CN217413840U - Riveting mechanism for high-order brake lamp - Google Patents

Abstract

The utility model belongs to auto lamp accessory processing field especially relates to a high-order stop lamp riveted structure, include: a work table; the lower riveting seat assembly is arranged on the conveying assembly, a circuit board, a resistance diode to be riveted and an LED lamp are arranged on the lower riveting seat assembly, and the lower riveting seat assembly is driven by the conveying assembly to reciprocate; the resistor diode riveting component is arranged on the workbench through the fixing frame group and is matched with the lower riveting seat component to rivet the resistor diode with the circuit board; the LED lamp riveting component is arranged on the workbench through a fixing frame set, the LED lamp is riveted with the circuit board, and a limiting structure is arranged on the fixing frame set. The utility model drives the lower riveting seat component to reciprocate through the conveying component, and rivets at the resistance diode riveting component and the LED lamp riveting component respectively, thereby having high efficiency; the limiting structure arranged on the fixing frame group can limit riveting actions, and damage caused by excessive pressing is avoided while the riveting quality is guaranteed.

Description

Riveting mechanism for high-order brake lamp

Technical Field

The utility model belongs to auto lamp accessory processing field especially relates to a high-order stop lamp riveting mechanism.

Background

The brake lamps are generally arranged on two sides of the tail of the automobile, so that a rear vehicle can find the brake of a front vehicle in time to ensure the driving safety, and the high-level brake lamp is further arranged on the upper portion of the high-grade tail of the automobile, so that the rear-end driving vehicle can be better reminded, and the purpose of preventing rear-end accidents is achieved.

The production and processing of the high-mount stop lamp require multiple procedures such as circuit board shaping, resistor diode riveting, LED lamp riveting and the like, in the prior art, the riveting procedures of the LED lamp are mostly manual operation, but the manual operation easily causes uneven riveting quality; and the artificial riveting is easy to cause the risks of virtual riveting of the LED lamp, unlightness of the LED lamp, insufficient pulling-out force and the like due to the difference of the assembling pressure, and the quality of the product is influenced.

Disclosure of Invention

The utility model aims at having the above-mentioned problem to prior art, provided a high-order stop lamp riveting mechanism of high efficiency and riveting steady quality.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a high mounted stop lamp riveting mechanism comprising:

a work table;

the conveying assembly is arranged on the workbench, a lower riveting seat assembly is arranged on the conveying assembly, a circuit board, a resistance diode to be riveted and an LED lamp are arranged on the lower riveting seat assembly, and the lower riveting seat assembly is driven by the conveying assembly to reciprocate;

the resistance diode riveting component is arranged on the workbench through the fixing frame group and is matched with the lower riveting seat component to rivet the resistance diode with the circuit board;

the LED lamp riveting component is arranged on the workbench through a fixing frame set and is matched with the lower riveting seat component to rivet the LED lamp with the circuit board, and a limiting mechanism is arranged on the fixing frame set.

The further technical scheme is as follows: the fixing frame group comprises a driving fixing plate and a lower pressing plate, a resistance diode riveting driver or an LED lamp riveting driver is arranged on the driving fixing plate, a resistance diode riveting connector or an LED lamp riveting connector is arranged on the lower pressing plate, and the resistance diode riveting driver or the LED lamp riveting driver drives the lower pressing plate to do linear reciprocating motion in the vertical direction.

The further technical scheme is as follows: the side of drive fixed plate is provided with the inductor stationary blade, is provided with two proximity sensors on the inductor stationary blade, and the position of two proximity sensors respectively with the lower clamp plate is before pushing down and after pushing down the position corresponding.

The further technical scheme is as follows: and a contact sensor is arranged on the lower pressing plate, and when the lower end of the contact sensor is contacted with the lower riveting seat assembly or the workbench, the lower pressing plate stops moving.

The further technical scheme is as follows: the lower pressing plate is provided with an upper limiting piece, the upper limiting piece is located on two sides of the resistor diode riveting head or the LED lamp riveting head, the lower riveting seat assembly or the workbench is provided with a lower limiting piece, and the lower limiting piece is located below the upper limiting piece.

The further technical scheme is as follows: and the output ends of the resistance diode riveting driver and the LED lamp riveting driver are provided with pressure sensors.

The further technical scheme is as follows: the resistance diode riveting head comprises a first upper cushion block arranged on the lower pressing plate, the pressure sensor is arranged above the first upper cushion block, a first riveting head and a first guide post are arranged on the lower portion of the first upper cushion block, the resistance diode is riveted with the circuit board through the first riveting head, and the first guide post corresponds to the lower riveting seat assembly.

The further technical scheme is as follows: the LED lamp riveting head comprises a second upper cushion block arranged on the lower pressing plate, the pressure sensor is arranged above the second upper cushion block, a second riveting head and a second guide post are arranged on the lower portion of the second upper cushion block, the LED lamp is riveted with the circuit board through the second riveting head, and the second guide post corresponds to the lower riveting seat assembly.

The further technical scheme is as follows: the lower riveting seat assembly comprises a sliding bottom plate and a lower riveting seat, the sliding bottom plate is connected with the conveying assembly, a concave or a convex corresponding to the shape of the circuit board is arranged on the lower riveting seat, an ejection assembly is further arranged below the lower riveting seat, and the ejection assembly ejects the circuit board after riveting is completed.

The further technical scheme is as follows: the ejection assembly comprises an ejection drive arranged on the sliding bottom plate, an ejection block is connected to the output end of the ejection drive, a movable ejector pin is arranged on the ejection block, and the upper end of the movable ejector pin penetrates through the lower riveting seat to eject the circuit board.

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) the high-mount brake lamp riveting mechanism provided by the utility model has the advantages that the conveying component is arranged to drive the lower riveting seat component to reciprocate, and the resistance diode riveting component and the LED lamp riveting component are respectively riveted, so that the efficiency is high; resistance diode riveting subassembly and LED lamp riveting subassembly all set up through mount group, and the limit structure who sets up on the mount group can restrict the riveting action, avoids excessively pushing down to lead to damaging when guaranteeing the riveting quality.

(2) The fixing frame group comprises a driving fixing plate and a lower pressing plate, two proximity sensors are arranged on the side face of the driving fixing plate and can sense the positions of the lower pressing plate before and after pressing, the distance of pressing of each riveting is guaranteed to be consistent, and the product quality is guaranteed to be stable; the contact type sensor arranged on the lower pressing plate can stop the lower pressing plate in time when the lower pressing plate is contacted, so that damage to parts such as a riveting head and the like caused by excessive pressing is avoided; meanwhile, the lower pressing plate is also provided with an upper limiting piece which plays a role of mechanical limiting in combination with a lower limiting piece, the distance of pressing down of each riveting is limited, excessive pressing down is avoided, and the riveting quality is ensured; and pressure sensors are arranged on the resistor diode riveting drive and the LED lamp riveting drive, so that the pressure of the upper riveting head is consistent, and the connection stability is ensured.

(3) The utility model discloses a LED lamp rivet joint, including LED lamp rivet joint, LED lamp, LED lamp, LED.

(4) The ejection assembly arranged below the lower riveting seat can eject out the riveted circuit board, so that the problem that the riveted circuit board is not easy to take out when being attached to the lower riveting seat is avoided, and the circuit board is convenient to convey subsequently.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of the present invention.

Fig. 2 is a schematic structural view of the lower rivet seat assembly and the ejecting assembly according to a preferred embodiment of the present invention.

Fig. 3 is a schematic diagram of a resistor-diode riveted assembly according to a preferred embodiment of the present invention.

Fig. 4 is a partially enlarged view of a portion a in fig. 3.

Fig. 5 is a schematic structural view of a riveting assembly of an LED lamp according to a preferred embodiment of the present invention.

Fig. 6 is a partially enlarged view at B in fig. 5.

In the figure, 100, the delivery assembly; 200. a lower riveting seat component; 210. a sliding bottom plate; 220. a lower riveting seat; 230. a fixed block; 300. a resistor diode riveting component; 310. the resistance diode is riveted and driven; 320. a resistor diode rivet joint; 321. a first upper cushion block; 322. a first rivet head; 323. a first guide post; 400. LED lamp riveting assembly; 410. riveting and driving the LED lamp; 420. LED lamp riveting heads; 421. a second upper cushion block; 422. a second rivet head; 423. a second guide post; 500. a circuit board; 600. a fixed frame group; 610. a drive fixing plate; 620. a lower pressing plate; 630. an inductor fixing sheet; 640. a proximity sensor; 650. a contact sensor; 660. an upper limiting member; 670. a lower retainer; 680. a pressure sensor; 700. ejecting the assembly; 710. ejecting and driving; 720. a top block; 730. a movable thimble.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

As shown in FIGS. 1-6, a riveting mechanism for a high mount stop lamp comprises:

a work table;

the conveying assembly 100 is arranged on the workbench, the conveying assembly 100 is provided with a lower riveting seat assembly 200, the lower riveting seat assembly 200 is provided with a circuit board 500, a resistance diode and an LED lamp to be riveted, and the lower riveting seat assembly 200 is driven by the conveying assembly 100 to reciprocate;

the resistor diode riveting component 300 is arranged on the workbench through the fixing frame group 600 and is matched with the lower riveting seat component 200 to rivet the resistor diode with the circuit board 500;

LED lamp riveting subassembly 400 sets up on the workstation through mount group 600, the cooperation rivet seat subassembly 200 down with the LED lamp with circuit board 500 rivets, is provided with limit structure on the mount group 600.

The utility model provides a high-order stop lamp riveting mechanism, through setting up conveying assembly 100 and driving lower riveting seat subassembly 200 reciprocating motion, and rivet in resistance diode riveting subassembly 300 and LED lamp riveting subassembly 400 department respectively, it is efficient; resistance diode riveting subassembly 300 and LED lamp riveting subassembly 400 all set up through mount group 600, and the limit structure who sets up on mount group 600 can restrict the riveting action, avoids excessively pushing down to lead to damaging when guaranteeing the riveting quality.

Preferably, the fixing frame assembly 600 includes a driving fixing plate 610 and a lower pressing plate 620, the driving fixing plate 610 is provided with a resistor diode riveting driver 310 or an LED lamp riveting driver 410, the lower pressing plate 620 is provided with a resistor diode riveting connector 320 or an LED lamp riveting connector 420, and the resistor diode riveting driver 310 or the LED lamp riveting driver 410 drives the lower pressing plate 620 to perform linear reciprocating motion in the vertical direction.

Specifically, the driving fixing plate 610 of the present embodiment is disposed on the workbench and along the conveying assembly 100 through the supporting legs, and the lower pressing plate 620 is disposed on the supporting legs and below the driving fixing plate 610 through the sliding sleeve.

Preferably, an inductor fixing plate 630 is disposed on a side surface of the driving fixing plate 610, two proximity inductors 640 are disposed on the inductor fixing plate 630, and positions of the two proximity inductors 640 correspond to positions before and after the lower pressing plate 620 is pressed down, respectively.

Specifically, the sensor fixing plate 630 in this embodiment is a vertically disposed elongated plate, and the upper end of the sensor fixing plate is connected to the side surface of the driving fixing plate 610, a waist-shaped hole is disposed on the sensor fixing plate 630, and the proximity sensor 640 is disposed in the waist-shaped hole.

Preferably, a contact sensor 650 is disposed on the lower pressure plate 620, and when the lower end of the contact sensor 650 contacts with the lower rivet seat assembly 200 or the workbench, the lower pressure plate 620 stops moving.

Specifically, the contact sensor 650 in this embodiment is connected to the side of the lower pressing plate 620, and the output end of the contact sensor 650 is disposed downward and can contact with the side of the conveying assembly 100, when the contact occurs, the first rivet head 322 or the second rivet head 422 is just pressed to the bottom.

Preferably, the lower pressing plate 620 is provided with an upper limiting member 660, the upper limiting member 660 is located at two sides of the resistor diode rivet joint 320 or the LED lamp rivet joint 420, the lower rivet seat assembly 200 or the workbench is provided with a lower limiting member 670, and the lower limiting member 670 is located below the upper limiting member 660.

Specifically, in the present embodiment, two upper limiting members 660 and two lower limiting members 670 are adopted, in the resistor diode riveting assembly 300, the upper limiting members 660 are a plurality of cylinders disposed on the side surface of the lower pressing plate 620, and the lower limiting members 670 are cylinders disposed on the workbench and corresponding to the upper limiting members 660; on LED lamp riveting subassembly 400, last spacing 660 is the rectangular plate of being connected with LED lamp riveting subassembly 400, and lower spacing 670 is the square plate that sets up on the workstation and correspond with last spacing 660.

Preferably, the output terminals of the resistor diode riveting driver 310 and the LED lamp riveting driver 410 are provided with a pressure sensor 680.

In this embodiment, the fixing frame assembly 600 includes a driving fixing plate 610 and a lower pressing plate 620, two proximity sensors 640 are disposed on the side surface of the driving fixing plate 610, and the two proximity sensors 640 can sense the positions of the lower pressing plate 620 before and after being pressed down, so as to ensure that the distances of pressing down in each riveting are consistent, and ensure stable product quality; the contact sensor 650 arranged on the lower pressing plate 620 can stop the lower pressing plate 620 in time when contact occurs, so that damage to parts such as a riveting head and the like caused by excessive pressing is avoided; meanwhile, the lower pressing plate 620 is also provided with an upper limiting piece 660 which plays a role of mechanical limiting in combination with a lower limiting piece 670, so that the distance of pressing down in each riveting is limited, excessive pressing down is avoided, and the riveting quality is ensured; and the pressure sensors 680 are arranged on the resistor diode riveting driver 310 and the LED lamp riveting driver 320, so as to ensure that the pressure of the upper riveting heads is consistent, ensure that all parts are stably connected after riveting, and avoid loosening, and specifically, the pressure sensors 680 in this embodiment are arranged on the LED lamp riveting assembly 400.

Preferably, the rivet joint 320 for the resistance diode includes a first upper cushion block 321 disposed on the lower pressing plate 620, the pressure sensor 680 is disposed above the first upper cushion block 321, a first rivet head 322 and a first guide post 323 are disposed at a lower portion of the first upper cushion block 321, the resistance diode is riveted to the circuit board 500 by the first rivet head 322, and the first guide post 323 corresponds to the lower rivet seat assembly 200.

Preferably, the riveting head 420 of the LED lamp includes a second upper cushion block 421 disposed on the lower pressing plate 620, the pressure sensor 680 is disposed above the second upper cushion block 421, a second riveting head 422 and a second guiding column 423 are disposed at a lower portion of the second upper cushion block 421, the LED lamp is riveted to the circuit board 500 by the second riveting head 422, and the second guiding column 423 corresponds to the lower riveting seat assembly 200.

In this embodiment, resistance diode rivet joint 320 includes first upper cushion 321, the top of first upper cushion 321 is provided with pressure sensor 680, there are first rivet 322 and first guide post 323 in the below butt, it is unanimous to guarantee the pressure that first rivet 322 pushed down at every turn through pressure sensor 680, guarantee that riveting stable in quality, LED lamp rivet joint 420 and resistance diode rivet joint 320 are similar in structure, the homoenergetic guarantees that the pressure of pushing down at every turn is unanimous, and the distance that holding down plate 620 removed is unanimous, product quality is stable, can avoid appearing the rosin joint, the problem that the pull-off force is insufficient or excessively pushes down and lead to the part to damage.

Specifically, in the present embodiment, the first rivet head 322 and the first guide post 323 are positioned by a guide plate, the guide plate is connected below the first upper cushion block 322 by a connecting post and a spring, and both the first rivet head 322 and the first guide post 323 pass through the guide plate; the LED lamp riveting assembly 400 is also provided with a guide plate; in this embodiment, the side of the sliding bottom plate 210 is provided with a hole, and the first guiding column 323 and the second guiding column 423 correspond to the hole on the sliding bottom plate 210, and play a role of positioning and guiding when riveting.

In this embodiment, the lower end of the first rivet head 322 is in an inverted V shape, so that the circuit board 500 at the electrode of the resistor diode is riveted and fixed to the circuit board 500; the lower end of the second rivet 422 is a square protrusion, and is combined with a groove on the lower rivet seat 220, so that the electrode plates on two sides of the LED lamp are riveted with the circuit board 500, and the LED lamp is riveted and fixed on the circuit board.

Preferably, the lower riveting base assembly 200 includes a sliding bottom plate 210 and a lower riveting base 220, the sliding bottom plate 210 is connected to the conveying assembly 100, a recess or a protrusion corresponding to the shape of the circuit board 500 is disposed on the lower riveting base 220, an ejection assembly 700 is further disposed below the lower riveting base 220, and after the riveting is completed, the ejection assembly 700 ejects the circuit board 500.

Further preferably, the ejection assembly 700 includes an ejection driver 710 disposed on the sliding bottom plate 210, an ejection block 720 is connected to an output end of the ejection driver 710, a movable ejector pin 730 is disposed on the ejection block 720, and an upper end of the movable ejector pin 730 penetrates through the lower rivet seat 220 to eject the circuit board 500.

In this embodiment, the ejection assembly 700 arranged below the lower riveting base 220 can eject the riveted circuit board 500, so as to avoid the problem that the riveted circuit board is not easy to take out when being attached to the lower riveting base 220, and facilitate subsequent conveying of the riveted circuit board 500.

Specifically, the sliding bottom plate 210 in this embodiment is further provided with a fixing block 230, the fixing block 230 is provided with a groove, the lower riveting base 220 is arranged in the groove, the lower riveting base 220 is provided with a positioning pin for limiting the circuit board 500, and the circuit board 500, the resistor diode and the LED lamp on the lower riveting base 220 are all automatically placed in the lower riveting base 220 through other mechanisms; the ejection driver 710 in this embodiment is a cylinder disposed below the sliding bottom plate 210, the output end line of the cylinder is disposed and connected with an ejector block 720, the ejector block 720 is in a strip shape and is embedded below the fixed block 230, a groove is disposed below the fixed block 230, and the ejector block 720 can move up and down in the groove; the number of the movable pins 730 in this embodiment is plural.

The conveying assembly 100, the resistor diode riveting assembly 300, the LED lamp riveting assembly 400 and the ejection assembly 700 in the embodiment are controlled by a control module to realize actions, and a PLC circuit is arranged in the control module; the side surface of the sliding bottom plate 210 is also provided with a positioning strip, the resistance diode riveting component 300 and the LED lamp riveting component 400 are correspondingly provided with sensing devices for detecting the position of the lower riveting seat component 200, and the position of the sliding bottom plate 210 can be sensed and positioned by combining the positioning strip; meanwhile, the motion of the conveying assembly 100 is controlled through the sensing device and the control module, and the conveying assembly can be accurately stopped to perform a riveting process under the first riveting head 322 and the second riveting head 422.

After the riveting of the LED lamp riveting assembly 400 is completed, the conveying assembly 100 continues to drive the lower riveting base assembly 200 to move away from the LED lamp riveting assembly 400, and then the ejection driver 700 acts to eject the circuit board 500, so as to facilitate conveying to the next step, specifically, the movable ejector pins 730 in this embodiment are multiple and uniformly arranged below the lower riveting base 220.

It is noted that the description herein of "first," "second," "a," etc. is for descriptive purposes only and is not intended to indicate or imply relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless explicitly defined otherwise. The terms "connected," "fixed," and the like are to be construed broadly, e.g., "fixed" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In addition, the technical solutions between the embodiments of the present invention can be combined with each other, but it is necessary to be able to be realized by a person having ordinary skill in the art as a basis, and when the technical solutions are contradictory or cannot be realized, the combination of such technical solutions should be considered to be absent, and is not within the protection scope of the present invention.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. The utility model provides a high-order stop lamp riveting mechanism which characterized in that includes:

a work table;

the conveying assembly (100) is arranged on the workbench, a lower riveting base assembly (200) is arranged on the conveying assembly (100), a circuit board (500), a resistance diode to be riveted and an LED lamp are arranged on the lower riveting base assembly (200), and the lower riveting base assembly (200) is driven by the conveying assembly (100) to reciprocate;

the resistor diode riveting component (300) is arranged on the workbench through a fixing frame group (600) and is matched with the lower riveting seat component (200) to rivet the resistor diode with the circuit board (500);

LED lamp riveting subassembly (400) sets up on the workstation through mount group (600), cooperates rivet seat subassembly (200) down with the LED lamp with circuit board (500) riveting, be provided with limit structure on mount group (600).

2. The high mount stop lamp riveting mechanism according to claim 1, wherein the fixed frame set (600) comprises a driving fixed plate (610) and a lower pressing plate (620), the driving fixed plate (610) is provided with a resistor diode riveting driver (310) or an LED lamp riveting driver (410), the lower pressing plate (620) is provided with a resistor diode riveting connector (320) or an LED lamp riveting connector (420), and the resistor diode riveting driver (310) or the LED lamp riveting driver (410) drives the lower pressing plate (620) to perform linear reciprocating motion in the vertical direction.

3. The riveting mechanism of a high mount stop lamp as claimed in claim 2, wherein the side of the driving fixing plate (610) is provided with a sensor fixing plate (630), two proximity sensors (640) are arranged on the sensor fixing plate (630), and the positions of the two proximity sensors (640) correspond to the positions of the lower pressing plate (620) before and after pressing down respectively.

4. The high mount stop lamp riveting mechanism according to claim 2, wherein the lower pressing plate (620) is provided with a contact sensor (650), and when the lower end of the contact sensor (650) contacts with the lower rivet holder assembly (200) or the workbench, the lower pressing plate (620) stops moving.

5. The high mount stop lamp riveting mechanism according to claim 2, wherein the lower pressing plate (620) is provided with an upper limiting member (660), the upper limiting member (660) is located at two sides of the resistor diode riveting head (320) or the LED lamp riveting head (420), the lower riveting base assembly (200) or the workbench is provided with a lower limiting member (670), and the lower limiting member (670) is located below the upper limiting member (660).

6. The high mount stop lamp riveting mechanism according to claim 2, wherein the output ends of the resistor diode riveting driver (310) and the LED lamp riveting driver (410) are provided with pressure sensors (680).

7. The riveting mechanism of the high mount stop lamp according to claim 6, wherein the rivet joint (320) of the resistor diode comprises a first upper cushion block (321) arranged on the lower pressing plate (620), the pressure sensor (680) is arranged above the first upper cushion block (321), a first rivet head (322) and a first guide post (323) are arranged at the lower part of the first upper cushion block (321), the resistor diode is riveted with the circuit board (500) by the first rivet head (322), and the first guide post (323) corresponds to the lower rivet seat assembly (200).

8. The riveting mechanism for the high mount stop lamp according to claim 6, wherein the riveting head (420) for the LED lamp comprises a second upper cushion block (421) arranged on the lower pressing plate (620), the pressure sensor (680) is arranged above the second upper cushion block (421), a second riveting head (422) and a second guide column (423) are arranged at the lower part of the second upper cushion block (421), the LED lamp is riveted with the circuit board (500) by the second riveting head (422), and the second guide column (423) corresponds to the lower riveting base assembly (200).

9. The riveting mechanism for the high mount stop lamp according to claim 1, wherein the lower riveting seat assembly (200) comprises a sliding bottom plate (210) and a lower riveting seat (220), the sliding bottom plate (210) is connected with the conveying assembly (100), a recess or a protrusion corresponding to the shape of the circuit board (500) is arranged on the lower riveting seat (220), an ejection assembly (700) is further arranged below the lower riveting seat (220), and after riveting is completed, the ejection assembly (700) ejects the circuit board (500).

10. The riveting mechanism of the high mount stop lamp as claimed in claim 9, wherein the ejection assembly (700) comprises an ejection driver (710) disposed on the sliding bottom plate (210), an ejection block (720) is connected to an output end of the ejection driver (710), a movable ejector pin (730) is disposed on the ejection block (720), and an upper end of the movable ejector pin (730) penetrates through the lower riveting base (220) to eject the circuit board (500).

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