CN110421112A - Full-automatic blanking forging equipment - Google Patents

Abstract

The invention belongs to production equipment technology more particularly to a kind of Full-automatic blanking forging equipments.The present invention, including forging and pressing mechanism and for the automatic feed mechanism to forging and pressing mechanism feeding, the side of the automatic feed mechanism is communicated with material cutting mechanism, graphite stirring apparatus for coating is additionally provided between the forging and pressing mechanism and material cutting mechanism, conveying mechanism one end is connected with material cutting mechanism, and the other end is connected with graphite stirring apparatus for coating.It is equipped with the graphite being coated with dedicated for copper rod surface graphite in the present invention and stirs apparatus for coating, compared to the operation of traditional manual application, production efficiency is higher, suitable for mechanization production, and, automatic feed mechanism of the invention realizes the conveying of bar by the rotation of stirring disk, and conveying stroke is short, compact mechanical structure.

Description

Full-automatic blanking forging equipment

Technical field

The invention belongs to production equipment technology more particularly to a kind of Full-automatic blanking forging equipments.

Background technique

The red specific processing method for rushing technique be brass bar is heated to it is crimson after, be put into the thermal stamping die of punching machine into The disposable extrusion forming of row, copper rod surface blackening in process in order to prevent, therefore be equipped in process in copper rod Surface is coated with the processing step of graphite, and in the prior art when carrying out graphite coating, use is all manually-operated method, will Copper rod, which is put into the basket equipped with graphite, carries out mixing coating, and this method is time-consuming and laborious, and production efficiency is lower, with mechanization production It is incompatible with.

For example, Chinese invention patent application disclose a kind of full-automatic vertical it is red rush equipment [application number: 201810601250.9], which includes that feed frame general assembly, raw material transmission for transmitting workpiece fill It sets, raw material material-pulling device and device for feeding raw materials；The raw material transmission device is located at the upper end of feed frame general assembly；Raw material pusher Device and device for feeding raw materials position are corresponding；The raw material material-pulling device and device for feeding raw materials are located at raw material transmission device End；It further include sequentially connected red rushing raw materials furnace and heating, chute device, conveying transport mechanism and organisation of working.

It is that the not set graphite dedicated for being coated with graphite stirs apparatus for coating in the patent application, adopts in process of production The mode being manually coated with is there are above-mentioned time-consuming and laborious, and production efficiency is lower, the incompatible with problem with mechanization production.

Summary of the invention

Regarding the issue above, the present invention provides a kind of Full-automatic blanking forging equipment.

In order to achieve the above objectives, present invention employs following technical proposals:

A kind of Full-automatic blanking forging equipment, including forging and pressing mechanism and for the automatic charging machine to forging and pressing mechanism feeding Structure, the side of the automatic feed mechanism are communicated with material cutting mechanism, are additionally provided with graphite between the forging and pressing mechanism and material cutting mechanism Apparatus for coating is stirred, conveying mechanism one end is connected with material cutting mechanism, and the other end is connected with graphite stirring apparatus for coating.

In above-mentioned Full-automatic blanking forging equipment, graphite stirring apparatus for coating includes rack, feeding assembly and Graphite entrance is respectively provided on the rack, and the feeding assembly is connected with conveying mechanism, and being additionally provided in the rack can be with respect to machine The unidirectional discharge mixing machines structure of frame rotation, the unidirectional discharge mixing machines structure are connected with feeding assembly and graphite entrance, when And if only if unidirectional discharge mixing machines structure along clockwise or counterclockwise when, the material in unidirectional discharge mixing machines structure can slide to In forging and pressing mechanism.

In above-mentioned Full-automatic blanking forging equipment, the unidirectional discharge mixing machines structure include be arranged on the rack it is outer Shell, the outer housing is interior to have the mixing cavity being connected with feeding assembly and graphite entrance, tool in the mixing cavity There is the discharging track for being fixedly connected on outer housing inner surface, the discharging track is extended spirally along outer housing direction of axis line, also It is connected including one end with discharging track, the other end extends to the discharge port outside mixing cavity.

In above-mentioned Full-automatic blanking forging equipment, the discharging track include it is several successively arrange protrude from shell The guiding rib on internal surface, the guiding rib is extended spirally along outer housing direction of axis line, along outer housing direction of axis line There is guide channel, the guide channel and discharge port between two adjacent guiding ribs or between guiding rib and outer housing It is connected.

In above-mentioned Full-automatic blanking forging equipment, the discharge port includes the reclaiming plate being fixedly connected with outer housing, The upper surface of reclaiming plate is connected with discharging track, and the reclaiming plate is fixedly connected with barrier close to mixing cavity a side edge Plate.

In above-mentioned Full-automatic blanking forging equipment, the graphite stirring apparatus for coating further includes being fixedly connected on rack On, and the driving mechanism that unidirectional discharge mixing machines structure can be driven to rotate, the driving mechanism include being fixedly connected on rack On reverse rotating motor and the fixed gear ring for being set in unidirectional discharge mixing machines structure outer surface, the reverse rotating motor it is defeated Transmission gear is fixedly connected on shaft, the transmission gear is meshed with gear ring.

In above-mentioned Full-automatic blanking forging equipment, the forging and pressing mechanism includes that the internal shell for being equipped with forging and stamping station is total Dress, shell general assembly side are equipped with the feeding mechanism being connected with forging and stamping station, and the feeding mechanism and graphite stirring are coated with Device is connected.

In above-mentioned Full-automatic blanking forging equipment, the automatic feed mechanism includes stock shelf and rotates with stock shelf The main shaft of connection, on main shaft and along at least one stirring disk that is axially arranged with of main shaft, the stirring disk is equipped with stirring mouth, institute It states on stock shelf and is equipped with material distributing rest in the side of main shaft, the material distributing rest is provided with material stock frame, institute far from the side of main shaft The elevator for being connected to material stock frame and material distributing rest, the material distributing rest and material stock frame are equipped between the material stock frame and material distributing rest stated Height in the vertical direction is gradually decreased from one end far from main shaft to one end close to main shaft.

In above-mentioned Full-automatic blanking forging equipment, the material cutting mechanism includes being fixedly connected on automatic feed mechanism Outer framework, cutting machine is equipped in the outer framework, the cutting machine is connected with automatic feed mechanism by transmission chain, described Material cutting mechanism further includes the clamping plate being arranged between cutting machine and automatic feed mechanism, and the clamping plate is located above transmission chain.

In above-mentioned Full-automatic blanking forging equipment, the conveying mechanism includes the feed inlet being connected with material cutting mechanism The feed opening being connected with graphite stirring apparatus for coating, the height of the feed opening in the vertical direction are higher than feed inlet perpendicular Histogram upward height is equipped with crawler belt between feed inlet and feed opening, driving motor is connect with track drive, the track surface Several conveying plates are fixedly connected with, the interval between adjacent two pieces of conveying plates is equal.

Compared with prior art, the present invention has the advantages that

1, it is equipped with the graphite being coated with dedicated for copper rod surface graphite in the present invention and stirs apparatus for coating, compared to traditional The operation of manual application, production efficiency is higher, is suitable for mechanization production.

2, the present invention can realize the copper rod that the coating of copper rod surface graphite and coating are completed using unidirectional discharge mixing machines structure Discharging, the degree of automation is higher, while being easy to control the diffusion of graphite in mixed process, compared with the prior art The case where middle manual operation causes graphite to be trickled down to operation scene everywhere, more safety and environmental protection.

3, automatic feed mechanism of the invention realizes the conveying of bar by the rotation of stirring disk, and conveying stroke is short, mechanical It is compact-sized.

Detailed description of the invention

Fig. 1 is structural schematic diagram of the invention；

Fig. 2 is the structural schematic diagram of graphite stirring apparatus for coating discharging process；

Fig. 3 is the structural schematic diagram of graphite stirring apparatus for coating mixed process；

Fig. 4 is the structural schematic diagram of graphite stirring apparatus for coating part-structure；

Fig. 5 is the structural schematic diagram of automatic feed mechanism and material cutting mechanism；

Fig. 6 is the structural schematic diagram of automatic feed mechanism and another visual angle of material cutting mechanism；

Fig. 7 is the structural schematic diagram of forging and pressing mechanism；

Fig. 8 is the structural schematic diagram of conveying mechanism；

In figure: forging and pressing mechanism a, automatic feed mechanism b, material cutting mechanism c, graphite stir apparatus for coating d, conveying mechanism e, machine Frame 1, feeding assembly 2, graphite entrance 3, unidirectional discharge mixing machines structure 4, driving mechanism 5, roll wheel assembly 6, feed hopper 21, vibrator 22, feeding-passage 23, charging control assembly 24, driving cylinder 25, rotating arm 26, swingle 27, rotation partition 28, outer housing 41, cavity 42, discharging track 43, discharge port 44, guiding rib 45, guide channel 46, reclaiming plate 47, baffles 48, double is mixed To rotating electric machine 51, gear ring 52, transmission gear 53, rolling rod 61, bearing 62, idler wheel 63, forging and stamping station 71, shell general assembly 72, Feeding mechanism 73, stock shelf 81, main shaft 82, stirring disk 83, stirring mouth 84, material distributing rest 85, material stock frame 86, elevator 87, outline border Frame 91, cutting machine 92, transmission chain 93, clamping plate 94, feed inlet 101, feed opening 102, crawler belt 103, driving motor 104, conveying plate 105。

Specific embodiment

The present invention will be further described in detail with reference to the accompanying drawings and detailed description.

As shown in Figure 1, a kind of Full-automatic blanking forging equipment, including forging and pressing mechanism a and for forging and pressing mechanism a feeding Automatic feed mechanism b, the side of the automatic feed mechanism b are communicated with material cutting mechanism c, the forging and pressing mechanism a and material cutting mechanism c Between be additionally provided with graphite stirring apparatus for coating d, the one end conveying mechanism e is connected with material cutting mechanism c, the other end and graphite stirring painting Cloth apparatus d is connected.

The present invention, in use, bar is cut into preset length by automatic feed mechanism b feeding, and by material cutting mechanism c Copper rod, copper rod are delivered in graphite stirring apparatus for coating d by conveying mechanism e, carry out graphite coating to copper rod surface, coating is completed After enter in forging and pressing mechanism a, forging and stamping obtain finished product, therefore the graphite that is coated with dedicated for copper rod surface graphite is equipped in the present invention Apparatus for coating b is stirred, compared to the operation of traditional manual application, production efficiency is higher, is suitable for mechanization production.

As shown in Fig. 2, the graphite stirring apparatus for coating d includes rack 1, feeding assembly 2 and graphite entrance 3 are arranged at In rack 1, the feeding assembly 2 is connected with conveying mechanism e, and being additionally provided in the rack 1 can be relative to the unidirectional of the rotation of rack 1 Discharge mixing machines structure 4, the unidirectional discharge mixing machines structure 4 is connected with feeding assembly 2 and graphite entrance 3, and if only if list To discharge mixing machines structure 4 along clockwise or counterclockwise when, the copper rod in unidirectional discharge mixing machines structure 4 can slide to forging press In structure a, i.e., when unidirectional discharge mixing machines structure 4 rotates in one direction, such as along rotation counterclockwise, unidirectional discharge mixing machines structure 4 Interior copper rod can realize discharging, and reversely rotate, i.e., unidirectional discharge mixing machines structure 4 rotates clockwise, unidirectional discharge mixing machines Copper rod in structure 4 can only realize mixing, and can not discharge.

In use, being cut into the copper rod of predetermined length, it is added by feeding assembly 2 to unidirectional discharging and is mixed by conveying mechanism e It closes in mechanism 4, graphite is added by graphite entrance 3 to unidirectional discharge mixing machines structure 4, and it is real to rotate unidirectional discharge mixing machines structure 4 The mixing of existing copper rod and graphite, so that graphite is coated on copper rod surface, after the completion of coating, the unidirectional discharging of rotation is mixed in the opposite direction Mechanism 4 is closed, to complete to discharge, therefore the present invention can realize the coating and painting of copper rod surface graphite using unidirectional 4 structure of discharge mixing machines The discharging for the copper rod that cloth is completed, the degree of automation are higher.

As shown in Fig. 2, the unidirectional discharge mixing machines structure 4 includes the outer housing 41 being arranged in rack 1, the outer housing There is the mixing cavity 42 being connected with feeding assembly 2 and graphite entrance 3 in 41, there is fixed connect in the mixing cavity 42 The discharging track 43 in 41 inner surface of outer housing is connect, the discharging track 43 is extended spirally along 41 direction of axis line of outer housing, also It is connected including one end with discharging track 43, the other end extends to the discharge port 44 outside mixing cavity 42, it is preferable that discharge port 44 extend along 43 hand of spiral of discharging track, and outer housing 41 is arranged in far from feeding assembly 2 and graphite entrance 3 in discharge port 44 One end, in this way convenient for discharging.

In use, copper rod and graphite are added to mixing cavity 42, outer housing 41 is along spiral identical with discharging track 43 Direction rotation completes coating so that copper rod and graphite are uniformly mixed, and changes 41 rotation direction of outer housing, make outer housing 41 along with The opposite hand of spiral rotation of discharging track 43, copper rod complete discharging by discharge port 44.

Specifically, discharging track 43 includes several guiding ribs for protruding from 41 inner surface of outer housing successively arranged 45, the guiding rib 45 is extended spirally along 41 direction of axis line of outer housing, along adjacent two of 41 direction of axis line of outer housing There is guide channel 46, the guide channel 46 and discharge port between guiding rib 45 or between guiding rib 45 and outer housing 41 44 are connected, and only the citing to a kind of specific structure of discharging track 43, discharging track 43 can also be used guiding rib here Item 45, which replaces with, is fixedly connected on 41 inner surface of outer housing, and the guide plate or existing extended spirally along 41 direction of axis line of outer housing There are in technology other specific structures realize, turns in outer housing 41 along the hand of spiral opposite with discharging track 43 as long as playing When dynamic, discharging track 43 can play the role of discharging.

Preferably, 41 both ends of outer housing can in this way in mixed process equipped with the cover board that can be closed mixing cavity 42 Mixing cavity 42 and the external world is isolated using cover board, therefore the present invention is easy to control the diffusion of graphite in mixed process, phase Than in manual operation in the prior art causes graphite to be trickled down to operation scene everywhere the case where, more safety and environmental protection.

As shown in Fig. 2, the discharge port 44 includes the reclaiming plate 47 being fixedly connected with outer housing 41, the upper table of reclaiming plate 47 Face is connected with discharging track 43, and the reclaiming plate 47 is fixedly connected with baffles 48, copper close to mixing 42 a side of cavity edge Stick is completed to discharge along reclaiming plate 47, and baffles 48 are fallen after rise during can preventing copper rod from finding out material to mixing cavity 42, improves out Expect rate.

In conjunction with shown in Fig. 2 and Fig. 3, the graphite stirring apparatus for coating d further includes being fixedly connected in rack 1, and can drive Move the driving mechanism 5 that unidirectional discharge mixing machines structure 4 rotates, wherein driving mechanism 5 includes being fixedly connected in rack 1 Reverse rotating motor 51 and the fixed gear ring 52 for being set in unidirectional 4 outer surface of discharge mixing machines structure, i.e. gear ring 52 can with it is unidirectional go out Expect that mixed organization 4 occurs to rotate synchronously movement, selects reverse rotating motor 51 that realization can be facilitated to drive unidirectional discharge mixing machines structure 4 Outer housing 41 rotation of both direction occurs, be fixedly connected with transmission gear on the output shaft of the reverse rotating motor 51 53, the transmission gear 53 is meshed with gear ring 52, in use, reverse rotating motor 51 passes through 53 driven gear ring 52 of transmission gear Rotation, gear ring 52 drive unidirectional discharge mixing machines structure 4 to rotate.

As shown in figure 4, the feeding assembly 2 includes the feed hopper 21 being arranged in rack 1 and is fixedly connected on feed hopper The vibrator 22 of 21 bottom surfaces, the feed hopper 21 are connected by feeding-passage 23 with unidirectional discharge mixing machines structure 4, further include connecting The charging control assembly 24 in rack 1 is connect, rotation charging control assembly 24 is openable or separates feeding-passage 23, the charging Control assembly 24 includes the driving cylinder 25 being fixedly connected in rack 1, and the output shaft of the driving cylinder 25 is rotatably connected to Rotating arm 26, rotating arm 26 are fixedly connected with swingle 27 far from one end of driving cylinder 25, and the both ends of swingle 27 are and machine Frame 1 is rotatablely connected, and is also fixedly connected with rotation partition 28 on the swingle 27, rotation swingle 27 can make to rotate partition 28 with 23 upper surface of feeding-passage fits or forms gap between 23 upper surface of feeding-passage, wherein gap width is less than copper rod Diameter can just play the role of that copper rod is stopped to enter unidirectional discharge mixing machines structure 4 in this way.

In use, vibrator 22 vibrates feed hopper 21, so that the copper rod of the graphite to be coated in feed hopper 21 passes through charging Channel 23 enters in unidirectional discharge mixing machines structure 4, and after copper rod additional amount reaches suitable amount, driving cylinder 25 drives rotating arm 26, so that rotating arm 26 drives swingle 27 to rotate, synchronous rotational motion occurs for rotation partition 28, so that feeding-passage 23 are separated, and after completing discharging, driving cylinder 25 drives rotation partition 28 to rotate again, so that feeding-passage 23 is opened, into The copper rod of graphite to be coated in hopper 21 enters in unidirectional discharge mixing machines structure 4.

The structure similar with feeding assembly 2 can be used in graphite entrance 3, and loading hopper can also be used and be connected with feed pipe It is logical, the specific structure that feed pipe is connected with unidirectional discharge mixing machines structure 4.

As shown in figure 4, being additionally provided with roll wheel assembly 6, the roller group between the unidirectional discharge mixing machines structure 4 and rack 1 Part 6 and rack 1 are rotatablely connected, the circular in cross-section of the unidirectional discharge mixing machines structure 4, and unidirectional discharge mixing machines structure 4 is pressed It is located on roll wheel assembly 6, rolls and connect with roll wheel assembly 6, the roll wheel assembly 6 includes being connected with rack 1 by the rotation of bearing 62 The rolling rod 61 connect, the both ends of rolling rod 61 are respectively fixedly connected with an idler wheel 63, and unidirectional discharge mixing machines structure 4 is pressed on idler wheel It on 63, rolls and connects with idler wheel 63, in this way, unidirectional discharge mixing machines structure 4 only can generate force of rolling friction during rotation, drop The low rotary resistance of unidirectional discharge mixing machines structure 4, has saved energy consumption.

Preferably, there are two roll wheel assembly 6 is set, unidirectional 4 two sides of discharge mixing machines structure are symmetrically positioned in, can guarantee so unidirectional The stability that discharge mixing machines structure 4 is placed.

Preferably, 63 end of idler wheel is also fixedly connected with is pressed on unidirectional 4 both ends limit plate of discharge mixing machines structure respectively, this Sample can prevent unidirectional discharge mixing machines structure 4 from sliding in mixed process along direction of axis line.

The present invention is not construed as limiting the specific structure of conveying mechanism e, as long as it is defeated by material cutting mechanism c by copper rod to play realization The effect into graphite stirring apparatus for coating d is sent, conveying mechanism e can be conveyer belt in the prior art, be also possible to As shown in Figure 8, the conveying mechanism e includes the feed inlet 101 being connected with material cutting mechanism c and stirs apparatus for coating with graphite The feed opening 102 that d is connected, the height of the feed opening 102 in the vertical direction are higher than feed inlet 101 in the vertical direction Highly, crawler belt 103 is equipped between feed inlet 101 and feed opening 102, driving motor 104 and crawler belt 103 are drivingly connected, the shoe 103 surface of band is fixedly connected with several conveying plates 105, in use, the copper rod after cutting enters in feed inlet 101, starts Driving motor 104, driving motor 104 drive crawler belt 103 to rotate, and the copper rod in feed inlet 101 is transported under the drive of conveying plate 105 It transports in feed opening 102, enters back into graphite stirring apparatus for coating d.

Preferably, the interval between adjacent two pieces of conveying plates 105 is equal, can guarantee the uniform of copper rod delivery rate in this way.

In conjunction with shown in Fig. 1 and Fig. 7, the forging and pressing mechanism a includes the internal shell general assembly 72 for being equipped with forging and stamping station 71, described 72 side of shell general assembly is equipped with the feeding mechanism 73 being connected with forging and stamping station 71, and the feeding mechanism 73 is coated with graphite stirring Device d is connected, and the copper rod for being coated with graphite forges and presses finished product on forging and stamping station 71, and forging and pressing mechanism a can also be used existing Similar conveying mechanism e can be used between forging and pressing mechanism a and graphite stirring apparatus for coating d in the structure of common forging press in technology Specific structure to realize connection between the two.

Referring to figure 1 and figure 5, the automatic feed mechanism b includes stock shelf 81 and is rotatablely connected with stock shelf 81 Main shaft 82, on main shaft 82 and along at least one stirring disk 83 that is axially arranged with of main shaft 82, the stirring disk 83 is equipped with stirring Mouthfuls 84, be equipped with material distributing rest 85 on the stock shelf 81 and in the side of main shaft 82, the material distributing rest 85 far from main shaft 82 one Side is provided with material stock frame 86, is equipped between the material stock frame 86 and material distributing rest 85 for being connected to material stock frame 86 and material distributing rest 85 Elevator 87, the height of the material distributing rest 85 and material stock frame 86 in the vertical direction is from one end far from main shaft 82 to close One end of main shaft 82 gradually decreases, and such bar can be automatically scrolled to designated position because of gravity.

In use, the bar on material stock frame 86 is promoted on material distributing rest 85 by elevator 87, since material distributing rest 85 tilts Setting, therefore the rolling close to stirring disk 83 can occur for the bar on material distributing rest 85, main shaft 82 drives several stirring disks 83 synchronous Rotation, when stirring mouth 84 is turned to close to 85 side of material distributing rest, bar is caught in stirring mouth 84, and stirring disk 83 continues to rotate, So that bar is transferred on stock shelf 81, therefore automatic feed mechanism b of the invention realizes bar by the rotation of stirring disk 83 Conveying, conveying stroke is short, compact mechanical structure.

In conjunction with shown in Fig. 1 and Fig. 6, the material cutting mechanism c includes the outer framework being fixedly connected on automatic feed mechanism b 91, the outer framework 91 is interior to be equipped with cutting machine 92, and the cutting machine 92 is connected with automatic feed mechanism b by transmission chain 93, The material cutting mechanism c further includes the clamping plate 94 being arranged between cutting machine 92 and automatic feed mechanism b, and the clamping plate 94, which is located at, to be passed Dynamic 93 top of chain is cut into certain in use, the bar on stock shelf 81 is delivered to 92 lower section of cutting machine by transmission chain 93 The copper rod of length, clamping plate 94 can be used for being fixedly clamped.

The working principle of the invention is: in use, the bar on material stock frame 86 is promoted to material distributing rest 85 by elevator 87 On, since material distributing rest 85 is obliquely installed, therefore the rolling close to stirring disk 83 can occur for the bar on material distributing rest 85, and main shaft 82 drives Several stirring disks 83 rotate synchronously, and when stirring mouth 84 is turned to close to 85 side of material distributing rest, bar is caught in stirring mouth 84, Stirring disk 83 continues to rotate, so that bar is transferred on stock shelf 81, the bar on stock shelf 81 is delivered to by transmission chain 93 The lower section of cutting machine 92, is cut into the copper rod of certain length, and clamping plate 94 can be used for being fixedly clamped, the copper rod after cutting enter into In material mouth 101, start driving motor 104, driving motor 104 drives crawler belt 103 to rotate, and the copper rod in feed inlet 101 is in conveying It under the drive of plate 105 in transport to feed opening 102, enters back into feed hopper 21, vibrator 22 vibrates feed hopper 21, so that charging The copper rod of graphite to be coated in bucket 21 is entered in mixing cavity 42 by feeding-passage 23, and copper rod additional amount reaches suitable amount Afterwards, driving cylinder 25 drives rotating arm 26, so that rotating arm 26 drives swingle 27 to rotate, rotation partition 28 is synchronized Rotational motion so that feeding-passage 23 is separated, graphite is added by graphite entrance 3 to mixing cavity 42, two-way at this time Rotating electric machine 51 is rotated by 53 driven gear ring 52 of transmission gear, and gear ring 52 drives outer housing 41 to rotate, at this point, 41 edge of outer housing Hand of spiral rotation identical with discharging track 43 after the completion of coating, changes bidirectional rotation so that copper rod and graphite are uniformly mixed The driving direction of motor 51 makes outer housing 41 along the spiral opposite with discharging track 43 to change 41 rotation direction of outer housing Direction rotation, copper rod complete discharging by discharge port 44, and after completing discharging, driving cylinder 25 drives 28 turns of partition of rotation again Dynamic, so that feeding-passage 23 is opened, the copper rod of the graphite to be coated in feed hopper 21 enters in mixing cavity 42, carries out next The graphite coating for criticizing copper rod, the copper rod for being coated with graphite finally forges and presses finished product on forging and stamping station 71, therefore sets in the present invention There is the graphite dedicated for the coating of copper rod surface graphite to stir apparatus for coating b, compared to the operation of traditional manual application, production Efficiency is higher, is suitable for mechanization production.

Specific embodiment described herein is only an example for the spirit of the invention.The neck of technology belonging to the present invention The technical staff in domain can make various modifications or additions to the described embodiments or replace by a similar method In generation, however, it does not deviate from the spirit of the invention or beyond the scope of the appended claims.

It is arranged although forging and pressing mechanism a, automatic feed mechanism b, material cutting mechanism c, graphite is used more herein and stirs to apply Set d, conveying mechanism e, rack 1, feeding assembly 2, graphite entrance 3, unidirectional discharge mixing machines structure 4, driving mechanism 5, roll wheel assembly 6, feed hopper 21, vibrator 22, feeding-passage 23, charging control assembly 24, driving cylinder 25, rotating arm 26, swingle 27, turn Dynamic dividing plate 28, outer housing 41, mixing cavity 42, discharging track 43, discharge port 44, guiding rib 45, guide channel 46, reclaiming plate 47, baffles 48, reverse rotating motor 51, gear ring 52, transmission gear 53, rolling rod 61, bearing 62, idler wheel 63, forging and stamping station 71, shell general assembly 72, feeding mechanism 73, stock shelf 81, main shaft 82, stirring disk 83, stirring mouth 84, material distributing rest 85, material stock frame 86, Elevator 87, outer framework 91, cutting machine 92, transmission chain 93, clamping plate 94, feed inlet 101, feed opening 102, crawler belt 103, driving electricity The terms such as machine 104, conveying plate 105, but it does not exclude the possibility of using other terms.The use of these items is only for more Easily describe and explain essence of the invention；Being construed as any additional limitation all is and spirit of that invention phase It violates.

Claims (10)

1. a kind of Full-automatic blanking forging equipment, including forging and pressing mechanism (a) and for the automatic charging to forging and pressing mechanism (a) feeding The side of mechanism (b), the automatic feed mechanism (b) is communicated with material cutting mechanism (c), it is characterised in that: the forging and pressing mechanism (a) Graphite stirring apparatus for coating (d) is additionally provided between material cutting mechanism (c), conveying mechanism (e) one end is connected with material cutting mechanism (c) Logical, the other end is connected with graphite stirring apparatus for coating (d).

2. Full-automatic blanking forging equipment as described in claim 1, it is characterised in that: the graphite stirs apparatus for coating (d) Including rack (1), feeding assembly (2) and graphite entrance (3) are arranged on rack (1), the feeding assembly (2) and conveyer Structure (e) is connected, and the unidirectional discharge mixing machines structure (4) that can be rotated relative to rack (1), the list are additionally provided on the rack (1) It is connected to discharge mixing machines structure (4) with feeding assembly (2) and graphite entrance (3), and if only if unidirectional discharge mixing machines structure (4) along clockwise or counterclockwise when, the material in unidirectional discharge mixing machines structure (4) can slide to forging and pressing mechanism (a).

3. Full-automatic blanking forging equipment as claimed in claim 2, it is characterised in that: the unidirectional discharge mixing machines structure (4) Including the outer housing (41) being arranged on rack (1), have and feeding assembly (2) and graphite entrance in the outer housing (41) (3) the mixing cavity (42) being connected has in mixing cavity (42) and is fixedly connected on outer housing (41) inner surface Discharging track (43), the discharging track (43) extend spirally along outer housing (41) direction of axis line, further include one end and discharging Track (43) is connected, and the other end extends to the external discharge port (44) of mixing cavity (42).

4. Full-automatic blanking forging equipment as claimed in claim 3, it is characterised in that: the discharging track (43) includes several That successively arranges protrudes from the guiding rib (45) of outer housing (41) inner surface, and the guiding rib (45) is along outer housing (41) axis Heart line direction extends spirally, between two guiding ribs (45) adjacent along outer housing (41) direction of axis line or guiding rib (45) there are guide channel (46) between outer housing (41), the guide channel (46) is connected with discharge port (44).

5. Full-automatic blanking forging equipment as claimed in claim 3, it is characterised in that: the discharge port (44) includes and shell The upper surface of the reclaiming plate (47) that body (41) is fixedly connected, reclaiming plate (47) is connected with discharging track (43), the reclaiming plate (47) baffles (48) are fixedly connected with close to mixing cavity (42) a side edge.

6. Full-automatic blanking forging equipment as claimed in claim 2, it is characterised in that: the graphite stirs apparatus for coating (d) It further include the driving mechanism (5) for being fixedly connected on rack (1), and unidirectional discharge mixing machines structure (4) being driven to rotate, institute Driving mechanism (5) are stated to include the reverse rotating motor (51) that is fixedly connected on rack (1) and fixed be set in unidirectional discharging and mix The gear ring (52) of mechanism (4) outer surface is closed, is fixedly connected with transmission gear on the output shaft of the reverse rotating motor (51) (53), the transmission gear (53) is meshed with gear ring (52).

7. Full-automatic blanking forging equipment as described in claim 1, it is characterised in that: the forging and pressing mechanism (a) includes inside Shell general assembly (72) equipped with forging and stamping station (71), shell general assembly (72) side is equipped with to be connected with forging and stamping station (71) Feeding mechanism (73), the feeding mechanism (73) are connected with graphite stirring apparatus for coating (d).

8. Full-automatic blanking forging equipment as described in claim 1, it is characterised in that: the automatic feed mechanism (b) includes Stock shelf (81) and main shaft (82) with stock shelf (81) rotation connection, on main shaft (82) and along main shaft (82) be axially arranged with to A few stirring disk (83), the stirring disk (83) are equipped with stirring mouth (84), on the stock shelf (81) and in main shaft (82) side is equipped with material distributing rest (85), and the material distributing rest (85) is provided with material stock frame (86) far from the side of main shaft (82), The elevator for being connected to material stock frame (86) and material distributing rest (85) is equipped between the material stock frame (86) and material distributing rest (85) (87), the height of the material distributing rest (85) and material stock frame (86) in the vertical direction is from one end far from main shaft (82) to leaning on One end of nearly main shaft (82) gradually decreases.

9. Full-automatic blanking forging equipment as described in claim 1, it is characterised in that: the material cutting mechanism (c) includes fixing The outer framework (91) being connected on automatic feed mechanism (b), the outer framework (91) is interior to be equipped with cutting machine (92), the cutting machine (92) it is connected with automatic feed mechanism (b) by transmission chain (93), the material cutting mechanism (c) further includes being arranged in cutting machine (92) clamping plate between automatic feed mechanism (b) (94), the clamping plate (94) are located above transmission chain (93).

10. Full-automatic blanking forging equipment as described in claim 1, it is characterised in that: the conveying mechanism (e) includes and cuts The feed inlet (101) that material mechanism (c) is connected and the feed opening (102) being connected with graphite stirring apparatus for coating (d), under described The height of material mouth (102) in the vertical direction is higher than the height of feed inlet (101) in the vertical direction, and feed inlet (101) is under Crawler belt (103) are equipped between material mouth (102), driving motor (104) and crawler belt (103) are drivingly connected, crawler belt (103) surface Several conveying plates (105) are fixedly connected with, the interval between adjacent two pieces of conveying plates (105) is equal.