CN104400887A - Pressurization device for preparing artificial stone blocks - Google Patents

Abstract

The invention discloses a pressurization device for preparing artificial stone blocks. The pressurization device for preparing the artificial stone blocks comprises a machine body, a main shaft, flywheels, a sliding block and a traverse table, wherein the traverse table is located in the machine body; the main shaft is located on the upper part of the machine body; the flywheels are respectively arranged on two sides of the machine body and are connected with two ends of the main shaft; two symmetrically distributed eccentric blocks are arranged on the main shaft; the sliding block is connected with the main shaft through the eccentric blocks; a clamping device is arranged above a base plate of the sliding block. With the pressurization device for preparing the artificial stone blocks, a mould can be stressed uniformly, a guide rail is not abraded, the product quality is improved, the yield of products is ensured, the automation of the clamping device is realized, the labor intensity of workers is relieved, and the production efficiency is improved.

Description

A kind of pressue device for the preparation of artificial stone

Technical field

The present invention relates to a kind of pressue device, particularly relate to a kind of pressue device for the preparation of artificial stone.

Background technology

The production process of artificial stone is generally cloth, pressurization, vibration, maintenance, artificial stone produces with the form of sheet material or waste material, and when especially finished product is waste material, the volume weight of its base substrate is larger, and in the production technology of artificial stone, need larger precision, to ensure the stable in properties of finished product.

Existing pressue device generally only has a flywheel, and two eccentric blocks act on main shaft.During flywheel drive main axis, the torsional interaction of flywheel is in two point of applications, two point of applications are caused to there is phase difference, produce hysteresis, slide block is made to occur tilt phenomenon at the volley, cause mould discontinuity, make the density unevenness of base substrate, the parameter such as absorption of water, bending strength of last artificial stone and written standards produce deviation.

In addition, the clamping device of existing pressue device is generally trip bolt or hydraulic clamping device, and necessary artificial die change, cause production efficiency low, labor strength is large.

Summary of the invention

Embodiment of the present invention technical problem to be solved is, provides one can automatic clamping, uniform force application, the pressue device for the preparation of artificial stone of effectively increasing work efficiency.

In order to solve the problems of the technologies described above, embodiments provide a kind of pressue device for the preparation of artificial stone, comprise: fuselage, main shaft, flywheel, slide block and travelling table, described travelling table is positioned at described fuselage, described main shaft is positioned at described back, described divided flywheel is located at described fuselage both sides and is connected with described main shaft two ends, described main shaft is provided with two symmetrical eccentric blocks, described slide block is connected with described main shaft by described eccentric block, is provided with gripping mechanism above the base plate of described slide block.

Preferably, the safety box that described gripping mechanism comprises cylinder body and is connected with described cylinder body, described safety box is positioned at below described cylinder body;

Be provided with piston, rack bar in described cylinder body, described rack bar is connected with described piston, and its lower end is stretched in described safety box;

Be provided with the eccentric shaft and eccentric pendulum that coordinate and be connected in described safety box, described eccentric shaft is connected with described safety box inwall.

Preferably, described eccentric pendulum comprises dissection type gear and clamping fork, and described clamping fork is fixedly connected with described dissection type gear, and described clamping fork bottom is stretched out outside described safety box.

Preferably, the teeth portion of described rack bar is meshed with described dissection type gear.

Preferably, be provided with guide finger in described safety box, edge and the described rack bar of described guide finger fit.

Preferably, be provided with guide ring bottom described cylinder body casing wall, described rack bar stretches into described safety box through described guide ring.

Preferably, described cylinder body is also provided with import for input and output gas and outlet.

Preferably, described pressue device also comprises drive unit, and described drive unit and described flywheel are connected.

Preferably, described fuselage is provided with guide rail, and described slide block coordinates with described guide rail and is connected.

Preferably, described pressue device also comprises control system.

Implement the embodiment of the present invention, there is following beneficial effect:

A kind of pressue device for the preparation of artificial stone of the present invention comprises, fuselage, main shaft, flywheel, slide block and travelling table, divided flywheel is located at fuselage both sides and is connected with main shaft two ends, two flywheels drive main axis simultaneously, make the stressed stress equalization of main shaft, the motion phase of two eccentric blocks is identical, there will not be inclination when slide block moves up and down under the drive of eccentric block.So can make mould uniform force and guide rail is not frayed, improve product quality, ensure the qualification rate of product.

In addition, slider bottom of the present invention is provided with clamping device and comprises cylinder body, safety box, eccentric pendulum is driven to swing realization to the locking of mould and unblock by the motion of piston in cylinder, can automatic mold-change under the cooperation of travelling table, achieve the automation of clamping device, alleviate the labour intensity of workman, enhance productivity.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention for the preparation of artificial stone's pressue device;

Fig. 2 is the structural representation of the present invention for the preparation of the clamping device of artificial stone's pressue device.

Detailed description of the invention

 

For making the object, technical solutions and advantages of the present invention clearly, below in conjunction with accompanying drawing, the present invention is described in further detail.

With reference to Fig. 1 and Fig. 2, embodiments provide a kind of pressue device for the preparation of artificial stone, comprise: fuselage 1, main shaft 2, flywheel 6, slide block 3 and travelling table 4, described travelling table 4 is positioned at described fuselage 1, described main shaft 2 is positioned at described fuselage 1 top, described flywheel 6 is divided into described fuselage 1 both sides and is connected with described main shaft 2 two ends, described main shaft 2 is provided with two symmetrical eccentric blocks 21, described slide block 3 is connected with described main shaft 2 by described eccentric block 21, is provided with gripping mechanism 5 above the base plate of described slide block 3.

Two described flywheels 6 drive described main shaft 2 to rotate simultaneously, and make the stressed stress equalization of described main shaft 2, the motion phase of two described eccentric blocks 21 is identical, there will not be inclination when described slide block 3 moves up and down under the drive of described eccentric block 21.

It should be noted that, mould can move into and shift out workspace by described travelling table 4 automatically, reduces the labour intensity of workman.

The safety box 52 that described gripping mechanism 5 comprises cylinder body 51 and is connected with described cylinder body 51, described safety box 52 is positioned at below described cylinder body 51; Be provided with piston 53, rack bar 54 in described cylinder body 51, described rack bar 54 is connected with described piston 53, and its lower end is stretched in described safety box 52; Be provided with the eccentric shaft 55 and eccentric pendulum 56 that coordinate and be connected in described safety box 52, described eccentric shaft 55 is connected with described safety box 52 inwall.

It should be noted that, described safety box 52 is installed on above described slide block 3 base plate.

More preferably, described cylinder body is oil cylinder or cylinder, realizes clamping device auto lock and unblock.

Described eccentric pendulum 56 comprises dissection type gear and clamping fork, and described clamping fork is fixedly connected with described dissection type gear, and described clamping fork bottom is stretched out outside described safety box 52.

The teeth portion of described rack bar 54 is meshed with described dissection type gear.

Described piston 53 drives described rack bar 54 to move up and down, and described dissection type gear rotates under the drive of described rack bar 54, and then drives described clamping fork to swing, and realizes the locking to mould and unblock.

It should be noted that, the displacement that described rack bar 54 moves up and down determines the amplitude of fluctuation of described clamping fork, and preferably, the pendulum angle of described clamping fork is 11 ° ~ 16 °.

Be provided with guide finger 57 in described safety box 52, edge and the described rack bar 54 of described guide finger 57 fit.

Described guide finger 57 fixedly mounts, perpendicular with described rack bar 54.When described rack bar 54 moves up and down, described guide finger 57 plays guide effect to described rack bar 54.

Be provided with guide ring 58 bottom described cylinder body 51 casing wall, described rack bar 54 stretches into described safety box 52 through described guide ring 58.

Bottom described guide ring 58 and described cylinder body 51 casing wall and described rack bar 54 fit, coordinates the movement locus fixing described rack bar 54 with described guide finger 57, and avoids the wearing and tearing of described rack bar 54.

Described cylinder body 51 is also provided with import for input and output gas and outlet.

Described pressue device also comprises drive unit, and described drive unit and described flywheel 6 are connected.

Described drive unit makes two described flywheels 6 rotate when starting simultaneously, make described flywheel 6 moment of torsion acted on described main shaft 2 act on two described eccentric blocks 21 simultaneously, make two described eccentric blocks 21 there will not be delayed phase phenomenon, thus make described slide block 3 there will not be tilt phenomenon.

Described fuselage 1 is provided with guide rail 7, and described slide block 3 coordinates with described guide rail 7 and is connected.

Described slide block 3, under the drive of described eccentric block 21, is guided by described guide rail 7 and pumps.

The mechanism of described clamping device 5 is as follows: more during mold exchange, rack bar 54 in cylinder body 51 is descending, rack bar 54 engages and drives eccentric pendulum 56 to rotate, due to the existence of bias, eccentric pendulum meeting rotates counterclockwise after first descending certain stroke unclamps patrix, thus make eccentric pendulum 56 open an angle, output travelling table more mold exchange behind eccentric pendulum 56 break away from moulds space.More after mold exchange, travelling table 4 is opened into pressue device workspace, and cylinder body 51 middle rack bar 54 is up, and rack bar 54 engages and drives eccentric pendulum 56 to be clockwise to clamped position, because the fork that exists of bias can up certain stroke locking die, thus achieve the auto lock of mould.

Preferably, described pressue device also comprises control system.

It should be noted that, described control system controls the operation of slide block and drive unit, controls the startup of clamping device, biasing strength and slide block movement frequency.Control system is adopted to control pressing technology, the operation of real time monitoring apparatus, simple to operate, be conducive to large-scale automated production.

Implement the embodiment of the present invention, there is following beneficial effect: a kind of pressue device for the preparation of artificial stone of the present invention comprises, fuselage, main shaft, flywheel, slide block and travelling table, divided flywheel is located at fuselage both sides and is connected with main shaft two ends, two flywheels drive main axis simultaneously, make the stressed stress equalization of main shaft, the motion phase of two eccentric blocks is identical, there will not be inclination when slide block moves up and down under the drive of eccentric block.So can make mould uniform force and guide rail is not frayed, improve product quality, ensure the qualification rate of product.

In addition, slider bottom of the present invention is provided with clamping device and comprises cylinder body, safety box, eccentric pendulum is driven to swing realization to the locking of mould and unblock by the motion of piston in cylinder, can automatic mold-change under the cooperation of travelling table, achieve the automation of clamping device, alleviate the labour intensity of workman, enhance productivity.

The above is the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications are also considered as protection scope of the present invention.

Claims (8)

1. the pressue device for the preparation of artificial stone, it is characterized in that, described pressue device comprises: fuselage, main shaft, flywheel, slide block and travelling table, described travelling table is positioned at described fuselage, described main shaft is positioned at described back, described divided flywheel is located at described fuselage both sides and is connected with described main shaft two ends, described main shaft is provided with two symmetrical eccentric blocks, described slide block is connected with described main shaft by described eccentric block, is provided with gripping mechanism above the base plate of described slide block;

The safety box that described gripping mechanism comprises cylinder body and is connected with described cylinder body, described safety box is positioned at below described cylinder body;

Be provided with piston, rack bar in described cylinder body, described rack bar is connected with described piston, and its lower end is stretched in described safety box;

Be provided with the eccentric shaft and eccentric pendulum that coordinate and be connected in described safety box, described eccentric shaft is connected with described safety box inwall;

Described eccentric pendulum comprises dissection type gear and clamping fork, and described clamping fork is fixedly connected with described dissection type gear, and described clamping fork bottom is stretched out outside described safety box.

2. pressue device according to claim 1, is characterized in that, the teeth portion of described rack bar is meshed with described dissection type gear.

3. pressue device according to claim 1, is characterized in that, is provided with guide finger in described safety box, and edge and the described rack bar of described guide finger fit.

4. pressue device according to claim 1, is characterized in that, is provided with guide ring bottom described cylinder body casing wall, and described rack bar stretches into described safety box through described guide ring.

5. pressue device according to claim 1, is characterized in that, described cylinder body is also provided with import for input and output gas and outlet.

6. pressue device according to claim 1, is characterized in that, described pressue device also comprises drive unit, and described drive unit and described flywheel are connected.

7. pressue device according to claim 1, is characterized in that, described fuselage is provided with guide rail, and described slide block coordinates with described guide rail and is connected.

8. pressue device according to claim 1, is characterized in that, described pressue device also comprises control system.