CN220837781U - Flexible forging and pressing equipment for aluminum alloy precise parts - Google Patents

Abstract

The utility model provides flexible forging equipment for an aluminum alloy precise part, which relates to the technical field of forging equipment and comprises the following components: forging equipment; the forging equipment right side position department slidable mounting has the slip subassembly, the left side position of slip subassembly is installed and is pressed tightly the subassembly, press from both sides tight subassembly and slip subassembly top department and install and press from both sides and get the subassembly, press from both sides and get subassembly upper end position and install and expand the board, forging mould on the forging equipment sets up to the symmetry installation from top to bottom, forging mould is interlock forging and pressing from top to bottom with the synchronizing lever shape through outer mounting bracket, forging mould's upper end position is connected with expanding the board, the right side position department slidable mounting of forging equipment has the slip subassembly, the slip subassembly sets up to the inclined plane, realize expanding the inclined part of board and can press on the slip subassembly, realize expanding the drive effect of board to the slip subassembly, the overheated unable one shot forming of current part has been solved, the part is easy to appear crookedly through artifical transposition, also can cause certain potential safety hazard problem simultaneously.

Description

Flexible forging and pressing equipment for aluminum alloy precise parts

Technical Field

The utility model belongs to the technical field of forging equipment, and particularly relates to flexible forging equipment for an aluminum alloy precise part.

Background

Along with the continuous development and progress of social science and technology, the application of metal products is gradually increased, such as mechanical equipment, automobiles and the like, wherein a plurality of metal doors are built at positions of factories, the doors can be opened and closed continuously due to special requirements of the factories, the metal connected by hinges and the like of the doors is positioned, the damage is easy to occur, and the articles belonging to consumption types need to be overhauled and replaced regularly so as to achieve the effect of ensuring stable use.

When the existing part is worn out for production, forging and pressing production is directly used, when the metal part is flexibly produced, the part needs to be heated for forging and pressing forming, but the part cannot be formed once again due to overheating, and the part is easy to skew due to manual transposition, and meanwhile, certain potential safety hazard problem can be caused.

Disclosure of utility model

In order to solve the technical problems, the utility model provides flexible forging equipment for an aluminum alloy precise part, which aims to solve the problems that the existing part cannot be shaped once after being overheated, the part is easy to skew due to manual transposition and certain potential safety hazard is caused.

The utility model discloses a flexible forging and pressing device for an aluminum alloy precise part, which is realized by the following specific technical means:

A flexible forging and pressing device for an aluminum alloy precise part comprises forging and pressing equipment; the forging and pressing equipment is characterized in that a sliding component is slidably mounted at the right side of the forging and pressing equipment, a clamping component is mounted at the left side of the sliding component, a clamping component is mounted at the top of the clamping component and the sliding component, an expanding plate is mounted at the upper end of the clamping component, reinforcing ribs are additionally mounted at the right side of the expanding plate, the bottom of the expanding plate is contacted with the sliding component, and a blanking component is mounted on the forging and pressing equipment.

Further, install forging and pressing mould on forging and pressing equipment's the loading board, forging and pressing mould sets up to the structure of vertical symmetry, and forging and pressing mould's rear side position department is provided with outer mounting bracket on the loading board, rotates on the outer mounting bracket and installs the gear, and forging and pressing mould's rear side position is provided with the synchronizing lever, forging and pressing mould's synchronizing lever simultaneously with gear intermeshing.

Further, the outer slider of slip subassembly sets up slidable mounting in forging and pressing equipment's right side position department, and outer slider sets up to the inclined plane structure, and outer slider's right side position is provided with the leading truck, adds on the leading truck and is equipped with the spring.

Further, the clamping block of the clamping assembly is slidably mounted on forging equipment, the top of the clamping block is connected with the clamping assembly, a lower pressing plate is arranged between the front clamping block and the rear clamping block, the lower pressing plate is connected with the expansion plate through a shaft body, and the lower end of the lower pressing plate is in contact with the inclined plane of the clamping block through a contact wheel.

Further, the sliding rod of the clamping component is connected with the sliding component and the clamping component simultaneously, the sliding rod is identical to the gear center of the outer mounting frame, the clamping frame is mounted on the sliding rod, a spring is additionally mounted at the clamping frame, a contact frame is arranged at the clamping frame, the contact frame is of an arc-shaped structure, a contact head is mounted on the inner end face of the contact frame, and a spring is additionally mounted at the mounting position of the contact head.

Further, the blanking plate of the blanking assembly is hinged to the forging equipment, a spring plate is additionally arranged at the back position of the blanking plate, and the blanking plate is arranged to be of an inclined structure towards the front end face.

The utility model provides flexible forging equipment for an aluminum alloy precise part, which has the beneficial effects that:

The forging mould on the forging equipment sets up to the symmetry installation from top to bottom, forging mould is upper and lower interlock forging and pressing with the synchronizing lever shape through outer mounting bracket, forging mould's upper end position is connected with expansion board, forging equipment's right side position department slidable mounting has sliding component, sliding component sets up to the inclined plane, realize expanding the inclined part of board and can press on sliding component, realize expanding the drive effect of board to sliding component, and sliding component gets the subassembly with pressing from both sides and be connected, let the pressing from both sides and get the subassembly and carry out the effect of side-to-side motion, the lower extreme of expanding the board can contact with clamping component, realize letting clamping component will press from both sides and get the subassembly and outwards expand to realize pressing from both sides the automation of getting the subassembly to forging mould department work piece and press from both sides and get the removal effect, then have the unloading subassembly of receiving the work piece realization that installs on the equipment and make things convenient for the unloading.

The bearing plate is provided with symmetrical forging and pressing dies in a sliding mode, the effect that the forging and pressing dies can be meshed and pressed up and down is achieved, the synchronous rod is arranged at the rear side of the forging and pressing dies, the synchronous rod of the upper forging and pressing dies can be meshed with the outer mounting frame at the same time, and the synchronous meshing and pressing effect of the upper forging and pressing dies is achieved.

The slide bar is arranged to clamp the main part of the workpiece, the right side of the slide bar is connected with the outer slide block, the outer slide block can be pressed down through the inclined plane of the expansion plate, the outer slide block can drive the slide bar to act, the expansion plate is simultaneously connected with the lower pressing plate, the lower pressing plate can be pressed down along with the expansion plate, the contact wheel of the lower pressing plate can press down the clamping block, the clamping block can drive the slide bar to move towards the front and back positions, and therefore the clamping movement of the clamping assembly to the workpiece is achieved, and the blocking position movement of equipment to the workpiece is achieved.

The clamp of slide bar is got the frame and is set up to the slip, presss from both sides and gets the frame department and add and be equipped with the spring, avoids pressing from both sides and gets the subassembly and cause the damage to the work piece, and presss from both sides the contact frame that gets the frame and set up to the arc, lets the better corresponding work piece appearance of contact frame, and the contact head of installing on the contact frame, the contact head can assist pressing from both sides the work piece tightly, lets the better realization that presss from both sides and gets the subassembly stably press from both sides the effect of tight work piece.

Drawings

Fig. 1 is a schematic view of the overall structure of the present utility model.

Fig. 2 is a schematic view of the back structure of the device of the present utility model.

FIG. 3 is a schematic view of an expanded plate structure of the present utility model.

Fig. 4 is a schematic view of the structure of the clamping assembly of the present utility model.

Fig. 5 is a schematic view of a partially enlarged structure at a in fig. 4 according to the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. Forging and pressing the assembly; 101. a carrying plate; 102. forging and pressing a die; 103. an outer mounting rack; 104. a synchronizing lever; 2. a sliding assembly; 201. an outer slider; 202. a guide frame; 3. a clamping assembly; 301. a clamping block; 302. a lower pressing plate; 303. a contact wheel; 4. a clamping assembly; 401. a slide bar; 402. a clamping frame; 403. a contact rack; 404. a contact; 5. a blanking assembly; 501. a blanking plate; 502. a spring plate; 6. an expansion plate; 7. reinforcing ribs.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.

As shown in fig. 1 to 5:

Embodiment one: the utility model provides flexible forging equipment for an aluminum alloy precise part, which comprises a forging component 1; the right side position of the forging and pressing assembly 1 is slidably provided with a sliding assembly 2, the left side position of the sliding assembly 2 is provided with a clamping assembly 3, the top of the clamping assembly 3 and the sliding assembly 2 is provided with a clamping assembly 4, the upper end position of the clamping assembly 4 is provided with an expansion plate 6, the right side position of the expansion plate 6 is additionally provided with a reinforcing rib 7, the bottom of the expansion plate 6 is in contact with the sliding assembly 2, and the forging and pressing assembly 1 is provided with a blanking assembly 5.

Wherein install forging mould 102 on forging and pressing assembly 1's the loading board 101, forging mould 102 sets up to the structure of vertical symmetry, set up forging mould 102 to synchronous orientation intermediate position and press from both sides tightly, it is when pressing from both sides the work piece to have realized pressing from both sides and getting assembly 4, it need not mention the work piece to reach and get assembly 4, can realize the position movement effect of work piece, the rear side position department of forging mould 102 is provided with outer mounting bracket 103 on the loading board 101, rotate on the outer mounting bracket 103 and install the gear, the rear side position of forging mould 102 is provided with synchronizing lever 104, the synchronizing lever 104 of forging mould 102 meshes with the gear each other simultaneously, when forging mould 102 presss from both sides tightly towards the intermediate position, can be through the contact of synchronizing lever 104 with the gear, the effect of letting two sets of forging moulds 102 about carry out synchronous motion is realized, reach the synchronous forging and pressing effect to the work piece.

The outer sliding block 201 of the sliding component 2 is arranged at the right side position of the forging component 1 in a sliding mode, the outer sliding block 201 is arranged to be of an inclined surface structure, the outer sliding block 201 of the sliding component is arranged to be of an inclined surface, the effect that the top of the outer sliding block 201 is connected with the clamping component 4 after the expansion plate 6 contacts with the inclined surface of the outer sliding block 201 is achieved, the sliding component 2 plays a role in driving the clamping component 4, a guide frame 202 is arranged at the right side position of the outer sliding block 201, a spring is additionally arranged on the guide frame 202, and the spring additionally arranged on the guide frame 202 has a reset effect of the outer sliding block 201, so that the reciprocating movement effect of the sliding component 2 is achieved.

The clamping block 301 of the clamping assembly 3 is slidably mounted on the forging assembly 1, the top of the clamping block 301 is connected with the clamping assembly 4, a lower pressing plate 302 is arranged between the front clamping block 301 and the rear clamping block 301, the lower pressing plate 302 is connected with the expansion plate 6 through a shaft body, the lower end of the lower pressing plate 302 is contacted with the inclined surface of the clamping block 301 through a contact wheel 303, the contact wheel 303 is additionally arranged at the contact position of the lower pressing plate 302 and the clamping block 301, and the effect that the contact wheel 303 can outwards jack the clamping block 301 at the front position and the rear position when the contact wheel 303 contacts with the inclined surface of the clamping block 301 is achieved, and the clamping block 301 moves relative to the clamping assembly 4 is also achieved.

Embodiment two: the sliding rod 401 of the clamping assembly 4 is connected with the sliding assembly 2 and the clamping assembly 3 at the same time, the clamping frame 402 is installed on the sliding rod 401, a spring is additionally installed at the clamping frame 402, the sliding rod 401 is arranged to be the same as the gear axis of the outer mounting frame 103, the sliding rod 401 can be always located at the same height as the gear of the outer mounting frame 103, damage to the clamping frame 402 is not caused by the forging mould 102 during forging, the spring is additionally installed at the clamping frame 402 of the sliding rod 401, the clamping frame 402 cannot be excessively clamped on a workpiece, the problem that the clamping assembly 4 damages the workpiece is achieved, the contact frame 403 is arranged at the clamping frame 402, the contact frame 403 is arranged to be of an arc-shaped structure, the contact head 404 is installed at the inner end face of the contact frame 403, the spring is additionally installed at the installation position of the contact head 404, the contact frame 403 is arranged to be of an arc-shaped structure, the contact frame 403 can be better realized to be anastomotic and clamped, the contact frame 403 is arranged to be more stable in the clamping effect of the workpiece, and the workpiece is clamped stably, and the workpiece is clamped 4 is clamped stably.

Wherein, the flitch 501 of unloading subassembly 5 articulates and installs on forging and pressing subassembly 1, the back position department of flitch 501 adds and is equipped with springboard 502, flitch 501 sets up to the slope structure towards the preceding terminal surface, install flitch 501 with forging and pressing subassembly 1 on articulated, install springboard 502 again between flitch 501 and the forging and pressing subassembly 1, realized flitch 501 when getting the work piece, realize that flitch 501 that has springboard 502 plays the flitch 501 and avoids the damage to the work piece protection, flitch 501 that inclines towards the front end position has the swift unloading effect of letting unloading subassembly 5 to the work piece.

Specific use and action of the embodiment:

In the utility model, when in use, the gear is firstly arranged at the position of the outer mounting frame 103, the synchronous rod 104 is arranged at the back of the forging die 102, the synchronous rod 104 is meshed with the gear, the symmetrical forging effect of the forging die 102 is realized after the upper and lower forging dies 102 are pressed, the forging movement part connected with equipment is simultaneously connected with the expansion plate 6, when the expansion plate 6 descends along with the forging die 102, the right side of the expansion plate 6 is pressed to the sliding component 2, the sliding component 2 drives the clamping component 4 to transversely move, the lower end of the expansion plate 6 is arranged at the lower pressing plate 302 and the contact wheel 303, the contact wheel 303 expands the clamping block 301 towards the front end and the rear end when the expansion plate 6 descends, thereby realize pressing from both sides and getting the left and right slip and the back tight effect of clamp of subassembly 4 to realize pressing from both sides and getting the subassembly 4 and can realize incessantly clamping the work piece, carry out the effect of position movement, slidable mounting has the clamp on the carriage release lever 401 and gets the frame 402, the installation department that presss from both sides and gets the frame 402 adds and be equipped with the spring, realize pressing from both sides and getting the subassembly 4 and can not press from both sides the work piece bad, and press from both sides contact frame 403 and the contact head 404 that get the arc structure on the frame 402, have better effect of stably pressing from both sides the work piece, and set up the unloading subassembly 5 that articulates to install on the forging and pressing subassembly 1, can set up to the slope form structure, realized the work piece after being placed in blanking plate 501 department, reach blanking plate 501 and make things convenient for the unloading effect to the work piece.

Claims (6)

1. The utility model provides a flexible forging and pressing equipment of accurate part of aluminum alloy which characterized in that: comprises a forging component (1); the right side of the forging component (1) is provided with a sliding component (2) in a sliding manner, the left side of the sliding component (2) is provided with a clamping component (3), and the top of the clamping component (3) and the top of the sliding component (2) are provided with a clamping component (4); the forging and pressing device is characterized in that an expansion plate (6) is arranged at the upper end of the clamping assembly (4), reinforcing ribs (7) are additionally arranged at the right side of the expansion plate (6), the bottom of the expansion plate (6) is contacted with the sliding assembly (2), and a blanking assembly (5) is arranged on the forging and pressing assembly (1).

2. A flexible forging apparatus for aluminum alloy precision parts as recited in claim 1, wherein: install forging mould (102) on loading board (101) of forging and pressing subassembly (1), forging mould (102) set up to the structure of upper and lower symmetry, and the rear side position department of forging mould (102) is provided with outer mounting bracket (103) on loading board (101), rotates on outer mounting bracket (103) and installs the gear, and the rear side position of forging mould (102) is provided with synchronizing lever (104), and synchronizing lever (104) of forging mould (102) simultaneously intermesh with the gear.

3. A flexible forging apparatus for aluminum alloy precision parts as recited in claim 1, wherein: the outer slider (201) of the sliding assembly (2) is arranged at the right side position of the forging assembly (1) in a sliding mode, the outer slider (201) is of an inclined surface structure, a guide frame (202) is arranged at the right side position of the outer slider (201), and a spring is additionally arranged on the guide frame (202).

4. A flexible forging apparatus for aluminum alloy precision parts as recited in claim 1, wherein: the clamping block (301) of the clamping assembly (3) is slidably mounted on the forging assembly (1), the top of the clamping block (301) is connected with the clamping assembly (4), a lower pressing plate (302) is arranged between the front clamping block (301) and the rear clamping block (301), the lower pressing plate (302) is connected with the expansion plate (6) through a shaft body, and the lower end of the lower pressing plate (302) is in contact with the inclined surface of the clamping block (301) through a contact wheel (303).

5. A flexible forging apparatus for aluminum alloy precision parts as recited in claim 1, wherein: the sliding rod (401) of the clamping assembly (4) is connected with the sliding assembly (2) and the clamping assembly (3) simultaneously, the sliding rod (401) is identical to the gear center of the outer mounting frame (103), the clamping frame (402) is mounted on the sliding rod (401), a spring is additionally mounted at the clamping frame (402), a contact frame (403) is arranged at the clamping frame (402), the contact frame (403) is of an arc-shaped structure, a contact head (404) is mounted on the inner end face of the contact frame (403), and a spring is additionally mounted at the mounting position of the contact head (404).

6. A flexible forging apparatus for aluminum alloy precision parts as recited in claim 1, wherein: the blanking plate (501) of the blanking assembly (5) is hinged to the forging assembly (1), a spring plate (502) is additionally arranged at the back position of the blanking plate (501), and the blanking plate (501) is of an inclined structure facing the front end face.