CN116967394A

CN116967394A - Spray mechanism of roll forging machine

Info

Publication number: CN116967394A
Application number: CN202310762611.9A
Authority: CN
Inventors: 吴江; 顾勇亭; 高磊; 王子孝; 俞冠豪; 黄元武; 杨象勇; ***; 陈俊雷; 邹晓杰; 吴祖心缘; 宋凯强; 王雅军; 熊永森; 郭伟
Original assignee: Zhejiang Wanliyang Precision Manufacturing Co ltd; Zhejiang Wanliyang New Energy Drive Co ltd Hangzhou Branch
Current assignee: Zhejiang Wanliyang Precision Manufacturing Co ltd; Zhejiang Wanliyang New Energy Drive Co ltd Hangzhou Branch
Priority date: 2023-06-27
Filing date: 2023-06-27
Publication date: 2023-10-31

Abstract

The invention discloses a spray mechanism of a roll forging machine, and relates to the technical field of metal cooling. The invention comprises a spray header, wherein the spray header can adjust the distance between a spray pipe and an object to be processed in the working process, so as to control the spraying action range and avoid waste caused by liquid spraying to the outside. Meanwhile, the water body rotates around the screw thread to form rotational flow, so that the application range of cooling water spraying is enlarged, the impact capacity of the cooling water is improved, impurities on the surface of a workpiece are taken away, and the local overheating of the surface of the workpiece is avoided; simultaneously still be provided with the auxiliary rod, the auxiliary rod can drive rotary drum and axis of rotation and rotate in the lump, can prevent simultaneously that the piece from piling up on the rotary drum wall, has solved piece and has piled up and lead to the problem that flowing back efficiency reduces.

Description

Spray mechanism of roll forging machine

Technical Field

The invention belongs to the technical field of metal cooling, and particularly relates to a spray mechanism of a roll forging machine.

Background

The quality of the die directly influences the quality of the pressure processing technology, the precision yield and the production cost of products, and the quality and the service life of the die are mainly influenced by the die materials and the heat treatment except by reasonable structural design and processing precision, so that the existing cooling device on the market has the defects of single cooling structure and incomplete cooling.

The prior art provides a solution, see patent US8434338B2, which provides a guiding element in which two openings are provided, in which openings and the conveying direction are arranged injection elements adjacent to each other, which injection elements form an angle with the conveying direction of the material, whereby an improved injection angle is achieved. However, the present invention still has a problem that the cooling coverage area is small and the cooling effect cannot be dynamically adjusted, and the inventors consider that there is still a great room for improvement.

Disclosure of Invention

In order to realize comprehensive cooling water coverage and improve the action effect of the cooling water, the problem of pollution caused by recycling the cooling waste liquid can be solved well. The invention provides a spray mechanism of a roll forging machine, which comprises: the roll forging machine comprises a feeding assembly for rotating a mechanical arm of the roll forging machine and a forming assembly for plastic deformation of materials, wherein a spraying assembly is arranged at the top of the feeding assembly and comprises a water tank, one side of the water tank is connected with a cooling bin, a water outlet bin is connected below the cooling bin, a plurality of holes are distributed in an array on the water outlet bin, and a spray header is installed in the holes in a matched mode.

According to the invention, one end of the water tank is connected with the water supply device arranged outside, so that the water interruption of the spray assembly in the working process is avoided, part of supplied water is left in the water tank, the other part of supplied water is supplied into the cooling bin by the water tank, when the water in the cooling bin is less than a certain capacity, the water tank continuously supplies water into the cooling bin, the cooling water in the cooling bin further flows into the water outlet bin, the side surface of the water outlet bin is provided with the protruding shaft body, and the shaft body can be clamped with the inner wall of the shell cover, so that the cooling bin has a fixing effect. Meanwhile, as the aperture of the spray header is smaller, a large amount of cooling water is prevented from being sprayed out at one time, and the cooling water is always filled in the water outlet bin.

In the invention, the outer side of the feeding component is sleeved with a shell cover, the shell cover is arranged at the upper end of the feeding component, and two sides of the shell cover are provided with a baffle plate for blocking liquid from sputtering.

In the invention, one side of the cooling bin is also provided with the condensing tube, the spray header comprises a spray tube, the side surface of the spray tube is provided with a groove, the groove is matched with a ring buckle arranged on the inner wall of the water outlet bin, one end of the spray tube is circumferentially provided with a plurality of spray holes, the other end of the spray tube is provided with a rotating shaft, the rotating shaft is circumferentially provided with threads, the outer side of the threads is provided with a protective shell in a matched manner, and one end of the protective shell is provided with a diversion pipeline.

Further, cooling water flows into the spray header through the flow guide pipeline, a plurality of pipelines are arranged in the spray header, so that the cooling water is sprayed out from a plurality of spray holes, and the flow speed of the water flow can be further increased due to the fact that the radius of the water flow passing through the pipelines is suddenly reduced, and the impact capacity of the cooling water body is improved.

Further, the inner wall of the protective casing is provided with a buckle, the buckle is abutted with the rotating shaft, one end of the rotating shaft is provided with a first spring, and one end of the first spring is fixedly connected with the inner wall of the protective casing. In the actual working process, the spray header is vertically downwards placed, water flows out of the pipelines, the spray header is pushed to downwards displace, by means of threads arranged on the rotating shaft, a rotational flow is easy to form when water flows through a narrow passageway of the threads and the inner wall of the protective housing, the first spring stretches when the water pressure is high, meanwhile, the movement range of the spray pipe is limited by the buckle butt threads, and the first spring is prevented from being excessively stretched to cause failure. And because the water pressure is large, a large amount of water can be sprayed to the surface of the workpiece from the spray holes, so that atomization of spray liquid is avoided, and the possibility of damage to the body caused by the fact that a worker sucks a large amount of mist is reduced. When the spray header works, the distance between the spray pipe and an object to be processed is reduced by downward displacement of the spray pipe, the rotational flow cooling water sprayed in the spray pipe flies when impacting the surface of the workpiece, the action range of the cooling water is enlarged, meanwhile, the effective action range of the spray pipe is controlled by the first spring and the buckle, and waste caused by spraying the cooling water outside the workpiece can be reduced. Meanwhile, the impact capacity of the water body sprayed by rotation is enhanced, so that impurities on the surface of a workpiece can be effectively removed, and the problem of local overheating of the surface of the workpiece is avoided.

The invention discloses a sewage collecting assembly arranged between a feeding assembly and a forming assembly, wherein the sewage collecting assembly is arranged below a material to be processed and comprises a first box body and a separation box body, the separation box body is arranged below the first box body, a first discharge hole is arranged on the side surface of the first box body, a filter screen is arranged on the inner side of the first box body, a rotary drum is arranged below the filter screen, the rotary drum is arranged in the separation box body, and the bottom of the rotary drum is connected with an output shaft of a motor.

Further, the cooling water after cleaning drops into the dirt collecting assembly, wherein the sundries with larger volume in the sewage can be blocked by the filter screen which is obliquely arranged and slide out from the first discharge hole, and the rest sewage falls into the rotary drum for further treatment.

According to the invention, the separation box body is internally provided with the separation plate, the rotary drum is arranged above the separation plate, the motor is arranged below the separation plate, one side of the motor is provided with the purification area, the plate body vertically arranged below the oil separation plate of the purification area is separated and formed, the surface of the separation plate is provided with a plurality of filtering holes, the filtering holes are arranged above the purification area, and one side of the purification area is provided with the second discharge hole.

According to the invention, the top of the rotary drum is opened, the bottom of the rotary drum is closed and is abutted against the surface of the partition plate, the rotary drum comprises a connecting rod arranged at the top of the rotary drum, an auxiliary rod vertically arranged is connected to the connecting rod, the connecting rod is fixedly connected with a stirring shaft, stirring blades are circumferentially arranged on the stirring shaft, and the stirring blades are not contacted with the auxiliary rod.

Further, the motor rotates to drive the rotary drum to work, fine scraps in the waste liquid can be further separated by the rotation of the rotary drum, the separated waste liquid can flow out from the small opening on the side surface and enter the purifying area through the filtering holes arranged above the purifying area, meanwhile, purifying substances such as activated carbon and the like are placed in the purifying area for further treatment of the waste liquid, and the waste water after the precipitation treatment is discharged from the second discharge opening.

According to the invention, the auxiliary rod comprises a first rod body, a first rod sleeve is sleeved above the first rod body, a first ring piece is sleeved outside the first rod body, the first ring piece is arranged inside the first rod sleeve, second springs are arranged on the upper surface and the lower surface of the first ring piece, one end of each second spring is fixedly connected with the inner wall of the first rod sleeve, a second rod sleeve is sleeved below the first rod body, a second ring piece coaxial with the first ring piece is arranged in each second rod sleeve, third springs are connected to the upper surface and the lower surface of each second ring piece, an annular fixing plate body extending towards the axis is arranged in each second rod sleeve, and the other end of each third spring is connected with a fixing plate body.

Further, the auxiliary rod is connected with connecting rod and rotary drum bottom from top to bottom respectively, and wherein first pole cover is used for being connected with the connecting rod, and the second pole cover is used for being connected with the rotary drum bottom, has improved the connection stability between (mixing) shaft and the rotary drum, has ensured the axiality that the (mixing) shaft drove the rotary drum rotation, has solved the rotatory in-process problem of rocking of rotary drum, and first ring piece, second ring piece are used for prescribing a limit to the position of first body of rod simultaneously, avoid its skew.

Further, setting up the distribution that the auxiliary rod can break up rotary drum rotation in-process and throw out the piece, avoid the piece to pile up at rotary drum inner wall surface, shake that the shake that takes place through second spring, the third spring that sets up on the auxiliary rod on the rotary process simultaneously will pile up at the auxiliary rod surface trembles off, has avoided the piece to gather near the rotary drum inner wall and has led to the problem that flowing back efficiency reduces. Meanwhile, vibration generated in the rotation process of the rotary drum is consumed by the aid of the shaking second spring and the shaking third spring, and severe shaking of the rotary drum in the rotation process is avoided.

Compared with the prior art, the invention has the following technical effects: the spray header can adjust the distance between the spray pipe and the object to be processed in the working process, so that the spraying action range is controlled, and waste caused by liquid spraying outside is avoided. Meanwhile, the water body rotates around the screw thread to form rotational flow, so that the application range of cooling water spraying is enlarged, the impact capacity of the cooling water is improved, impurities on the surface of a workpiece are taken away, and the local overheating of the surface of the workpiece is avoided; the auxiliary rod can drive the rotary drum and rotate in the same time with the axis of rotation, can prevent simultaneously that the piece from piling up on the rotary drum wall, has solved the piece and has piled up and lead to the problem that flowing back efficiency reduces, in addition, is provided with the second in the auxiliary rod, the third spring can further consume the centrifugal force that the rotary drum rotated and produced through self shake, avoids the rotary drum to take place violently shake in the course of the work.

Drawings

Fig. 1 is a schematic diagram of the actual production structure of a roll forging machine according to the present invention;

FIG. 2 is a schematic diagram of a roll forging machine with the shells removed according to the present invention;

FIG. 3 is a schematic view of a spray assembly according to the present invention;

FIG. 4 is a schematic view of a showerhead according to the present invention;

FIG. 5 is a schematic diagram of a cross-sectional structure of a showerhead according to the present invention;

FIG. 6 is a schematic view of a dirt collecting assembly according to the present invention;

FIG. 7 is a schematic cross-sectional view of a dirt collecting assembly according to the present invention;

FIG. 8 is a schematic view of a drum construction in accordance with the present invention;

fig. 9 is a schematic view of the auxiliary lever structure according to the present invention.

Reference numerals illustrate: 10-a roll forging machine; 11-a feeding assembly; 12-forming an assembly; 20-spraying assembly; 21-a condenser tube; 22-a water outlet bin; 23-spraying heads; 231-nozzle; 232-spraying holes; 233-a rotation shaft; 234-threads; 235-a protective housing; 236-diversion conduit; 237-snap; 238-a first spring; 24-water tank; 25-cooling bin; 30-a dirt collection assembly; 31-a first discharge port; 32-a filter screen; 33-a first box; 34-separating the box body; 35-a drum; 351-connecting rods; 352-stirring shaft; 353-stirring blades; 354-dividing plate; 355-motor; 36-auxiliary bar; 361-a first sleeve; 362-a first ring segment; 363-a second spring; 364-first stick body; 365-second sleeve; 366-second ring segment; 367-a third spring; 368-fixing the plate body; 40-a shell cover.

Detailed Description

Example 1:

referring to figures 1,2 and 3 of the drawings, the present invention provides a spray mechanism for a roll forging machine, the mechanism comprising: the roll forging machine 10, the roll forging machine 10 is including the feeding subassembly 11 that is used for rotating roll forging machine manipulator and the shaping subassembly 12 of material plastic deformation, and spray subassembly 20 is installed at feeding subassembly 11 top, and spray subassembly 20 includes water tank 24, and water tank 24 one side is connected with cooling storehouse 25, and cooling storehouse 25 below is connected with out water storehouse 22, and a plurality of holes are laid to the array on out water storehouse 22, and the cooperation is installed in this hole shower head 23.

Referring to fig. 3, in the invention, one end of the water tank 24 is connected with an externally provided water supply device, so that the water interruption of the spray assembly 20 in the working process is avoided, one part of the supplied water is left in the water tank 24, the other part of the supplied water is supplied into the cooling bin 25 by the water tank 24, when the water in the cooling bin 25 is less than a certain capacity, the water tank 24 continuously supplies water into the cooling bin 25, the cooling water in the cooling bin 25 further flows into the water outlet bin 22, a protruding shaft body is arranged on the side surface of the water outlet bin 22 and can be clamped with the inner wall of the shell cover 40, and the fixing function is achieved. Meanwhile, due to the small aperture of the spray header 23, a large amount of cooling water is prevented from being sprayed at one time, and the water outlet bin 22 is ensured to be always filled with the cooling water.

In the invention, a shell cover 40 is sleeved outside the feeding component 11, the shell cover 40 is arranged at the upper end of the feeding component 11, and two sides of the shell cover 40 are provided with a baffle plate for blocking liquid from sputtering.

Referring to fig. 3 and 4, in the present invention, a condensation pipe 21 is further disposed at one side of a cooling bin 25, a spray header 23 includes a spray pipe 231, a groove is disposed at a side surface of the spray pipe 231, the groove is matched with a ring buckle disposed on an inner wall of a water outlet bin 22, a plurality of spray holes 232 are disposed around one end of the spray pipe 231, a rotation shaft 233 is disposed around the other end of the spray pipe 231, a thread 234 is disposed around the rotation shaft 233, a protective casing 235 is disposed outside the thread 234 in a matched manner, and a diversion pipeline 236 is disposed at one end of the protective casing 235.

Further, the cooling water flows into the spray header 23 through the flow guide pipeline 236, and a plurality of pipelines are arranged in the spray header 23, so that the cooling water is sprayed out from the plurality of spray holes 232, and the flow velocity of the water flow can be further increased due to the sudden reduction of the radius of the water flow through the pipelines, and the impact capacity of the cooling water body is improved.

Referring to fig. 4 and 5, further, a buckle 237 is disposed on the inner wall of the protective casing 235, the buckle 237 abuts against the rotating shaft 233, a first spring 238 is disposed on one end of the rotating shaft 233, and one end of the first spring 238 is fixedly connected to the inner wall of the protective casing 235. In the actual working process, the spray header 23 is vertically downwards placed, water flows out of a plurality of pipelines, the spray header 23 is pushed to downwards displace, by means of the threads 234 arranged on the rotating shaft 233, a rotational flow is easy to form when water flows through a narrow passageway on the inner wall of the threaded 234 and the protective shell 235, the first spring 238 stretches when the water pressure is high, meanwhile, the movement range of the spray pipe 231 is limited by the abutting threads 234 of the buckle 237, and the first spring 238 is prevented from being excessively stretched to cause failure. And because the water pressure is great, a large amount of water can be sprayed to the surface of the workpiece from the spray holes 232, so that atomization of spray liquid is avoided, and the possibility of damage to the body caused by the fact that a worker sucks a large amount of mist is reduced. When the spray header 23 works, the distance between the spray header 231 and an object to be processed is reduced by downward displacement of the spray header 231, the rotational flow cooling water sprayed in the spray header 231 is scattered when impacting the surface of the workpiece, the action range of the cooling water is enlarged, meanwhile, the effective action range of the spray header 231 is controlled by the first spring 238 and the buckle 237, and waste caused by spraying of the cooling water outside the workpiece can be reduced. Meanwhile, the impact capacity of the water body sprayed by rotation is enhanced, so that impurities on the surface of a workpiece can be effectively removed, and the problem of local overheating of the surface of the workpiece is avoided.

Example 2:

the difference between this embodiment and embodiment 1 is that, referring to fig. 2 and 6, a dirt collecting assembly 30 is disposed between a feeding assembly 11 and a forming assembly 12, the dirt collecting assembly 30 is disposed below a material to be processed, the dirt collecting assembly 30 includes a first box 33 and a separating box 34, the separating box 34 is disposed below the first box 33, a first discharge port 31 is disposed on a side surface of the first box 33, a filter screen 32 is disposed inside the first box 33, a rotary drum 35 is disposed below the filter screen 32, the rotary drum 35 is disposed in the separating box 34, and an output shaft of a motor 355 is connected to a bottom of the rotary drum 35.

Further, referring to fig. 6 and 7, the cleaned cooling water drops into the dirt collecting assembly 30, wherein the impurities with larger volume in the sewage can be blocked by the obliquely arranged filter screen 32 and slide out from the first discharging hole 31, and the rest of the sewage falls into the rotary drum 35 for further treatment, and it is worth mentioning that the separation box 34 and the first box 33 can be mutually detached for cleaning the scraps in the rotary drum 35.

Referring to fig. 7, in the present invention, a partition plate 354 is disposed in the separation tank 34, the drum 35 is disposed above the partition plate 354, a motor 355 is disposed below the partition plate 354, a purifying area 38 is disposed on one side of the motor 355, the partition plate is formed by separating the vertically disposed plates below the oil partition plate 354 in the purifying area 38, a plurality of filtering holes 37 are formed in the surface of the partition plate 354, the filtering holes 37 are disposed above the purifying area 38, and a second discharge port 39 is disposed on one side of the purifying area 38.

Referring to fig. 8, in the present invention, the top of the drum 35 is opened, the bottom of the drum 35 is closed and abuts against the surface of the partition plate 354, the drum 35 includes a connection rod 351, one end of the connection rod 351 is connected to an auxiliary rod 36 which is vertically placed, one end of the connection rod 351 is fixedly connected to a stirring shaft 352, stirring blades 353 are circumferentially arranged on the stirring shaft 352, and the stirring blades 353 are not in contact with the auxiliary rod 36.

Further, the motor 355 rotates to drive the drum 35 to work, so that the drum 35 rotates to further separate fine scraps in the waste liquid, the separated waste liquid can flow out from the small opening on the side surface and enter the purifying area 38 through the filtering holes 37 arranged above the purifying area 38, meanwhile, purified matters such as activated carbon and the like are placed in the purifying area 38 for further treatment of the waste liquid, and the waste water after precipitation treatment is discharged from the second discharge hole 39.

Referring to fig. 9, in the present invention, the auxiliary rod 36 includes a first rod body 364, a first rod sleeve 361 is sleeved above the first rod body 364, a first ring piece 362 is sleeved outside the first rod body 364, the first ring piece 362 is disposed inside the first rod sleeve 361, a second spring 363 is disposed on both upper and lower surfaces of the first ring piece 362, one end of the second spring 363 is fixedly connected with an inner wall of the first rod sleeve 361, a second rod sleeve 365 is sleeved below the first rod body 364, a second ring piece 366 coaxial with the first ring piece 362 is disposed in the second rod sleeve 365, third springs 367 are connected to upper and lower surfaces of the second ring piece 366, an annular fixing plate 368 extending toward the axis is disposed in the second rod sleeve 365, and the other end of the third spring 367 is connected with the fixing plate 368.

Further, the auxiliary rod 36 is connected with the connecting rod 351 and the bottom of the drum 35 from top to bottom respectively, wherein the first rod sleeve 361 is used for being connected with the connecting rod 351, the second rod sleeve 365 is used for being connected with the bottom of the drum 35, connection stability between the stirring shaft 352 and the drum 35 is improved, coaxiality of the stirring shaft 352 driving the drum 35 to rotate is ensured, the problem of shaking in the rotating process of the drum 35 is solved, and meanwhile, the first ring piece 362 and the second ring piece 366 are used for limiting the position of the first rod body 364 to avoid offset.

Further, the arrangement of the auxiliary rod 36 can disturb the distribution of the scattered scraps in the rotation process of the rotary drum 35, the scraps are prevented from accumulating on the surface of the inner wall of the rotary drum 35, and meanwhile, the scraps accumulated on the surface of the auxiliary rod 36 are shaken off through shaking of the second spring 363 and the third spring 367 arranged on the auxiliary rod 36 in the rotation process, so that the problem that the scraps accumulate near the inner wall of the rotary drum 35 to reduce the liquid discharge efficiency is avoided. Meanwhile, vibration generated in the rotation process of the rotary drum 35 is consumed by the second spring 363 and the third spring 367 which shake, so that the rotary drum 35 is prevented from shaking violently in the rotation process.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

Claims

1. A roll forging machine spray mechanism comprising: the roll forging machine (10), roll forging machine (10) are including feeding subassembly (11) and material plastic deformation's shaping subassembly (12) that are used for rotating roll forging machine manipulator, spray subassembly (20) are installed at feeding subassembly (11) top, a serial communication port, spray subassembly (20) include water tank (24), water tank (24) one side is connected with cooling bin (25), cooling bin (25) below is connected with play water bin (22), a plurality of holes are laid to the array on play water bin (22), and shower head (23) are installed to this hole interior cooperation.

2. The spray mechanism of the roll forging machine according to claim 1, wherein a shell cover (40) is sleeved outside the feeding assembly (11), the shell cover (40) is arranged at the upper end of the feeding assembly (11), and partition plates for blocking liquid sputtering are arranged on two sides of the shell cover (40).

3. The spray mechanism of a roll forging machine according to claim 1, wherein a condensing tube (21) is further arranged on one side of the cooling bin (25), the spray header (23) comprises a spray pipe (231), a groove is formed in the side face of the spray pipe (231), a plurality of spray holes (232) are circumferentially arranged at one end of the spray pipe (231), a rotating shaft (233) is arranged at the other end of the spray pipe (231), threads (234) are circumferentially arranged on the rotating shaft (233), a protective casing (235) is arranged on the outer side of the threads (234) in a matched mode, and a diversion pipeline (236) is arranged at one end of the protective casing (235).

4. A spray mechanism for a roll forging machine as recited in claim 3, wherein said inner wall of said protective housing (235) is provided with a buckle (237), said buckle (237) being abutted against said rotary shaft (233), one end of said rotary shaft (233) being provided with a first spring (238), one end of said first spring (238) being fixedly connected to the inner wall of said protective housing (235).

5. The spray mechanism of a roll forging machine according to claim 1, wherein a dirt collecting assembly (30) is arranged between the feeding assembly (11) and the forming assembly (12), the dirt collecting assembly (30) is arranged below a material to be processed, the dirt collecting assembly (30) comprises a first box body (33) and a separation box body (34), the separation box body (34) is arranged below the first box body (33), a first discharge hole (31) is formed in the side face of the first box body (33), a filter screen (32) is arranged in the first box body (33), a rotary drum (35) is arranged below the filter screen (32), the rotary drum (35) is arranged in the separation box body (34), and the bottom of the rotary drum (35) is connected with an output shaft of a motor (355).

6. The spray mechanism of a roll forging machine according to claim 5, wherein a separation plate (354) is arranged in the separation box (34), the rotary drum (35) is arranged above the separation plate (354), a motor (355) is arranged below the separation plate (354), a purifying area (38) is arranged on one side of the motor (355), the purifying area (38) is formed by separating the plate bodies vertically arranged below the separation plate (354), a plurality of filter holes (37) are formed in the surface of the separation plate (354), the filter holes (37) are arranged above the purifying area (38), and a second discharge hole (39) is formed on one side of the purifying area (38).

7. The spray mechanism of a roll forging machine as recited in claim 6, wherein the top opening of the drum (35) is designed, the bottom of the drum (35) is closed and abuts against the surface of the partition plate (354), the drum (35) comprises a connecting rod (351) arranged at the top of the drum (35), an auxiliary rod (36) vertically arranged is connected to the connecting rod (351), the connecting rod (351) is fixedly connected to a stirring shaft (352), stirring blades (353) are arranged on the stirring shaft (352) in a surrounding manner, and the stirring blades (353) are not contacted with the auxiliary rod (36).

8. The spray mechanism of a roll forging machine according to claim 7, wherein the auxiliary rod (36) comprises a first rod body (364), a first rod sleeve (361) is sleeved above the first rod body (364), a first ring piece (362) is sleeved outside the first rod body (364), the first ring piece (362) is arranged inside the first rod sleeve (361), second springs (363) are arranged on the upper surface and the lower surface of the first ring piece (362), one end of each second spring (363) is fixedly connected with the inner wall of the first rod sleeve (361), a second rod sleeve (365) is sleeved below the first rod body (364), a second ring piece (366) coaxial with the first ring piece (362) is arranged in the second rod sleeve (365), third springs (367) are connected to the upper surface and the lower surface of each second ring piece (366), annular fixing plates (368) extending towards the axle center are arranged in the second rod sleeve (365), and the other end of each third spring (367) is connected with the fixing plates (368).