CN214448427U - Inner skin forming hot press - Google Patents

Abstract

The application relates to an inner skin forming hot press, which comprises a bracket, wherein a forming table is arranged on the bracket, a positioning table is arranged on the forming table, a hot pressing assembly is placed on the positioning table, a feeding assembly is arranged on the forming table, and a positioning assembly is arranged on the side edge of the positioning table; the feeding assembly comprises a feeding frame, a pair of feeding chains is rotatably arranged on the feeding frame, the positioning table is arranged between the two feeding chains, bearing plates for fixing the outer skin are arranged on the two feeding chains, and a feeding driving piece for driving the feeding chains to rotate synchronously is arranged on the feeding frame. The present application has the effect of improving endothelial thermoforming efficiency.

Description

Inner skin forming hot press

Technical Field

The application relates to the field of protective housing processing equipment, in particular to an inner skin forming hot press.

Background

At present, the shell comprises an outer skin and an inner skin, and a sizing material plate is arranged between the outer skin and the inner skin.

At present, the production process of the protective shell is to firstly shape the shaping plate on the outer skin through hot melt adhesive hot pressing, then lay the inner skin on the shaping plate and the outer skin, and then shape the inner skin on the outer skin and the shaping plate through hot pressing by a hot press machine, thereby completing the preparation of the protective shell.

Aiming at the related technologies, the inventor finds that the positioning plate needs to be manually sent to a forming table of a hot press, and then the positioning plate is manually taken out of the forming table after the hot press forming of the hot press, so that the defect that the hot press forming efficiency of the whole endothelium is low is caused.

SUMMERY OF THE UTILITY MODEL

In order to improve endothelial hot briquetting efficiency, this application provides an endothelial shaping hot press.

The application provides an endothelium shaping hot press adopts following technical scheme:

an inner skin forming hot press comprises a support, wherein a forming table is arranged on the support, a positioning table is arranged on the forming table, a hot pressing assembly is arranged on the positioning table, a feeding assembly is arranged on the forming table, and a positioning assembly is arranged on the side edge of the positioning table;

the feeding assembly comprises a feeding frame, a pair of feeding chains is rotatably arranged on the feeding frame, the positioning table is arranged between the two feeding chains, bearing plates for fixing the outer skin are arranged on the two feeding chains, and a feeding driving piece for driving the feeding chains to rotate synchronously is arranged on the feeding frame.

By adopting the technical scheme, the outer skin, the material plate and the inner skin are fixed on the bearing plate, then the bearing plate is placed on the two feeding chains, and the feeding chains are driven to rotate by the feeding driving part, so that the bearing plate placed on the feeding chains is driven to move forwards, the bearing plate is automatically conveyed to the positioning table, the effect of automatic feeding is achieved, and the thermal forming efficiency of the inner skin is improved; after the loading board is delivered to the positioning table, the inner skin and the outer skin on the loading board are subjected to hot pressing and shaping through the hot pressing assembly, and the positioning assembly limits the position of the loading board, so that the position accuracy of the loading board on the positioning table is ensured.

Optionally, the feeding driving part comprises a driving shaft and a driven shaft which are arranged on the feeding frame in a rotating mode, the two feeding chains are sleeved on the driving shaft and the driven shaft, and a rotating motor for driving the driving shaft to rotate is arranged on the feeding frame.

Through adopting above-mentioned technical scheme, pivoted motor drives the driving shaft and rotates to drive the cover and establish two feeding chain rotation on the driving shaft, thereby reach the synchronous pivoted effect of two feeding chain of drive, thereby guarantee the homogeneity that the loading board removed.

Optionally, a lifting driving piece for driving the feeding frame to move up and down is arranged on the forming table.

Through adopting above-mentioned technical scheme, drive the pay-off frame through the lift driving piece and reciprocate, can make the loading board after sending to the location bench, the pay-off chain on pay-off frame and the pay-off frame moves down, then makes the loading board take and put at the location bench to make hot pressing subassembly at the hot pressing in-process, the loading board can not receive the power of pay-off chain, thereby guarantee the hot pressing effect.

Optionally, the two material placing frames on the opposite sides of the feeding chains are provided with limiting plates.

Through adopting above-mentioned technical scheme for the loading board is located between two limiting plates, reduces the removal of loading board at the pay-off chain, thereby guarantees the position relation between endothelium and crust and the hot pressing subassembly on the loading board, thereby guarantees the hot briquetting effect of endothelium and crust.

Optionally, the positioning assembly comprises two vertical positioning cylinders arranged on the forming table, and a telescopic rod of each positioning cylinder is provided with a limiting column.

By adopting the technical scheme, in the feeding process, the positioning cylinder drives the limiting column to move upwards to enable the limiting column to protrude out of the upper top surface of the feeding chain, so that the bearing plate is kept by the limiting column to be kept out and cannot continue to move forwards after moving forwards to the position above the positioning table along with the feeding chain, and the limiting effect of the feeding direction on the bearing plate is achieved.

Optionally, the bearing plate is provided with two limiting blocks for clamping the two limiting columns, and the limiting columns are rotatably arranged on the telescopic rods of the positioning cylinders.

Through adopting above-mentioned technical scheme for when the loading board is close to spacing post gradually, spacing post rotates under the restriction of stopper, thereby makes the stopper along perpendicular to pay-off direction horizontal hunting, thereby reaches the position of correcting the loading board in perpendicular to pay-off direction, thereby ensures hot briquetting's effect.

Optionally, the hot pressing assembly comprises a support frame arranged on the forming table, a vertical downward pressing cylinder is arranged on the support frame, a bearing table is arranged on a telescopic rod of the pressing cylinder, and a heating copper plate is arranged on one side, close to the forming table, of the bearing plate

Through adopting above-mentioned technical scheme, through the circular telegram to the heating copper for the heating copper generates heat, thereby makes down the air cylinder drive the heating copper and push down, makes hot heating copper and the loading board contact of putting on the location bench, thereby heats and compresses tightly placing endothelium and crust on the loading board, thereby accomplishes the hot pressing design of endothelium and crust.

Optionally, a plurality of guide posts are arranged between the support frame and the forming table, and the bearing table is sleeved on the guide posts in a sliding manner.

Through adopting above-mentioned technical scheme, the setting of guide post reduces the plummer and pushes down the in-process slope to guarantee the hot briquetting effect.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the feeding assembly, the effects of automatic feeding and discharging are achieved, so that the efficiency of inner skin hot press molding is improved;

2. the arrangement of the positioning assembly ensures the hot-press forming effect.

Drawings

Fig. 1 is a schematic view of an overall structure of an endothelium-forming hot press according to an embodiment of the present disclosure.

Fig. 2 is a schematic structural diagram of a feeding assembly portion of an endothelium-forming hot press according to an embodiment of the present disclosure.

Fig. 3 is a schematic structural diagram of a hot pressing assembly in an endothelium forming hot press according to an embodiment of the present disclosure.

Description of reference numerals: 1. a support; 2. a forming table; 3. a positioning table; 4. a feeding assembly; 41. a feeding frame; 42. a lifting cylinder; 43. a feeding chain; 44. a drive shaft; 45. a driven shaft; 46. rotating the motor; 47. a carrier plate; 471. a limiting boss; 48. a limiting plate; 5. a positioning assembly; 51. positioning the air cylinder; 52. a limiting column; 53. a limiting block; 6. a hot pressing assembly; 61. a support frame; 62. a guide post; 63. pressing down the air cylinder; 64. a bearing table; 65. the copper plate is heated.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses an endothelium molding hot press. Referring to fig. 1, an endothelial profiling hot press comprises a stent 1. The support 1 is fixed with the horizontally shaping platform 2, is fixed with vertical decurrent hot pressing component 6 on the shaping platform 2, is fixed with on the below shaping platform 2 of hot pressing component 6 to be used for with the hot pressing component 6 complex location platform 3. A feeding component 4 is arranged on the forming table 2, and a positioning component 5 is arranged on the side wall forming table 2 of the positioning table 3.

Referring to fig. 1 and 2, the feeding assembly 4 includes a horizontal feeding frame 41 disposed above the forming table 2, and the feeding frame 41 is a square aluminum alloy frame. Be provided with the lift driving piece that drives pay-off frame 41 and go up and down on forming table 2, the lift driving piece is for fixing two vertical ascending lift cylinders 42 on 2 diapalls of forming table, and two lift cylinders 42 set up respectively at the both ends of pay-off frame 41 length direction, and the telescopic link of two lift cylinders 42 all with pay-off frame 41 fixed connection to thereby stretch out and draw back simultaneously through two lift cylinders 42 and drive the oscilaltion of pay-off frame 41 level. The feeding frame 41 is provided with two feeding chains 43 which are arranged in parallel, the two feeding days are arranged along the length direction of the feeding frame 41, and the positioning table 3 is positioned between the two feeding chains 43. The feeding frame 41 is provided with a feeding driving member for driving the two feeding chains 43 to rotate simultaneously. The feeding driving member comprises a driving shaft 44 and a driven shaft 45 which are arranged along the direction vertical to the length direction of the feeding frame 41. The driving shaft 44 and the driven shaft 45 are respectively provided at both ends of the feeding frame 41 in the longitudinal direction. The two feeding chains 43 are sleeved on the driving shaft 44 and the driven shaft 45, and the driving shaft 44 and the driven shaft 45 are in transmission connection with the two feeding chains 43 through chain wheels. The feeding frame 41 is provided with a rotating motor 46 for driving the driving shaft 44 to rotate, and the driving shaft 44 is driven to rotate by the rotating motor 46, so that the effect of simultaneously driving the two feeding chains 43 to rotate is achieved. A bearing plate 47 for fixedly placing the inner skin and the outer skin is arranged on the two feeding chains 43, and a limit boss 471 for limiting the inner skin and the outer skin is fixed on the top surface of the bearing plate 47. After the bearing plate 47 is placed on the feeding chain 43, the feeding chain 43 rotates, and the bearing plate 47 placed on the feeding chain 43 is driven by friction to move forwards, so that the effect of automatically conveying the bearing plate 47 to the position above the positioning table 3 is achieved.

Referring to fig. 1 and 2, the two feeding chains 43 are fixed with the limiting plates 48 on the feeding frame 41 at opposite sides, so that the bearing plate 47 is positioned between the two limiting plates 48, the movement of the bearing plate 47 on the feeding chains 43 is reduced, the position relation between the inner skin and the outer skin on the bearing plate 47 and the hot-press assembly 6 is ensured, and the hot-press forming effect of the inner skin and the outer skin is ensured.

Referring to fig. 1 and 2, after the bearing plate 47 is placed on the feeding chain 43, the bearing plate 47 moves towards the direction close to the positioning table 3 along with the feeding chain 43, and after the bearing plate 47 moves to the position right above the positioning table 3, the lifting cylinder 42 drives the feeding frame 41 to move downwards, and at the moment, the bearing plate 47 is placed on the positioning table 3 and fixed without moving downwards along with the feeding frame 41. Thereby reach the automatic effect of sending the flitch into on the locating platform 3 below hot pressing component 6. After the hot press forming is finished, the lifting cylinder 42 drives the feeding frame 41 to move upwards, so that the bearing plate 47 is placed on the feeding chain 43 again, the bearing plate 47 moves forwards along with the feeding chain 43, and the effect of automatically sending out the bearing plate 47 is achieved. Thereby completing the effects of automatic feeding and discharging.

Referring to fig. 1 and 2, the positioning unit 5 is provided at the distal end side of the positioning table 3 in the feeding direction of the feeding chain 43. The positioning assembly 5 comprises two vertically upwardly disposed positioning cylinders 51 fixed to the forming table 2. Two positioning cylinders 51 are provided in a direction perpendicular to the chain conveying direction. The telescopic rod of the positioning cylinder 51 is connected with a positioning column through a thrust bearing, so that the limiting column 52 can rotate. In the feeding process, the positioning cylinder 51 drives the limiting column 52 to move upwards, so that the limiting column 52 protrudes out of the upper top surface of the feeding chain 43, the bearing plate 47 moves forwards to the position above the positioning table 3 along with the feeding chain 43, and then the bearing plate is blocked by the limiting column 52 and cannot move forwards continuously, and the limiting effect of the feeding direction on the bearing plate 47 is achieved. The lateral wall of the loading plate 47 close to one side of the limiting columns 52 is provided with two limiting blocks 53, the minimum distance between the two limiting blocks 53 is the same as the maximum distance between the two limiting columns 52, so that when the loading plate 47 is gradually close to the limiting columns 52, the limiting columns 52 rotate under the limitation of the limiting blocks 53, the limiting blocks 53 swing left and right along the feeding direction of the vertical direction, the position of the loading plate 47 in the feeding direction of the vertical direction is corrected, and the effect of hot press forming is ensured.

Referring to fig. 1 and 3, the hot pressing assembly 6 includes a support frame 61 fixed on the forming table 2, four vertical guide posts 62 are fixed between the support frame 61 and the forming table 2, a same bearing table 64 is sleeved on the four guide rods, a vertical downward pressing cylinder 63 is fixed on the support frame 61 above the bearing table 64, and a telescopic rod of the pressing cylinder 63 is fixedly connected with the bearing table 64. So that the pressing cylinder 63 drives the bearing table 64 to move up and down. One end of the bearing plate 47, which is far away from the lower pressure cylinder 63, is fixed with a heating copper plate 65 through a connecting rod. Through to heating copper 65 circular telegram for heating copper 65 generates heat, thereby makes down air cylinder 63 drive heating copper 65 push down, makes hot heating copper 65 and the loading board 47 contact of putting on the location platform 3, thereby heats and compresses tightly placing endothelium and crust on loading board 47, thereby accomplishes the hot pressing design of endothelium and crust.

Referring to fig. 2 and 3, after the hot press forming is completed, the pressing cylinder 63 drives the heating copper plate 65 to be away from the bearing plate 47, and then the lifting cylinder 42 drives the feeding frame 41 to move upwards, so that the bearing plate 47 is separated from the positioning table 3 and is newly placed on the feeding chain 43. Then the positioning cylinder 51 drives the limiting column 52 to move downwards, and the limitation on the bearing plate 47 is released, so that the bearing plate 47 can move forwards along with the feeding chain 43, and the effect of automatic discharging is achieved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An endothelium shaping hot press machine which is characterized in that: the hot-pressing forming device comprises a support (1), wherein a forming table (2) is arranged on the support (1), a positioning table (3) is arranged on the forming table (2), a hot-pressing assembly (6) is arranged on the positioning table (3), a feeding assembly (4) is arranged on the forming table (2), and a positioning assembly (5) is arranged on the side edge of the positioning table (3);

the feeding assembly (4) comprises a feeding frame (41), a pair of feeding chains (43) is arranged on the feeding frame (41) in a rotating mode, the positioning table (3) is arranged between the two feeding chains (43), two bearing plates (47) used for fixing the outer skins are arranged on the feeding chains (43), and a feeding driving piece for driving the feeding chains (43) to rotate synchronously is arranged on the feeding frame (41).

2. The endothelial forming thermocompressor of claim 1, wherein: the feeding driving part comprises a driving shaft (44) and a driven shaft (45) which are rotatably arranged on a feeding frame (41), two feeding chains (43) are sleeved on the driving shaft (44) and the driven shaft (45), and a rotating motor (46) for driving the driving shaft (44) to rotate is arranged on the feeding frame (41).

3. The endothelial forming thermocompressor of claim 2, wherein: and a lifting driving piece for driving the feeding frame (41) to move up and down is arranged on the forming table (2).

4. The endothelial forming thermocompressor of claim 2, wherein: and limiting plates (48) are arranged on the material placing frames on the opposite sides of the two feeding chains (43).

5. The endothelial forming thermocompressor of claim 1, wherein: the positioning assembly (5) comprises two vertical positioning cylinders (51) arranged on the forming table (2), and a telescopic rod of each positioning cylinder (51) is provided with a limiting column (52).

6. The endothelial forming thermocompressor of claim 5, wherein: the bearing plate (47) is provided with two limiting blocks (53) used for clamping two limiting columns (52), and the limiting columns (52) are rotatably arranged on telescopic rods of the positioning cylinders (51).

7. The endothelial forming thermocompressor of claim 1, wherein: hot pressing subassembly (6) are including setting up support frame (61) on moulding platform (2), be provided with vertical decurrent air cylinder (63) down on support frame (61), be provided with plummer (64) on the telescopic link of air cylinder (63) down, loading board (47) are close to moulding platform (2) one side and are provided with heating copper (65).

8. The endothelial forming thermocompressor of claim 7, wherein: a plurality of guide posts (62) are arranged between the support frame (61) and the forming table (2), and the bearing table (64) is sleeved on the guide posts (62) in a sliding mode.

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