CN207887818U - A kind of warm forming machine of intelligence feeding - Google Patents

Abstract

The utility model discloses a kind of warm forming machines of intelligent feeding, and the warm forming machine of the intelligence feeding includes transmission mechanism, the feeding mechanism positioned at transmission mechanism section start, the heater box in the transmission path positioned at transmission mechanism and the forging and pressing mechanism positioned at transmission mechanism end；The transmission mechanism includes chain group, infrared radiation thermometer is equipped between the heater box and forging and pressing mechanism, infrared radiation thermometer includes the probe of processor and the part between heater box and forging and pressing mechanism towards transmission mechanism；The first cylinder controlled by processor is connected on processor, the first blend stop is hinged on the piston rod of first cylinder, first blend stop is hinged on the side of chain group, and the piston rod of the first cylinder drives the first blend stop to rotate and stops that workpiece continues to transmit to forging and pressing mechanism when stretching out.The utility model has the advantages that transmit that workpiece, workpiece transmission control mode is various, can detect to heat underproof workpiece and be isolated out automatically.

Description

A kind of warm forming machine of intelligence feeding

Technical field

The utility model is related to field of machining, more particularly to a kind of warm forming machine of intelligent feeding.

Background technology

Warm forming machine refers to using the methods of hammering, and the metal material more than recrystallization temperature is made to generate plastic deformation, to A kind of pressure processing machine for obtaining the workpiece with definite shape, size and interior tissue can not only obtain one by hot forging Fixed form of metal, and the interior tissue of metal can be improved, improve the mechanical property and physical property of metal.

Authorization Notice No. is that the Chinese patent of CN204194706U discloses a kind of warm forming machine, including body, is set on body The sliding block for having workbench and being driven by belt wheel is additionally provided with two root posts, the cunning between the body top and workbench Block is mounted on column, and sliding block lower end is equipped with forging and stamping head, and the workbench is equipped with mold, and the mold is solid by screw Fixed the mold is located at the underface of forging and stamping head on the table, and the side of the workbench is additionally provided with sparge pipe and cold But oil pipe.

It is in place of the deficiencies in the prior art, workpiece is heated, be there may come a time when before carrying out hot forging pressure to workpiece Since the workpiece that heating equipment heats simultaneously is more, causes workpiece to be also not heated to recrystallization temperature or more and is just forged and pressed, The shape and performance of the workpiece of forging and stamping out in this way are often underproof.

Utility model content

The purpose of this utility model is to provide a kind of warm forming machine of intelligent feeding, has automatic detection and separation temperature does not conform to The function of the workpiece of lattice.

The above-mentioned technical purpose of the utility model technical scheme is that：

It is a kind of intelligence feeding warm forming machine, including transmission mechanism, positioned at transmission mechanism section start feeding mechanism, be located at pass Heater box in the transmission path of transfer mechanism and the forging and pressing mechanism positioned at transmission mechanism end；The transmission mechanism includes chain Group, is equipped with infrared radiation thermometer between the heater box and forging and pressing mechanism, infrared radiation thermometer includes processor and towards transmission mechanism The part between heater box and forging and pressing mechanism probe；The side of chain group after heater box is equipped with first and slides Slot, the other side of chain group is hinged with to can turn to is directed to the first blend stop of the first sliding groove and processor controlled by workpiece The first cylinder for driving the first blend stop to rotate.

Using the above scheme, workpiece is first transferred to transmission mechanism from feeding mechanism, then is transferred to heater box by transmission mechanism It is heated and continues to transport, the workpiece by heating detects the underproof work of temperature by the probe thermometric of infrared detecting set When part, the processor of infrared radiation thermometer controls the piston rod stretching of the first cylinder, drives the first blend stop to rotate and does not simultaneously conform to temperature The workpiece of lattice is oriented to the first sliding groove, to detach these workpiece；When detecting the workpiece of temperature qualification, processor control first The piston rod of cylinder is retracted so that the first blend stop resets, clearance workpiece to forging and pressing mechanism.

Further preferably：The downward bifurcated in middle part of the first sliding groove forms two ends, the lower section point of two ends Receiving hopper is not provided with it；The crotch of the first sliding groove is provided with the guidance set that workpiece can be oriented to any one end, leads Include second blend stop hinged with the inner bottom surface of the crotch of sliding slot and positioned at the driving at the back side of the first sliding groove to component Second cylinder of two blend stops rotation, the second blend stop is hinged by the inner bottom surface of articulated shaft and sliding slot, and articulated shaft extends second The part at the sliding slot back side is connected with drive link, and the piston rod and driven rod of the second cylinder are hinged；The piston rod of second cylinder stretches out When the second blend stop by workpiece be oriented to an end, the second cylinder piston rod retraction when pass through drive link drive articulated shaft and second Blend stop rotates and workpiece is oriented to another end.

Using the above scheme, after filling workpiece in a receiving hopper, the second cylinder is operated so that the piston rod of the second cylinder It drives the second blend stop to rotate, and underproof workpiece is oriented to another end of the first sliding groove, can carry filled at this time Expire the hopper of workpiece and workpiece will not be caused to fall on the ground because of temporarily hopper is moved away.

Further preferably：The transmission mechanism includes by motor-driven chain group, and the both sides of chain group are equipped with baffle.

Using the above scheme, baffle can prevent workpiece from being fallen from the side of chain group, while can be to the transport of workpiece Play the role of guiding.

Further preferably：The feeding mechanism includes feed hopper and Power Component, and the inner bottom surface of feed hopper is to conveyer Structure tilts, and the inner bottom surface of feed hopper is equipped with the multilayer for workpiece to be raised to transmission mechanism step by step driven by Power Component Top plate, the upper surface of all top plates is stepped to be arranged and rises step by step to transmission mechanism.

Using the above scheme, after workpiece being put into feeding funnel, some workpiece are located at the inner bottom surface of feeding funnel, some workpiece positions In on the upper surface of shorter top plate；Start Power Component and transmission mechanism, it is most short in the top plate of stepped multilayer Top plate rises to than its more higher leveled top plate higher, and more higher leveled top plate is motionless at this time, since the upper end of top plate is towards biography Transfer mechanism tilts, therefore workpiece can slide into the upper surface of the more higher leveled top plate of the close transmission mechanism of feeding funnel, Suo Youding Plate is risen by short to height successively, is transmitted to which workpiece to be lifted on transmission mechanism；All top plates do the period it is identical on It rises, descending motion, and after the inner bottom surface of feed hopper is tilted to transmission mechanism, therefore all top plates complete subjob lifting, Remaining workpiece will continue to slide into the upper surface of top plate, and workpiece is lifted in transport establishment to roof periodic and is transported； Workpiece passes through heater box in transport, and is heated to recrystallization temperature or more, then transports to forging and pressing mechanism and carry out hot forging pressure.

Further preferably：The feeding mechanism includes the third cylinder that Turnover bunker and driving Turnover bunker are overturn, Turnover bunker is equipped with the feed inlet towards feed hopper above feed hopper after overturning.

Due to the inner bottom surface of feed hopper be inclined to set and feed hopper inner bottom surface be equipped with multilayer top plate, feed hopper Volume is smaller, using the above scheme, more workpiece can be pre-installed in Turnover bunker, after the workpiece in feed hopper transfers, Operation third cylinder makes Turnover bunker overturn, and by discharge port the workpiece in Turnover bunker is slided into feed hopper.

Further preferably：The material returned mouth between feeding mechanism and heater box, material returned mouth are offered on the baffle Place is connected with the second sliding slot for leading to feed hopper, and workpiece can be stopped and workpiece is oriented to material returned mouth by being hinged on the baffle Second blend stop.

In workpiece transmission process, it is sometimes desirable to workpiece transmission is temporarily ceased, such as through the to be processed of heater box heating When workpiece is more, continues transmission workpiece at this time and heated, workpiece to be processed can be caused excessively to have little time to process, workpiece to be processed Excessive that workpiece temperature during waiting to be processed can also be made to decline, predetermined temperature, which is not achieved, causes the workpiece processed not conform to Lattice using the above scheme rotate the second blend stop to the transmission path of workpiece, you can are keeping transmission mechanism and feeding mechanism Easily stop workpiece transmission in the case of operation, material returned mouth is directed to by the workpiece that the second blend stop is stopped, and pass through second Sliding slot slides back to feed hopper；When needing to restore workpiece transport, the second blend stop, which is rotated to vertical direction, can easily restore workpiece Transport.

Further preferably：Reduction assemblies are equipped between the feeding mechanism and heater box, reduction assemblies include being set to The reducing gear being located above chain group perpendicular to the first rotating shaft of chain group and with first rotating shaft rotation connection on baffle.

Using the above scheme, when workpiece is transmitted to reduction assemblies, workpiece abuts with reducing gear and reducing gear is made to be sent out along shaft Raw rotation, continues to transmit, while playing the role of slowing down workpiece transport speed, a workpiece passes through to concede space for workpiece After reducing gear, reducing gear resets under the effect of gravity, continues to slow down to the operation of workpiece.

Further preferably：Speed limit component is equipped between the reduction assemblies and heater box, speed limit component includes the first electricity Machine and the block for limiting workpiece transmission speed of periodic wobble by first motor driving.

Using the above scheme, when block is rocked to minimum point, stop workpiece transport；Block is rocked to along workpiece transmission direction When peak, workpiece is let pass；Block is swung in first motor driving periodical, to control the transmission speed of workpiece.

Further preferably：The chain group includes being abutted pair by the lower face with workpiece before being located at speed limit component The first chain that workpiece is transmitted abuts be transmitted to workpiece at speed limit component by the side wall with workpiece Two chains and the third chain being transmitted to workpiece is abutted by the lower face with workpiece after speed limit component；It is described The sliding rail in the transmission path of transmission mechanism is equipped at speed limit component.

It is abutted with workpiece when chain group transmitting workpiece, and the surface of chain has and centainly rises and falls, when block stops work When part, the workpiece stopped by block will generate certain obstruction to the transmission of chain, cause the shake of chain group even stuck, The transmission of other workpiece in chain group is influenced, using the above scheme, the workpiece blocked by block is on sliding rail, not with first Chain or the second chain abut, because of the transmission without hindering other workpiece；When block is rocked to peak clearance workpiece, Continue to transport by the second chain-driving workpiece that the side with workpiece abuts.

Further preferably：The forging and pressing mechanism includes the workbench in fuselage, fuselage, the lower template on workbench And the cope plate being located above lower template being hydraulically operated.

Using the above scheme, it is positioned in lower template by clamp by qualified workpiece is heated, operation hydraulic cylinder makes upper mold Plate pushes, and is corresponding shape by workpiece forging and stamping, then operating hydraulic cylinder makes cope plate rise, and by clamp by the workpiece of forming It takes out.

In conclusion the utility model has the advantages that：Workpiece can be transmitted automatically；Workpiece transmits control mode It is various；It can detect to heat underproof workpiece and be isolated out.

Description of the drawings

Fig. 1 is the schematic diagram of embodiment；

Fig. 2 is the schematic diagram of the feeding mechanism of embodiment；

Fig. 3 is the schematic diagram of the third cylinder of embodiment；

Fig. 4 is the schematic diagram of the Power Component of embodiment；

Fig. 5 is enlarged drawings of the Fig. 2 of embodiment at A；

Fig. 6 is the vertical view of embodiment；

Fig. 7 is enlarged drawings of the Fig. 6 of embodiment at B；

Fig. 8 is enlarged drawings of the Fig. 7 of embodiment at C；

Fig. 9 is the schematic diagram of the infrared radiation thermometer of embodiment 1；

Figure 10 is enlarged drawings of the Fig. 9 of embodiment 1 at D；

Figure 11 is enlarged drawings of the Fig. 9 of embodiment 1 at E；

Figure 12 is the schematic diagram of the second cylinder of embodiment 1；

Figure 13 is enlarged drawings of the Figure 12 of embodiment 1 at F；

Figure 14 is the schematic diagram of the forging and pressing mechanism of embodiment 1.

In figure：1, transmission mechanism；1A, chain group；1B, motor group；11, the first chain；12, the second chain；13, third chain Item；131, holding tank；14, the second motor；15, third motor；16, the 4th motor；17, baffle；171, notch；172, the material returned Mouthful；173, third blend stop；2, feeding mechanism；21, Turnover bunker；211, feed inlet；22, feed hopper；221, top plate；222, second Sliding slot；23, third cylinder；24, Power Component；241, the 5th motor；242, cam；25, column；251, the first control cabinet； 252, the second shaft；3, heater box；4, reduction assemblies；41, first rotating shaft；42, reducing gear；5, speed limit component；51, the first electricity Machine；52, block；53, mounting base；54, sliding rail；6, forging and pressing mechanism；61, fuselage；62, workbench；63, lower template；64, upper mold Plate；65, the second control cabinet；7, infrared radiation thermometer；71, it pops one's head in；72, processor；73, the first cylinder；74, the first blend stop；8, One sliding slot；81, receiving hopper；9, guidance set；91, the second blend stop；92, articulated shaft；93, the second cylinder；94, drive link.

Specific implementation mode

The utility model is described in further detail below in conjunction with attached drawing.

A kind of warm forming machine of intelligence feeding, as shown in Figure 1, including the feeding mechanism 2 arranged successively from upstream to downstream, passing Transfer mechanism 1, the heater box 3 positioned at the forging and pressing mechanism 6 of 1 end of transmission mechanism and in the transmission path of transmission mechanism 1.Into Expect to be equipped with reduction assemblies 4 between mechanism 2 and heater box 3, speed limit component 5, heater box 3 are equipped between reduction assemblies 4 and heater box 3 Infrared radiation thermometer 7 is equipped between forging and pressing mechanism 6.Wherein, reduction assemblies 4, speed limit component 5 and infrared radiation thermometer 7 are respectively positioned on In the transmission path of transmission mechanism 1.

Transmission mechanism 1 includes chain group 1A and motor group 1B, and chain group 1A includes the first chain before being located at speed limit component 5 Item 11, the second chain 12 at speed limit component 5 and the third chain 13 between heater box 3 and forging and pressing mechanism 6, the The case mouth of the holding tank 131 on 6 side of forging and pressing mechanism is led at the end end of three chains 13.Motor group 1B includes driving the first chain 11 fortune 4th motor of 13 operation of third motor 15 and driving third chain of capable the second motor 14, driving the second chain 12 operation 16.Wherein, it is two sections since third chain 13 is divided to, there are two the 4th motors 16.

With reference to Fig. 2 and Fig. 3, feeding mechanism 2 includes that Turnover bunker 21, feed hopper 22, driving Turnover bunker 21 are overturn Two cylinders 93 and the Power Component 24 below feed hopper 22；The both sides of first chain 11 are equipped with baffle 17.

With reference to Fig. 3, the top of Turnover bunker 21 is equipped with feed inlet 211, and the both sides of Turnover bunker 21 are fixed on equipped with two Column 25 on bottom surface, the column 25 of side are equipped with the first control cabinet 251 of control third cylinder 23 and Power Component 24, stand The second shaft 252 being rotatablely connected with Turnover bunker 21 is equipped between column 25.Third cylinder 23 is hinged on the ground and tilts It is cut with scissors towards Turnover bunker 21, the end of the piston rod of third cylinder 23 with the side wall towards feed hopper 22 of Turnover bunker 21 on ground It connects, Turnover bunker 21 can be rotated along the second shaft 252 to the work in Turnover bunker 21 when piston rod stretches out third cylinder 23 Part is slid by feed inlet 211 in feed hopper 22, to supplement the workpiece in feed hopper 22.

The inner bottom surface of feed hopper 22 is tilted to transmission mechanism 1, and the madial wall of feed hopper 22 is equipped with to be driven by Power Component 24 The top plate 221 for workpiece to be raised to multilayer on the first chain 11 step by step, the upper surface of all top plates 221 is stepped It arranges and rises step by step to the first chain 11.

With reference to Fig. 4, Power Component 24 includes the 5th motor 241 and is fixedly connected with the output shaft of the 5th motor 241 Multiple cams 242 that one-to-one driving top plate 221 moves, the direction of the protrusion of adjacent cams 242 is on the contrary, and respectively with one Block top plate 221 abuts；Under the transmission of cam 242, all top plates 221 do periodic up and down campaign.

With reference to Fig. 5, the notch 171 at feed hopper 22 is offered on baffle 17 and is filled positioned at feed hopper 22 and deceleration Material returned mouth 172 between setting is connected with the second sliding slot 222 for leading to feed hopper 22 at material returned mouth 172, and being hinged on baffle 17 can To stop workpiece and workpiece is oriented to the third blend stop 173 of material returned mouth 172, when need not keep off workpiece back into hopper 22, by the Three blend stops 173, which are rotated upwardly to, does not stop workpiece.

Reduction assemblies 4 include be fixedly installed on baffle 17 perpendicular to the first rotating shaft 41 of chain group 1A and with first The reducing gear 42 being located above chain group 1A that shaft 41 is rotatablely connected.

Referring to figure 6 and figure 7, speed limit component 5 drives and periodicity including first motor 51, by the output shaft of first motor 51 The mounting base 53 of the block 52 of swing and the output shaft for installing the 5th motor 241.

With reference to Fig. 7 and Fig. 8, block 52 is set as the gear that the gear teeth are abutted with workpiece, and bottom is barred from the path of workpiece On, gear can increase the frictional force of block 52 and workpiece, prevent to skid.It is equipped at speed limit component 5 and is located at workpiece transmission Sliding rail 54 on path when workpiece is run to sliding rail 54, is abutted with the side wall of workpiece by the second chain 12 and transmits workpiece.

With reference to Fig. 9 and Figure 10, infrared radiation thermometer 7 includes processor 72 and the probe towards the upper surface of third chain 13 71, the side of third chain 13 is fixedly installed the first cylinder 73 controlled by processor 72, on the piston rod of the first cylinder 73 It is hinged with the first blend stop 74, the first blend stop 74 is hinged on the side of third chain 13, and the first blend stop 74 is revolved when piston rod stretches out Turn, stop workpiece and workpiece is oriented to the first sliding groove 8 being arranged in 13 other side of third chain, the middle part of the first sliding groove 8 is downward Bifurcated forms two ends, and two ends have been respectively arranged below receiving hopper 81；The both sides of third chain 13 are equipped with baffle 17

1, Figure 12 and Figure 13 referring to Fig.1, the crotch of the first sliding groove 8, which is provided with, can be oriented to workpiece any one end Guidance set 9, guidance set 9 includes by the second hinged blend stop of the inner bottom surface of articulated shaft 92 and 8 crotch of the first sliding groove 91 and the second cylinder 93 positioned at the back side of the first sliding groove 8, the part connection for extending 8 back side of the first sliding groove of articulated shaft 92 There are drive link 94, the piston rod and drive link 94 of the second cylinder 93 hinged；Second blend stop when the piston rod of second cylinder 93 stretches out 91 are oriented to workpiece one end of the first sliding groove 8, are driven and are hinged by drive link 94 when the piston rod of the second cylinder 93 is retracted Axis 92 and the rotation of the second blend stop 91 and another end that workpiece is oriented to the first sliding groove 8.

Referring to Fig.1 4, forging and pressing mechanism 6 includes the fuselage 61 for being fixedly installed on ground, and workbench 62, work are equipped in fuselage 61 The upper surface for making platform 62 is fixedly installed lower template 63, is equipped in fuselage 61 and is located at lower die by the hydraulic press driving in fuselage 61 The cope plate 64 of the top of plate 63, fuselage 61 are equipped with the second control for controlling cope plate 64 with the side of 62 homonymy of workbench Case 65.

Workpiece transmission mode：Referring to Fig.1, start heater box 3 first to be preheated, restart transmission mechanism 1, first motor 51 and infrared radiation thermometer 7.With reference to Fig. 2, Fig. 3 and Fig. 4, workpiece to be processed is put into Turnover bunker 21 and feed hopper 22, Some workpiece are located at the inner bottom surface of feed hopper 22, and some workpiece are located at the upper surface of shorter top plate 221；Pass through the first control again Case 251 starts the 5th motor 241, the transmission of 241 driving cam 242 of the 5th motor, and the top plate 221 of most short level-one is driven by cam 242 When moving and rising to than its higher leveled 221 higher of top plate, do not driven by cam 242 also than its higher leveled top plate 221, by It is slided to than its more higher leveled top plate 221 in the workpiece of being obliquely installed for top plate 221, end face disposed thereon；Cam 242 drives more Higher leveled top plate 221 rise when, do not rise also than the 221 more higher leveled top plate 221 of top plate similarly, to by workpiece by Grade, which is raised on the first chain 11, is transported；All top plates 221 do period identical up and down under the transmission of cam 242 Movement, and the inner bottom surface of feed hopper 22 is tilted to the first chain 11, therefore the top plate 221 of most short level-one completes subjob lifting Afterwards, remaining workpiece will continue to slide into the upper surface of the top plate 221, to which workpiece is periodically lifted to the by all top plates 221 It is transported on one chain 11.

With reference to Fig. 5, workpiece is transmitted along the first chain 11, is reached at reduction assemblies 4, workpiece abuts and makes with reducing gear 42 Reducing gear 42 is rotated around first rotating shaft 41, continues to transmit for workpiece to concede space, while playing and slowing down workpiece transport The effect of speed, after a workpiece is by reducing gear 42, reducing gear 42 resets under the effect of gravity, continues the biography to subsequent workpiece It is input into capable deceleration.

With reference to Fig. 6, Fig. 7 and Fig. 8, workpiece then reaches at speed limit component 5, and is transitioned into sliding rail 54 from the first chain 11 On；When block 52 is rocked to peak under the driving of first motor 51 along workpiece transmission direction, abutted with the side wall of workpiece Workpiece continuation is transmitted in heater box 3 by the second chain 12 backward；It is reset to most under the driving of first motor 51 with backstop 52 Low spot simultaneously does periodic wobble, controls workpiece transmission speed.

With reference to Fig. 9 and Figure 10, the heated case 3 of workpiece is transmitted to third chain 13, the probe 71 of infrared radiation thermometer 7 after heating The temperature of workpiece is detected, when detecting the underproof workpiece of temperature, the processor 72 of infrared radiation thermometer 7 controls the first gas The piston rod of cylinder 73 stretches out, and drives the rotation of the first blend stop 74 and the underproof workpiece of temperature is oriented to the first sliding groove 8, and fall into position In the receiving hopper 81 of the lower section of the end of the first sliding groove 8；When detecting the workpiece of temperature qualification, processor 72 controls the first gas The piston rod of cylinder 73 is retracted so that the first blend stop 74 resets, clearance workpiece.

Referring to Fig.1 4, it heats qualified workpiece and is transferred to the end of third chain 13 and falls into holding tank 131.Operation Personnel are by clamp by the lower template 63 of workpiece clamp to forging and pressing mechanism 6, and it is right by the second control cabinet 65 to manipulate cope plate 64 Workpiece carries out hot forging pressure.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can as needed make the present embodiment the modification of not creative contribution after reading this specification, but As long as within the protection scope of the present utility model all protected by Patent Law.

Claims (10)

1. a kind of warm forming machine of intelligence feeding, including transmission mechanism (1), the feeding mechanism for being located at transmission mechanism (1) section start (2), it is located at the heater box (3) in the transmission path of transmission mechanism (1) and the forging and pressing mechanism positioned at transmission mechanism (1) end (6), it is characterized in that：The transmission mechanism (1) includes chain group (1A), is equipped between the heater box (3) and forging and pressing mechanism (6) Infrared radiation thermometer (7), infrared radiation thermometer (7) include processor (72) and are located at heater box (3) and forging towards transmission mechanism (1) The probe (71) of part between press mechanism (6)；The side of chain group (1A) after heater box (3) is equipped with the first sliding groove (8), the other side of chain group (1A) is hinged with to can turn to is directed to the first sliding groove by workpiece（8）The first blend stop (74) and By processor（72）Control drives the first blend stop（74）The first cylinder (73) of rotation.

2. a kind of warm forming machine of intelligent feeding according to claim 1, it is characterized in that：The middle part bifurcated of the first sliding groove (8) Two ends are formed, two ends have been respectively arranged below receiving hopper (81)；The crotch of the first sliding groove (8) is provided with can be with Workpiece is oriented to the guidance set (9) of any one end, guidance set (9) includes hinged with the inner bottom surface of the crotch of sliding slot The second blend stop (91) and positioned at the first sliding groove (8) the back side the second blend stop of driving (91) rotation the second cylinder (93), Second blend stop (91) is hinged by the inner bottom surface of articulated shaft (92) and sliding slot, and articulated shaft (92) extends second sliding slot (222) The part at the back side is connected with drive link (94), and the piston rod and drive link (94) of the second cylinder (93) are hinged.

3. a kind of warm forming machine of intelligent feeding according to claim 1, it is characterized in that：The transmission mechanism (1) include by The both sides of motor-driven chain group (1A), chain group (1A) are equipped with baffle (17).

4. a kind of warm forming machine of intelligent feeding according to claim 3, it is characterized in that：The feeding mechanism (2) include into The inner bottom surface of hopper (22) and Power Component (24), feed hopper (22) is tilted to chain group (1A), the inner bottom surface of feed hopper (22) Top plate (221) equipped with the multilayer for workpiece to be raised to transmission mechanism (1) step by step driven by Power Component (24), owns The upper surface of top plate (221) is stepped to be arranged and rises step by step to transmission mechanism (1).

5. a kind of warm forming machine of intelligent feeding according to claim 4, it is characterized in that：The feeding mechanism (2) includes turning over The third cylinder (23) for turning hopper (21) and Turnover bunker (21) being driven to overturn, Turnover bunker (21) are located at after being equipped with overturning The feed inlet (211) towards feed hopper (22) above feed hopper (22).

6. a kind of warm forming machine of intelligent feeding according to claim 5, it is characterized in that：Position is offered on the baffle (17) Material returned mouth (172) between feeding mechanism (2) and heater box (3) is connected at material returned mouth (172) and leads to feed hopper (22) Second sliding slot (222) is hinged with the second gear that can stop workpiece and workpiece is oriented to material returned mouth (172) on the baffle (17) Item (91).

7. a kind of warm forming machine of intelligent feeding according to claim 3, it is characterized in that：The feeding mechanism (2) and heating Be equipped with reduction assemblies (4) between case (3), reduction assemblies (4) include be set on baffle (17) perpendicular to chain group (1A) First rotating shaft (41) and the reducing gear (42) being located above chain group (1A) being rotatablely connected with first rotating shaft (41).

8. a kind of warm forming machine of intelligent feeding according to claim 7, it is characterized in that：The reduction assemblies (4) and heating Speed limit component (5) is equipped between case (3), speed limit component (5) includes the 5th motor (241) and driven by the 5th motor (241) And the block (52) for limiting workpiece transmission speed of periodic wobble.

9. a kind of warm forming machine of intelligent feeding according to claim 8, it is characterized in that：The chain group (1A) includes being located at The first chain (11) being transmitted to workpiece is abutted by the lower face with workpiece, is located at speed limit before speed limit component (5) The second chain (12) being transmitted to workpiece abutted by the side wall with workpiece and be located at speed limit component at component (5) (5) the third chain (13) being transmitted to workpiece is abutted by the lower face with workpiece after；It is set at the speed limit component (5) There is the sliding rail (54) in the transmission path of transmission mechanism (1).

10. a kind of warm forming machine of intelligent feeding according to claim 1, it is characterized in that：The forging and pressing mechanism (6) includes machine Workbench (62) in body (61), fuselage (61), to be located on workbench (62) lower template (63) and the position that is hydraulically operated Cope plate (64) above lower template (63).