CN210209244U - Tank body cover die mechanism - Google Patents

Abstract

The utility model discloses a tank body die-casting mechanism, which comprises a frame and a die-casting device which is movably connected on the frame, wherein the die-casting device comprises a fixed die head, a die-casting head and a synchronous transmission device which are coaxially arranged, the die-casting device moves along the axial direction on the frame, the fixed die head is arranged behind the die-casting head, a gap is arranged between the fixed die head and the die-casting head, and the die-casting head can move along the axial direction relative to the fixed die head; the synchronous transmission device is connected with the die sleeve device, drives the fixed die head and the die sleeve head to synchronously rotate, is convenient to use and stable in transmission, and greatly improves the production efficiency of tank body processing.

Description

Tank body cover die mechanism

Technical Field

The utility model relates to an automation equipment technical field particularly, relates to jar body cover die mechanism.

Background

The tank body is often required to be welded and other process operations in the processing, the tank body is required to be rotated to process different specific positions in the process, and a mechanism capable of automatically rotating and positioning the tank body is required to facilitate the processing.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a stable and accurate jar body cover die mechanism of transmission.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

a tank body die sleeve mechanism comprises a rack and a die sleeve device which is movably connected to the rack, wherein the die sleeve device comprises a fixed die head, a die sleeve head and a synchronous transmission device which are coaxially arranged; the synchronous transmission device is connected with the die sleeve device and drives the fixed die head and the die sleeve head to synchronously rotate.

As an improvement of the technical scheme, the synchronous transmission device comprises a driving gear, two large gears, two driven gears, a transmission spline and a motor, wherein the two large gears are respectively coaxially connected with the fixed die head and the sleeve die head, the two driven gears are respectively in transmission connection with the large gears, the motor drives the driving gear to rotate, the driving gear is in transmission connection with the driven gears at the fixed die head, and the two driven gears are in synchronous rotation through coaxial connection of the transmission spline.

As a further improvement of the technical scheme, the fixed die head is connected with a large gear corresponding to the fixed die head through a main shaft, and the large gear is sleeved at the end part of the main shaft and fixed through a screw; an adjusting screw is further arranged behind the main shaft on the frame, and the end of the adjusting screw is opposite to the tail end of the main shaft so as to adjust the position of the fixed die head.

Further, the lateral wall of cover die head is equipped with a plurality of logical grooves, cover die device is still including installing the hole positioning mechanism who overlaps die head side, hole positioning mechanism includes locating lever and first driver, first driver drive locating lever carries out the flexible removal towards leading to the groove direction.

Further, the die sleeve device further comprises a second driver, a guide rail is arranged on the rack, and the die sleeve device moves on the rack along the guide rail through the second driver.

Further, a third driver is further arranged on the machine frame, the third driver is connected with the sleeve die head through a connecting rod, and the sleeve die head is driven to move relative to the fixed die head.

The utility model has the advantages that: a tank body die sleeve mechanism comprises a rack and a die sleeve device which is movably connected to the rack, wherein the die sleeve device comprises a fixed die head, a die sleeve head and a synchronous transmission device which are coaxially arranged; the synchronous transmission device is connected with the die sleeve device, drives the fixed die head and the die sleeve head to synchronously rotate, is convenient to use, stable in transmission and accurate in rotating angle, and greatly improves the production efficiency of tank body processing.

Drawings

The following is further described with reference to the accompanying drawings and examples.

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a right side view of the partial structure of the present invention;

fig. 3 is a top view of the present invention;

FIG. 4 is a front view of the present invention;

FIG. 5 is a view showing the state of the expanding die can loading mechanism of the present invention;

fig. 6 is a schematic structural view of the can feeding mechanism of the expansion die of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

Referring to fig. 1, a tank body die-casting mechanism comprises a frame 1 and a die-casting device which is movably connected to the frame 1, wherein the die-casting device comprises a fixed die head 3, a die-casting head 2 and a synchronous transmission device 4 which are coaxially mounted, the die-casting device moves on the frame 1 along the axial direction, the fixed die head 3 is mounted behind the die-casting head 2, a gap exists between the fixed die head and the die-casting head 2, and the die-casting head 2 can move along the axial direction relative to the fixed die head 3; the synchronous transmission device 4 is connected with the die sleeve device, and the synchronous transmission device 4 drives the fixed die head 3 and the die sleeve head 2 to synchronously rotate; in the embodiment, two tank body cover die mechanisms are arranged coaxially in opposite directions, a tank body to be processed is placed into the cover die heads 2 of the two tank body cover die mechanisms respectively, the opening of the tank body faces outwards, the back of the tank body abuts against the fixed die head 3, the cover die devices on the two sides move oppositely on the rack 1, the openings of the two tank bodies are combined, the joint of the two tank bodies is welded or processed by other procedures, the synchronous transmission device 4 is started, the fixed die head 3 and the cover die head 2 rotate synchronously, so that the tank body rotates along with the fixed die head and the cover die head 2 to change the position for continuous processing, the rotation is stable, the rotation angle is accurate, and the processing quality of a product is facilitated; after the processing is finished, the sleeve die head 2 independently moves towards the fixed die head 3, namely the fixed die head 3 completely ejects the tank body from the sleeve die head 2 outwards, and external equipment supports the tank body to realize the demolding of the tank body; when only one tank body die sleeve mechanism is used, the same tank body die feeding, rotating processing and demoulding procedures can be carried out; the utility model discloses jar body cover die mechanism convenient to use, transmission are stable, greatly improve the production efficiency of jar body processing.

Referring to fig. 1 to 4, specifically, the synchronous transmission device 4 includes a driving gear 41, two large gears 42 respectively connected with the fixed mold head 3 and the cover mold head 2 in a coaxial manner, two driven gears 43 respectively connected with the large gears 42 in a transmission manner, a transmission spline 44, and a motor for driving the driving gear 41 to rotate, the driving gear 41 is connected with the driven gear 43 at the fixed mold head 3 in a transmission manner, the two driven gears 43 are connected in a coaxial manner through the transmission spline 44 to rotate synchronously, the transmission is stable, the rotation angle is accurate, when the cover mold device moves integrally, the synchronous transmission device 4 moves along with the synchronous transmission device, when the cover mold head 2 moves independently, the large gear 42 at the cover mold head 2 leaves the corresponding driven gear 43, and the tank body is reset after being ejected out.

Further, the fixed die head 3 is connected with a large gear 42 corresponding to the fixed die head through a main shaft 5, and the large gear 42 is sleeved at the end of the main shaft 5 and fixed through a screw; an adjusting screw 6 is further arranged behind the main shaft 5 on the rack 1, the end of the adjusting screw 6 is arranged opposite to the tail end of the main shaft 5 to adjust the position of the fixed die head 3, namely, the adjusting screw 6 is used for adjusting the relative position of the fixed die head 3 and the sleeve die head 2 to change the size of the gap between the top die head 3 and the sleeve die head 2, so that the production and processing of the tank bodies with different sizes are suitable.

The side wall of the sleeve die head 2 is provided with a plurality of through grooves 31, the sleeve die device further comprises a hole positioning mechanism 7 arranged on the side of the sleeve die head 2, the hole positioning mechanism 7 comprises a positioning rod 71 and a first driver 72, the first driver 72 drives the positioning rod 71 to move in a telescopic mode towards the direction of the through grooves 31, a positioning hole is formed in the tank body to be processed, the positioning rod 71 is inserted into the positioning hole to position the tank body, and meanwhile, when the tank body moves and rotates, the positioning rod 71 further has a limiting and stabilizing effect on the tank body.

Specifically, the die sleeve device further comprises a second driver, a guide rail 11 is arranged on the rack 1, and the die sleeve device moves on the rack 1 along the guide rail 11 through the second driver.

Specifically, the frame 1 is further provided with a third driver 8, the third driver 8 is connected with the sleeve die head 2 through a connecting rod 81, and the sleeve die head 2 is driven to move relative to the fixed die head 3.

Referring to fig. 5 and 6, further, the device further comprises an expansion die can feeding mechanism (9), wherein the expansion die can feeding mechanism (9) comprises a base (91), a swing rod (92) and an expansion die head (93), the expansion die head (93) is mounted on the swing rod (92), the swing rod (92) is movably connected to the base (91) and swings clockwise or counterclockwise along a longitudinal plane to drive the expansion die head (93) to move towards the die sleeve head (2), and the surface of the expansion die head (93) is composed of a plurality of concentrically mounted expansion modules (931) capable of performing expansion and contraction movement; the die head (93) is also provided with a limiting mechanism (94), and the limiting mechanism (94) comprises a limiting rod capable of moving in a telescopic manner and a fourth driver for driving the limiting rod; during operation, the internal expanding die 931 inflation extrusion jar internal wall of jar is stretched into to die head 93 that expands, in this embodiment, stop gear 94 installs inside die head 93 expands, and the gag lever post outwards stretches out and draws back from the inside of die head 93 that expands, and when jar body cover was on die head 53 that expands, the gag lever post outwards stretched out the inside of die head that expands and carries out the butt to the jar body spacing, and pendulum rod 92 drives die head 93 that expands and removes cover die head 2 department, and cover die device removes and puts into the jar body and accomplish automatic feeding in cover die head 2.

The first driver 72, the second driver, the third driver 8, and the fourth driver are preferably air cylinders or motors.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (7)

1. The utility model provides a jar body cover die mechanism which characterized in that: the die sleeve device comprises a rack (1) and a die sleeve device which is movably connected to the rack (1), wherein the die sleeve device comprises a fixed die head (3), a die sleeve head (2) and a synchronous transmission device (4), the fixed die head (3) and the die sleeve head (2) are coaxially mounted, the die sleeve device moves on the rack (1) along the axial direction, the fixed die head (3) is mounted behind the die sleeve head (2), a gap exists between the fixed die head and the die sleeve head, and the die sleeve head (2) can move relative to the fixed die head (3) along the axial direction; the synchronous transmission device (4) is connected with the die sleeve device, and the synchronous transmission device (4) drives the fixed die head (3) and the die sleeve head (2) to synchronously rotate.

2. The can body overmold mechanism of claim 1, wherein: synchronous transmission device (4) include driving gear (41), two respectively with cover die head (3) and cover die head (2) coaxial coupling's gear wheel (42), two respectively with driven gear (43), transmission spline (44) that gear wheel (42) transmission is connected and drive driving gear (41) pivoted motor, driving gear (41) are connected with driven gear (43) transmission of cover die head (3) department, two driven gear (43) carry out synchronous rotation through transmission spline (44) coaxial coupling.

3. The can body overmold mechanism of claim 2, wherein: the fixed die head (3) is connected with the corresponding gearwheel (42) through a main shaft (5), and the gearwheel (42) is sleeved at the end part of the main shaft (5) and fixed through a screw; an adjusting screw (6) is further arranged behind the main shaft (5) on the rack (1), and the end part of the adjusting screw (6) is installed opposite to the tail end of the main shaft (5) so as to adjust the position of the fixed die head (3).

4. The can body overmold mechanism of claim 1, wherein: the side wall of cover die head (2) is equipped with a plurality of logical groove (31), cover die device is still including installing hole positioning mechanism (7) in cover die head (2) side, hole positioning mechanism (7) are including locating lever (71) and first driver (72), first driver (72) drive locating lever (71) are to leading to groove (31) direction and carry out telescopic movement.

5. The can body overmold mechanism of claim 1, wherein: the die sleeve device further comprises a second driver, a guide rail (11) is arranged on the rack (1), and the die sleeve device moves on the rack (1) along the guide rail (11) through the second driver.

6. The can body overmold mechanism of claim 1, wherein: the frame (1) is further provided with a third driver (8), the third driver (8) is connected with the sleeve die head (2) through a connecting rod (81), and the sleeve die head (2) is driven to move relative to the fixed die head (3).

7. The can body overmold mechanism of claim 1, wherein: the die-casting machine is characterized by further comprising an expansion die can feeding mechanism (9), wherein the expansion die can feeding mechanism (9) comprises a base (91), a swing rod (92) and an expansion die head (93), the expansion die head (93) is mounted on the swing rod (92), the swing rod (92) is movably connected to the base (91) to swing clockwise or anticlockwise along the longitudinal plane so as to drive the expansion die head (93) to move towards the die sleeve head (2), and the surface of the expansion die head (93) is composed of a plurality of concentrically mounted expansion modules (931) capable of expanding and contracting; and the die expansion head (93) is also provided with a limiting mechanism (94), and the limiting mechanism (94) comprises a limiting rod capable of moving in a telescopic way and a fourth driver for driving the limiting rod.

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