CN112974649B - Synchronous pressing mechanism for metal pieces - Google Patents

Abstract

The invention discloses a synchronous pressing mechanism for metal parts, which comprises a supporting and conveying device, a fixing hole, a fixing support plate, a synchronous pressing mechanism, a first pressing device and a second pressing device, wherein the fixing hole is uniformly and symmetrically arranged at two ends of the fixing support plate in a penetrating mode, the synchronous pressing mechanism is arranged in the middle of the upper end of the fixing support plate, the supporting and conveying device is fixedly arranged in front of the fixing support plate, the first pressing device and the second pressing device are distributed in a mirror symmetry mode, the first pressing device and the second pressing device are arranged at the front end of the synchronous pressing mechanism, the first pressing device and the second pressing device are identical in structural specification, limiting blocks are uniformly arranged in the synchronous pressing mechanism, and eight limiting blocks are distributed in pairs. The invention can insert the plug connectors which are needed to be inserted into the mechanical parts at the two sides of the mechanical parts to the same depth in the use process, and is convenient and quick to use.

Description

Synchronous pressing mechanism for metal pieces

Technical Field

The invention relates to the technical field of machining, in particular to a synchronous pressing mechanism for metal parts.

Background

The mechanical parts and the metal parts often appear the corresponding plug connector of the synchronous plug connector of both sides of the mechanical parts and the metal parts in the production process, and the plug connector has the same plug connector inserting depth, so that the efficiency is low and the plug connector inserting depth into the mechanical parts and the metal parts from both sides of the mechanical parts and the metal parts is not well controlled when the plug connector is plugged manually, the plug connectors on both sides are often inserted into the mechanical parts and the metal parts to different depths in the mechanical parts and the metal parts due to different stress on both sides, and therefore the plug connector cannot be accurately symmetrically inserted into the mechanical parts and the metal parts, and therefore a device is needed to solve the problems.

Disclosure of Invention

The invention aims to provide a synchronous pressing mechanism for metal pieces, which solves the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a metal part synchronous pressing mechanism, includes support conveyor, fixed orifices, fixed bolster, synchronous extrusion mechanism, first extrusion device and second extrusion device, the fixed orifices evenly symmetry runs through and sets up in the both ends of fixed bolster, synchronous extrusion mechanism installs in the upper end middle part of fixed bolster, support conveyor fixed mounting is in the place ahead of fixed bolster, first extrusion device and second extrusion device are mirror symmetry state distribution, just first extrusion device and second extrusion device install in synchronous extrusion mechanism's front end, first extrusion device and second extrusion device's structural specification is the same, evenly install the stopper in the synchronous extrusion mechanism, just two liang of distribution of stopper are equipped with eight, be located the outside the inside slip grafting of stopper has first extrusion control rod, first extrusion control rod is located the inside part fixed mounting of stopper has first regulation control toothed plate, the inside slip grafting of stopper has the second extrusion control rod is located the inside part fixed mounting of stopper first regulation toothed plate of stopper, first extrusion control plate and second extrusion control plate have, first extrusion control plate and first extrusion drive gear and first extrusion block, first extrusion block and first extrusion block toothed bar have, first extrusion block and first extrusion block toothed bar and first extrusion block, first extrusion block and second toothed bar have, the drive gear engagement, first side of rotation block, first extrusion block and second toothed bar, and drive gear engagement, first side toothed bar, even fixed mounting has the slip fixture block on the stripper plate, just the inside of slip fixture block slip joint at the slip adjustment tank, fastening positioning slot has all been seted up to the both sides of slip adjustment tank, the equal screw thread in both ends of slip fixture block is pegged graft and is had fastening bolt, just fastening bolt's bottom is pegged graft in fastening positioning slot's inside, the front end fixed mounting of stripper plate has the guard plate, the connecting hole has all been seted up at the both ends of extrusion drive piece, install the mounting bracket in the support conveyor, the inside of mounting bracket is rotated through the drive shaft and is installed the conveyer belt, the drive shaft one end fixedly connected with driving motor of conveyer belt one end, just driving motor and mounting bracket fixed connection, the medial extremity middle part of mounting bracket is pegged graft and is had the connecting rod, the one end fixedly connected with fixed plate of connecting rod, the first hydraulic electric control push rod of one end middle part bottom fixedly connected with of mounting bracket, just the mount is all installed to the other end middle part bottom fixedly connected with second hydraulic electric control push rod of mounting bracket, just first hydraulic electric control push rod and the upper end of second hydraulic electric control push rod.

Preferably, the fixing frame is in an L-shaped arrangement, and the upper ends of the fixing frame and the fixing plate are fixedly connected with the front ends of the fixing support plates.

Preferably, the bottom end of the driving adjusting gear penetrates through and is inserted in the middle of the fixed supporting plate in a rotating mode, and the bottom end of the driving adjusting gear is connected with a motor.

Preferably, the front end of the telescopic control toothed plate is fixedly connected with the extrusion driving block in the first extrusion device, the first extrusion control rod is inserted into the connecting holes formed in the two ends of the extrusion driving block in the first extrusion device in a sliding and penetrating manner, and the front end of the first extrusion control rod is fixedly inserted into the connecting holes formed in the two ends of the extrusion driving block in the second extrusion device.

Preferably, adjusting scale marks are formed in the middle of the upper end face of the extrusion driving block in the first extrusion device and the middle of the upper end face of the extrusion driving block in the second extrusion device.

Preferably, the material of the protection plate is rubber.

Preferably, the conveyor belt is located directly below the first and second pressing devices.

Compared with the prior art, the invention has the following beneficial effects:

the device can synchronously enable the first extrusion device and the second extrusion device to move in the same or opposite directions by the same distance through driving the rotation of the adjusting gear in the using process, so that the extrusion force and the extrusion advancing distance of the connectors on the two sides of the mechanical parts can be quickly adjusted and controlled through the extrusion of the first extrusion device and the second extrusion device, the mechanical parts are extruded with the same force on the two sides of the mechanical parts, the connecting rods are inserted into the mechanical parts at equal intervals on the two sides of the mechanical parts, the inserted precise symmetrical state is distributed on the two sides of the mechanical parts, the distance between the extrusion plates in the first extrusion device and the second extrusion device can be controlled and regulated, the extrusion force and the extrusion advancing distance of the connectors on the two sides of the mechanical parts can be quickly adjusted and controlled through the extrusion mounting frame of the first extrusion device and the second extrusion device, the connecting rods can be quickly rotated by taking the connecting rods as axes after the mechanical parts are synchronously pressed, and the mechanical parts can be quickly driven to slide to the appointed conveying belt through the driving motor.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present invention;

FIG. 2 is a schematic diagram of a synchronous extrusion mechanism according to the present invention;

FIG. 3 is a schematic view of an extrusion device according to the present invention;

fig. 4 is a schematic structural view of the supporting and conveying device of the present invention.

In the figure: the device comprises a 1-support conveying device, a 2-fixing hole, a 3-fixing support plate, a 4-synchronous extrusion mechanism, a 5-first extrusion device, a 6-second extrusion device, a 7-first extrusion control rod, an 8-limiting block, a 9-first adjustment control toothed plate, a 10-adjustment gear, an 11-first adjustment control toothed plate, a 12-second extrusion control rod, a 13-telescopic control toothed plate, a 14-drive adjustment gear, a 15-sliding adjustment groove, a 16-extrusion driving block, a 17-connecting hole, a 18-fastening positioning slot, a 19-fastening bolt, a 20-sliding clamping block, a 21-extrusion plate, a 22-protection plate, a 23-first hydraulic electric control push rod, a 24-mounting frame, a 25-connecting rod, a 26-second hydraulic electric control push rod, a 27-fixing plate, a 28-fixing frame, a 29-driving motor and a 30-conveying belt.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-4, an embodiment of the present invention is provided: the utility model provides a synchronous pressing mechanism of metalwork, including supporting conveyor 1, the fixed orifices 2, fixed backup pad 3, synchronous extrusion mechanism 4, first extrusion device 5 and second extrusion device 6, fixed orifices 2 evenly symmetry runs through the both ends of seting up at fixed backup pad 3, synchronous extrusion mechanism 4 installs in fixed backup pad 3's upper end middle part, support conveyor 1 fixed mounting is in fixed backup pad 3's place ahead, first extrusion device 5 and second extrusion device 6 are mirror symmetry state distribution, and first extrusion device 5 and second extrusion device 6 are installed in synchronous extrusion mechanism 4's front end, first extrusion device 5 and second extrusion device 6's structural specification is the same, evenly install stopper 8 in the synchronous extrusion mechanism 4, and stopper 8 two are distributed and are equipped with eight, the stopper 8 inside slip grafting that is located the outside has first extrusion control rod 7, first extrusion control rod 7 is located stopper 8's inside part fixed mounting and has first regulation pinion 9, the inside slip grafting that is located inboard stopper 8 has second extrusion control rod 12, second extrusion control rod 12 is located stopper 8 inside part fixed mounting first regulation pinion 11, first extrusion control rod 11 and second extrusion control rod 11 and pinion 11 are installed and first extrusion gear 11 and 14 are installed to be connected with the first extrusion gear 11, first extrusion gear 11 and 14 are connected with the drive gear 16, 14 and two sides are connected with the regulation gear 11, 14 are connected with the regulation gear 16, 14 is equipped with the regulation gear 13, the inside slip joint of extrusion drive piece 16 has extrusion board 21, even fixed mounting has slip fixture block 20 on the extrusion board 21, and slip fixture block 20 slip joint is in the inside of slip adjustment tank 15, fastening location slot 18 has all been seted up to the both sides of slip adjustment tank 15, the equal screw thread rotation grafting in both ends of slip fixture block 20 has fastening bolt 19, and fastening bolt 19's bottom is pegged graft in fastening location slot 18's inside, the front end fixed mounting of extrusion board 21 has guard plate 22, connecting hole 17 has all been seted up at extrusion drive piece 16's both ends, install mounting bracket 24 in the support conveyor 1, the conveyer belt 30 is installed through the drive shaft rotation in the inside of mounting bracket 24, drive shaft one end fixedly connected with driving motor 29 of conveyer belt 30 one end, and driving motor 29 and mounting bracket 24 fixed connection, the inside end middle part rotation grafting of mounting bracket 24 has connecting rod 25, connecting rod 25's one end fixedly connected with fixed plate 27, the first hydraulic control push rod 23 of one end middle part bottom fixedly connected with of mounting bracket 24, the second hydraulic control 26 of the other end middle part fixedly connected with of mounting bracket 24, and the upper end 28 of first hydraulic control push rod 23 and second hydraulic control push rod 26 are all installed.

The fixed frame 28 is L-shaped, the upper ends of the fixed frame 28 and the fixed plate 27 are fixedly connected with the front end of the fixed supporting plate 3, the bottom end of the driving adjusting gear 14 is penetrated and inserted in the middle of the fixed supporting plate 3 in a penetrating way, the bottom end of the driving adjusting gear 14 is connected with a motor, the front end of the telescopic control toothed plate 13 is fixedly connected with the extrusion driving block 16 in the first extrusion device 5, the first extrusion control rod 7 is penetrated and inserted in the connecting holes 17 formed at the two ends of the extrusion driving block 16 in the first extrusion device 5 in a sliding way, the front end of the first extrusion control rod 7 is fixedly inserted in the connecting holes 17 formed at the two ends of the extrusion driving block 16 in the second extrusion device 6, the middle parts of the upper end faces of the extrusion driving blocks 16 in the first extrusion device 5 and the second extrusion device 6 are respectively provided with adjusting scale marks, the protection plate 22 is made of rubber, the conveyer belt 30 is positioned under the first extrusion device 5 and the second extrusion device 6, the rotation of the adjusting gear 14 can synchronously lead the first extrusion device 5 and the second extrusion device 6 to move in the same or opposite reverse directions by the same distance, so that the mechanical parts which are conveyed to the conveyer belt 30 and need to be synchronously pressed at two sides can be firstly centered and adjusted by the first extrusion device 5 and the second extrusion device 6, then the two sides of the mechanical parts are extruded with the same force, the extrusion distances are the same, the parts which need to be inserted at two sides of the mechanical parts are equidistantly inserted into the mechanical parts, the parts are precisely distributed at two sides of the mechanical parts in a symmetrical state after being inserted, and the distance of the extrusion plates 21 in the first extrusion device 5 and the second extrusion device 6 can be controlled and adjusted, therefore, the extrusion force and the extrusion advancing distance of the connectors on the two sides of the mechanical parts can be quickly adjusted and controlled through the extrusion of the first extrusion device 5 and the second extrusion device 6, the mounting frame 24 can be rotated by taking the connecting rod 25 as the axis through the first hydraulic electric control push rod 23 or the second hydraulic electric control push rod 26 after the mechanical parts are synchronously pressed, the mounting frame 24 is inclined and the conveying belt 30 is driven to rotate through the driving motor 29, and the mechanical parts can be quickly conveyed from the conveying belt 30 to the appointed conveying belt.

Working principle: firstly, the device is fixedly arranged at a designated place through a fixing hole 2, so that the upper end face of a conveying belt 30 is flush with the upper end face of an external conveying belt, when the external conveying belt conveys mechanical parts to be processed to the upper end of the conveying belt 30, a driving motor 29 drives the conveying belt 30 to rotate for a certain distance and then stops, at the moment, a motor arranged at the bottom end of a fixed supporting plate 3 drives a driving adjusting gear 14 to rotate, the rotating driving adjusting gear 14 drives a telescopic control toothed plate 13 to transversely reciprocate, and the telescopic control toothed plate 13 is fixedly connected with an extrusion driving block 16 in a first extrusion device 5, so that the telescopic control toothed plate 13 which reciprocates can drag the extrusion driving block 16 in the first extrusion device 5 to transversely reciprocate, and the extrusion driving block 16 in the first extrusion device 5 is movably inserted into the limit block 8 to limit the movement of the extrusion driving block 16 in the first extrusion device 5 because the first extrusion control rod 7 is inserted into both ends of the extrusion driving block 16 and the second extrusion control rod 12 fixedly connected with the extrusion driving block 16, and the second extrusion driving rod 12 in the first extrusion device 5 drives the second extrusion control rod 12 to perform telescopic movement in the limit block 8 while reciprocating movement, so that the second extrusion control rod 12 in telescopic movement drives the adjusting gear 10 to rotate through the first adjusting and controlling toothed plate 11, at this time, the rotating adjusting gear 10 drives the first extrusion control rod 7 to perform telescopic movement through the first adjusting and controlling toothed plate 9, and because the first adjusting and controlling toothed plate 9 and the first adjusting and controlling toothed plate 11 are arranged on both sides of the adjusting gear 10, the conveying movement of the first extrusion control rod 7 can drive the extrusion driving block 16 in the second extrusion device 6 to transversely reciprocate, and the extrusion driving blocks 16 in the first extrusion device 5 and the second extrusion device 6 can synchronously move in the same or opposite directions by the same distance, so that the extrusion driving block 16 in the first extrusion device 5 and the second extrusion device 6 can center and adjust the mechanical parts on the conveying belt 30 when repeatedly moving relatively close to each other, the mechanical parts are positioned in the middle of the extrusion driving block 16 in the first extrusion device 5 and the second extrusion device 6, then the mounting frame 24 and the conveying belt 30 are lifted by the first hydraulic electric control push rod 23 and the second hydraulic electric control push rod 26, at the moment, the plug-in parts which need to be pressed at both sides of the mechanical parts are positioned between the extrusion driving blocks 16 in the first extrusion device 5 and the first extrusion device 5, at this time, the extrusion driving blocks 16 in the first extrusion device 5 and the second extrusion device 6 are repeatedly and synchronously moved, so that the plug connectors which are required to be plugged at two sides of the mechanical parts are plugged into the mechanical parts at the same distance, the plug connectors are plugged into the mechanical parts at the same distance, the extrusion plate 21 can be contracted and moved in the extrusion driving blocks 16 by screwing the fastening bolts 19, the plugging depth of the plug connectors in the mechanical parts can be adjusted and controlled, the protection effect is achieved by the protection plate 22, the mounting frame 24 and the conveying belt 30 are lowered and reset by the synchronous operation of the first hydraulic electric control push rod 23 and the second hydraulic electric control push rod 26 after the plugging and extrusion of two sides of the mechanical parts are completed, and the driving motor 29 is started to rotate the conveying belt 30, thereby carry the mechanical parts who accomplishes the pressure by carrying on the conveyer belt 30 to outside conveyer belt on, this device can be with the inside degree of depth the same of the plug connector that needs grafting of mechanical parts both sides to mechanical parts in the in-process of use, convenient to use is swift.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a use method of metalwork synchronous pressing mechanism, metalwork synchronous pressing mechanism includes support conveyor (1), fixed orifices (2), fixed bolster (3), synchronous extrusion mechanism (4), first extrusion device (5) and second extrusion device (6), its characterized in that: the fixed hole (2) evenly and symmetrically penetrates through two ends of the fixed supporting plate (3), the synchronous extrusion mechanism (4) is installed in the middle of the upper end of the fixed supporting plate (3), the supporting and conveying device (1) is fixedly installed in front of the fixed supporting plate (3), the first extrusion device (5) and the second extrusion device (6) are distributed in mirror symmetry, the first extrusion device (5) and the second extrusion device (6) are installed at the front end of the synchronous extrusion mechanism (4), the first extrusion device (5) and the second extrusion device (6) are identical in structural specification, the synchronous extrusion mechanism (4) is evenly provided with limiting blocks (8), eight limiting blocks (8) are distributed in pairs, a first extrusion control rod (7) is fixedly installed in the limiting blocks (8) in a sliding mode, a first adjusting toothed plate (9) is fixedly installed in the inner part of the limiting blocks (8), a second extrusion control rod (12) is located in the inner side, a second extrusion control rod (12) is fixedly installed in the inner part of the limiting blocks (8), the utility model discloses a plug-in bolt fixing device, including first regulation control pinion rack (9) and first regulation control pinion rack (11), all rotate between first regulation control pinion rack (9) and first regulation control pinion rack (11) and install adjusting gear (10), just first regulation control pinion rack (9) and first regulation control pinion rack (11) all are connected with adjusting gear (10) gear engagement, the middle part rotation of synchronous extrusion mechanism (4) is installed and is driven adjusting gear (14), one side gear engagement of drive adjusting gear (14) is connected with flexible control pinion rack (13), extrusion drive piece (16) are all installed to the inside of first extrusion device (5) and second extrusion device (6), sliding adjustment groove (15) have all been offered in the both sides of extrusion drive piece (16), extrusion drive piece (16) inside slip joint has extrusion plate (21), even fixed mounting has slip fixture block (20) on extrusion plate (21), just slip fixture block (20) slip joint is in the inside of sliding adjustment groove (15), fastening location slot (18) have all been offered in the both sides of sliding adjustment gear (14), the both ends of the plug-in bolt fixing device (19) are fixed in position bolt fixing device (19) before the plug-in bolt fixing device (19), connecting holes (17) are formed in two ends of the extrusion driving block (16), a mounting frame (24) is mounted in the supporting and conveying device (1), a conveying belt (30) is rotatably mounted in the mounting frame (24) through a driving shaft, a driving motor (29) is fixedly connected to one end of the driving shaft at one end of the conveying belt (30), the driving motor (29) is fixedly connected with the mounting frame (24), a connecting rod (25) is rotatably inserted in the middle of the inner side end of the mounting frame (24), a fixing plate (27) is fixedly connected to one end of the connecting rod (25), a first hydraulic electric control push rod (23) is fixedly connected to the bottom end of the middle of one end of the mounting frame (24), a second hydraulic electric control push rod (26) is fixedly connected to the bottom end of the middle of the other end of the mounting frame (24), and fixing frames (28) are mounted at the upper ends of the first hydraulic electric control push rod (23) and the second hydraulic electric control push rod (26).

The fixing frame (28) is L-shaped, and the upper ends of the fixing frame (28) and the fixing plate (27) are fixedly connected with the front end of the fixing support plate (3);

the bottom end of the driving adjusting gear (14) is inserted in the middle of the fixed supporting plate (3) in a penetrating and rotating mode, and the bottom end of the driving adjusting gear (14) is connected with a motor;

the front end of the telescopic control toothed plate (13) is fixedly connected with an extrusion driving block (16) in the first extrusion device (5), the first extrusion control rod (7) is inserted into connecting holes (17) formed in two ends of the extrusion driving block (16) in the first extrusion device (5) in a sliding and penetrating manner, and the front end of the first extrusion control rod (7) is fixedly inserted into the connecting holes (17) formed in two ends of the extrusion driving block (16) in the second extrusion device (6);

when the device is used, firstly, the metal part synchronous pressing mechanism is fixedly arranged at a designated place through the fixing hole (2), so that the upper end face of the conveying belt (30) is flush with the upper end face of an external conveying material conveying belt, after the external conveying material conveying belt conveys mechanical parts to be processed to the upper end of the conveying belt (30), the conveying belt (30) is driven by the driving motor (29) to rotate for a certain distance and then stops, at the moment, the motor arranged at the bottom end of the fixed supporting plate (3) drives the driving adjusting gear (14) to rotate, the rotating driving adjusting gear (14) drives the telescopic control toothed plate (13) to transversely reciprocate, and as the telescopic control toothed plate (13) is fixedly connected with the extrusion driving block (16) in the first extrusion device (5), the telescopic control toothed plate (13) which reciprocates drags the extrusion driving block (16) in the first extrusion device (5) to transversely reciprocate, and the extrusion driving block (16) in the first extrusion device (5) penetrates through the first extrusion control rod (7) to rotate, and the first extrusion driving block (16) penetrates through the first extrusion driving block (16) and the second extrusion driving block (16) to be fixedly connected with the second extrusion driving block (16) in the extrusion driving device (8), so that the first extrusion driving block (5) is stably connected with the extrusion driving block (16) to the first extrusion driving block (8) and the second extrusion driving block (16) to transversely reciprocate;

because the extrusion driving block (16) in the first extrusion device (5) drives the second extrusion control rod (12) to do telescopic motion in the limiting block (8) while reciprocating motion, the second extrusion control rod (12) with telescopic motion drives the adjusting gear (10) to rotate through the first adjusting control toothed plate II (11), at the moment, the rotating adjusting gear (10) drives the first extrusion control rod (7) to do telescopic motion through the first adjusting control toothed plate I (9), and because the first adjusting control toothed plate I (9) and the first adjusting control toothed plate II (11) are arranged on two sides of the adjusting gear (10), the extrusion driving block (16) in the second extrusion device (6) is driven by the conveying motion of the first extrusion control rod (7) to do transverse reciprocating motion, and the extrusion driving block (16) in the first extrusion device (5) and the second extrusion device (6) can achieve synchronous same or opposite direction movement of the same distance, so that the extrusion driving block (16) in the first extrusion device (5) and the second extrusion device (6) can be positioned on the middle part (30) of the extrusion driving part (30) to be positioned in the opposite direction when the extrusion driving block (16) is positioned on the second extrusion device (6), then the mounting frame (24) and the conveying belt (30) are lifted by the first hydraulic electric control push rod (23) and the second hydraulic electric control push rod (26), at the moment, the plug connectors which are required to be pressed on the two sides of the mechanical part are positioned between the first extrusion device (5) and the extrusion driving block (16) in the first extrusion device (5), at the moment, the extrusion driving block (16) in the first extrusion device (5) and the extrusion driving block (16) in the second extrusion device (6) are repeatedly and synchronously moved, so that the plug connectors which are required to be plugged on the two sides of the mechanical part are plugged into the mechanical part at the same distance, the plug connectors are plugged into the mechanical part at the same distance, the extruding plate (21) is contracted and moved in the extruding driving block (16) through screwing the fastening bolt (19), so that the inserting depth of the inserting connector in the mechanical parts is regulated and controlled, the protecting plate (22) plays a role in protecting, after the inserting and extruding of the two sides of the mechanical parts are finished, the installing frame (24) and the conveying belt (30) are lowered and reset through synchronous working of the first hydraulic electric control push rod (23) and the second hydraulic electric control push rod (26), the driving motor (29) is started to enable the conveying belt (30) to rotate, the pressed mechanical parts are conveyed to an external conveying material conveying belt from the conveying belt (30) for conveying, the synchronous pressing mechanism for the metal parts inserts the plug connectors which are required to be inserted into the two sides of the mechanical parts to the same depth in the use process.

2. The method of using a synchronous pressing mechanism for metal pieces according to claim 1, wherein: adjusting scale marks are arranged in the middle of the upper end faces of the extrusion driving blocks (16) in the first extrusion device (5) and the second extrusion device (6).

3. The method of using a synchronous pressing mechanism for metal pieces according to claim 1, wherein: the material of the protection plate (22) is rubber.

4. The method of using a synchronous pressing mechanism for metal pieces according to claim 1, wherein: the conveying belt (30) is positioned right below the first extrusion device (5) and the second extrusion device (6).