 708 extends upwards, the lower end of the opening angle connecting rod three 7073 and the lower end of the opening angle connecting rod four 7074 move upwards, the upper end of the opening angle connecting rod three 7073 and the upper end of the opening angle connecting rod four 7074 are mutually opened, so that the lower end of the opening angle connecting rod one 7071 and the lower end of the opening angle connecting rod two 7072 are opened, and the first opening block 7044 and the second opening block 7043 are opened in an opening mode that the distance between the bottoms of the first opening block 7044 and the second opening block 7043 is larger, the lower end of the first flare angle connecting rod 7071 and the lower end of the second flare angle connecting rod 7072 are prevented from being too greatly expanded. Fig. 9 shows a state diagram after the flare angle process is completed.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (5)

1. The utility model provides an explosion-proof sensor stitch simplex position field angle setting device of battery module which characterized in that: comprises a flare angle device mounting seat (701), an explosion-proof sensor pressing and fixing device (702) and a pin opening mechanism (703), wherein the explosion-proof sensor pressing and fixing device (702) is fixedly arranged at the top of the flare angle device mounting seat (701), the pin opening mechanism (703) is arranged on the side wall of the flare angle device mounting seat (701),

the fixed pressing device (702) of the explosion-proof sensor comprises a fixed pressing cylinder (7021) and a fixed pressing block (7022), a cylinder barrel of the fixed pressing cylinder (7021) is fixedly connected with the top of an angle opening device mounting seat (701), the telescopic end of the fixed pressing cylinder (7021) is vertically downward, the fixed pressing block (7022) is fixedly connected with the telescopic end of the fixed pressing cylinder (7021), and when the telescopic end of the fixed pressing cylinder (7021) extends out, the fixed pressing block (7022) can be pressed on the surface of the explosion-proof sensor,

the pin spreading mechanism (703) comprises a spreading mechanism mounting plate (7031) which is arranged on the side wall of the spreading device mounting seat (701) in a vertically sliding manner, a spreading mechanism mounting plate lifting cylinder (7032) is also fixedly arranged on the side wall of the spreading device mounting seat (701), the spreading mechanism mounting plate lifting cylinder (7032) is positioned below the spreading mechanism mounting plate (7031), the telescopic end of the spreading mechanism mounting plate lifting cylinder (7032) is vertically upward, the telescopic end of the spreading mechanism mounting plate lifting cylinder (7032) is fixedly connected with the spreading mechanism mounting plate (7031) through a connecting plate, the utility model discloses a strutting mechanism, including strutting mechanism mounting panel (7031), strutting piece (704) level setting, the one end of strutting piece (704) is connected with strutting mechanism mounting panel (7031), and the upper portion of the other end of strutting piece (704) upwards extends and has most advanced wedge (7041) up.

2. The battery module explosion-proof sensor stitch simplex position field angle setting device of claim 1, characterized in that: one side of the wedge block (7041) facing the strutting mechanism mounting plate (7031) is an inner side face, a wedge plate (7042) with an upward pointed end is fixedly arranged on the inner side face of the wedge block (7041), and the height of the wedge plate (7042) is higher than that of the wedge block (7041).

3. The battery module explosion-proof sensor stitch simplex position field angle setting device of claim 1, characterized in that: the side wall of the flare angle device mounting seat (701) is provided with a vertical distraction mechanism linear slide rail (705), the side surface of the distraction mechanism mounting plate (7031) is fixedly provided with a distraction mechanism slide block (706), and the distraction mechanism slide block (706) is in sliding fit with the distraction mechanism linear slide rail (705).

4. The battery module explosion-proof sensor stitch simplex position opening angle setting device of claim 2, characterized in that: the wedge block (7041) is downwards divided into a first spreading block (7044) and a second spreading block (7043) from the tip of the top of the wedge block (7041), the first spreading block (7044) and the second spreading block (7043) are connected to a mounting plate (7031) of the spreading mechanism through a spreading angle four-bar linkage, the wedge block (7041) is downwards divided into a first wedge block and a second wedge block from the tip of the top of the wedge block, the first wedge block is fixedly connected with the first spreading block (7044), and the second wedge block is fixedly connected with the second spreading block (7043),

the flare angle four-bar mechanism comprises a flare angle connecting rod I (7071), a flare angle connecting rod II (7072), a flare angle connecting rod III (7073) and a flare angle connecting rod IV (7074), the upper end of the flare angle connecting rod I (7071) is hinged with the upper end of the flare angle connecting rod II (7072), a hinge shaft between the upper end of the flare angle connecting rod I (7071) and the upper end of the flare angle connecting rod II (7072) is fixed on the side surface of the opening mechanism mounting plate (7031), the lower end of the flare angle connecting rod I (7071) is hinged with the upper end of the flare angle connecting rod III (7073), the lower end of the flare angle connecting rod II (7072) is hinged with the upper end of the flare angle connecting rod IV (7074), the lower end of the flare angle connecting rod III (7073) is hinged with the lower end of the flare angle connecting rod IV (7074), a connecting rod mechanism up-down driving cylinder (708) is fixedly connected below the flare angle four-bar mechanism on the side surface of the opening mechanism mounting plate (7031), and the connecting rod mechanism up-down driving cylinder, and the telescopic end of the connecting rod mechanism up-and-down driving cylinder (708) is hinged with the lower end of the opening angle connecting rod III (7073) through a support lug, the lower end of the first opening block (7044) is fixedly connected with the lower end of the first opening angle connecting rod (7071), and the lower end of the second opening block (7043) is fixedly connected with the lower end of the second opening angle connecting rod (7072).

5. The battery module explosion-proof sensor stitch simplex position field angle setting device of claim 1, characterized in that: the outer side surface of the fixed pressing block (7022) is also fixedly connected with a closing-in limiting connecting plate (709), a closing-in limiting baffle (710) extends downwards from the bottom of the closing-in connecting plate (709) near the outer side of the closing-in connecting plate (709), two symmetrical opening angle limiting plates (711) are fixedly arranged from the outer side surface of the closing-in limiting connecting plate (709) to the outer side surface of the closing-in limiting baffle (710), the middle of the two opening angle limiting plates (711) is provided with a distance, the distance is gradually increased from top to bottom, the bottoms of the two opening angle limiting plates (711) are exposed at the bottom of the closing-in limiting baffle (710,

when the telescopic end of the stretching mechanism mounting plate lifting cylinder (7032) extends out, the stretching mechanism mounting plate (7031) rises, the stretching mechanism mounting plate (7031) drives the stretching block (704) to rise, and a wedge block (7041) on the stretching block (704) is located between the bottom of the closing-up connecting plate (709) and the inner side of the closing-up limiting baffle (710).

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