CN115805285B - Full-automatic riveting processing production equipment - Google Patents

Abstract

The application relates to the technical field of riveting, in particular to full-automatic riveting processing production equipment, which comprises the following components: a base; the roller set is rotationally connected to the middle part of the base, and the groove body is arranged on the top surface of the roller set; the bracket is arranged in the base; the bracket driving assembly is assembled at the bottom of the bracket and is used for driving the bracket to move along the width direction of the base; the movable seat is slidably arranged on the base; the movable seat driving assembly is arranged at the top of the base and is used for driving the movable seat to move along the length direction of the base; the compressing mechanism is arranged in the middle of the movable seat and used for locking the groove body on the top surface of the bracket; the riveter is arranged on the side wall of the movable seat, so that the riveting precision of the bus duct can be improved, the labor intensity of operators is reduced, the riveting cost of the bus duct is reduced, and the riveting efficiency of the bus duct is improved.

Description

Full-automatic riveting processing production equipment

Technical Field

The application relates to the technical field of riveting, in particular to full-automatic riveting processing production equipment.

Background

The bus duct takes copper or aluminum as a conductor, is supported by non-olefinic insulation and is then arranged in a duct body to form a closed metal device, and the bus duct is used for distributing larger power for each element of a dispersion system and is widely applied to modern engineering facilities and equipment.

In the production process of the bus duct, the duct body comprises an upper cover plate and a lower cover plate, an operator rivets the upper cover plate and the lower cover plate by means of riveting equipment, and because the length dimension of the bus duct is large, the operator needs to move the bus duct, so that the riveting equipment aims at different positions of the bus duct and rivets are added.

However, in practical application, the upper cover plate and the lower cover plate are difficult to position manually, the riveting quality is unstable easily, the operation experience of operators is rich, and the bus duct is high in production cost and low in efficiency.

Disclosure of Invention

In order to improve the riveting precision of the bus duct, the application provides full-automatic riveting production equipment, which can reduce the labor intensity of operators, reduce the riveting cost of the bus duct and improve the riveting efficiency of the bus duct.

The application provides full-automatic riveting processing production equipment, which adopts the following technical scheme:

a full-automatic riveting processing production device, comprising:

a base;

the roller set is rotationally connected to the middle of the base, and the groove body is placed on the top surface of the roller set;

a bracket disposed within the base;

the bracket driving assembly is assembled at the bottom of the bracket and is used for driving the bracket to move along the width direction of the base;

the movable seat is slidably arranged on the base;

the movable seat driving assembly is arranged at the top of the base and is used for driving the movable seat to move along the length direction of the base;

the pressing mechanism is arranged in the middle of the movable seat and is used for locking the groove body on the top surface of the bracket;

and the riveter is arranged on the side wall of the movable seat.

Through adopting above-mentioned technical scheme, the cell body passes through roller group and transports forward, need not operating personnel and moves, be favorable to alleviateed operating personnel's intensity of labour, start bracket drive assembly, make the bracket to the direction motion that is close to the base central line, the top surface of bracket is arranged in to the cell body, start and remove seat drive assembly, start hold-down mechanism, make hold-down mechanism aim at directly over the cell body, hold-down mechanism locks the cell body at the top surface of bracket, realize the location and the locking of cell body, rivet the cell body through the riveter, accomplish the riveting process of cell body, compared with prior art, the work burden of operating personnel transportation cell body has been alleviateed, the cell body need not artifical location at the riveted in-process, the riveting precision of cell body is high, riveting efficiency is high, be favorable to practicing thrift manufacturing cost, accord with the production demand.

Preferably, the bracket driving assembly includes: a bracket driving cylinder fixed in the base; the mounting block is assembled at the output end of the bracket driving cylinder; the first connecting rod is hinged to the middle part of the mounting block; the second connecting rod is hinged to the middle part of the mounting block; and the fixing blocks are respectively hinged to the end parts of the first connecting rod and the second connecting rod, wherein the brackets are arranged on the top surface of the fixing blocks, and the brackets arranged on the first connecting rod and the brackets arranged on the second connecting rod are distributed on the same horizontal line.

Through adopting above-mentioned technical scheme, under the effect of bracket drive cylinder, can drive the installation piece down motion, simultaneously, the motion that is close to each other is done to head rod and second connecting rod, makes two brackets all to the direction motion that is close to the base central line, and then can hold up the cell body, plays the effect of stopping the speed to the cell body, makes the cell body more steady reliable when riveting, is favorable to improving the riveting precision of cell body.

Preferably, the top surface of the input end of the base is provided with a supporting plate, a plurality of through grooves are formed in the supporting plate in a penetrating mode, the roller set comprises a plurality of rollers, and the tops of the rollers extend out of the through grooves.

Through adopting above-mentioned technical scheme, the roller provides the effect of traction for the transportation of cell body, makes the cell body easily transmit forward, through installing the layer board at the output top surface of base, reduces the cell body and drops from the clearance department between two adjacent rollers, and then reduces the phenomenon of putty and appear, can guarantee the unblocked nature of cell body transportation, guarantees the production quality of cell body.

Preferably, the base is slidably connected with a material conveying seat, the base is provided with a material conveying seat driving assembly, the groove body is placed in the middle of the material conveying seat, and the material conveying seat driving assembly drives the material conveying seat to move along the length direction of the base.

Through adopting above-mentioned technical scheme, under the effect of defeated material seat drive assembly, defeated material seat can remove along the length direction of base, promptly, can transport the cell body to the top surface of bracket, need not operating personnel and move, is favorable to alleviateing operating personnel's intensity of labour, improves production efficiency.

Preferably, the pressing mechanism includes a pressing head assembly, the pressing head assembly including: the fixed seat is arranged at the bottom of the top wall of the movable seat; an upper pressing seat driving cylinder arranged on the top surface of the fixed seat; the guide rod group is arranged at the bottom of the fixed seat; the upper pressing seat is connected with the guide rod group in a sliding way; and an upper compression block which is connected with the bottom of the upper compression seat in a sliding manner, wherein the output end of the upper compression seat driving cylinder is assembled with the upper compression seat.

Through adopting above-mentioned technical scheme, under last compression seat actuating cylinder's effect, upward compress tightly the seat and can carry out vertical decurrent motion, guide bar group provides the guide effect for the motion process of last compression seat, is favorable to improving the motion stationarity of last compression seat, makes upward compress tightly the piece and supports to press on the cell body of arranging the bracket top surface, realizes the locking to the cell body position.

Preferably, the pressing mechanism comprises two groups of pressing seat assemblies, and the pressing seat assemblies comprise: a side pressure driving cylinder fixed on the side wall of the movable seat; and the side pressure blocks are arranged at the output end of the side pressure driving cylinder, wherein the two groups of pressure seat assemblies are symmetrically distributed along the central line of the base, and the moving direction of the side pressure blocks is perpendicular to the transporting direction of the tank body.

Through adopting above-mentioned technical scheme, under the effect of side pressure actuating cylinder, two side briquetting can compress tightly simultaneously on the two-phase back of the body long limit of cell body, can improve the installation stability of cell body to further improve the riveting stability of cell body, promote the riveting precision of cell body.

Preferably, one side of the side pressing block, which is far away from the side pressing driving cylinder, is provided with two buffer pressing plates, the two buffer pressing plates are respectively arranged at the top and the bottom of the side pressing block, and the side pressing block and the two buffer pressing plates are assembled to form a structural body in a shape of .

Through adopting above-mentioned technical scheme, when the lateral pressure piece compresses tightly the lateral wall at the cell body, because the buffer clamp plate has good elasticity, can provide good buffering absorbing effect to the cell body, the lateral wall of protection cell body is not scraped to the loss effectively, moreover, the lateral pressure piece forms the structure body of "" word with two buffer clamp plates after assembling mutually, can reduce the area of contact between cell body and the buffer clamp plate, makes the transmission process of cell body smoother, is favorable to improving production efficiency.

Preferably, the lateral wall of moving the seat is fixed with the transmission slide rail, sliding connection has the riveter base on the transmission slide rail, the riveter is installed the bottom of riveter base, be provided with vertical movement assembly on the riveter base, vertical movement assembly is used for the drive the riveter base carries out the motion of vertical direction.

Through adopting above-mentioned technical scheme, under vertical moving assembly's effect, the riveter base can carry out the motion of vertical direction along the transmission slide rail, makes the self-piercing rifle head of riveter can adapt the cell body of different co-altitude better, has improved the production suitability of riveter.

Preferably, the top of riveter base rotates and is connected with first lead screw, the extending direction of first lead screw with the direction of transportation of cell body is mutually perpendicular, and threaded connection has the movable block on the first lead screw, the riveter is installed the bottom of movable block, the riveter base is close to the one end of first lead screw is installed first lead screw starter motor, the output of first lead screw starter motor with first lead screw assembles mutually.

Through adopting above-mentioned technical scheme, when riveting the cell body, under the effect of first lead screw starter motor, first lead screw can rotate, and the movable block removes along first lead screw length direction, makes the riveter remove along the width direction of base, and the follow-up riveter of being convenient for rivets the lateral wall of cell body.

Preferably, the bottom wall of the moving block is fixed with a riveter support, a U-shaped groove is formed in the bottom of the riveter support, a riveter starting cylinder is mounted on the riveter support, the output end of the riveter starting cylinder is assembled with the riveter, and a self-punching gun head of the riveter is arranged in the U-shaped groove.

Through adopting above-mentioned technical scheme, when operating personnel alternates the cell body in the U-shaped groove of riveter support bottom, opens the riveter and starts the cylinder, and the riveter can remove in the U-shaped inslot, and then rivets the lateral wall of cell body.

In summary, the present application includes at least one of the following beneficial technical effects:

1. compared with the prior art, the method reduces the workload of operators for transferring the groove body, the groove body does not need manual positioning in the riveting process, the riveting precision and the riveting efficiency of the groove body are high, the production cost is saved, and the production requirement is met;

2. under the effect of last compression seat actuating cylinder, upward compress tightly the seat and can carry out vertical decurrent motion, guide bar group provides the guide effect for the motion process of last compression seat, is favorable to improving the motion stationarity of last compression seat, makes last compact heap support and presses on the cell body of arranging the bracket top surface in, realizes the locking to the cell body position.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is an enlarged view of a in fig. 1.

Fig. 3 is an enlarged view of B in fig. 1.

Fig. 4 is a rear view of fig. 1.

Fig. 5 is an enlarged view of C in fig. 4.

Reference numerals illustrate: 1. a base; 11. a roller set; 12. a supporting plate; 121. penetrating a groove; 21. a material conveying seat; 211. assembling a screw; 212. a material conveying clamp; 213. an abutting plate; 22. a transmission rack; 23. a transmission slide rail; 24. a fixing plate; 25. a material conveying seat drives a motor; 26. rotating the gear; 27. a transfer slide; 31. a bracket; 32. the bracket drives the cylinder; 33. a mounting block; 34. a first connecting rod; 35. a second connecting rod; 36. a fixed block; 4. a movable seat; 51. a ram assembly; 511. a fixing seat; 512. the upper pressing seat drives the cylinder; 513. an upper pressing seat; 514. a guide bar group; 515. an upper compaction block; 52. a press seat assembly; 521. a side pressure driving cylinder; 522. a side pressing block; 523. a buffer press plate; 61. a transmission slide rail; 62. a riveter base; 631. a second screw rod; 64. a moving block; 65. a first screw rod; 66. the first screw rod starts a motor; 67. starting a cylinder of the riveter; 68. a riveter support; 681. a U-shaped groove; 682. a mounting part; 683. an abutting portion; 684. a hanging part; 69. a riveter.

Detailed Description

The application is described in further detail below with reference to fig. 1-5.

The embodiment of the application discloses full-automatic riveting processing production equipment.

Referring to fig. 1, a full-automatic riveting processing production device comprises a base 1, the base 1 is installed on a working floor, a roller set 11 is rotationally connected to the middle of the base 1, the roller set 11 comprises rollers, in the embodiment of the application, a plurality of rollers are distributed equidistantly along the length direction of the base 1, a supporting plate 12 is installed on the top surface of an input end of the base 1, the supporting plate 12 is fixed with the base 1 in a bolt connection mode, paint is smeared on the upper surface of the supporting plate 12, a layer of smooth protective layer is formed on the upper surface of the supporting plate 12, the corrosion resistance of the supporting plate 12 can be improved, a plurality of through grooves 121 are formed in the supporting plate 12 in a penetrating way, the tops of the rollers extend out of the through grooves 121, a groove body is placed on the top surface of the roller set 11, and is not easy to fall into a gap between two adjacent rollers when the groove body is transported forwards by means of the roller set 11, so that the transportation smoothness of the groove body is ensured.

Referring to fig. 1, a material conveying seat 21 and a moving seat 4 are slidably connected to a base 1, a material conveying driving assembly is disposed at a position, close to the material conveying seat 21, of the base 1, a moving seat driving assembly is disposed at a position, close to the moving seat 4, of the base 1, an operator places a groove body in the middle of the material conveying seat 21, and the material conveying seat 21 is driven by the material conveying seat driving assembly to move along the length direction of the base 1, namely, the material conveying seat 21 can convey the groove body from an output end of the base 1 to the middle of the moving seat 4.

Referring to fig. 1 and 4, the cross section of the material conveying seat 21 is , the middle part of the material conveying seat 21 is rotatably connected with an assembling screw 211 along the width direction, both ends of the assembling screw 211 are respectively provided with a left thread and a right thread, both ends of the assembling screw are respectively in threaded connection with a material conveying clamp 212, two abutting plates 213 are installed on the side surfaces of the material conveying clamp 212, a structural body in the shape of is formed after the material conveying clamp 212 and the two abutting plates 213 are assembled, and one end of the material conveying seat 21, which is close to the assembling screw 211, is provided with a screw driving motor, so that the output end of the screw driving motor is assembled with the assembling screw 211.

The operator places the cell body at the middle part of the material conveying seat 21, starts the screw driving motor, and the assembly screw 211 can rotate, and two material conveying clamp handles 212 do the motion that is close to each other, can hold the cell body.

Referring to fig. 1 and 4, the material conveying driving assembly includes a conveying rack 22, a conveying slide rail 23, a fixing plate 24, a material conveying seat driving motor 25, a rotating gear 26 and a conveying slide block 27, wherein the conveying rack 22 is fixed on one long side wall of the base 1, the conveying slide rail 23 is fixed on the other long side wall of the base 1, the conveying slide block 27 is fixed on one side, close to the conveying slide rail 23, of the material conveying seat 21, a sliding groove is formed in the side wall of the conveying slide block 27, the conveying slide block 27 is in sliding connection with the conveying slide rail 23 through the sliding groove, the fixing plate 24 is welded on one side, close to the conveying rack 22, of the conveying seat driving motor 25 is installed on the top surface of the fixing plate 24, the rotating gear 26 is connected to the bottom of the fixing plate 24 in a rotating mode, the output end of the material conveying seat driving motor 25 is assembled with the rotating gear 26, and the rotating gear 26 is meshed with the conveying rack 22.

The structure of the material conveying driving assembly is consistent with that of the movable seat driving assembly, repeated description is omitted in the embodiment of the application, an operator starts the material conveying seat driving motor 25, the rotating gear 26 can rotate, and then the material conveying seat 21 is driven to move along the conveying rack 22, and meanwhile, the movement stability of the material conveying seat 21 can be improved through the cooperation of the conveying sliding block 27 and the conveying track.

Referring to fig. 1 and 4, a socket 31 is provided at the middle of a base 1, a socket driving assembly is provided at the bottom of the socket 31, the socket 31 is driven to move along the width direction of the base 1 by the socket driving assembly, the socket driving assembly includes a socket driving cylinder 32, a mounting block 33, a first connecting rod 34, a second connecting rod 35, and a fixing block 36, wherein the socket driving cylinder 32 is fixed in the base 1, the mounting block 33 is assembled at the output end of the socket driving cylinder 32, the mounting block 33 includes a connecting shaft rotating inside thereof, the first connecting rod 34 and the second connecting rod 35 are rod bodies having a uniform shape and structure, the first connecting rod 34 is rotatably connected to the connecting shaft, the second connecting rod 35 is rotatably connected to the connecting shaft, the fixing block 36 has two, the two fixing blocks 36 are respectively hinged at the end of the first connecting rod 34 and the end of the second connecting rod 35, and the socket 31 disposed on the first connecting rod 34 and the socket 31 disposed on the second connecting rod 35 are distributed on the same horizontal line, and the height of the socket 31 is greater than that of a roller.

In the embodiment of the application, two groups of bracket driving components are arranged, when the groove body is simultaneously arranged on the top surfaces of the brackets 31 on the two groups of bracket driving components, the riveting work is carried out on the groove body, and then the groove body is stable during the riveting, otherwise, the two brackets 31 move in the direction far away from the center line of the base 1, the groove body falls on the roller, and then the groove body is continuously conveyed forwards.

In order to further improve stability of the groove body during riveting, referring to fig. 1 and 2, a pressing mechanism is disposed in the middle of the moving seat 4, and the groove body can be locked on the top surface of the bracket 31 through the pressing mechanism, where the pressing mechanism includes two groups of pressing head assemblies 51 and pressing seat assemblies 52, in the embodiment of the present application, the pressing seat assemblies 52 are symmetrically distributed along the center line of the base 1, specifically, the pressing seat assemblies 52 include a side pressing driving cylinder 521 and a side pressing block 522, the side pressing driving cylinder 521 is fixed on the side wall of the moving seat 4, the side pressing block 522 is mounted at the output end of the side pressing driving cylinder 521, and two buffer pressing plates 523 are disposed on one side of the side pressing block 522 away from the side pressing driving cylinder 521, and the buffer pressing plates 523 are rubber plates, so that the buffer pressing plates 523 have good wear resistance and buffering capacity, and the two buffer pressing plates 523 are respectively disposed on the top and bottom of the side pressing blocks 522.

The operator activates the side pressure driving cylinder 521, and the side pressure block 522 is movable in the width direction of the base 1, that is, the moving direction of the side pressure block 522 is perpendicular to the transporting direction of the tank, and the tank can be held on the top surface of the bracket 31 by the two side pressure blocks 522.

More specifically, referring to fig. 1 and 3, the pressing head assembly 51 includes a fixing base 511, an upper pressing seat driving cylinder 512, an upper pressing seat 513, a guide rod set 514, and an upper pressing block 515, where the fixing base 511 is installed at the bottom of the top wall of the moving seat 4, the upper pressing seat driving cylinder 512 is installed at the top surface of the fixing base 511, so that the output end of the upper pressing seat driving cylinder 512 is assembled with the upper pressing seat 513, the guide rod set 514 is fixed at the bottom of the fixing base 511, the guide rod set 514 includes two guide rods symmetrically disposed along the width center line of the fixing base 511, the upper pressing seat 513 is simultaneously slidingly connected to the two guide rods, in the embodiment of the application, two long sides of the upper pressing seat 513 are respectively provided with a moving groove, the upper pressing block 515 is simultaneously slidingly connected to the two moving grooves, and the upper pressing block 515 is also a rubber block, the operator slidingly moves the upper pressing block 515, adjusts the position of the upper pressing block 515, and starts the upper pressing seat driving cylinder 512 to drive the upper pressing block 515 to move downwards until pressing the upper pressing block 515 is pressed against the top surface of the groove body, thereby realizing locking of the groove body, and the riveting position of the groove body is improved.

Referring to fig. 4 and 5, a transmission slide rail 61 is fixed on a side wall of the movable seat 4, a riveter base 62 is slidably connected to the transmission slide rail 61, a vertical moving assembly is arranged on the riveter base 62, the riveter base 62 can be driven to move in a vertical direction through the vertical moving assembly, the vertical moving assembly comprises a second screw 631 starting motor (not shown in the drawings) and a second screw 631, in the embodiment of the application, the second screw 631 starting motor is fixed on the top wall of the movable seat 4, one end of the second screw 631 is assembled with an output end of the second screw 631 starting motor, the other end of the second screw 631 penetrates the riveter base 62 and is in threaded connection with the riveter base 62, an operator starts the second screw 631 starting motor, and the second screw 631 can rotate to enable the riveter base 62 to move in the vertical direction along the transmission slide rail 61.

Referring to fig. 4 and 5, a first screw rod 65 is rotatably connected to the top of the rivet base 62, an extending direction of the first screw rod 65 is perpendicular to a transporting direction of the groove body, a first screw rod start motor 66 is installed at one end of the rivet base 62 close to the first screw rod 65, an output end of the first screw rod start motor 66 is assembled with the first screw rod 65, a moving block 64 is connected to the first screw rod 65 in a threaded manner, a rivet support 68 is fixed to a bottom wall of the moving block 64, specifically, a U-shaped groove 681 is formed in the bottom of the rivet support 68, the rivet support 68 comprises a mounting portion 682, an abutting portion 683 and a hanging portion 684, the mounting portion 682 and the moving block 64 are welded and fixed, the abutting portion 683 and the hanging portion 684 are fixed to the bottom wall of the mounting portion 682, the U-shaped groove 681 is formed in a cavity enclosed by the mounting portion 682, a rivet start cylinder 67 is fixed to the hanging portion 684, and a rivet 69 is assembled to an output end of the rivet cylinder 67, so that the rivet 69 is placed in the self-punch U-shaped groove 681.

The operator inserts the cell body in the U-shaped groove 681 of riveter support 68 bottom, opens first lead screw starter motor 66, makes the butt portion 683 of riveter support 68 be close to the side of cell body and the lateral wall butt of cell body, then opens riveter start cylinder 67, and riveter 69 can remove in U-shaped groove 681, realizes riveting the lateral wall of cell body.

The embodiment of the application provides a full-automatic riveting processing production device, which has the implementation principle that:

the operator places the cell body at the middle part of the material conveying seat 21, starts the screw driving motor, and the assembly screw 211 can rotate, and two material conveying clamp handles 212 do the motion that is close to each other, can hold the cell body.

The material conveying seat driving motor 25 is started, the rotating gear 26 can rotate, the material conveying seat 21 is driven to move along the transmission rack 22, and the material conveying seat 21 conveys the groove body from the output end of the base 1 to the middle part of the movable seat 4.

The bracket driving cylinder 32 is started, the mounting block 33 can move downwards, and meanwhile, the first connecting rod 34 and the second connecting rod 35 move close to each other, so that the two brackets 31 move towards the direction close to the center line of the base 1, the groove body can be supported, and the groove body is stopped.

Next, the side pressure driving cylinder 521 is started, the side pressure blocks 522 can move along the width direction of the base 1, the groove body can be clamped on the top surface of the bracket 31 under the action of the two side pressure blocks 522, and meanwhile, the upper pressing seat driving cylinder 512 is started, so that the upper pressing seat 513 drives the upper pressing block 515 to move downwards until the upper pressing block 515 is pressed against the top surface of the groove body, and the position locking of the groove body is realized.

Then, the second screw rod 631 is started to start the motor, and the second screw rod 631 can rotate, so that the riveter base 62 moves vertically downwards along the transmission slide rail 61, and the position of the groove body to be riveted is found.

And finally, starting the riveter starting cylinder 67, and moving the riveter 69 in the U-shaped groove 681 to rivet the side wall of the groove body.

The foregoing is illustrative of the present application, and is not meant to limit the scope of the application in any way, therefore: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (6)

1. Full-automatic riveting processing production facility, characterized in that includes:

a base (1);

the roller set (11) is rotationally connected to the middle part of the base (1), and the groove body is arranged on the top surface of the roller set (11);

a bracket (31), the bracket (31) being disposed within the base (1);

the bracket driving assembly is assembled at the bottom of the bracket (31) and is used for driving the bracket (31) to move along the width direction of the base (1);

a movable seat (4), wherein the movable seat (4) is slidably mounted on the base (1);

the movable seat driving assembly is arranged at the top of the base (1) and is used for driving the movable seat (4) to move along the length direction of the base (1);

the pressing mechanism is arranged in the middle of the movable seat (4) and is used for locking the groove body on the top surface of the bracket (31);

a riveter (69), wherein the riveter (69) is arranged on the side wall of the movable seat (4);

the feeding device is characterized in that a feeding seat (21) is connected to the base (1) in a sliding manner, a feeding seat driving assembly is arranged on the base (1), the groove body is placed in the middle of the feeding seat (21), and the feeding seat driving assembly drives the feeding seat (21) to move along the length direction of the base (1);

the compressing mechanism comprises two groups of compressing seat components (52), and the compressing seat components (52) comprise: a side pressure driving cylinder (521) fixed on the side wall of the movable seat (4); the side pressure blocks (522) are arranged at the output end of the side pressure driving cylinder (521), wherein two groups of pressure seat assemblies (52) are symmetrically distributed along the central line of the base (1), and the moving direction of the side pressure blocks (522) is perpendicular to the transporting direction of the tank body;

two buffer pressing plates (523) are arranged on one side, far away from the side pressure driving cylinder (521), of the side pressure block (522), the two buffer pressing plates (523) are respectively arranged at the top and the bottom of the side pressure block (522), and the side pressure block (522) and the two buffer pressing plates (523) are assembled to form a structural body in a shape of a ;

the side wall of movable seat (4) is fixed with transmission slide rail (61), sliding connection has riveter base (62) on transmission slide rail (61), riveter (69) are installed the bottom of riveter base (62), be provided with vertical movement subassembly on riveter base (62), vertical movement subassembly is used for the drive riveter base (62) carry out the motion of vertical direction.

2. A full-automatic riveting manufacturing apparatus as claimed in claim 1, wherein the bracket drive assembly comprises: a bracket driving cylinder (32) fixed in the base (1); a mounting block (33) mounted at the output end of the bracket driving cylinder (32); a first connecting rod (34) hinged in the middle of the mounting block (33); a second connecting rod (35) hinged in the middle of the mounting block (33); and fixing blocks (36) respectively hinged to the end parts of the first connecting rod (34) and the end part of the second connecting rod (35), wherein the bracket (31) is arranged on the top surface of the fixing blocks (36), and the bracket (31) arranged on the first connecting rod (34) and the bracket (31) arranged on the second connecting rod (35) are distributed on the same horizontal line.

3. The full-automatic riveting processing production equipment according to claim 1, wherein a supporting plate (12) is installed on the top surface of the input end of the base (1), a plurality of through grooves (121) are formed in the supporting plate (12) in a penetrating mode, the roller set (11) comprises a plurality of rollers, and the tops of the rollers extend out of the through grooves (121).

4. A fully automatic riveting production apparatus according to claim 1, wherein the pressing mechanism comprises a ram assembly (51), the ram assembly (51) comprising: the fixed seat (511) is arranged at the bottom of the top wall of the movable seat (4); an upper pressing seat driving cylinder (512) installed on the top surface of the fixing seat (511); the guide rod group (514) is arranged at the bottom of the fixed seat (511); the upper pressing seat (513) is connected with the guide rod group (514) in a sliding way; and an upper pressing block (515) slidably connected to the bottom of the upper pressing seat (513), wherein an output end of the upper pressing seat driving cylinder (512) is assembled with the upper pressing seat (513).

5. The full-automatic riveting processing production equipment according to claim 1, wherein a first screw rod (65) is rotatably connected to the top of the riveter base (62), the extending direction of the first screw rod (65) is perpendicular to the transporting direction of the groove body, a moving block (64) is connected to the first screw rod (65) in a threaded manner, the riveter (69) is mounted at the bottom of the moving block (64), a first screw rod starting motor (66) is mounted at one end, close to the first screw rod (65), of the riveter base (62), and the output end of the first screw rod starting motor (66) is assembled with the first screw rod (65).

6. The full-automatic riveting processing production equipment according to claim 1, wherein a riveter support (68) is fixed on the bottom wall of the moving block (64), a U-shaped groove (681) is formed in the bottom of the riveter support (68), a riveter starting cylinder (67) is mounted on the riveter support (68), the output end of the riveter starting cylinder (67) is assembled with the riveter (69), and a self-punching gun head of the riveter (69) is arranged in the U-shaped groove (681).