CN217018408U

CN217018408U - Mechanical forging and pressing device integrating buffering function and automatic cooling function

Info

Publication number: CN217018408U
Application number: CN202123397268.8U
Authority: CN
Inventors: 孙佳红; 李冠春; 史红海; 王亚美; 朱建康; 杨州
Original assignee: Hubei Bodun Electromechanical Engineering Co ltd
Current assignee: Hubei Bodun Electromechanical Engineering Co ltd
Priority date: 2021-12-30
Filing date: 2021-12-30
Publication date: 2022-07-22
Anticipated expiration: 2031-12-30

Abstract

The utility model discloses a mechanical forging device integrating a buffer function and an automatic cooling function, which comprises a base, a forging platform and a support rod which are arranged at the top of the base, a top plate arranged at the top of the support rod, a cylinder assembly arranged between the top plate and the forging platform, a forging assembly and a buffer assembly, wherein the forging platform and the support rod are arranged on the top of the base; the lifting of the forging and pressing assembly is controlled by the air cylinder assembly to realize the forging and pressing molding of the part by the forging and pressing assembly; the forging and pressing assembly is provided with guide wheel assemblies, a buffer assembly consisting of an air bag, a spring and a sliding inclined seat is arranged between the guide wheel assemblies, and the guide wheel assemblies lift to push the sliding inclined seat to extrude or keep away from the air bag and the spring which are arranged between the sliding inclined seats, so that the buffer effect on the forging and pressing head is realized; through at the built-in cold water of gasbag, at gasbag bottom intercommunication expansion hose, establish the spiral trough of walking with the expansion hose intercommunication on forging and pressing head unit for when the gasbag was extruded, the automatic cooling function of forging and pressing head was realized inside cold water in the gasbag can get into forging and pressing head.

Description

Mechanical forging and pressing device integrating buffering function and automatic cooling function

Technical Field

The utility model belongs to the technical field of forging presses, and particularly relates to a mechanical forging device integrating a buffering function and an automatic cooling function.

Background

Forging press is a hydraulic pressure mechanical equipment commonly used, can be used for carrying out the forging and pressing shaping to the work piece, also can be used to correct, the pressure equipment etc., the wide application is in machine part's processing, but this kind of forging and pressing equipment of using at present, equipment damping effect is relatively poor in the course of the work, in the twinkling of an eye that forging and pressing head and part striking, the vibration range of forging and pressing head is great, influence machine part processing's precision, it is higher to lead to using the limitation, additionally, the forging and pressing head is when striking the part, partial kinetic energy can change into the internal energy of forging and pressing head, make the forging and pressing head after continuously using, its surface can have higher temperature, consequently, the processing of cooling down need be carried out to the forging and pressing head at interval, thereby influence the forging and pressing efficiency of part.

Therefore, a mechanical forging device integrating a buffering function and an automatic cooling function is urgently needed to solve the problem that after a forging head of a forging press in the prior art is continuously used, the forging head has high surface temperature and needs frequent cooling treatment to cause low forging efficiency of parts.

Disclosure of Invention

Aiming at the defects or improvement requirements in the prior art, the utility model provides a mechanical forging device integrating a buffering function and an automatic cooling function, wherein a cylinder assembly is arranged at the top of a forging platform, and the lifting of the forging assembly is controlled by the cylinder assembly to realize the forging and pressing forming of the forging assembly on parts; the guide wheel assemblies are symmetrically arranged on the forging and pressing assembly, the buffering assembly consisting of the air bag, the spring and the sliding inclined seat is arranged between the guide wheel assemblies, and the guide wheel assemblies are driven to lift by the lifting of the forging and pressing assembly so as to push the sliding inclined seats at two sides to extrude or keep away from the air bag and the spring arranged between the sliding inclined seats, so that the buffering effect on the forging and pressing head is realized, and the vibration frequency of the forging and pressing head in the forging and pressing process is reduced; cold water is filled in the air bag, the bottom of the air bag is communicated with the telescopic hose, and the forging and pressing head unit is provided with the spiral water trough communicated with the telescopic hose, so that when the air bag is extruded, the cold water in the air bag can enter the forging and pressing head to realize the automatic cooling function of the forging and pressing head; the utility model has good buffer function and continuous automatic cooling function for the forging head of the forging press; the problem of the forging head of prior art forging press after the continuous use surface temperature is higher needs frequent cooling to handle and causes part forging and pressing inefficiency can be solved.

In order to achieve the purpose, the utility model provides a mechanical forging device integrating a buffer function and an automatic cooling function, which comprises a base, a forging platform and a support rod which are arranged at the top of the base, a top plate arranged at the top of the support rod, a cylinder assembly arranged between the top plate and the forging platform, a forging assembly and a buffer assembly, wherein the forging platform and the support rod are arranged on the top of the base; wherein the content of the first and second substances,

the forging and pressing assembly comprises a connecting plate arranged on the air cylinder assembly, a guide unit arranged below the connecting plate and a forging and pressing head unit arranged at the tail end of the guide unit; the forging and pressing head unit comprises an installation seat arranged at the bottom of the guide rod and a forging and pressing head arranged at the bottom of the installation seat;

the buffer assembly is arranged between the forging head unit and the connecting plate; the buffer assembly comprises a sliding inclined seat arranged at the bottom of the connecting plate, an air bag arranged on the sliding inclined seat, a spring, a telescopic hose arranged at the bottom of the air bag and a guide wheel assembly arranged at the top of the mounting seat; the guide wheel assembly can be contacted with the sliding tilting seat when ascending and descending, and pushes the guide wheel assembly to move in a transverse range and extrude the air bag and the spring;

a plurality of spiral water channels are further formed in the forging head; one end of the telescopic hose is connected with the air bag, and the other end of the telescopic hose is communicated with the spiral water trough on the forging and pressing head; cold water is filled in the air bag; when the air bag is extruded by external force, cold water enters the spiral water trough on the forging head through the flexible hose, and the automatic cooling of the forging head is realized.

Further, the guide unit comprises a guide hole arranged on the connecting plate and a guide rod slidably mounted on the guide hole;

the guide holes are respectively arranged at four corners of the connecting plate;

and a stop block is arranged at the top of the guide rod.

Furthermore, a pair of symmetrical sliding grooves is formed in the bottom end of the connecting plate, a sliding block is connected to each sliding groove in a sliding mode, and each sliding block is fixedly connected with one sliding inclined seat; the air bag and the spring are fixed between the two sliding inclined seats.

Furthermore, at least one guide wheel assembly is arranged and symmetrically arranged on two sides of the telescopic hose at the top of the mounting seat respectively; the guide wheel assembly comprises a fixed seat fixedly arranged on the upper surface of the mounting seat and a guide wheel arranged at the top of the fixed seat through a pin shaft.

Further, the surface of the guide wheel is just contacted with the right-angled trapezoid inclined surface of the sliding inclined seat; the sliding inclined seat is horizontally pushed by the guide wheel to be kept in a certain transverse moving range.

Furthermore, the sliding inclined seat is of a hollow right-angle trapezoidal structure, a cooling groove is formed in the sliding inclined seat, a sealing door is hinged to the opening of the cooling groove, and an ice bag is filled in the cooling groove.

Furthermore, the bottom of the mounting seat is fixedly provided with a threaded ring, and the top end of the forging head is provided with a threaded connection groove which is matched and connected with the threaded ring.

Further, the cylinder assembly comprises a cylinder mounted on the lower surface of the top plate and a movable shaft fixed to an output end of the cylinder.

Further, the telescopic hose is fixed at the bottom end of the air bag; the mounting seat is further provided with a connector, the flexible hose is fixedly connected with the connector, and the connector is communicated with the spiral water trough on the forging head.

Further, the base and the top plate are arranged oppositely in parallel at intervals and form a main body frame of the forging press together with the supporting rod;

the support rods are respectively arranged at the four corners of the top of the base;

the forging and pressing platform is arranged at the center of the top of the base;

the cylinder assembly is arranged in the center of the lower surface of the top plate;

the forging and pressing component is arranged at the tail end of the cylinder component.

In general, compared with the prior art, the above technical solutions conceived by the present invention can achieve the following beneficial effects:

(1) according to the mechanical forging device integrating the buffering function and the automatic cooling function, the cylinder assembly is arranged at the top of the forging platform, and the lifting of the forging assembly is controlled through the cylinder assembly to realize the forging and pressing forming of the forging assembly on parts; the guide wheel assemblies are symmetrically arranged on the forging and pressing assembly, the buffering assembly consisting of the air bag, the spring and the sliding inclined seat is arranged between the guide wheel assemblies, and the guide wheel assemblies are driven to lift by the lifting of the forging and pressing assembly so as to push the sliding inclined seats at two sides to extrude or keep away from the air bag and the spring arranged between the sliding inclined seats, so that the buffering effect on the forging and pressing head is realized, and the vibration frequency of the forging and pressing head in the forging and pressing process is reduced; cold water is filled in the air bag, the bottom of the air bag is communicated with the telescopic hose, the forging head unit is provided with the spiral water trough communicated with the telescopic hose, so that when the air bag is extruded, the cold water in the air bag can enter the forging head to realize the automatic cooling function of the forging head, when the air bag is restored to be in a shape, the water entering the forging head can be automatically sucked back into the air bag, the ice bag is placed in the sliding inclined seat to realize the further cooling of the water sucked back in the air bag, the continuous cooling function is realized, and the service life of the forging head is prolonged; the utility model has good buffer function and continuous automatic cooling function for the forging head of the forging press; the problem of the forging head of prior art forging press after the continuous use surface temperature is higher needs frequent cooling to handle and causes part forging and pressing inefficiency can be solved.

(2) According to the mechanical forging device integrating the buffering function and the automatic cooling function, the threaded ring is fixedly installed at the bottom of the installation seat, the threaded connection groove which is matched and connected with the threaded ring is formed in the top end of the forging head, so that the threaded ring is in threaded connection with the threaded connection groove, the forging head can be maintained and replaced conveniently, the structure is simple, and the practicability is high.

Drawings

FIG. 1 is a schematic perspective view of a mechanical forging apparatus with integrated buffering and automatic cooling functions;

FIG. 2 is a schematic diagram of an internal structure of a mechanical forging apparatus integrating a buffering function and an automatic cooling function;

FIG. 3 is a schematic view of a connection structure of a mounting seat and a forging head of a mechanical forging device integrating a buffering function and an automatic cooling function;

FIG. 4 is an enlarged schematic view of the portion A of FIG. 1 of a mechanical forging apparatus integrating a buffering function and an automatic cooling function;

fig. 5 is a schematic diagram of an internal structure of a sliding tilting seat of a mechanical forging device integrating a buffering function and an automatic cooling function.

In all the figures, the same reference numerals denote the same features, in particular: 1-base, 2-forging table, 3-support rod, 4-top plate, 5-cylinder assembly, 51-cylinder, 52-moving shaft, 6-forging assembly, 61-connecting plate, 62-guide unit, 621-guide hole, 622-guide rod, 6221-stop block, 63-forging head unit, 631-mounting seat, 6311-threaded ring, 6312-connecting port, 632-forging head, 6321-threaded groove, 6322-spiral water trough, 7-buffer assembly, 71-sliding inclined seat, 711-cooling groove, 712 sealing door, 72-air bag, 73-spring, 74-telescopic hose, 75-guide wheel assembly, 751-fixing seat and 752-guide wheel.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model. In addition, the technical features involved in the respective embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, when an element is referred to as being "fixed to", "disposed on" or "provided on" another element, it may be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element; the terms "mounted," "connected," and "provided" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

As shown in fig. 1-5, the utility model provides a mechanical forging device integrating a buffer function and an automatic cooling function, which comprises a base 1, a forging table 2 and a support rod 3 arranged on the top of the base 1, a top plate 4 arranged on the top of the support rod 3, a cylinder assembly 5 arranged between the top plate 4 and the forging table 2, a forging assembly 6 and a buffer assembly 7; the forging assembly 6 comprises a connecting plate 61 arranged on the cylinder assembly 5, a guide unit 62 arranged below the connecting plate 61, and a forging head unit 63 arranged at the tail end of the guide unit 62; the buffer assembly 7 is arranged between the forging head unit 63 and the connecting plate 61; the buffer assembly 7 comprises a sliding inclined seat 71 arranged at the bottom of the connecting plate 61, an air bag 72 arranged on the sliding inclined seat 71, a spring 73, an expansion hose 74 arranged at the bottom of the air bag 72 and a guide wheel assembly 75 arranged at the top of the mounting seat 631; the cylinder assembly is arranged at the top of the forging and pressing platform, and the cylinder assembly controls the lifting of the forging and pressing assembly to realize the forging and pressing forming of the forging and pressing assembly on parts; the guide wheel assemblies are symmetrically arranged on the forging and pressing assembly, the buffering assembly consisting of the air bag, the spring and the sliding inclined seat is arranged between the guide wheel assemblies, the guide wheel assemblies are driven to lift by the lifting of the forging and pressing assembly so as to push the sliding inclined seats at two sides to extrude or keep away from the air bag and the spring arranged between the sliding inclined seats, the buffering effect on the forging and pressing head is realized, and the vibration frequency of the forging and pressing head in the forging and pressing process is reduced; cold water is filled in the air bag, the bottom of the air bag is communicated with the telescopic hose, and the forging and pressing head unit is provided with the spiral water trough communicated with the telescopic hose, so that when the air bag is extruded, the cold water in the air bag can enter the forging and pressing head to realize the automatic cooling function of the forging and pressing head; the utility model has good buffer function and continuous automatic cooling function for the forging head of the forging press; the problem of the forging head of prior art forging press after the continuous use surface temperature is higher needs frequent cooling to handle and causes part forging and pressing inefficiency can be solved.

Further, as shown in fig. 1-5, the base 1 and the top plate 4 are oppositely arranged in parallel at intervals, and form a main frame of the forging press of the utility model together with the support rod 3; the number of the support rods 3 is preferably 4, and the support rods are respectively arranged at four corners of the top of the base 1; the forging platform 2 is arranged at the center of the top of the base 1; the cylinder assembly 5 is arranged in the center of the lower surface of the top plate 4; the forging and pressing component 6 is arranged at the tail end of the cylinder component 5; the cylinder assembly 5 comprises a cylinder 51 mounted on the lower surface of the top plate 4 and a moving shaft 52 fixed on the output end of the cylinder 51; the cylinder 51 drives the movable shaft 52 to lift and further drive the forging and pressing assembly 6 to lift, so that the press forming of the forged piece is realized.

Further, as shown in fig. 1 to 5, the guiding unit 62 is used for guiding the up-and-down movement of the forging head unit 63, and includes a guiding hole 621 provided on the connecting plate 61 and a guiding rod 622 slidably mounted on the guiding hole 621; the guide holes 621 are respectively arranged at four corners of the connecting plate 61; a stop block 6221 is arranged at the top of the guide rod 622; the forging head unit 63 comprises an installation seat 631 arranged at the bottom of the guide rod 622 and a forging head 632 arranged at the bottom of the installation seat 631; a threaded ring 6311 is fixedly mounted at the bottom of the mounting seat 631, a threaded groove 6321 which is in matched connection with the threaded ring 6311 is formed at the top end of the forging head 632, and the threaded ring 6311 is in threaded connection with the threaded groove 6321, so that the forging head 632 can be conveniently repaired and replaced; a plurality of spiral water grooves 6322 are further formed inside the forging head 632 for circulating cooling water.

Further, as shown in fig. 1 to 5, a pair of symmetrical sliding grooves is formed at the bottom end of the connecting plate 61, a sliding block is respectively connected in each sliding groove in a sliding manner, and each sliding block is fixedly connected with one sliding inclined seat 71; the air bag 72 and the spring 73 are fixed between the two sliding inclined seats 71 and used for buffering the stress of the forging head 632; the flexible hose 74 is fixed at the bottom end of the air bag 72; the end of the telescopic hose 74 far away from the air bag 72 is fixed on the mounting seat 72; a connecting port 6312 is further formed in the mounting seat 631, and the connecting port 721 is communicated with a spiral water trough 6322 on the forging head 632; one end of the flexible hose 74 is connected with the air bag 72, and the other end of the flexible hose is fixedly connected with the connecting port 721 and is communicated with the spiral water trough 6322 on the forging head 632; the air bag 72 is filled with cold water, and when the air bag 72 is extruded by an external force, the cold water enters the spiral water trough 6322 on the forging head 632 through the flexible hose 74 under the extrusion action, so that the automatic cooling function of the forging head 632 is realized.

Further, as shown in fig. 1 to 5, the sliding inclined seat 71 is a hollow right-angled trapezoid structure, a cooling groove 711 is provided inside the sliding inclined seat, a sealing door 712 is hinged at a notch of the cooling groove 711, and an ice bag is filled in the cooling groove 711 and used for further cooling the cold water in the air bag 72, so that the cold water in the air bag 72 can realize a continuous cooling function; at least 2 guide wheel assemblies 75 are arranged and symmetrically arranged at the top of the mounting seat 631 and on two sides of the telescopic hose 74 respectively; the guide wheel assembly 75 comprises a fixed seat 751 fixedly mounted on the upper surface of the mounting seat 631 and a guide wheel 752 mounted on the top of the fixed seat 751 through a pin shaft; the surface of the guide wheel 752 is just in contact with the right-angled trapezoidal inclined surface of the sliding inclined seat 71; the slide tilting seat 71 is horizontally moved by the guide wheels 752 to be maintained within a certain lateral movement range.

The utility model provides a mechanical forging device integrating a buffering function and an automatic cooling function, which has the working principle that: when the forging and pressing device is used, a part to be forged is placed on the forging and pressing table 2, then the air cylinder 51 is started to drive the movable shaft 52 to move up and down, and further drive the connecting plate 61, the mounting seat 631, the forging and pressing head 632 and other components to reciprocate up and down, so that the part is subjected to impact forming by the forging and pressing head 632; when the forging head 632 impacts a part to move upwards, the guide wheels 752 are driven to move upwards, so that the guide wheels on two sides of the telescopic hose extrude the inclined surfaces of the two sliding inclined seats 71 to push the two sliding inclined seats 71 to move towards the direction close to each other, and further the two sliding inclined seats 71 extrude the air bag 72 and the spring 73 arranged between the two sliding inclined seats, the forging head 632 is buffered under the self elastic force action of the air bag 72 and the spring 73, the vibration frequency of the forging head at the moment of impact with the forged part is reduced, the use stability of the forging head 632 is further ensured, and the forging precision of the part is improved; when the air bag 72 is extruded by the sliding inclined seats 71 on the two sides, cold water in the air bag can enter the spiral water trough 6322 inside the forging head 632 through the telescopic hose connected below the air bag to absorb heat inside the forging head 632, so that the automatic cooling function of the forging head 632 is realized, and the service time of the forging head 632 is further delayed; when the forging press head 632 impacts a part to move downwards to drive the guide wheel 752 to move downwards, the two sliding inclined seats 71 are gradually separated from the guide wheel to transversely push the guide wheel, the air bag 72 gradually restores to the original shape, and water in the spiral water trough 6322 is sucked back into the air bag 72; the ice bag in the sliding inclined seat 71 further cools the water in the air bag 72, so that the water in the air bag 72 continuously realizes the cooling function; the forging head can be buffered through the air cylinder and the spring, the vibration frequency of the forging head in the forging process is reduced, and meanwhile, when the air bag is extruded, cold water in the air bag can enter the forging head, so that the automatic cooling function of the forging head is realized, and the service life of the forging head is prolonged. The utility model has the characteristics of good buffer and automatic temperature reduction of the forging head.

It will be understood by those skilled in the art that the foregoing is only a preferred embodiment of the present invention, and is not intended to limit the utility model, and that any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. The utility model provides a collect buffer function and automatic cooling function machinery forging and pressing device as an organic whole which characterized in that: the forging and pressing device comprises a base (1), a forging and pressing platform (2) and a supporting rod (3) which are arranged on the top of the base (1), a top plate (4) which is arranged on the top of the supporting rod (3), a cylinder assembly (5) which is arranged between the top plate (4) and the forging and pressing platform (2), a forging and pressing assembly (6) and a buffer assembly (7); wherein, the first and the second end of the pipe are connected with each other,

the forging and pressing assembly (6) comprises a connecting plate (61) arranged on the cylinder assembly (5), a guide unit (62) arranged below the connecting plate (61), and a forging and pressing head unit (63) arranged at the tail end of the guide unit (62); the forging head unit (63) comprises an installation seat (631) arranged at the bottom of the guide rod (622) and a forging head (632) arranged at the bottom of the installation seat (631);

the buffer assembly (7) is arranged between the forging head unit (63) and the connecting plate (61); the buffer assembly (7) comprises a sliding inclined seat (71) arranged at the bottom of the connecting plate (61), an air bag (72) arranged on the sliding inclined seat (71), a spring (73), a telescopic hose (74) arranged at the bottom of the air bag (72) and a guide wheel assembly (75) arranged at the top of the mounting seat (631); the guide wheel assembly (75) can be contacted with the sliding inclined seat (71) when ascending and descending, and pushes the guide wheel assembly to move in a transverse range and press the air bag (72) and the spring (73);

a plurality of spiral water grooves (6322) are formed in the forging head (632); one end of the telescopic hose (74) is connected with the air bag (72), and the other end of the telescopic hose is communicated with a spiral water trough (6322) on the forging and pressing head (632); the inside of the air bag (72) is filled with cold water; when the air bag (72) is extruded by external force, cold water enters the spiral water trough (6322) on the forging head (632) through the telescopic hose (74), and the automatic cooling of the forging head (632) is realized.

2. The mechanical forging device integrating the buffering function and the automatic cooling function as a whole as claimed in claim 1, wherein: the guide unit (62) comprises a guide hole (621) arranged on the connecting plate (61) and a guide rod (622) slidably mounted on the guide hole (621);

the guide holes (621) are respectively arranged at four corners of the connecting plate (61);

the top of the guide rod (622) is provided with a stop block (6221).

3. The mechanical forging device integrating the buffering function and the automatic cooling function as a whole as claimed in claim 2, wherein: a pair of symmetrical sliding grooves is formed in the bottom end of the connecting plate (61), a sliding block is connected to each sliding groove in a sliding mode, and each sliding block is fixedly connected with one sliding inclined seat (71); the air bag (72) and the spring (73) are fixed between the two sliding inclined seats (71).

4. The mechanical forging device integrating the buffering function and the automatic cooling function as a whole according to any one of claims 1 to 3, wherein: at least 2 guide wheel assemblies (75) are symmetrically arranged at the top of the mounting seat (631) and on two sides of the telescopic hose (74); the guide wheel assembly (75) comprises a fixed seat (751) fixedly mounted on the upper surface of the mounting seat (631) and a guide wheel (752) mounted on the top of the fixed seat (751) through a pin shaft.

5. The mechanical forging device integrating the buffering function and the automatic cooling function as a whole as claimed in claim 4, wherein: the surface of the guide wheel (752) is just in contact with the right-angled trapezoidal inclined surface of the sliding inclined seat (71); the sliding inclined seat (71) is horizontally pushed by the guide wheel (752) to keep the sliding inclined seat in a certain transverse moving range.

6. The mechanical forging device integrating the buffering function and the automatic cooling function as one body as claimed in any one of claims 1 to 3, wherein: the sliding inclined seat (71) is of a hollow right-angle trapezoidal structure, a cooling groove (711) is formed in the sliding inclined seat, a sealing door (712) is hinged to the opening of the cooling groove (711), and an ice bag is filled in the cooling groove (711).

7. The mechanical forging device integrating the buffering function and the automatic cooling function as a whole according to any one of claims 1 to 3 or 5, wherein: the bottom of mount pad (631) is fixed with screw ring (6311), the top of forging head (632) is seted up with screw that screw ring (6311) matches is connected connects groove (6321).

8. The mechanical forging device integrating the buffering function and the automatic cooling function as one body as claimed in any one of claims 1 to 3, wherein: the air cylinder assembly (5) comprises an air cylinder (51) arranged on the lower surface of the top plate (4) and a moving shaft (52) fixed at the output end of the air cylinder (51).

9. The mechanical forging device integrating the buffering function and the automatic cooling function as one body as claimed in any one of claims 1 to 3, wherein: the telescopic hose (74) is fixed at the bottom end of the air bag (72); a connecting port (6312) is further formed in the mounting seat (631), the telescopic hose (74) is fixedly connected with the connecting port (6312), and the connecting port (6312) is communicated with a spiral water trough (6322) in the forging and pressing head (632).

10. The mechanical forging device integrating the buffering function and the automatic cooling function as one body as claimed in any one of claims 1 to 3, wherein: the base (1) and the top plate (4) are arranged oppositely in parallel at intervals and form a main body frame of the forging press together with the supporting rod (3);

the support rods (3) are respectively arranged at the four corners of the top of the base (1);

the forging platform (2) is arranged at the center of the top of the base (1);

the cylinder assembly (5) is arranged in the center of the lower surface of the top plate (4);

the forging assembly (6) is arranged at the tail end of the cylinder assembly (5).