CN114101434A - Automatic production stamping assembly line for automobile seat beam fittings - Google Patents

Abstract

The invention discloses an automatic production stamping assembly line for automobile seat beam accessories, which relates to the technical field of metal accessory production and structurally comprises a stamping section and a quality inspection section, wherein the stamping section is provided with an inlet end and an outlet end, and the quality inspection section is connected with the outlet end of the stamping section; the quality inspection section comprises a detection system for detecting beam accessories and a sorting system for sorting the beam accessories, the sorting system sorts the beam accessories into at least three parts according to data detected by the detection system, the sorting system comprises a second sorting and conveying module, a first sorting and conveying module and a third sorting and conveying module, the first sorting and conveying module and the third sorting and conveying module are arranged at least one end of the second sorting and conveying module, and the first sorting and conveying module and the third sorting and conveying module are arranged on different sides of the second sorting and conveying module; compared with the prior art, the assembly line can stably produce high-quality beam fittings.

Description

Automatic production stamping assembly line for automobile seat beam fittings

Technical Field

The invention relates to the technical field of metal accessory production, in particular to an automatic production stamping assembly line for automobile seat beam accessories.

Background

In the passenger car industry field, the seat is the important component part in the car product, provides the operation of being convenient for, comfortable safe driving, the position of taking for driver and crew, and at present, current seat crossbeam assembly in the market all is formed by seat crossbeam and seat crossbeam support welding usually, and the seat crossbeam is generally formed by punching press assembly line punching press now, and present punching press assembly line can't carry out quality control to the metal accessories of production in the in-process of production, and some metal product that have the flaw can't detect.

Therefore, the invention discloses an automatic production stamping production line for automobile seat beam fittings, which can stably produce high-quality beam fittings compared with the prior art.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an automatic production stamping assembly line for automobile seat beam fittings.

The invention is realized by the following technical scheme:

an automatic production stamping assembly line for automobile seat beam fittings comprises a stamping section and a quality inspection section, wherein the stamping section is provided with an inlet end and an outlet end, and the quality inspection section is connected with the outlet end of the stamping section; the quality inspection section comprises a detection system for detecting the beam accessories and a sorting system for sorting the beam accessories, and the sorting system sorts the beam accessories into at least three parts according to data detected by the detection system.

For the assembly line, specific accessories of the stamping section can be adjusted according to actual conditions, and in order to facilitate understanding, the invention discloses a specific embodiment, wherein the stamping section comprises a mechanical arm, a stamping transfer table and a stamping machine tool, the stamping transfer table is arranged between two adjacent stamping machines, one side of the mechanical arm, which is fixed on the stamping machine tool, is used for transferring metal pieces on the stamping transfer table to the stamping machine tool for feeding or transferring metal pieces on the stamping machine tool for blanking to the next stamping transfer table, and for a sorting system, the sorting system sorts the beam accessories into at least three parts according to data detected by a detection system, wherein one part is qualified metal accessories, at least two parts are unqualified metal accessories are selected, and the selected unqualified metal accessories are conveniently processed in different modes in the follow-up process.

Preferably, the method for producing a cross-beam fitting in a press line comprises:

the metal material is punched by the punching section to obtain a metal piece;

conveying the metal pieces to a quality inspection section, detecting n physical properties of the metal pieces by using a detection system to obtain a first data set, wherein the sorting system comprises n +2 sorting and conveying modules, and one physical property of each metal piece corresponds to one sorting and conveying module;

presetting a physical property standard of the metal piece, wherein the standard is a second data set;

comparing the first data set with the second data set, judging the metal piece to be unqualified when one physical property of the metal piece is unqualified, and sorting the unqualified metal piece from the qualified metal piece by the corresponding sorting and conveying module;

when two or more than two metal parts have unqualified physical properties, the metal parts are judged to be seriously unqualified, and one sorting and conveying module sorts the seriously unqualified metal parts;

when all the physical properties of the metal parts are qualified, the metal parts are judged to be qualified, the other sorting and conveying module sorts the metal parts, the physical properties comprise the shapes, colors and qualities of the metal parts, and for the processing mode, a specific method for sorting unqualified metal parts is disclosed, products with unqualified colors, products with unqualified qualities and products with unqualified shapes are respectively sorted out, and products with serious unqualified shapes are sorted out.

Preferably, a method for producing a cross beam fitting by the stamping line is also disclosed, and comprises the following steps:

the metal material is punched by the punching section to obtain a metal piece;

conveying the metal pieces to a quality inspection section, detecting the weight of the metal pieces by using a detection system to obtain a first numerical value, wherein the sorting system comprises three sorting and conveying modules;

presetting a standard value of the weight of the metal piece;

comparing the first value with a standard value;

when the difference value between the first numerical value and the standard value is within a first threshold value range, the first sorting and conveying module conveys the metal pieces;

when the first value is larger than the standard value and the difference value is larger than a first threshold value, the second sorting module conveys the metal piece;

when the first value is smaller than the standard value and the difference value is larger than the first threshold value, the third sorting module conveys the metal piece.

Preferably, when all the physical properties of the metal parts are qualified, the metal parts are judged to be qualified, and the other sorting and conveying module sorts the metal parts.

The sorting system comprises a second sorting and conveying module, a first sorting and conveying module and a third sorting and conveying module, wherein the first sorting and conveying module is arranged at least one end of the second sorting and conveying module; the second sorting and conveying module comprises a Mecanum wheel assembly, a first driving mechanism for driving the Mecanum wheel assembly to rotate and a first supporting mechanism for supporting the Mecanum wheel assembly; the third sorting and conveying module comprises a pickup wheel assembly, a rotating mechanism for driving the pickup wheel assembly to rotate and a lifting mechanism for driving the rotating mechanism to lift and lower along the direction vertical to the ground.

For the invention, when in operation, the first sorting and conveying module conveys goods to the position of the second sorting and conveying module, the second sorting and conveying module conveys the goods to an angle different from the conveying direction of the first sorting and conveying module through the Mecanum wheel assembly, the technology for realizing the functions of advancing, left transplanting or right transplanting of the materials through the Mecanum wheel is mature, the structure of the Mecanum wheel assembly is approximately a plurality of groups of Mecanum wheels used in pairs and a plurality of electric rollers used as driving mechanisms, and the technical personnel in the field can understand that the structure of the document is not described in detail, the edge of the Fowler wheel assembly is not arranged opposite to the Mecanum wheel assembly, the second sorting and conveying module conveys part of the goods to the third sorting and conveying module, the third sorting and conveying module comprises the Fowler wheel assembly, and the goods are conveyed to the conveying belt in a straight line through the Fowler wheel assembly, and then accomplish the reposition of redundant personnel, wherein, the third letter sorting transport module still includes the rotary mechanism that drives the round piece subassembly rotatory and the elevating system that drives rotary mechanism and go up and down along the direction of perpendicular to ground, can change the direction of delivery of round piece subassembly through rotary mechanism, when needing to change the direction of delivery of third letter sorting transport module, elevating system can change length earlier, make the edge of round piece subassembly not set up with mecanum wheel subassembly relatively, and then rotate the angle of round piece subassembly through rotary mechanism, and then resume elevating system to initial length, thus can make round piece subassembly cooperate with the conveyer belt of different angles.

Preferably, the first sorting conveyor module is a roller conveyor mechanism.

Preferably, the first support means is designed in a T-shape; wherein the first support mechanism does not block the rotating mecanum wheel assembly when the lift mechanism is lowered to the lowest elevation.

Preferably, in order to make the second sorting transport module and the third sorting transport module form a whole, prevent rocking of third sorting transport module, spacing groove has been seted up to at least one side terminal surface in first supporting mechanism's bottom, and elevating system is fixed to be placed on the bottom plate surface, and at least one side terminal surface of bottom plate is provided with the lug, and the lug is inlayed the card and is firmly connected the spacing groove to the bottom plate is connected with first supporting mechanism and is formed a whole.

Preferably, the second sorting conveying module is arranged in a square shape, the first sorting conveying module is respectively arranged at one group of parallel side walls of the first sorting conveying module, and the third sorting conveying module is respectively arranged at the other group of parallel side walls of the first sorting conveying module.

The invention discloses an automatic production stamping assembly line for automobile seat beam accessories, which is compared with the prior art:

in the assembly line, the specific parts of the stamping section can be adjusted according to actual conditions, and in order to facilitate understanding, the invention discloses a specific embodiment, the stamping section comprises a mechanical arm, a stamping transfer table and a stamping machine tool, the stamping transfer table is arranged between two adjacent stamping machines, one side of the mechanical arm for fixing the stamping machine tool is used for transferring the metal parts on the stamping transfer table to the stamping machine tool for feeding or transferring the metal parts on the stamping machine tool for blanking to the next stamping transfer table, for a sorting system, the sorting system sorts the cross beam parts into at least three parts according to the data detected by the detection system, one part is qualified metal parts, at least two parts are unqualified metal parts are selected, the selected unqualified metal parts are conveniently processed in different modes in the follow-up process, the modular design is adopted, and the assembly and the arrangement are convenient, the invention has simple structure and convenient maintenance, and for the invention, when in work, the first sorting and conveying module conveys goods to the position of the second sorting and conveying module, the second sorting and conveying module conveys the goods to an angle different from the conveying direction of the first sorting and conveying module through the Mecanum wheel assembly, the technology for realizing the functions of advancing, left transplanting or right transplanting of materials through the Mecanum wheel is more mature, the structure of the Mecanum wheel assembly is approximately a plurality of groups of Mecanum wheels used in pairs and a plurality of electric rollers used as driving mechanisms, and technical personnel in the field can understand that the structure of the Mecanum wheel assembly is not described in detail in documents, the edge of the Fulain wheel assembly is not arranged opposite to the Mecanum wheel assembly, the second sorting and conveying module conveys part of goods to the third sorting and conveying module, the third sorting and conveying module comprises the Fulain wheel assembly, and the goods are conveyed to the conveying belt along a straight line through the Fulain wheel assembly, and then accomplish the reposition of redundant personnel, wherein, the third letter sorting transport module still includes the rotary mechanism of drive comes wheel subassembly rotation and the elevating system of drive rotary mechanism along the direction lift of perpendicular to ground, can change the direction of delivery of the wheel subassembly through rotary mechanism, when needing to change the direction of delivery of third letter sorting transport module, elevating system can change length earlier, make the edge of coming wheel subassembly not set up with mecanum wheel subassembly is relative, the angle of the rotatory wheel subassembly of rethread rotary mechanism, resume elevating system to initial length again, thereby can make the wheel subassembly cooperate with the conveyer belt of different angles.

Drawings

FIG. 1 is a schematic view of the connection between the second sorting conveyor module and the third sorting conveyor module according to the present invention;

FIG. 2 is a schematic view of the connection between the first support mechanism and the base plate according to the present invention;

FIG. 3 is a plan view of the fractionating apparatus according to example 1;

FIG. 4 is a plan view of the fractionating apparatus according to example 2.

Detailed Description

The following examples are given for the detailed implementation and specific operation of the present invention, but the scope of the present invention is not limited to the following examples.

An automatic production stamping assembly line for automobile seat beam fittings comprises a stamping section and a quality inspection section, wherein the stamping section is provided with an inlet end and an outlet end, and the quality inspection section is connected with the outlet end of the stamping section; the quality inspection section comprises a detection system for detecting the beam accessories and a sorting system for sorting the beam accessories, and the sorting system sorts the beam accessories into at least three parts according to data detected by the detection system.

For the assembly line, specific accessories of the stamping section can be adjusted according to actual conditions, and in order to facilitate understanding, the invention discloses a specific embodiment, wherein the stamping section comprises a mechanical arm, a stamping transfer table and a stamping machine tool, the stamping transfer table is arranged between two adjacent stamping machines, one side of the mechanical arm, which is fixed on the stamping machine tool, is used for transferring metal pieces on the stamping transfer table to the stamping machine tool for feeding or transferring metal pieces on the stamping machine tool for blanking to the next stamping transfer table, and for a sorting system, the sorting system sorts the beam accessories into at least three parts according to data detected by a detection system, wherein one part is qualified metal accessories, at least two parts are unqualified metal accessories are selected, and the selected unqualified metal accessories are conveniently processed in different modes in the follow-up process.

Preferably, the method for producing a cross-beam fitting in a press line comprises:

the metal material is punched by the punching section to obtain a metal piece;

conveying the metal pieces to a quality inspection section, detecting n physical properties of the metal pieces by using a detection system to obtain a first data set, wherein the sorting system comprises n +2 sorting and conveying modules, and one physical property of each metal piece corresponds to one sorting and conveying module;

presetting a physical property standard of the metal piece, wherein the standard is a second data set;

comparing the first data set with the second data set, judging the metal piece to be unqualified when one physical property of the metal piece is unqualified, and sorting the unqualified metal piece from the qualified metal piece by the corresponding sorting and conveying module;

when two or more than two metal parts have unqualified physical properties, the metal parts are judged to be seriously unqualified, and one sorting and conveying module sorts the seriously unqualified metal parts;

when all the physical properties of the metal parts are qualified, the metal parts are judged to be qualified, the other sorting and conveying module sorts the metal parts, the physical properties comprise the shapes, colors and qualities of the metal parts, and for the processing mode, a specific method for sorting unqualified metal parts is disclosed, products with unqualified colors, products with unqualified qualities and products with unqualified shapes are respectively sorted out, and products with serious unqualified shapes are sorted out.

Preferably, a method for producing a cross beam fitting by the stamping line is also disclosed, and comprises the following steps:

the metal material is punched by the punching section to obtain a metal piece;

conveying the metal pieces to a quality inspection section, detecting the weight of the metal pieces by using a detection system to obtain a first numerical value, wherein the sorting system comprises three sorting and conveying modules;

presetting a standard value of the weight of the metal piece;

comparing the first value with a standard value;

when the difference value between the first numerical value and the standard value is within a first threshold value range, the first sorting and conveying module conveys the metal pieces;

when the first value is larger than the standard value and the difference value is larger than a first threshold value, the second sorting module conveys the metal piece;

when the first value is smaller than the standard value and the difference value is larger than the first threshold value, the third sorting module conveys the metal piece.

Preferably, when all the physical properties of the metal parts are qualified, the metal parts are judged to be qualified, and the other sorting and conveying module sorts the metal parts.

As shown in fig. 1 to 4, the invention discloses an automatic production stamping line for automobile seat beam fittings, which comprises a second sorting and conveying module 2, a first sorting and conveying module 1 arranged at least one end of the second sorting and conveying module 2, and a third sorting and conveying module 3 arranged at least one end of the second sorting and conveying module 2, wherein the first sorting and conveying module 1 and the third sorting and conveying module 3 are arranged at different sides of the second sorting and conveying module 2; the second sorting and conveying module 2 comprises a Mecanum wheel assembly 21, a first driving mechanism for driving the Mecanum wheel assembly 21 to rotate and a first supporting mechanism 22 for supporting the Mecanum wheel assembly 21; the third sorting and conveying module 3 includes a pickup wheel assembly 31, a rotating mechanism 32 for driving the pickup wheel assembly 31 to rotate, and a lifting mechanism 33 for driving the rotating mechanism 32 to lift in a direction perpendicular to the ground.

Based on the above structure, for the present invention, in operation, the first sorting and conveying module 1 conveys goods to the second sorting and conveying module 2, the second sorting and conveying module 2 conveys the goods to an angle different from the conveying direction of the first sorting and conveying module 1 through the mecanum wheel assembly 21, the technology of realizing the forward, left or right transplanting function of the materials through the mecanum wheels is mature, the mecanum wheel assembly 21 has a structure of approximately multiple sets of paired mecanum wheels and multiple electric rollers as a driving mechanism, it can be understood by those skilled in the art that, without detailed description of its structure in the document, the edge of the fuchsia wheel assembly 31 is not arranged opposite to the mecanum wheel assembly 21, the second sorting and conveying module 2 conveys part of the goods to the third sorting and conveying module 3, the third sorting and conveying module 3 includes the fuchsia wheel assembly 31, the goods are conveyed to the conveyor belt along a straight line by the Fuller assembly 31 for conveying, and then the shunting is completed, wherein the third sorting and conveying module 3 further comprises a rotating mechanism 32 for driving the Fuller assembly 31 to rotate and a lifting mechanism 33 for driving the rotating mechanism 32 to lift along a direction vertical to the ground, the conveying direction of the Fuller assembly 31 can be changed by the rotating mechanism 32, when the conveying direction of the third sorting and conveying module 3 needs to be changed, the lifting mechanism 33 can change the length firstly, so that the edge of the Fuller assembly 31 is not arranged opposite to the Mecanum wheel assembly 21, then the rotating mechanism 32 rotates the angle of the Fuller assembly 31, and then the lifting mechanism 33 is restored to the initial length, so that the Fuller assembly 31 can be matched with the conveyor belt with different angles, the invention adopts a modular design, is convenient for assembly and arrangement, and has a simple structure, the first sorting and conveying module 1 is a roller conveying mechanism and is convenient to maintain.

Alternatively, the first support means 22 is designed in a T-shape; wherein first support mechanism 22 does not block rotating mecanum wheel assembly 21 when lift mechanism 33 is lowered to the lowest elevation.

Further, in order to make the second sorting and conveying module 2 and the third sorting and conveying module 3 form a whole, the third sorting and conveying module 3 is prevented from shaking, at least one side end face of the bottom of the first supporting mechanism 22 is provided with a limiting groove, the lifting mechanism 33 is fixedly placed on the surface of the bottom plate 34, at least one side end face of the bottom plate 34 is provided with a convex block 341, and the convex block 341 is embedded, clamped and fixedly connected with the limiting groove, so that the bottom plate 34 and the first supporting mechanism 22 are connected to form a whole.

Two specific embodiments are disclosed to facilitate a further understanding of the present document.

Example 1

As shown in fig. 3, embodiment 1 discloses an automated production stamping line for automobile seat beam fittings, which includes a second sorting and conveying module 2, and a third sorting and conveying module 3; the first sorting and conveying module 1 is a roller conveying mechanism, and the second sorting and conveying module 2 comprises a mecanum wheel assembly 21, a first driving mechanism for driving the mecanum wheel assembly 21 to rotate, and a first supporting mechanism 22 for supporting the mecanum wheel assembly 21; the third sorting and conveying module 3 comprises a pickup wheel assembly 31, a rotating mechanism 32 for driving the pickup wheel assembly 31 to rotate and a lifting mechanism 33 for driving the rotating mechanism 32 to lift along the direction perpendicular to the ground, the second sorting and conveying module 2 is arranged in a square shape, a group of parallel side wall positions of the first sorting and conveying module 1 are respectively provided with the first sorting and conveying module 1, the other group of parallel side wall positions of the first sorting and conveying module 1 are respectively provided with the third sorting and conveying module 3, the direction of conveying goods by the third sorting and conveying module 3 is the same as the direction of conveying goods by the first sorting and conveying module 1, the position A in figure 3 is a first conveying belt, and the first conveying belt and the first sorting and conveying module are arranged in parallel.

Example 2

As shown in fig. 3, embodiment 2 discloses an automated production stamping line for automobile seat beam fittings, which comprises a second sorting and conveying module 2, a second sorting and conveying module 2 and a third sorting and conveying module 3; the first sorting and conveying module 1 is a roller conveying mechanism, and the second sorting and conveying module 2 comprises a mecanum wheel assembly 21, a first driving mechanism for driving the mecanum wheel assembly 21 to rotate, and a first supporting mechanism 22 for supporting the mecanum wheel assembly 21; the third sorting and conveying module 3 comprises a pickup wheel assembly 31, a rotating mechanism 32 for driving the pickup wheel assembly 31 to rotate and a lifting mechanism 33 for driving the rotating mechanism 32 to lift along the direction perpendicular to the ground, the second sorting and conveying module 2 is arranged in a square shape, a group of parallel side wall positions of the first sorting and conveying module 1 are respectively provided with the first sorting and conveying module 1, the other group of parallel side wall positions of the first sorting and conveying module 1 are respectively provided with the third sorting and conveying module 3, the direction of conveying goods by the third sorting and conveying module 3 is perpendicular to the direction of conveying goods by the first sorting and conveying module 1, the position B in figure 4 is a second conveyor belt, and the second conveyor belt is perpendicular to the first sorting and conveying module.

Compared with the prior art, the invention adopts the modular design, is convenient to assemble and arrange, has simple structure and is convenient to maintain.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Claims (9)

1. An automatic production stamping assembly line for automobile seat beam fittings is characterized by comprising a stamping section and a quality inspection section, wherein the stamping section is provided with an inlet end and an outlet end, and the quality inspection section is connected with the outlet end of the stamping section;

the quality inspection section comprises a detection system for detecting the beam accessories and a sorting system for sorting the beam accessories, and the sorting system sorts the beam accessories into at least three parts according to data detected by the detection system.

2. The automated production stamping line for automobile seat beam fittings according to claim 1, wherein the method for producing beam fittings by the stamping line comprises the following steps:

the metal material is punched by the punching section to obtain a metal piece;

conveying the metal pieces to a quality inspection section, detecting n physical properties of the metal pieces by using a detection system to obtain a first data set, wherein the sorting system comprises n +2 sorting and conveying modules, and one physical property of each metal piece corresponds to one sorting and conveying module;

presetting a physical property standard of the metal piece, wherein the standard is a second data set;

comparing the first data set with the second data set, judging the metal piece to be unqualified when one physical property of the metal piece is unqualified, and sorting the unqualified metal piece from the qualified metal piece by the corresponding sorting and conveying module;

when two or more than two metal parts have unqualified physical properties, the metal parts are judged to be seriously unqualified, and one sorting and conveying module sorts the seriously unqualified metal parts;

and when all the physical properties of the metal parts are qualified, judging the metal parts to be qualified, and sorting the metal parts by the other sorting and conveying module.

3. The automated production stamping line for automobile seat beam fittings as claimed in claim 2, wherein the physical properties include shape, color and quality of metal parts.

4. The automated production stamping line for automobile seat beam fittings according to claim 1, wherein the method for producing beam fittings by the stamping line comprises the following steps:

the metal material is punched by the punching section to obtain a metal piece;

conveying the metal pieces to a quality inspection section, detecting the weight of the metal pieces by using a detection system to obtain a first numerical value, wherein the sorting system comprises three sorting and conveying modules;

presetting a standard value of the weight of the metal piece;

comparing the first value with a standard value;

when the difference value between the first numerical value and the standard value is within a first threshold value range, the first sorting and conveying module conveys the metal pieces;

when the first value is larger than the standard value and the difference value is larger than a first threshold value, the second sorting module conveys the metal piece;

when the first value is smaller than the standard value and the difference value is larger than the first threshold value, the third sorting module conveys the metal piece.

And when all the physical properties of the metal parts are qualified, judging the metal parts to be qualified, and sorting the metal parts by the other sorting and conveying module.

5. The automotive seat cross member accessory automatic production stamping line according to claim 2, characterized in that the sorting system comprises a second sorting conveying module (2), a first sorting conveying module (1) arranged at least one end of the second sorting conveying module (2), a third sorting conveying module (3) arranged at least one end of the second sorting conveying module (2), the first sorting conveying module (1) and the third sorting conveying module (3) being arranged at different sides of the second sorting conveying module (2);

the second sorting and conveying module (2) comprises a Mecanum wheel assembly (21), a first driving mechanism for driving the Mecanum wheel assembly (21) to rotate, and a second driving mechanism for supporting the Mecanum wheel assembly (21).

6. The automated production stamping line for automobile seat beam fittings according to claim 1, wherein the first sorting and conveying module (1) is a roller conveying mechanism.

7. The automated production stamping line for automobile seat beam fittings according to claim 2, wherein the first support mechanism (22) is designed in a T shape;

wherein the first support mechanism (22) does not block the rotating mecanum wheel assembly (21) when the lift mechanism (33) is lowered to a minimum height.

8. The automatic production stamping production line for the automobile seat beam fitting as claimed in claim 3, wherein at least one side end face of the bottom of the first supporting mechanism (22) is provided with a limiting groove, the lifting mechanism (33) is fixedly placed on the surface of the bottom plate (34), at least one side end face of the bottom plate (34) is provided with a convex block (341), and the convex block (341) is embedded, clamped and connected with the limiting groove.

9. The automated production stamping line for automobile seat beam fittings as claimed in claim 1, wherein the second sorting conveying modules (2) are arranged in a square shape, the first sorting conveying modules (1) are respectively arranged at one set of parallel side wall positions of the first sorting conveying modules (1), and the third sorting conveying modules (3) are respectively arranged at the other set of parallel side wall positions of the first sorting conveying modules (1).

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