CN114310171B

CN114310171B - Automatic processing production line for fire-fighting spray rack

Info

Publication number: CN114310171B
Application number: CN202111616718.XA
Authority: CN
Inventors: 罗邦才; 孙玉和
Original assignee: Zhejiang Mingjiang Precision Industry Co ltd
Current assignee: Zhejiang Mingjiang Precision Industry Co ltd
Priority date: 2021-12-28
Filing date: 2021-12-28
Publication date: 2023-04-11
Anticipated expiration: 2041-12-28
Also published as: CN114310171A

Abstract

The invention discloses an automatic processing production line of a fire-fighting spray frame, which comprises a feeding mechanism, a heating shearing feeding mechanism and a spray frame forging forming mechanism, wherein the feeding mechanism comprises a material frame and a pushing device arranged on the material frame; one end side of the heating device corresponds to the pushing device, the pushing device sends the bar materials on the material rack into the heating device, the cutting device cuts off the bar materials sent by the heating device, the clamping and feeding device sends the cut bar materials into the hydraulic hammer forging device, the hydraulic control system provides power for the hydraulic hammer forging device, and the hydraulic hammer forging device carries out forming processing on the bar materials. The automatic bar stock placing device can automatically complete the processing production of the post-spraying frame from bar stock to forming, and only needs to manually place the bar stock, thereby improving the production efficiency, reducing the labor intensity and lowering the processing cost.

Description

Automatic processing production line for fire-fighting spray rack

Technical Field

The invention relates to the technical field of fire-fighting spray rack processing, in particular to an automatic processing production line of a fire-fighting spray rack.

Background

Due to the fire-fighting requirement, the fire-fighting spray head is widely applied to places such as superstores, hotels and office buildings, the fire-fighting spray head mainly comprises a spray frame, and a heat sensing element and a splash plate which are arranged on the spray frame, and the spray frame plays an important role in installation and connection.

The following two modes are mostly adopted in the existing processing and production of the spray frame: the first is a die-casting process, melting raw materials, manually pouring the melted raw materials into a feed inlet of a die-casting machine by using a tool, and cooling and forming the melted raw materials in a die cavity; the second is a forging process (commonly known as red punching), which comprises the steps of cutting the raw material into required lengths in advance, heating the cut raw material, and manually placing the heated raw material into a die by using a clamp for forging; the general degree of automation of above two kinds of processing methods is not high, and artifical intensity of labour is big, and product quality is unstable, and the cost of processing is higher relatively.

Disclosure of Invention

The invention aims to solve the problems in the background technology and provides an automatic processing production line of a fire-fighting spray rack.

In order to solve the technical problems, the technical scheme of the invention is as follows: an automatic processing production line of a fire-fighting spray rack comprises a feeding mechanism, a heating shearing feeding mechanism and a spray rack forging forming mechanism, wherein the feeding mechanism comprises a rack and a pushing device arranged on the rack; one end side of the heating device corresponds to the pushing device, the pushing device sends the bar materials on the material rack into the heating device, the cutting device and the clamping and feeding device are correspondingly arranged on the other side of the heating device, the cutting device cuts off the bar materials sent by the heating device, the clamping and feeding device sends the cut bar materials into the hydraulic hammer forging device, the hydraulic control system provides power for the hydraulic hammer forging device, and the hydraulic hammer forging device carries out forming processing on the bar materials.

In the automatic processing production line of the fire-fighting spray rack, the material pushing and feeding devices are symmetrically arranged at two ends of the material rack respectively, each material pushing and feeding device comprises a material feeding mounting rack, an upper driving cylinder, a lower driving cylinder and a servo material feeding motor, the upper driving cylinder and the lower driving cylinder are mounted on the material feeding mounting rack and connected with a lifting slider assembly, the lifting slider assembly is connected with the material feeding mounting rack in a sliding manner through a sliding rail, and the material discharging rack is arranged between the lifting slider assembly and the material feeding mounting rack; the feeding mounting frame is provided with a feeding wheel, and the servo feeding motor is arranged on the feeding mounting frame and is in driving connection with the feeding wheel; the upper and lower driving cylinders drive the lifting slide block assembly to move up and down, so that the bars are placed on the feeding wheel through the material placing frame, and the servo feeding motor drives the feeding wheel to rotate and correspondingly feed the bars on the feeding wheel into the corresponding heating shearing feeding mechanism.

In the automatic processing production line of the fire-fighting spray rack, the heating device comprises a heating host, an induction heating coil and an induction heating pipe, wherein the induction heating pipe is connected to the heating host through a mounting frame plate and corresponds to the height position of the feeding wheel; the cutting device comprises a cutting fixing plate, a cutting hydraulic oil cylinder, a cutting mounting plate and a cutting knife, wherein the cutting fixing plate is fixedly connected to the heating host and is provided with a bar through hole corresponding to the induction heating pipe; the cutting mounting plate is connected with the cutting fixing plate in a sliding mode through a sliding rail, the cutting knife is fixedly connected with the cutting mounting plate, and the cutting hydraulic cylinder is fixedly connected to the cutting mounting plate and can drive the cutting mounting plate to slide; the clamping and feeding device comprises a clamping cylinder, a feeding cylinder, a clamping and feeding mounting plate and a clamping and feeding claw, wherein the clamping cylinder is connected to the end part of the clamping and feeding mounting plate and corresponds to the positions of a material cutting knife and a bar through hole, the feeding cylinder is fixed on the clamping and feeding mounting plate and is connected with a clamping control rod for controlling the clamping and feeding claw, the clamping and feeding mounting plate and the cutting mounting plate are connected through sliding rails, the feeding cylinder is fixedly connected to the cutting mounting plate and can drive the clamping and feeding mounting plate to slide relative to the cutting mounting plate, and therefore the clamping and feeding claw sends cut bars into a corresponding spraying frame forging and forming mechanism.

In the automatic processing production line of the fire-fighting spray rack, the spray rack forging and forming mechanism comprises a forming main rack, a rack seat, a press upper slide block assembly, an upper forming die, a lower forming die, a forming base, a material moving device and a spray rack side hole processing device; the upper forming die is fixedly connected to the upper sliding block assembly of the press, a heating and heat-insulating device is arranged in the upper forming die, the lower forming die is fixedly connected to the forming base, the hydraulic control system is connected with the hydraulic hammer forging device and provides power for moving and forging dies in the hydraulic hammer forging device, so that bars placed into the hydraulic hammer forging device are formed and processed, and the material moving device moves a blank frame processed in the hydraulic hammer forging device.

In foretell fire sprinkler frame automatic processing production line, be equipped with material clamping cylinder, location pay-off slider and location pay-off wheel on the pay-off mounting bracket, location pay-off wheel is connected with location pay-off slider, and location pay-off wheel corresponds from top to bottom with the pay-off wheel, and material clamping cylinder is connected with location pay-off slider, makes location pay-off slider reciprocate.

In foretell fire sprinkler frame automatic processing production line, be equipped with synchronous lift connecting rod between the slider assembly in the both ends propelling movement material device on the work or material rest, synchronous lift connecting rod both ends are equipped with synchronous gear respectively, be equipped with the synchronous rack that corresponds the matching with synchronous gear on the mounting bracket.

In foretell fire sprinkler frame automatic processing production line, be equipped with blank length fixing device on the blank mounting panel, blank length fixing device includes blank fixed length fixed plate, length adjusting bolt, threaded connection between length adjusting bolt and the blank fixed length fixed plate and through it with press from both sides the material mounting panel realization be connected, length adjusting bolt corresponds the setting with the bar through-hole.

In the automatic processing production line for the fire-fighting spray frame, the upper forming die and the lower forming die are respectively provided with a first forming die cavity groove and a second forming die cavity groove which correspond to each other, a heating and heat-insulating device in the upper forming die can heat and insulate the first forming die cavity groove and the second forming die cavity groove, the material moving device comprises a material moving slide rail, a first process material moving device and a second process material moving device, the first process material moving device sends the blank frame into the second forming die cavity groove after the first forming die cavity groove is processed, the second process material moving device takes out the blank frame after the second forming die cavity groove is processed, and the first process material moving device and the second process material moving device synchronously move on the material clamping slide rail to take out and clamp the blank; the spraying frame side hole machining device comprises a frame hole power device and a frame hole ejector rod, and the spraying frame side hole machining device corresponds to the second forming die cavity groove.

In the automatic processing production line of the fire-fighting spray rack, the first process material moving device and the second process material moving device are composed of the same structural components and respectively comprise a material clamping bottom frame, a side mounting frame, a mounting box, an X-axis driving motor, a Y-axis lifting motor, a Z-axis driving motor and a Z-axis material clamping air cylinder, the X-axis driving motors in the first process material moving device and the second process material moving device are respectively in driving connection with the corresponding material clamping bottom frames through lead screws, the side mounting frame is fixedly connected with the material clamping bottom frames, lifting lead screw driving structures are respectively arranged between the side mounting frame and the material clamping bottom frames, and the Y-axis lifting motor enables the side mounting frame to move up and down through the lifting lead screw driving structures; the Z-axis material clamping cylinder is connected with the side mounting frame in a sliding mode through a mounting box, a Z-axis sliding rail is arranged between the mounting box and the side mounting frame, and the Z-axis driving motor is mounted on the side face of the side mounting frame and is in driving connection with the Z-axis sliding rail in a gear groove mode; the first procedure material moving device is connected with a transverse material clamping claw through a cylinder rod of a Z-axial material clamping cylinder of the first procedure material moving device, and the second procedure material moving device is connected with a vertical material clamping claw through a cylinder rod of a Z-axial material clamping cylinder of the second procedure material moving device.

In the fire-fighting spray frame automatic processing production line, the forming base is further provided with a trimming die, and the second procedure material moving device takes out the blank frame after the second forming die cavity groove is processed and places the blank frame at the trimming die for trimming.

The invention has the following beneficial effects:

according to the invention, a feeding mechanism is used for automatically feeding a bar into a heating and shearing feeding mechanism for heating and cutting the bar at a fixed length in a matching manner, the heating and shearing feeding mechanism is used for cutting the heated bar at a fixed length and then feeding the cut bar into a spray rack forging forming mechanism for forming, the spray rack forging forming mechanism is used for forming and processing the fed bar in multiple processes, and finally the spray rack is processed and produced;

in the automatic processing production from the bar stock to the forming of the whole spraying frame, the bar stock only needs to be placed manually, so that the production efficiency is greatly improved, the labor intensity of workers is reduced, the product quality is stabilized, and the processing cost is reduced; a new process method for two times of continuous and rapid forging is innovatively provided.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view of the loading mechanism of the present invention;

FIG. 3 is an exploded view of the loading mechanism of the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is a perspective view of a heating shear feed mechanism of the present invention;

FIG. 6 is an exploded view of the heated shear feed mechanism of the present invention;

FIG. 7 is a perspective view of the spray frame forging forming mechanism of the present invention;

FIG. 8 is a partial block diagram of a hydraulic hammer forging device in a spray frame forging forming mechanism;

FIG. 9 is a perspective view of a material moving device in the spray frame forging and forming mechanism;

fig. 10 is an exploded view of the material moving device in the spray frame forging and forming mechanism.

Detailed Description

The invention is further elucidated with reference to the accompanying drawings.

Referring to fig. 1 to 10, the invention provides an automatic processing production line of a fire-fighting spray rack, which comprises a feeding mechanism 1, a heating, shearing and feeding mechanism 2 and a spray rack forging and forming mechanism 3;

the feeding mechanism 1 comprises a material rack 4 and a material pushing and feeding device 5 arranged on the material rack 4, the material pushing and feeding device 5 is symmetrically arranged at two ends of the material rack 4 respectively, the material pushing and feeding device 5 comprises a material feeding mounting frame 6, an upper driving cylinder 7 and a lower driving cylinder 7 and a servo feeding motor 8, the upper driving cylinder 7 and the lower driving cylinder 7 are mounted on the material feeding mounting frame 6 and are connected with a lifting slider assembly 9, the lifting slider assembly 9 is in sliding connection with the material feeding mounting frame 6 through a sliding rail, and a material discharging frame 10 is arranged; the feeding mounting frame 6 is provided with a feeding wheel 11, and the servo feeding motor 8 is arranged on the feeding mounting frame 6 and is in driving connection with the feeding wheel 11 through a chain; the up-down driving cylinder 7 drives the lifting slide block assembly 9 to move up and down, so that the bar is placed on the feeding wheel 11 through the material placing frame 10, and the servo feeding motor 8 drives the feeding wheel 11 to rotate;

in the processing process, the bar stock on the material rack 4 is placed on the material rack 10, at the moment, the up-and-down driving cylinder 7 drives the lifting slide block assembly 9 to move downwards until the bar stock on the material rack 10 falls on the feeding wheel 11, and then the servo feeding motor 8 drives the feeding wheel 11 to rotate, so that the bar stock is correspondingly fed into the heating shearing feeding mechanism 2.

Furthermore, a material clamping cylinder 12, a positioning feeding slide block 13 and a positioning feeding wheel 14 are arranged on the feeding mounting frame 6, the positioning feeding wheel 14 is connected with the positioning feeding slide block 13, and the positioning feeding wheel 14 corresponds to the feeding wheel 11 up and down; the material clamping cylinder 12 is connected with the positioning feeding slide block 13, so that the positioning feeding slide block 13 can move up and down, the positioning feeding wheel 14 can move up and down, and the bar of the feeding wheel 11 can be clamped and positioned.

Furthermore, a synchronous lifting connecting rod 15 is arranged between the lifting slider assemblies 9 in the material pushing and feeding devices 5 at the two ends of the material rack 4, synchronous gears 16 are respectively arranged at the two ends of the synchronous lifting connecting rod 15, and a synchronous rack 17 correspondingly matched with the synchronous gears 16 is arranged on the mounting rack 6; therefore, the pushing and feeding devices 5 at the two ends of the material rack 4 can be synchronously lifted, and the feeding deflection is effectively avoided.

The heating shearing feeding mechanism 2 comprises a heating device 18, a blanking device 19 and a clamping feeding device 20, wherein the heating device 18 comprises a heating host 21, an induction heating coil 22 and an induction heating pipe 23, and the induction heating pipe 23 is connected to the heating host 21 through a mounting frame plate 18-1 and corresponds to the height position of the feeding wheel 11; the feeding wheel 11 is driven to rotate to feed the bar stock on the feeding wheel into the induction heating pipe 23 for heating and induction heating;

the cutting device 19 comprises a cutting fixing plate 24, a cutting hydraulic oil cylinder 25, a cutting mounting plate 26 and a cutting knife 27, wherein the cutting fixing plate 24 is fixedly connected to the heating host 21 and is provided with a bar through hole 28 corresponding to the induction heating pipe 23; the blanking mounting plate 26 is connected with the blanking fixing plate 24 in a sliding manner through a sliding rail, the blanking cutter 27 is fixedly connected with the blanking mounting plate 26, and the blanking hydraulic oil cylinder 25 is fixedly connected to the blanking mounting plate 26 and can drive the blanking mounting plate to slide; the clamping and feeding device 20 comprises a clamping cylinder 29, a feeding cylinder 30, a clamping and feeding mounting plate 31 and a clamping and feeding claw 32, the clamping cylinder 29 is connected to the end of the clamping and feeding mounting plate 31 and corresponds to the positions of the cutting knife 27 and the bar through hole 28, the feeding cylinder 30 is fixed on the clamping and feeding mounting plate 31 and is connected with a clamping control rod 33 for controlling the clamping and feeding claw 32, the clamping and feeding mounting plate 31 is connected with the cutting mounting plate 26 in a sliding manner through a sliding rail, the feeding cylinder 30 is fixedly connected to the cutting mounting plate 26 and can drive the clamping and feeding mounting plate 31 to slide relative to the cutting mounting plate 26, and therefore the clamping and feeding claw 32 can feed cut bars into the corresponding spray frame forging forming mechanism 3;

the heated bar stock is sent out through a bar stock through hole 28 on the cutting fixing plate 24, and the length of the bar stock sent out each time is set by the rotation of the feeding wheel 11 driven by the servo feeding motor 8; after the bar extends out of the bar through hole 28, firstly the clamping cylinder 29 controls the clamping and feeding claw 32 to clamp the bar through the clamping control rod 33, and then the cutting hydraulic oil cylinder 25 pushes the cutting mounting plate 26 to move, so that the extended bar is cut off through the cutting knife 27 on the cutting mounting plate 26; finally, the feeding cylinder 30 drives the pinch feeding mounting plate 31 to slide relative to the cutting mounting plate 26, so that the cut bar stock is fed into the corresponding spray frame forging forming mechanism 3.

Furthermore, a blanking length fixing device 34 is arranged on the blanking mounting plate 26, the blanking length fixing device 34 comprises a blanking length fixing plate 35 and a length adjusting bolt 36, and the length adjusting bolt 36 is in threaded connection with the blanking length fixing plate 35 and is connected with the clamping and feeding mounting plate 31 through the length adjusting bolt 36; the length adjusting bolt 36 is arranged corresponding to the bar through hole 28, so that the length of the bar extending out of the bar through hole 28 can be positioned through the length adjusting bolt 36, and the length of the cut material at each time is better and accurately.

The spraying frame forging forming mechanism 3 comprises a hydraulic hammer forging machine 37 and a hydraulic control system 38; the hydraulic hammer forging machine 37 comprises a forming main frame 39, a frame seat 40, a press upper slide block assembly 41, an upper forming die 42, a lower forming die 43, a forming base 44, a material moving device 45 and a spraying frame side hole machining device 46; the upper forming die 42 is fixedly connected to the upper sliding block assembly 41 of the press, a heating and heat-insulating device (not marked in the figure) is arranged in the upper forming die 42, and the lower forming die 43 is fixedly connected to the forming base 44; the upper forming die 42 and the lower forming die 43 are respectively provided with a first forming die cavity groove 47 and a second forming die cavity groove 48 which correspond to each other; in the processing process, a bar fed by a clamping feeding claw 32 in a clamping feeding device 20 is firstly placed in a first forming die cavity groove 47 for processing, an upper sliding block assembly 41 on a press can drive an upper forming die 42 to move up and down, a heating and heat-preserving device in the upper forming die 42 heats and preserves heat of the first forming die cavity groove 47 and a second forming die cavity groove 48 which are respectively arranged on the upper forming die 42 and a lower forming die 43, a spraying frame side hole processing device 46 comprises a frame hole power device 49 and a frame hole ejector rod 50, and the spraying frame side hole processing device 46 corresponds to the second forming die cavity groove 48;

the material moving device 45 moves the blank holder after being processed by the first forming die cavity groove 47 and the second forming die cavity groove 48, the material moving device 45 comprises a material moving slide rail 51, a first procedure material moving device 52 and a second procedure material moving device 53, the first procedure material moving device 52 and the second procedure material moving device 53 are composed of the same structural components and respectively comprise a clamping bottom frame 54, a side mounting frame 55, a mounting box 61, an X axial driving motor 56, a Y axial lifting motor 57, a Z axial driving motor 58 and a Z axial clamping air cylinder 59, the X axial driving motors 56 in the first procedure material moving device 52 and the second procedure material moving device 53 are respectively in driving connection with the corresponding clamping bottom frames 54 through screw rods, the side mounting frame 55 is fixedly connected with the clamping bottom frame 54, a lifting screw rod driving structure 60 is respectively arranged between the side mounting frame 55 and the clamping bottom frame 54 of the two, the Y axial lifting motor 57 enables the side mounting frame 55 to move up and down through the lifting screw rod driving structure 60; the Z-axis material clamping cylinder 59 is connected with the side mounting frame 55 in a sliding mode through a mounting box 61, a Z-axis sliding rail 62 is arranged between the mounting box 61 and the side mounting frame 55, and the Z-axis driving motor 58 is mounted on the side face of the side mounting frame 55 and is connected with the Z-axis sliding rail 62 in a driving mode through a gear groove; the first-procedure material moving device 52 is connected with a transverse material clamping claw 63 through a cylinder rod of a Z-axial material clamping cylinder 59, the second-procedure material moving device 53 is connected with a vertical material clamping claw 64 through a cylinder rod of the Z-axial material clamping cylinder 59, and the transverse material clamping claw 63 and the vertical material clamping claw 64 are connected with corresponding mounting boxes 61 respectively;

in the processing process, the first-process material moving device 52 and the second-process material moving device 53 synchronously perform material clamping action, the first-process material moving device 52 performs material clamping movement through the cooperation of an X-axis driving motor 56, a Y-axis lifting motor 57 and a Z-axis driving motor 58, and the Z-axis material clamping cylinder 59 controls a transverse material clamping claw 63 to open and close to take materials, clamp the blank holder in the first forming die cavity groove 47 and send the blank holder to the second forming die cavity groove 48; in the process of processing the blank frame in the second forming die cavity groove 48, the spraying frame side hole processing device 46 can control the frame hole rod 50 therein to jack and process the blank frame, the second procedure material moving device 53 clamps and moves through the cooperation of the X-axis driving motor 56, the Y-axis lifting motor 57 and the Z-axis driving motor 58, the Z-axis material clamping cylinder 59 controls the vertical material clamping claw 64 to open and close and take materials, and clamps the blank frame in the second forming die cavity groove 48, wherein a material box (not marked in the figure) is arranged on one side of the forming base 44, and the blank frame clamped by the second procedure material moving device 53 from the second forming die cavity groove can be sent to the material box.

Further, for better automatic processing, the forming base 44 is further provided with an edge cutting die 65, the blank holder clamped by the second process material moving device 53 from the second forming die cavity groove 48 is conveyed to the edge cutting die 65, the edge cutting processing of the blank holder is completed along with the work of the upper slide block assembly 41 of the press, and the blank holder after edge cutting slides into the material box from the edge cutting die 65.

The above detailed description is provided for the automatic processing production line of the fire sprinkler rack provided by the embodiment of the invention, and the principle and the implementation mode of the invention are explained by applying specific examples, and the description of the above embodiments is only used for helping to understand the technical scheme disclosed by the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation of the present invention.

Claims

1. The utility model provides a fire sprinkler frame automatic processing production line which characterized in that: the hot-pressing forging forming machine comprises a feeding mechanism, a heating shearing feeding mechanism and a spraying frame forging forming mechanism, wherein the feeding mechanism comprises a material frame and a material pushing device arranged on the material frame; one end side of the heating device corresponds to the pushing device, the pushing device sends the bar materials on the material rack into the heating device, the cutting device and the clamping and feeding device are correspondingly arranged on the other side of the heating device, the cutting device cuts off the bar materials sent by the heating device, the clamping and feeding device sends the cut bar materials into the hydraulic hammer forging device, the hydraulic control system provides power for the hydraulic hammer forging device, and the hydraulic hammer forging device carries out forming processing on the bar materials;

the pushing and feeding devices are symmetrically arranged at two ends of the material rack respectively and comprise a feeding mounting frame, an upper driving cylinder, a lower driving cylinder and a servo feeding motor, the upper driving cylinder and the lower driving cylinder are connected with a lifting slide block assembly, and the lifting slide block assembly is provided with the material rack; the feeding mounting frame is provided with a feeding wheel, the upper and lower driving cylinders drive the lifting slide block assembly to move up and down so as to place the bar on the feeding wheel through the discharging frame, and the servo feeding motor drives the feeding wheel to rotate so as to correspondingly feed the bar on the feeding wheel into the corresponding heating shearing feeding mechanism;

the heating device comprises a heating host, an induction heating coil and an induction heating pipe, wherein the induction heating pipe is connected to the heating host through an installation frame plate and corresponds to the height position of the feeding wheel; the cutting device comprises a cutting fixing plate, a cutting hydraulic oil cylinder, a cutting mounting plate and a cutting knife, wherein the cutting fixing plate is provided with a bar through hole corresponding to the induction heating pipe; the clamping and feeding device comprises a clamping cylinder, a feeding cylinder, a clamping and feeding mounting plate and a clamping and feeding claw, wherein the clamping cylinder corresponds to the positions of the material cutting knife and the bar through hole;

the spray frame forging forming mechanism comprises a forming main frame, a frame seat, a press upper slide block assembly, an upper forming die, a lower forming die, a forming base, a material moving device and a spray frame side hole machining device; the upper forming die is fixedly connected to the upper sliding block assembly of the press, a heating and heat-insulating device is arranged in the upper forming die, the lower forming die is fixedly connected to the forming base, the hydraulic control system is connected with the hydraulic hammer forging device and provides power for moving and forging the die in the hydraulic hammer forging device, and the material moving device moves the blank frame processed in the hydraulic hammer forging device;

the upper forming die and the lower forming die are respectively provided with a first forming die cavity groove and a second forming die cavity groove which correspond to each other, a heating and heat-preserving device in the upper forming die can heat and preserve the first forming die cavity groove and the second forming die cavity groove, the material moving device comprises a material moving slide rail, a first process material moving device and a second process material moving device, the first process material moving device sends the blank frame into the second forming die cavity groove after the first forming die cavity groove is processed, the second process material moving device takes out the blank frame after the second forming die cavity groove is processed, and the first process material moving device and the second process material moving device synchronously move on the material clamping slide rail to carry out material taking and clamping work; the spraying frame side hole machining device comprises a frame hole power device and a frame hole ejector rod, and corresponds to the second forming die cavity groove;

and the forming base is also provided with an edge cutting die, and the second procedure material moving device takes out the blank frame after the second forming die cavity groove is processed and places the blank frame at the edge cutting die for edge cutting treatment.

2. The automatic processing production line of the fire sprinkler frame according to claim 1, characterized in that: the feeding mounting frame is provided with a material clamping cylinder, a positioning feeding sliding block and a positioning feeding wheel, the positioning feeding wheel is connected with the positioning feeding sliding block, and the positioning feeding wheel corresponds to the feeding wheel up and down; the material clamping cylinder is connected with the positioning feeding sliding block to enable the positioning feeding sliding block to move up and down.

3. The automatic processing production line of the fire sprinkler frame according to claim 1, characterized in that: synchronous lifting connecting rods are arranged between lifting slider assemblies in the material pushing devices at the two ends of the material rack, synchronous gears are arranged at the two ends of each synchronous lifting connecting rod respectively, and synchronous racks correspondingly matched with the synchronous gears are arranged on the mounting rack.

4. The automatic processing production line of the fire sprinkler frame according to claim 1, characterized in that: be equipped with blank length fixing device on the blank mounting panel, blank length fixing device includes blank fixed length plate, length adjusting bolt corresponds the setting with the bar through-hole.

5. The automatic processing production line of the fire sprinkler frame according to claim 1, characterized in that: the first procedure material moving device and the second procedure material moving device are composed of the same structural components and respectively comprise a material clamping underframe, a side mounting frame, a mounting box, an X axial driving motor, a Y axial lifting motor, a Z axial driving motor and a Z axial material clamping cylinder, and lifting screw rod driving structures are respectively arranged between the side mounting frame and the material clamping underframe; the Z-axis material clamping cylinder is arranged in the mounting box, a Z-axis sliding rail is arranged between the mounting box and the side mounting frame, and the Z-axis driving motor is in driving connection with the Z-axis sliding rail in a gear groove mode; the first procedure material moving device is connected with a transverse material clamping claw through a cylinder rod of a Z-axial material clamping cylinder of the first procedure material moving device, and the second procedure material moving device is connected with a vertical material clamping claw through a cylinder rod of a Z-axial material clamping cylinder of the second procedure material moving device.