CN107511514A - A kind of full-automatic double-ended multi-functional milling machine - Google Patents

Abstract

The invention discloses a kind of full-automatic double-ended multi-functional milling machine, it is characterised in that：Including frame, milling leveling device, feed mechanism and material receiving mechanism, the milling leveling device includes two slide rails being parallel to each other and two groups of milling machine structures being slideably positioned in respectively on two slide rails, the slide rail is set perpendicular to the feed mechanism, two groups of milling machine structures are oppositely arranged, and are arranged at the left and right ends of two slide rails through drive mechanism movement respectively；Milling machine structure described in every group includes slide plate, the milling cutter mechanism being arranged on slide plate and the clamp system being arranged at directly over milling cutter mechanism, and the milling cutter mechanism can move in the underface of the clamp system；The feed mechanism is arranged at the outside of a slide rail, and the material receiving mechanism is arranged at the outside of another slide rail, and the end of the feed mechanism is set close to the clamp system.The present invention improves the flat efficiency of milling of product.

Description

A kind of full-automatic double-ended multi-functional milling machine

Technical field

The present invention relates to a kind of axis products processing unit (plant), more particularly to a kind of full-automatic double-ended multi-functional milling machine.

Background technology

With manufacturing development, production and processing technology was progressively upgraded to plant equipment production system from former manual work Make, progressively developing into automated production manufacture, production technology is in quick optimization and upgrading.But axle class processing so far according to It is old based on lathe, milling machine, CNC processing, it is relative or not enough in production production capacity and labor strength and product cost It is preferable.

The content of the invention

It is an object of the present invention to provide a kind of full-automatic double-ended multi-functional milling machine, by using the structure, axle class is improved The flat efficiency of milling and the flat quality of milling of product.

To reach above-mentioned purpose, the technical solution adopted by the present invention is：A kind of full-automatic double-ended multi-functional milling machine, including The feed mechanism and material receiving mechanism of side, the feed mechanism before and after milling leveling device, setting and frame in frame, setting and frame And material receiving mechanism is respectively arranged at the front and rear side of the milling leveling device, the milling leveling device include two slide rails being parallel to each other and Two groups of milling machine structures being slideably positioned in respectively on two slide rails, milling machine structure described in two groups include left side milling machine structure and right side Milling machine structure, the slide rail are set perpendicular to the feed mechanism, and two groups of milling machine structures are oppositely arranged, and respectively through a driving machine Structure moves the left and right ends for being arranged at two slide rails, and the left side milling machine structure is arranged at the left end of the slide rail, described Right side milling machine structure is arranged at the right-hand member of the slide rail；Milling machine structure described in every group includes slide plate, the milling cutter being arranged on slide plate Mechanism and the clamp system being arranged at directly over milling cutter mechanism, the milling cutter mechanism can move in the underface of the clamp system It is dynamic；The feed mechanism is arranged at the outside of a slide rail, and the material receiving mechanism is arranged at the outer of another slide rail Side, and the end of the feed mechanism is set close to the clamp system.

In above-mentioned technical proposal, the milling cutter mechanism includes horizontal transfer mechanism, lifting transfer mechanism, motor and milling cutter, The milling cutter is installed on the output shaft of the motor, and the motor is installed on the lifting transfer mechanism, and the lifting moves Mounted mechanism is installed on the horizontal transfer mechanism, and the horizontal transfer mechanism is installed on the slide plate, the horizontal transfer Mechanism is set perpendicular to the slide rail, before the horizontal transfer mechanism can drive the lifting transfer mechanism, motor and milling cutter After move, it is described lifting transfer mechanism the motor and milling cutter can be driven to move up and down.

In above-mentioned technical proposal, the clamp system is arranged at the surface of the milling cutter, the clamp system bottom warp One fixed plate is fixedly installed on the slide plate, and the clamp system includes preceding fixture block and rear fixture block, the forward and backward fixture block difference Driven through a cylinder, clamping gap is provided between the preceding fixture block and rear fixture block.

In above-mentioned technical proposal, the slide plate is set with plane-parallel, and a material-dropping hole is additionally provided with the slide plate, described The bottom of material-dropping hole is provided with a waste material guide groove, is obliquely installed between the waste material guide groove and the slide plate, the waste material guide groove Top is connected with the material-dropping hole, bottom towards the opposite side of the slide plate milling machine structure set, and the waste material guide groove with It is in 15 °~45 ° of angle between the slide plate.

In above-mentioned technical proposal, the feed mechanism includes two groups of support frames and the L being respectively arranged on two groups of support frames Type supporting plate, support frame as described above include Left-side support frame and Right side support frame, and the L-type supporting plate includes left side L-type supporting plate And right side L-type supporting plate, the Left-side support frame are fixedly installed in the front side of the left side milling machine structure slide plate top surface, the right side Side stand component is fixedly installed in the front side of the right side milling machine structure slide plate top surface, the left side L-type supporting plate and right side L-type branch The opening of fagging is oppositely arranged.

In above-mentioned technical proposal, the L-type supporting plate includes bottom plate and the baffle plate being arranged in plate top surface side wall, described Baffle plate is set perpendicular to the bottom plate, and the bottom plate is installed on support frame as described above；Tilted between the L-type supporting plate and slide plate Set, the L-type supporting plate is set diagonally downward from front to back, and the rear end of the L-type supporting plate is arranged at the clamping gap Surface, the front end of the L-type supporting plate is set towards the front side of the frame, and is between the bottom plate and the slide plate 5 °~15 ° of angle.

In above-mentioned technical proposal, the rear end top surface of the bottom plate is provided with a through hole, and a lever, institute are provided with the through hole The bottom surface for stating base plate rear end is provided with a jacking cylinder, and the output shaft of the jacking cylinder is set perpendicular to the slide plate, described The output shaft of jacking cylinder is connected with the lever, the lever through the jacking cylinder can in the through hole on move down It is dynamic.

In above-mentioned technical proposal, in addition to a discharging mechanism, the discharging mechanism be arranged at the clamp system with it is described Between material receiving mechanism, the front end of the discharging mechanism is set close to the clamp system, and the rear end of the discharging mechanism is arranged at The surface of the material receiving mechanism.

In above-mentioned technical proposal, the material receiving mechanism is splicing groove, and the discharging mechanism is two groups, is respectively arranged in described On left side milling machine structure and right side milling machine structure；The discharging mechanism includes the first jacking cylinder, raising plate, discharging L-type chute And push rod, the discharging L-type chute in discharging mechanism described in two groups are oppositely arranged, first jacking cylinder is installed on the fixation On the madial wall of plate, and first jacking cylinder is arranged at below the rear side of the clamp system, and the raising plate is installed on On the output shaft of first jacking cylinder, the front end of the discharging L-type chute is fixedly installed in the rear end of the rear fixture block, institute The rear end for stating discharging L-type chute is arranged at the surface of the splicing groove；The rear end of the push rod is fixedly installed in the jacking On plate, clamping gap setting described in the front end face of the push rod, the output shaft retraction of first jacking cylinder, the push rod Front end be arranged at underface on the inside of the clamping gap, the output shaft of first jacking cylinder stretches out, the push rod Front end is arranged at the surface on the inside of the clamping gap.

In above-mentioned technical proposal, it is described discharging L-type chute set diagonally downward from front to back, it is described discharging L-type chute with It is in 5 °~30 ° of angle between the slide plate, the push rod is set parallel to the discharging L-type chute.

Because above-mentioned technical proposal is used, the present invention has following advantages compared with prior art：

1. by setting automatic feed mechanism and automatic discharger in the present invention, carried out using automatic feed mechanism Material, recycle two groups of milling machine structures to position the both ends of product, recycle clamp system that product is clamped into positioning, most Put down afterwards using both ends simultaneously milling of the milling cutter mechanism to product, compared with conventional structure, it is possible to increase the flat efficiency of milling of product and milling Flat quality, reduce the labor intensity of operating personnel；

2. automatic feed mechanism is set in the present invention,, can using gravity principle using the L-type supporting plate being obliquely installed Make product realization be automatically fed into clamp system to be clamped product, recycle the setting of lever, can be to feed mechanism On product obstructed, be achieved in that automation one product of feeding every time, realize the automation feeding of product, reduce operation The labor intensity of personnel；

3. utilize setting for the first jacking cylinder by setting the first jacking cylinder, push rod and discharging L-type chute in the present invention Put, so needing the discharging to make, the output shaft of the first jacking cylinder stretches out, you can pass through push rod and drive product in clamp system Rise, by the guiding of push rod, product is directly slipped in discharging L-type chute, product is directly dropped in splicing groove, it is real Now automation discharging, and it is simple in construction, and cost is cheap, can effectively reduce cost.

Brief description of the drawings

Fig. 1 is the structural representation of front side in the embodiment of the present invention one；

Fig. 2 is the structural representation of rear side in the embodiment of the present invention one；

Fig. 3 is internal structure schematic diagram in the embodiment of the present invention one；

Fig. 4 is the inside dimensional structure diagram in the embodiment of the present invention one (hydraulic system, frame are not drawn into)；

Fig. 5 is Fig. 3 partial enlarged drawing；

Fig. 6 is Fig. 4 partial enlarged drawing；

Fig. 7 is the structural representation at clamp system in the embodiment of the present invention one；

Fig. 8 is the structural representation at the middle slide plate of the embodiment of the present invention one；

Fig. 9 is the structural representation of milling cutter mechanism in the embodiment of the present invention one.

Wherein：1st, frame；2nd, protective cover；3rd, hydraulic system；4th, slide rail；5th, left side milling machine structure；6th, right side milling machine structure； 7th, drive mechanism；8th, slide plate；9th, horizontal transfer mechanism；10th, transfer mechanism is lifted；11st, motor；12nd, milling cutter；13rd, fixed plate； 14th, preceding fixture block；15th, rear fixture block；16th, cylinder；17th, clamping gap；18th, material-dropping hole；19th, waste material guide groove；20th, Left-side support frame； 21st, Right side support frame；22nd, left side L-type supporting plate；23rd, right side L-type supporting plate；24th, bottom plate；25th, baffle plate；26th, through hole；27th, shelves Bar；28th, jacking cylinder；29th, splicing groove；30th, the first jacking cylinder；31st, raising plate；32nd, discharge L-type chute；33rd, push rod；34、 Feed mechanism.

Embodiment

Below in conjunction with the accompanying drawings and embodiment the invention will be further described：

Embodiment one：Referring to shown in Fig. 1~9, a kind of full-automatic double-ended multi-functional milling machine, including frame 1, set and machine The feed mechanism 34 and material receiving mechanism of side before and after milling leveling device, setting and frame 1 in frame 1, wherein, it is covered with one outside frame 1 Protective cover 2, the side of frame 1 are provided with a hydraulic system 3, and protective cover 2 is used for protection equipment, and hydraulic system 3 is used to provide to equipment Power.

Referring to shown in Fig. 1~9, the feed mechanism and material receiving mechanism are respectively arranged at the front and rear side of the milling leveling device, The milling leveling device includes two slide rails 4 being parallel to each other and two groups of milling machine structures being slideably positioned in respectively on two slide rails 4, Milling machine structure described in two groups includes left side milling machine structure 5 and right side milling machine structure 6, and the slide rail 4 is perpendicular to the feed mechanism Set, two groups of milling machine structures are oppositely arranged, and are arranged at the left and right two of two slide rails 4 through a drive mechanism 7 movement respectively End, the left side milling machine structure 5 are arranged at the left end of the slide rail 4, and the right side milling machine structure 6 is arranged at the slide rail 4 Right-hand member；Milling machine structure described in every group includes slide plate 8, the milling cutter mechanism being arranged on slide plate and is arranged at directly over milling cutter mechanism Clamp system, the milling cutter mechanism can move in the underface of the clamp system；The feed mechanism is arranged at an institute The outside of slide rail 4 is stated, the material receiving mechanism is arranged at the outside of another slide rail 4, and the end of the feed mechanism is leaned on The nearly clamp system is set.

In conventional structure, milling is carried out usually to the both ends of axis products, usually utilizes milling machine or CNC machining centers The both ends of axle class are processed respectively, it is necessary to be processed respectively to the both ends of product so in processing, that is, needed secondary Clamping, not only processing efficiency is low, and secondary clamping is processed, and causes machining benchmark to exist and changes, influences crudy.Therefore, exist In the present embodiment, two groups of milling machine structures are directly set, clamp system is set in every group of milling machine structure, can be put down using two groups of millings Mechanism carries out the regulation of position to product, and then the both ends of product are clamped using two groups of clamp systems, recycles two groups Milling machine structure carries out the flat work of milling simultaneously to the both ends of product, can so improve the uniformity of Product processing pedestal, Neng Gouti The crudy of high product.

Shown in Figure 9, the milling cutter mechanism includes horizontal transfer mechanism 9, lifting transfer mechanism 10, motor 11 and milling cutter 12, the milling cutter 12 is installed on the output shaft of the motor 11, and the motor 11 is installed on the lifting transfer mechanism 10, The lifting transfer mechanism 10 is installed on the horizontal transfer mechanism 9, and the horizontal transfer mechanism 9 is installed on the slide plate 8 On, the moving direction of the horizontal transfer mechanism 9 is set perpendicular to the slide rail 4, and the horizontal transfer mechanism 9 can drive institute It is movable to state lifting transfer mechanism 10, motor 11 and milling cutter 12, the lifting transfer mechanism 10 can drive the motor 11 And milling cutter 12 moves up and down.

Wherein, using horizontal transfer mechanism and lifting transfer mechanism, milling cutter can be driven to carry out upper and lower and movable, Recycle drive mechanism to drive milling cutter to move forward and backward, can so ensure that milling cutter can move in all directions, ensure to product Crudy.

Referring to shown in Fig. 3~9, the clamp system is arranged at the surface of the milling cutter 12, the clamp system bottom It is fixedly installed in through a fixed plate 13 on the slide plate 8, the clamp system includes preceding fixture block 14 and rear fixture block 15, before described, Fixture block is driven through a cylinder 16 respectively afterwards, and clamping gap 17 is provided between the preceding fixture block 14 and rear fixture block 15.

Wherein, forward and backward fixture block separation or close is driven by cylinder, for carrying out clamping or relieving, side to product Just it is quick.

Shown in Figure 8, the slide plate 8 is set with plane-parallel, and a material-dropping hole 18, institute are additionally provided with the slide plate 8 The bottom for stating material-dropping hole 18 is provided with a waste material guide groove 19, is obliquely installed between the waste material guide groove and the slide plate, the waste material The top of guide groove is connected with the material-dropping hole, and the milling machine structure of bottom towards the opposite side of the slide plate is set, and the waste material It is in 15 °~45 ° of angle between guide groove and the slide plate.

In the present embodiment, rewinding bucket can be set in the bottom of frame, rewinding bucket is arranged on the underface of waste material guide groove. When milling cutter is processed to the both ends of product, caused metal fillings can directly drop in material-dropping hole, and waste material is by falling Material and then is directly dropped in rewinding bucket hole by waste material guide groove, and waste material can either be collected, while can also be prevented pair Milling cutter mechanism impacts, and ensures crudy.

Referring to shown in Fig. 3~6, the feed mechanism includes two groups of support frames and the L being respectively arranged on two groups of support frames Type supporting plate, support frame as described above include Left-side support frame 20 and Right side support frame 21, and the L-type supporting plate includes left side L-type branch Fagging 22 and right side L-type supporting plate 23, before the Left-side support frame is fixedly installed in the left side milling machine structure slide plate top surface Side, the Right side support frame are fixedly installed in the front side of the right side milling machine structure slide plate top surface, the left side L-type supporting plate with The opening of right side L-type supporting plate is oppositely arranged.

The L-type supporting plate includes bottom plate 24 and the baffle plate 25 being arranged in the top surface side wall of bottom plate 24, the baffle plate are vertical Set in the bottom plate, the bottom plate is installed on support frame as described above；It is obliquely installed between the L-type supporting plate and slide plate, institute L-type supporting plate is stated to set diagonally downward from front to back, the rear end of the L-type supporting plate be arranged at the clamping gap just on Side, the front end of the L-type supporting plate are set towards the front side of the frame, and between the bottom plate and the slide plate in 5 °~ 15 ° of angle.

The rear end top surface of the bottom plate 24 is provided with a through hole 26, and a lever 27, the bottom plate are provided with the through hole 26 The bottom surface of rear end is provided with a jacking cylinder 28, and the output shaft of the jacking cylinder 28 is set perpendicular to the slide plate 8, the top The output shaft for rising cylinder is connected with the lever, and the lever can move up and down through the jacking cylinder in the through hole.

Under normal circumstances, the output shaft of jacking cylinder is to stretch out, and lever is exposed to the top surface of bottom plate, then operates More set products are directly directly placed in left and right side L-type supporting plate by personnel, and product is supported using bottom plate, utilizes gear Both ends progress of the plate to product is spacing, while blocks product by lever, prevents product from gliding.When needing charging, jacking cylinder Output shaft retraction, drive lever to retract in through hole, now due to affected by gravity, and the inclination of bottom plate and slide plate is set Put, product can roll towards the rear end of bottom plate.Wherein it is possible to photoelectric sensor is set in through hole, when a product is by logical After hole, photoelectric sensor detects, then jacking cylinder output shaft stretch out, block product below, make product be difficult to after It is continuous to roll backward, and that product to be dropped from bottom plate, then can directly it drop in clamping gap, then cylinder drives forward and backward Fixture block is moved, and product is clamped, and then the milling cutter at product both ends carries out the flat work of milling to the both ends of product.

Referring to shown in Fig. 3~6, in addition to a discharging mechanism, the discharging mechanism be arranged at the clamp system with it is described Between material receiving mechanism, the front end of the discharging mechanism is set close to the clamp system, and the rear end of the discharging mechanism is arranged at The surface of the material receiving mechanism.

The material receiving mechanism is splicing groove 29, and the discharging mechanism is two groups, is respectively arranged in the left side milling machine structure And on the milling machine structure of right side；The discharging mechanism includes the first jacking cylinder 30, raising plate 31, discharging L-type chute 32 and push rod 33, the discharging L-type chute in discharging mechanism described in two groups is oppositely arranged, and first jacking cylinder 30 is installed on the fixed plate On 13 madial wall, and first jacking cylinder 30 is arranged at below the rear side of the clamp system, and the raising plate 31 is pacified On output shaft loaded on first jacking cylinder 30, the front end of the discharging L-type chute 32 is fixedly installed in the rear fixture block 15 rear end, the rear end of the discharging L-type chute are arranged at the surface of the splicing groove；The rear end of the push rod is fixedly mounted In on the raising plate, clamping gap setting described in the front end face of the push rod, the output shaft of first jacking cylinder returns Contracting, the front end of the push rod are arranged at the underface on the inside of the clamping gap, and the output shaft of first jacking cylinder stretches out, The front end of the push rod is arranged at the surface on the inside of the clamping gap.

The discharging L-type chute is set diagonally downward from front to back, is in 5 ° between the discharging L-type chute and the slide plate ~30 ° of angle, the push rod are set parallel to the discharging L-type chute.

After two end mills of product are flat, clamp system unclamps the output of the clamping, then the first jacking cylinder to product Shaft extension goes out, and drives push rod to rise, and during push rod rises, push rod can also drive the product after processing to rise, and due to Push rod is obliquely installed, and product can roll towards the rear end of push rod, after the first jacking cylinder rises to certain altitude, that is, When the top surface of push rod is higher than the top surface of discharging L-type chute or flushed with the top surface for the L-type chute that discharges, product can be directly rolled into Discharge on L-type chute, then be rolled into backward from discharging L-type chute, until product rolling drops in splicing groove, realize product Self-emptying.After discharging is completed, the output shaft retraction of the first jacking cylinder, push rod is driven to drop to the lower section in clamping gap, Then the output shaft retraction of jacking cylinder, drives lever to decline, and makes next product continue to drop between clamping from L-type supporting plate In gap, continue milling and put down, so circulation.

Claims (10)

1. A kind of 1. full-automatic double-ended multi-functional milling machine, it is characterised in that：Including the milling leveling device in frame, setting and frame, Feed mechanism and material receiving mechanism with side before and after frame is set, and the feed mechanism and material receiving mechanism are respectively arranged at the milling and put down The front and rear side of device, the milling leveling device include two slide rails being parallel to each other and be slideably positioned in respectively on two slide rails two Group milling machine structure, milling machine structure described in two groups include left side milling machine structure and right side milling machine structure, and the slide rail is perpendicular to described Feed mechanism is set, and two groups of milling machine structures are oppositely arranged, and is arranged at two slide rails through drive mechanism movement respectively Left and right ends, the left side milling machine structure are arranged at the left end of the slide rail, and the right side milling machine structure is arranged at the slide rail Right-hand member；Milling machine structure described in every group includes slide plate, the milling cutter mechanism being arranged on slide plate and is arranged at directly over milling cutter mechanism Clamp system, the milling cutter mechanism can the clamp system underface move；The feed mechanism is arranged at one The outside of the slide rail, the material receiving mechanism is arranged at the outside of another slide rail, and the end of the feed mechanism is leaned on The nearly clamp system is set.
2. 2. full-automatic double-ended multi-functional milling machine according to claim 1, it is characterised in that：The milling cutter mechanism includes water Translation mounted mechanism, lifting transfer mechanism, motor and milling cutter, the milling cutter are installed on the output shaft of the motor, the motor It is installed on the lifting transfer mechanism, the lifting transfer mechanism is installed on the horizontal transfer mechanism, the horizontal shifting Mounted mechanism is installed on the slide plate, and the horizontal transfer mechanism is set perpendicular to the slide rail, the horizontal transfer mechanism energy Enough drive the lifting transfer mechanism, motor and milling cutter to move forward and backward, the lifting transfer mechanism can drive the motor and Milling cutter moves up and down.
3. 3. full-automatic double-ended multi-functional milling machine according to claim 2, it is characterised in that：The clamp system is arranged at The surface of the milling cutter, the fixed plate of clamp system bottom one are fixedly installed on the slide plate, the clamp system Including preceding fixture block and rear fixture block, the forward and backward fixture block is driven through a cylinder respectively, and dress is provided between the preceding fixture block and rear fixture block Press from both sides gap.
4. 4. full-automatic double-ended multi-functional milling machine according to claim 3, it is characterised in that：The slide plate is put down with horizontal plane Row is set, and is additionally provided with a material-dropping hole on the slide plate, and the bottom of the material-dropping hole is provided with a waste material guide groove, the waste material guide groove and It is obliquely installed between the slide plate, the top of the waste material guide groove is connected with the material-dropping hole, phase of the bottom towards the slide plate The milling machine structure of offside is set, and is in 15 °~45 ° of angle between the waste material guide groove and the slide plate.
5. 5. full-automatic double-ended multi-functional milling machine according to claim 3, it is characterised in that：The feed mechanism includes two Group support frame and the L-type supporting plate being respectively arranged on two groups of support frames, support frame as described above include Left-side support frame and right side branch Support, the L-type supporting plate include left side L-type supporting plate and right side L-type supporting plate, and the Left-side support frame is fixedly installed in institute The front side of left side milling machine structure slide plate top surface is stated, the Right side support frame is fixedly installed in the right side milling machine structure slide plate top surface Front side, the opening of the left side L-type supporting plate and right side L-type supporting plate is oppositely arranged.
6. 6. full-automatic double-ended multi-functional milling machine according to claim 5, it is characterised in that：The L-type supporting plate includes Bottom plate and the baffle plate being arranged in plate top surface side wall, the baffle plate are set perpendicular to the bottom plate, and the bottom plate is installed on institute State on support frame；It is obliquely installed between the L-type supporting plate and slide plate, the L-type supporting plate is set diagonally downward from front to back, The rear end of the L-type supporting plate is arranged at the surface in the clamping gap, and the front end of the L-type supporting plate is towards the frame Front side set, and be in 5 °~15 ° of angle between the bottom plate and the slide plate.
7. 7. full-automatic double-ended multi-functional milling machine according to claim 6, it is characterised in that：The rear end top surface of the bottom plate A through hole is provided with, is provided with a lever in the through hole, the bottom surface of the base plate rear end is provided with a jacking cylinder, the jacking The output shaft of cylinder is set perpendicular to the slide plate, and the output shaft of the jacking cylinder is connected with the lever, the lever warp The jacking cylinder can move up and down in the through hole.
8. 8. full-automatic double-ended multi-functional milling machine according to claim 5, it is characterised in that：Also include a discharging mechanism, The discharging mechanism is arranged between the clamp system and the material receiving mechanism, and the front end of the discharging mechanism is close to the folder Tight mechanism is set, and the rear end of the discharging mechanism is arranged at the surface of the material receiving mechanism.
9. 9. full-automatic double-ended multi-functional milling machine according to claim 8, it is characterised in that：The material receiving mechanism is splicing Groove, the discharging mechanism are two groups, are respectively arranged on the left side milling machine structure and right side milling machine structure；The discharging mechanism Including the first jacking cylinder, raising plate, discharging L-type chute and push rod, the discharging L-type chute in discharging mechanism described in two groups is relative Set, first jacking cylinder is installed on the madial wall of the fixed plate, and first jacking cylinder be arranged at it is described Below the rear side of clamp system, the raising plate is installed on the output shaft of first jacking cylinder, the discharging L-type chute Front end be fixedly installed in it is described after fixture block rear end, it is described discharging L-type chute rear end be arranged at the splicing groove just on Side；The rear end of the push rod is fixedly installed on the raising plate, clamping gap setting described in the front end face of the push rod, institute The output shaft retraction of the first jacking cylinder is stated, the front end of the push rod is arranged at the underface on the inside of the clamping gap, described The output shaft of first jacking cylinder stretches out, and the front end of the push rod is arranged at the surface on the inside of the clamping gap.
10. 10. full-automatic double-ended multi-functional milling machine according to claim 9, it is characterised in that：It is described discharging L-type chute by A-P is set diagonally downward, is in 5 °~30 ° of angle between the discharging L-type chute and the slide plate, and the push rod is parallel Set in the discharging L-type chute.