CN113426929B

CN113426929B - A sensor press welder for thing networking device

Info

Publication number: CN113426929B
Application number: CN202110730621.5A
Authority: CN
Inventors: 李林勇
Original assignee: Anhui Yunhao Internet Of Things Technology Co ltd
Current assignee: Anhui Yunhao Internet Of Things Technology Co ltd
Priority date: 2021-06-29
Filing date: 2021-06-29
Publication date: 2022-10-04
Anticipated expiration: 2041-06-29
Also published as: CN113426929A

Abstract

The invention relates to a sensor press welder, in particular to a sensor press welder for Internet of things equipment, which comprises a special-shaped multi-groove bottom plate, a special-shaped grooved sliding frame, a table-shaped frame, an N-shaped connecting frame, a special-shaped charging box, a round head connecting frame, a rectangular charging box, a welding mechanism and the like; one side of the special-shaped multi-groove bottom plate is welded with a special-shaped slotted sliding frame, the other side of the special-shaped multi-groove bottom plate is welded with a bench frame, an N-shaped connecting frame is welded on the special-shaped slotted sliding frame in a pressing mode, a special-shaped charging box is connected onto the N-shaped connecting frame, a round head connecting frame is connected onto one side of the special-shaped charging box, a rectangular charging box is connected onto one side of the round head connecting frame, and a welding mechanism is connected onto the round head connecting frame. Through the cooperation of the special-shaped connecting plate, the welding pressing plate and the sliding rod of the welding mechanism and the devices on the special-shaped connecting plate and the welding pressing plate, the quick pressure welding is carried out on the Internet of things conducting block and the metal wire, and the efficiency of the Internet of things conducting block in pressure welding the metal wire is improved.

Description

A sensor press welder for thing networking device

Technical Field

The invention relates to a sensor press welder, in particular to a sensor press welder for equipment of the Internet of things.

Background

The internet of things is an information bearer based on the internet, a traditional telecommunication network and the like, and all common physical objects which can be independently addressed form an interconnected network. With the rapid development of the internet of things, hardware devices related to the internet of things are also increasing, and placement devices thereof are diversified.

The corresponding wire of bonding is needed to carry out most of thing networking hardware and is improved the practicality, current carry out the equipment that bonding was carried out thing networking conducting block and wire, need artifical handheld thing networking wire and conducting block to carry out the bonding when the bonding, this process is too loaded down with trivial details, because during the equipment bonding, the temperature is high, the staff scalds in one's hands extremely easily, the security performance is low, and the bonding in-process can not fix thing networking conducting block, it leads to the bonding inaccurate to take place the skew easily, influence bonding operating mass.

Therefore, a sensor press welding machine for internet of things equipment, which can quickly press weld metal wires on the internet of things conductive blocks, and has high press welding accuracy and high safety performance, needs to be designed urgently.

Disclosure of Invention

With solving when the pressure welding need artifical handheld thing networking conducting block and wire to carry out the pressure welding, the security performance is low, and the pressure welding in-process can not carry out the problem fixed to wire and conducting block, provides one kind can carry out quick pressure welding wire, and the pressure welding accuracy is high, the high sensor pressure welding machine that is used for thing networking equipment of security performance to thing networking conducting block.

A sensor press welder for Internet of things equipment comprises a special-shaped multi-groove bottom plate, a special-shaped grooving sliding frame, a table-shaped frame, an N-shaped connecting frame, a special-shaped charging box, a round-head connecting frame, a rectangular charging box, a welding press mechanism, opposite push-out mechanisms and clamping mechanisms.

Further, the welding and pressing mechanism comprises an electric push rod, a special-shaped connecting plate, a welding pressing plate, a slide rod, a circular ring, a first reset spring, a lower groove pressing plate and a second reset spring, the electric push rod is fixedly installed on the round-head connecting frame, the special-shaped connecting plate is connected onto the electric push rod, the welding pressing plate is welded on one side of the special-shaped connecting plate in a pressing mode, the slide rod is connected onto one side of the special-shaped connecting plate, the circular ring is connected onto the slide rod in a sliding fit mode, the slide rod is connected with the circular ring through the first reset spring, the lower groove pressing plate is connected onto the special-shaped grooved sliding frame in a sliding fit mode, the lower groove pressing plate is matched with the special-shaped multi-groove bottom plate in a sliding fit mode, the circular ring is in contact with the lower groove pressing plate, the second reset spring is connected onto one side of the lower groove pressing plate, and the other end of the second reset spring is connected with the special-shaped grooved sliding frame.

The opposite push-out mechanism comprises a rack, a first rotating shaft frame, a first rotating shaft, a first gear, a first driving plate wheel, a second rotating shaft frame, a second rotating shaft, a second driving plate wheel, a second gear, a placing sliding plate, a first rack, a third rotating shaft frame, a fourth rotating shaft frame, a push block, a second rack and a third rotating shaft.

Further, the clamping mechanism comprises a rectangular perforated frame, a disc with a shaft, a single-groove swing rod, a rectangular sliding frame, a rotating shaft four, a double-groove swing rod, a rod block with a rod, a clamping block, a deflector rod, a rectangular perforated block, a wedge block with a rod, a third return spring, a special-shaped wedge frame and a fourth return spring, wherein a pair of rectangular perforated frames are welded on a special-shaped multi-groove bottom plate in a pressing way, the rectangular perforated frame is rotationally connected with the disc with the shaft, the disc with the shaft is slidably connected with a pair of single-groove swing rods, the special-shaped multi-groove bottom plate is connected with a pair of rectangular sliding frames in a sliding fit way, the rectangular sliding frame is movably connected with the single-groove swing rod, the rectangular sliding frame is connected with the rotating shaft four through a bearing, the double-groove swing rod is connected on the rotating shaft four in a linking way, the double-groove swing rod is slidably connected with the rod block, the special-shaped multi-groove bottom plate is connected with a pair of clamping blocks in a sliding fit mode, the belt rod block is connected with the clamping blocks, the double-groove swing rod is connected with a driving lever in a sliding fit mode, the special-shaped multi-groove bottom plate is connected with a rectangular slotting block in a sliding fit mode, the rectangular slotting block is connected with a belt rod wedge block in a sliding fit mode, the belt rod wedge block is fixedly connected with the driving lever, a third reset spring is connected between the belt rod wedge block and the rectangular slotting block, a pair of special-shaped wedge frames are connected on the special-shaped multi-groove bottom plate in a sliding mode, the special-shaped wedge frames are movably connected with the single-groove swing rod, the special-shaped wedge frames penetrate through the special-shaped multi-groove bottom plate, and a pair of fourth reset springs is connected between the special-shaped wedge frames and the special-shaped multi-groove bottom plate.

The special-shaped charging box is further provided with a first limiting mechanism, the first limiting mechanism is connected to the special-shaped charging box and comprises a triangular block, a limiting block and a fifth reset spring, the limiting block is connected to the special-shaped charging box in a sliding mode, the triangular block is connected to the limiting block in a connecting mode and is in limiting fit with the lower pressure groove plate, and a pair of fifth reset springs is connected between the triangular block and the special-shaped charging box.

Further, the device further comprises a second limiting mechanism, the second limiting mechanism is arranged on the pushing block and comprises an N-shaped clamping block and a sixth reset spring, the N-shaped clamping block is connected to the pushing block in a sliding mode, and a pair of sixth reset springs is connected between the N-shaped clamping block and the pushing block.

The invention has the beneficial effects that:

through the cooperation of the special-shaped connecting plate, the welding pressing plate and the sliding rod of the welding mechanism and the devices on the special-shaped connecting plate, the welding pressing plate and the sliding rod, the Internet of things conducting block and the metal wire are subjected to rapid pressure welding, and the efficiency of pressure welding the Internet of things conducting block on the metal wire is improved.

Through the rack of the opposite pushing mechanism, the placing slide plate, the pushing block and the matching of the device on the pushing block, the pushing mechanism is used for pushing out the metal wire of the Internet of things on the rectangular charging box to be attached to the conductive block, and the trouble that the metal wire and the conductive block of the Internet of things are manually held to be pressed and welded is avoided.

Through clamping mechanism's rectangle trompil frame, the cooperation of band pulley disc and single groove pendulum rod and device above that for press from both sides tight spacing to thing networking conducting block, reach the effect that makes the thing networking conducting block can more stable pressure welding wire, through the cooperation of pushing down the frid, three hornblocks and stopper and device above that, can compress tightly spacingly to thing networking conducting block, reach the effect that makes thing networking conducting block limit the amount of whereabouts, prevent that thing networking conducting block from piling up on placing the slide.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a partial perspective view of the present invention.

Fig. 4 is a schematic perspective view of the bonding mechanism of the present invention.

Fig. 5 is a schematic view of a first partial structure of the opposite push-out mechanism of the present invention.

Fig. 6 is a schematic view of a second partial structure of the opposite pushing mechanism according to the present invention.

Fig. 7 is a schematic perspective view of a portion of the clamping mechanism of the present invention.

Fig. 8 is a partially disassembled perspective view of the clamping mechanism of the present invention.

Fig. 9 is a schematic perspective view of a first limiting mechanism of the present invention.

Fig. 10 is a schematic perspective view of a second limiting mechanism of the present invention.

Reference numbers in the figures: 1: heterotypic multislot bottom plate, 2: profiled slotted carriage, 3: bench, 4: n style of calligraphy link, 5: special-shaped charging box, 6: round head link, 7: rectangular charging box, 8: bonding mechanism, 81: electric push rod, 82: abnormal shape connecting plate, 83: weld platen, 84: slide bar, 85: ring, 86: first return spring, 87: lower platen, 88: second return spring, 9: opposing pushing mechanism, 91: rack, 92: first shaft bracket, 93: first rotating shaft, 94: gear one, 95: dial wheel one, 96: second rotating shaft frame, 97: rotating shaft II, 98: dial wheel two, 99: gear two, 910: slide placement, 911: rack one, 912: spindle carrier three, 913: shaft bracket four, 914: push block, 915: a second rack, 916: rotating shaft III, 10: clamping mechanism, 101: rectangular open-hole frame, 102: disk with shaft, 103: single-groove swing link, 104: rectangular carriage, 105: rotating shaft four, 106: double-groove swing rod, 107: band beam block, 108: clamping block, 109: deflector rod, 1010: rectangular slotted block, 1011: bar wedge block, 1012: third return spring, 1013: special-shaped wedge frame, 1014: fourth return spring, 11: limiting mechanism I, 111: triangular block, 112: stopper, 113: fifth return spring, 12: a second limiting mechanism, 121: n-block, 122: and a sixth return spring.

Detailed Description

The standard parts used in the invention can be purchased from the market, the special-shaped parts can be customized according to the description and the description of the attached drawings, and the specific connection mode of each part adopts the conventional means of mature bolts, rivets, welding, sticking and the like in the prior art, and the detailed description is not repeated.

Example 1

A sensor press welder for Internet of things equipment is shown in a figure 1-2 and comprises a special-shaped multi-groove bottom plate 1, a special-shaped grooved carriage 2, a table-shaped frame 3, an N-shaped connecting frame 4, a special-shaped charging box 5, a round head connecting frame 6, a rectangular charging box 7, a welding mechanism 8, an opposite pushing mechanism 9 and a clamping mechanism 10, wherein the special-shaped grooved carriage 2 is press-welded on one side of the special-shaped multi-groove bottom plate 1, the table-shaped frame 3 is press-welded on the other side of the special-shaped multi-groove bottom plate 1, the N-shaped connecting frame 4 is press-welded on the special-shaped grooved carriage 2, the special-shaped charging box 5 is connected on the N-shaped connecting frame 4, the special-shaped charging box 5 is used for placing an Internet of things conducting block, the connecting device comprises a special-shaped charging box 5, a round-head connecting frame 6, a rectangular charging box 7, a metal wire, a welding mechanism 8, a pair of clamping mechanisms 10 and a connecting mechanism 10, wherein the round-head connecting frame 6 is connected to one side of the special-shaped charging box 5, the rectangular charging box 7 is used for placing the metal wire, the welding mechanism 8 is connected to the round-head connecting frame 6 and used for welding the Internet of things conducting block and the metal wire in a pressure welding mode, the opposite pushing mechanisms 9 are connected to the special-shaped charging box 5 and the rectangular charging box 7 in a connecting mode, the opposite pushing mechanisms 9 are used for pushing the Internet of things metal wire on the rectangular charging box 7 out to be attached to the conducting block, the special-shaped multi-groove bottom plate 1 is connected to the pair of clamping mechanisms 10, and the clamping mechanisms 10 are used for clamping and limiting the Internet of things conducting block.

Example 2

On the basis of embodiment 1, as shown in fig. 3 to 10, the welding and pressing mechanism 8 includes an electric push rod 81, a special-shaped connecting plate 82, a welding and pressing plate 83, a sliding rod 84, a ring 85, a first return spring 86, a lower groove plate 87 and a second return spring 88, the electric push rod 81 is fixedly installed on the round-head connecting frame 6, the special-shaped connecting plate 82 is connected to the electric push rod 81, the welding and pressing plate 83 is welded to one side of the special-shaped connecting plate 82, the welding and pressing plate 83 is located on the lower side of the special-shaped connecting plate 82, the welding and pressing plate 83 is used for welding a conductive block and a metal wire of the internet of things, the sliding rod 84 is connected to one side of the special-shaped connecting plate 82, the ring 85 is connected to the sliding rod 84 in a sliding fit manner, the sliding rod 84 is connected to the ring 85 through the first return spring 86, the first return spring 86 is used for returning the ring 85, the lower groove plate 87 is connected to the special-shaped grooved carriage 2 in a sliding manner, the lower groove plate 87 is located below the special-shaped charging box 5, the lower groove plate 87 is matched with the special-shaped multi-shaped bottom plate 1, the special-shaped bottom plate 85 is in contact with the lower groove plate 85, one side of the second return spring 88, and the second return spring 88 is used for returning the second return spring 88.

The opposite push-out mechanism 9 comprises a rack frame 91, a rotating shaft frame I92, a rotating shaft I93, a gear I94, a dial wheel I95, a rotating shaft frame II 96, a rotating shaft II 97, a dial wheel II 98, a gear II 99, a placing sliding plate 910, a rack I911, a rotating shaft frame III 912, a rotating shaft frame IV 913, a pushing block 914, a rack II 915 and a rotating shaft III 916, wherein the rack frame 91 is connected on a special-shaped connecting plate 82, the rotating shaft frame I92 is connected on a special-shaped charging box 5, the rotating shaft frame I92 is connected on the rotating shaft frame I92 through a bearing, the rack I911 is welded on one side of the placing sliding plate 910, the placing sliding plate 910 is positioned below the special-shaped charging box 5, the rotating shaft frame III 912 is welded on a rectangular charging box 7, the rotating shaft frame I93 is also arranged on the rotating shaft frame III 912, the rotating shaft I93 is connected on the rotating shaft I93 through a gear I94, the other end of the rotating shaft I93 is connected with the dial wheel I95, the special-shaped charging box 5 is connected with a second rotating shaft frame 96, the second rotating shaft frame 96 is connected with a second rotating shaft 97 through a bearing, the upper end of the second rotating shaft 97 is connected with a second dial wheel 98, the lower end of the second rotating shaft 97 is connected with a second gear 99, the rectangular charging box 7 is welded with a fourth rotating shaft frame 913 through a bearing, the fourth rotating shaft frame 913 is connected with a third rotating shaft 916 through a transition fit mode, the third rotating shaft 916 is also provided with a second dial wheel 98 and a second gear 99, the second dial wheel 98 is meshed with the first dial wheel 95, the lower chute plate 87 is connected with a placing sliding plate 910 through a sliding fit mode, the rectangular charging box 7 is connected with a pushing block 914 through a sliding fit mode, the pushing block 914 is used for pushing out a metal wire, one side of the pushing block 914 is welded with a second rack 915 through a pressing mode, and the second rack 915 is meshed with the second gear 99 on the third rotating shaft 916.

The clamping mechanism 10 comprises a rectangular perforated frame 101, a disc with a shaft 102, a single-groove swing rod 103, a rectangular sliding frame 104, a rotating shaft four 105, a double-groove swing rod 106, a block with a rod 107, a clamping block 108, a shift lever 109, a rectangular grooved block 1010, a wedge block with a rod 1011, a third return spring 1012, a special wedge frame 1013 and a fourth return spring 1014, wherein a pair of rectangular perforated frames 101 are welded on a special multi-groove bottom plate 1 in a pressing way, the disc with a shaft 102 is connected on the rectangular perforated frame 101 in a rotating way, the disc with a shaft 102 is positioned below the rectangular perforated frame 101, the disc with a shaft 102 is connected with the single-groove swing rod 103 in a sliding way, a pair of rectangular sliding frames 104 are connected on the special multi-groove bottom plate 1 in a sliding way, the rectangular sliding frames 104 are movably connected with the single-groove swing rod 103, the rectangular sliding frames 104 are connected with the rotating shaft four 105 through bearings, the upper ends of the rotating shaft four 105 are connected with the double-groove swing rod 106, the double-groove swing rod 106 is used for driving a belt rod block 107 and an upper device thereof to move, the double-groove swing rod 106 is connected with the belt rod block 107 in a sliding manner, the special-shaped multi-groove bottom plate 1 is connected with a pair of clamping blocks 108 in a sliding fit manner, the belt rod block 107 is connected with the clamping blocks 108, the double-groove swing rod 106 is connected with a shifting rod 109 in a sliding fit manner, the special-shaped multi-groove bottom plate 1 is connected with a rectangular slotting block 1010 in a sliding fit manner, the rectangular slotting block 1010 is positioned above a special-shaped wedge frame 1013, the rectangular slotting block 1010 is connected with a belt rod wedge block 1011 in a sliding fit manner, the belt rod wedge block 1011 is fixedly connected with the shifting rod 109, a third return spring 1012 is connected between the belt rod wedge block 1011 and the rectangular slotting block 1010, the third return spring 1012 is used for returning the belt rod wedge block 1011, the special-shaped multi-groove bottom plate 1 is connected with a pair of special-shaped wedge frames 1013, and the special-shaped wedge frame 1013 is movably connected with the single-groove swing rod 103, the special-shaped wedge-shaped frame 1013 penetrates through the special-shaped multi-groove bottom plate 1, a pair of fourth return springs 1014 is connected between the special-shaped wedge-shaped frame 1013 and the special-shaped multi-groove bottom plate 1, and the fourth return springs 1014 are used for returning the special-shaped wedge-shaped frame 1013.

The special-shaped charging box is characterized by further comprising a first limiting mechanism 11, the special-shaped charging box 5 is connected with the first limiting mechanism 11, the first limiting mechanism 11 comprises a triangular block 111, a limiting block 112 and a fifth reset spring 113, the special-shaped charging box 5 is connected with the limiting block 112 in a sliding mode, the limiting block 112 is used for limiting the Internet of things conducting block, the limiting block 112 is connected with the triangular block 111, the triangular block 111 is in limiting fit with the lower pressure groove plate 87, a pair of fifth reset springs 113 is connected between the triangular block 111 and the special-shaped charging box 5, and the fifth reset spring 113 is used for resetting the triangular block 111.

The N-shaped clamping block 121 is connected to the pushing block 914 in a sliding mode, a pair of sixth reset springs 122 are connected between the N-shaped clamping block 121 and the pushing block 914, and the sixth reset springs 122 are used for resetting the N-shaped clamping block 121.

Firstly, a worker puts the conductive blocks of the internet of things and metal wires needing pressure welding into the special-shaped charging box 5 and the rectangular charging box 7 respectively, then the worker manually controls the electric push rod 81 to start, the telescopic rod of the electric push rod 81 extends to drive the special-shaped connecting plate 82 and the upper device of the special-shaped connecting plate to move downwards, the elastic force of the first return spring 86 is far greater than that of the second return spring 88, the lower pressure groove plate 87 and the upper device of the lower pressure groove plate 87 move downwards through the sliding rod 84, the second return spring 88 is compressed accordingly, the second gear 99 is meshed with the first rack 911, when the lower pressure groove plate 87 moves downwards at a proper position, the conductive blocks of the internet of things fall onto the placing sliding plate 910 under the action of gravity, subsequent pressure welding is facilitated, the lower pressure groove plate 87 can be in contact with the triangular block 111, the conductive blocks 111 and the upper device of the lower pressure groove plate 111 move towards one side of the special-shaped charging box 5, the fifth return spring 113 is compressed accordingly, and the limiting block 112 is driven to compress and limit the conductive blocks of the internet of things in the special-shaped charging box 5, the internet of things, the internet of things can be prevented from falling down onto the sliding plate 910, and the conductive blocks of the internet of things are prevented from being stacked on the placing sliding plate 910, and affecting subsequent pressure welding operation.

When the telescopic rod of the electric push rod 81 continues to extend to a proper position, the circular ring 85 moves downwards to be in contact with the special-shaped multi-groove bottom plate 1, the telescopic rod of the electric push rod 81 continues to extend, the sliding rod 84 penetrates through the circular ring 85, the first return spring 86 is compressed accordingly, the rack frame 91 moves to be meshed with the first gear 94, the first gear 94 and the upper device of the first gear are driven to rotate forwards through the rack frame 91, the first gear 95 is twice as many as the second gear 98, the first gear 95 rotates for one circle to drive the second gear 98 to rotate for two circles, the second gear 98 rotates to drive the second rotating shaft 97, the third rotating shaft 916 and the upper device of the third rotating shaft to rotate forwards, the second gear 99 is driven to rotate forwards, the first rack 911, the second rack 915 and the upper device of the second rack 915 move oppositely, the push block 914 and the upper device of the push block move towards the side close to the rectangular charging box 7, the metal wire on the rectangular charging box 7 is pushed out by the push block 914 to be attached to the conductive block 121, the metal wire in the rectangular charging box 7, the metal wire is pulled, and the metal wire can be reset by the metal pressing plate 83, and the metal wire can be moved to be welded.

When the lower groove pressing plate 87 continues to move downwards to a proper position, the lower groove pressing plate 87 can be in contact with the special-shaped wedge-shaped frame 1013, the lower groove pressing plate 87 pushes the special-shaped wedge-shaped frame 1013 and the devices thereon to move relatively, the fourth return spring 1014 is stretched accordingly, the shaft-provided disc 102 is driven to rotate through the single-groove swing rod 103, the rectangular sliding frame 104 and the devices thereon are driven to move relatively, the rod-provided wedge block 1011 penetrates through the special-shaped multi-groove bottom plate 1, then when the sliding plate 910 is placed to be in contact with the rod-provided wedge block 1011, the sliding plate 910 can push the rod-provided wedge block 1011 to move relatively, the third return spring is compressed accordingly, and the clamping block 108 can clamp and limit the Internet of things conducting block through the swing rod, so that the effect of stably press-welding the metal conducting wire on the Internet of things conducting block is achieved.

After the metal wires are welded on the conductive blocks of the internet of things in a pressing mode, a worker manually controls the electric push rod 81 to reset, the electric push rod 81 drives the special-shaped connecting plate 82 and the upper device of the special-shaped connecting plate to move upwards through a telescopic rod, so that the lower slot pressing plate 87 is not contacted with the special-shaped wedge frame 1013 any more, the special-shaped wedge frame 1013 and the upper device of the special-shaped wedge frame are reset through the action of the fourth reset spring 1014, the rectangular sliding frame 104 and the upper device of the rectangular sliding frame are driven to move relatively through the single-slot oscillating rod 103, the wedge block 1011 with the rod is reset through the action of the third reset spring 1012, the conductive blocks of the internet of things are not clamped by the clamping block 108, the rack frame 91 drives the first gear 94 and the upper device of the rectangular sliding frame to rotate reversely, the second gear 99 is driven to rotate reversely through the matching of the first dial wheel 95 and the device on the first gear 95, the second gear 915 and the upper device of the rack are not moved relatively, when the ring 85 is not contacted with the special-shaped multi-slot bottom plate 1, the lower slot pressing plate 87 and the upper device of the second reset spring 88, the lower slot pressing plate is reset spring, the stop block 111 is not pushed to move through the reset spring 113 again. When the metal wire is required to be welded on the conductive block of the Internet of things next time, the operation is repeated.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a sensor press welder for thing networking device, characterized by: the special-shaped multi-groove pushing device comprises a special-shaped multi-groove bottom plate (1), a special-shaped grooved sliding frame (2), a table-shaped frame (3), an N-shaped connecting frame (4), a special-shaped charging box (5), a round-head connecting frame (6), a rectangular charging box (7), a welding mechanism (8), opposite pushing mechanisms (9) and clamping mechanisms (10), wherein the special-shaped grooved sliding frame (2) is welded on one side of the special-shaped multi-groove bottom plate (1) in a pressing mode, the table-shaped frame (3) is welded on the other side of the special-shaped multi-groove bottom plate (1), the N-shaped connecting frame (4) is welded on the special-shaped grooved sliding frame (2) in a pressing mode, the special-shaped charging box (5) is connected onto the N-shaped connecting frame (4), the round-head connecting frame (6) is connected onto one side of the special-shaped charging box (5), the rectangular charging box (7) is connected onto one side of the round-head connecting frame (6), the welding mechanism (8) is connected onto the round-head connecting frame (6), the special-shaped charging box (5) and the rectangular charging box (7) are connected onto the pushing mechanisms (9) in an opposite direction, and the special-shaped multi-groove bottom plate (1) is connected onto the clamping mechanisms (10);

the welding and pressing mechanism (8) comprises an electric push rod (81), a special-shaped connecting plate (82), a welding pressing plate (83), a sliding rod (84), a circular ring (85), a first reset spring (86), a lower groove pressing plate (87) and a second reset spring (88), the electric push rod (81) is fixedly installed on the round-head connecting frame (6), the special-shaped connecting plate (82) is connected onto the electric push rod (81), the welding pressing plate (83) is welded on one side of the special-shaped connecting plate (82), the sliding rod (84) is connected onto one side of the special-shaped connecting plate (82), the circular ring (85) is connected onto the sliding rod (84) in a sliding fit mode, the sliding rod (84) is connected with the circular ring (85) through the first reset spring (86), the lower groove pressing plate (87) is connected onto the special-shaped grooved carriage (2) in a sliding mode, the lower groove pressing plate (87) is matched with the special-shaped multi-groove bottom plate (1) in a sliding mode, the circular ring (85) is in contact with the lower groove pressing plate (87), the second reset spring (88) is connected onto one side of the special-shaped grooved carriage (87), and the other end of the second reset spring (88) is connected with the special-shaped grooved carriage (2);

the opposite push-out mechanism (9) comprises a rack frame (91), a rotating shaft frame I (92), a rotating shaft I (93), a gear I (94), a dial wheel I (95), a rotating shaft frame II (96), a rotating shaft II (97), a dial wheel II (98), a gear II (99), a placing sliding plate (910), a rack I (911), a rotating shaft frame III (912), a rotating shaft frame IV (913), a pushing block (914), a rack II (915) and a rotating shaft III (916), wherein the rack frame (91) is connected on the special-shaped connecting plate (82), the rotating shaft frame I (92) is connected on the special-shaped charging box (5), the rotating shaft frame I (92) is connected on the rotating shaft frame I (92) through a bearing, the rotating shaft I (93) is connected on one side of the placing sliding plate (910) through a pressure welding, the rack I (911), the rotating shaft frame III (912) is pressure welding on the rectangular charging box (7), the rotating shaft frame I (93) is also arranged on the rotating shaft frame III (912), the rotating shaft frame I (93) is connected on the rotating shaft I (93) through a bearing, the rotating shaft I (94) is connected on the rotating shaft I (93), the rotating shaft I (96) is connected on the other end of the rotating shaft I (93), the special-shaped charging box (5) through a dial wheel II (96), the rotating shaft frame II (97) through a bearing connecting shaft frame II (97) is connected on the rotating shaft (96), the rotating shaft frame II (97) through a rotating shaft (97), one end of the rotating shaft (96), the rotating shaft frame II (97) is connected on the rotating shaft (97) through a bearing, the rotating shaft (97) and two rotating shaft (97) is connected on the rotating shaft (97), the rotating shaft (97) and the rotating shaft (97) is connected on the rotating shaft (97) and connected on the rotating shaft (97), a rotating shaft frame IV (913) is welded on the rectangular charging box (7) in a pressing mode, a rotating shaft III (916) is connected to the rotating shaft frame IV (913) in a transition fit mode, a dial wheel II (98) and a gear II (99) are also arranged on the rotating shaft III (916), the dial wheel II (98) is meshed with the dial wheel I (95), a placing sliding plate (910) is connected to the lower pressure groove plate (87) in a sliding fit mode, a pushing block (914) is connected to the rectangular charging box (7) in a sliding fit mode, a rack II (915) is welded on one side of the pushing block (914) in a pressing mode, and the rack II (915) is meshed with the gear II (99) on the rotating shaft III (916);

the clamping mechanism (10) comprises a rectangular open hole frame (101), a disc with a shaft (102), a single-groove swing rod (103), a rectangular sliding frame (104), a rotating shaft four (105), a double-groove swing rod (106), a block with a rod (107), a clamping block (108), a driving lever (109), a rectangular open groove block (1010), a wedge block with a rod (1011), a third reset spring (1012), a special-shaped wedge frame (1013) and a fourth reset spring (1014), wherein a pair of rectangular open hole frames (101) are welded on the special-shaped multi-groove bottom plate (1), the disc with a shaft (102) is rotationally connected on the rectangular open hole frame (101), the disc with a shaft (102) is slidably connected with a pair of single-groove swing rods (103), a pair of rectangular sliding carriages (104) are connected on the special-shaped multi-groove bottom plate (1) in a sliding fit mode, the rectangular sliding carriages (104) are movably connected with a single-groove swing rod (103), a rotating shaft four (105) is connected on the rectangular sliding carriages (104) through a bearing, a double-groove swing rod (106) is connected on the rotating shaft four (105), a rod-carrying block (107) is connected on the double-groove swing rod (106) in a sliding fit mode, a pair of clamping blocks (108) is connected on the special-shaped multi-groove bottom plate (1) in a sliding fit mode, the rod-carrying block (107) is connected with the clamping blocks (108), a deflector rod (109) is connected on the double-groove swing rod (106) in a sliding fit mode, the special-shaped multi-groove bottom plate (1) is connected with a rectangular grooving block (1010) in a sliding fit mode, the rectangular grooving block (1010) is connected with a rod wedge-shaped block (1011) in a sliding fit mode, the rod wedge-shaped block (1011) is fixedly connected with a shifting rod (109), a third reset spring (1012) is connected between the rod wedge-shaped block (1011) and the rectangular grooving block (1010), the special-shaped multi-groove bottom plate (1) is connected with a pair of special-shaped wedge-shaped frames (1013) in a sliding mode, the special-shaped wedge-shaped frames (1013) are movably connected with a single-groove swinging rod (103), the special-shaped wedge-shaped frames (1013) penetrate through the special-shaped multi-groove bottom plate (1), and a pair of fourth reset springs (1014) are connected between the special-shaped wedge-shaped frames (1013) and the special-shaped multi-groove bottom plate (1).

2. The sensor press welder for the internet of things equipment as claimed in claim 1, wherein: the special-shaped charging box is characterized by further comprising a first limiting mechanism (11), the first limiting mechanism (11) is connected to the special-shaped charging box (5), the first limiting mechanism (11) comprises a triangular block (111), a limiting block (112) and a fifth reset spring (113), the limiting block (112) is connected to the special-shaped charging box (5) in a sliding mode, the triangular block (111) is connected to the limiting block (112) in a connecting mode, the triangular block (111) is in limiting fit with the lower pressure groove plate (87), and a pair of fifth reset springs (113) is connected between the triangular block (111) and the special-shaped charging box (5);

the novel push block is characterized by further comprising a second limiting mechanism (12), the second limiting mechanism (12) is arranged on the push block (914), the second limiting mechanism (12) comprises an N-shaped clamping block (121) and a sixth reset spring (122), the N-shaped clamping block (121) is connected onto the push block (914) in a sliding mode, and a pair of sixth reset springs (122) is connected between the N-shaped clamping block (121) and the push block (914).