CN104400887B - 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 preparing artificial stone

Technical field

The present invention relates to a kind of pressue device, more particularly, to a kind of pressue device for preparing artificial stone.

Background technology

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

The general only one of which flywheel of existing pressue device, two eccentric blocks act on main shaft.Flywheel drives main shaft to turn When dynamic, the moment of torsion of flywheel acts on two point of applications, causes two point of applications to there is phase contrast, produces hysteresis, make slide block At the volley tilt phenomenon occurs, lead to mould discontinuity, make the density unevenness of base substrate, the absorption of water of last artificial stone, The parameters such as bending strength produce deviation with written standards.

In addition, the clamping device of existing pressue device is generally trip bolt or hydraulic clamping device it is necessary to artificial die change, lead Cause low production efficiency, labor strength is big.

Content of the invention

Embodiment of the present invention technical problem to be solved is, provide one kind can automatic clamping, uniform force application, effectively carry The pressue device for preparing artificial stone of high workload efficiency.

In order to solve above-mentioned technical problem, embodiments provide a kind of pressurization for preparing artificial stone and fill Put, comprising: fuselage, main shaft, flywheel, slide block and mobile work platform, described mobile work platform is located in described fuselage, described master Axle position is connected with described main shaft two ends located at described fuselage both sides, described main shaft sets in described back, described divided flywheel There are two symmetrical eccentric blocks, described slide block is connected with described main shaft by described eccentric block, on the base plate of described slide block Side is provided with gripping mechanism.

Preferably, described gripping mechanism includes cylinder body and the safety box being connected with described cylinder body, and described safety box is located at Below described cylinder body；

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

It is provided with eccentric shaft and the eccentric pendulum that cooperation is connected, described eccentric shaft and described safety box inwall in described safety box It is connected.

Preferably, described eccentric pendulum includes dissection type gear and clamping fork, described clamping fork and described subdivision Formula gear is fixedly connected, 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, it is provided with guide finger in described safety box, the edge of described guide finger is fitted with described rack bar.

Preferably, described cylinder body casing wall bottom is provided with guide ring, and described rack bar stretches into described peace through described guide ring Full box.

Preferably, described cylinder body is additionally provided with the inlet and outlet for input and output gas.

Preferably, described pressue device also includes driving means, and described driving means are connected with described flywheel.

Preferably, described fuselage is provided with guide rail, and described slide block is connected with the cooperation of described guide rail.

Preferably, described pressue device also includes control system.

Implement the embodiment of the present invention, have the advantages that

A kind of pressue device for preparing artificial stone of the present invention includes, fuselage, main shaft, flywheel, slide block and movement Workbench, divided flywheel is connected with main shaft two ends located at fuselage both sides, and two flywheels drive main axis simultaneously, make main shaft stress Stress equalization, the motion phase of two eccentric blocks is identical, and slide block is not in inclination when moving up and down under the drive of eccentric block. Mould uniform force so can be made and guide rail is not frayed, improve product quality, the qualification rate of guarantee product.

In addition, the slider bottom of the present invention is provided with clamping device includes cylinder body, safety box, by the motion of piston in cylinder Drive eccentric pendulum to swing and realize to the locking of mould and unblock, under the cooperation of mobile work platform can automatic mold-change it is achieved that The automatization of clamping device, mitigates the labor intensity of workman, improve production efficiency.

Brief description

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

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

Specific embodiment

For making the object, technical solutions and advantages of the present invention clearer, below in conjunction with accompanying drawing, the present invention is made into one Step ground describes in detail.

With reference to Fig. 1 and Fig. 2, embodiments provide a kind of pressue device for preparing artificial stone, comprising: Fuselage 1, main shaft 2, flywheel 6, slide block 3 and mobile work platform 4, described mobile work platform 4 is located in described fuselage 1, described master Axle 2 is located at described fuselage 1 top, and 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 are provided with two symmetrical eccentric blocks 21, and described slide block 3 is connected with described main shaft 2 by described eccentric block 21, described cunning It is provided with gripping mechanism 5 above the base plate of block 3.

Two described flywheels 6 drive described main shaft 2 to rotate simultaneously, make described main shaft 2 stress stress equalization, and two described inclined The motion phase of heart block 21 is identical, and described slide block 3 is not in inclination when moving up and down under the drive of described eccentric block 21.

It should be noted that mould can be movable into and out working area by described mobile work platform 4 automatically, reduce workman's Labor intensity.

Described gripping mechanism 5 includes cylinder body 51 and the safety box 52 being connected with described cylinder body 51, described safety box 52 Below described cylinder body 51；It is provided with piston 53, rack bar 54, described rack bar 54 and described piston 53 phase in described cylinder body 51 Even, its lower end is stretched in described safety box 52；It is provided with eccentric shaft 55 and the eccentric pendulum 56 that cooperation is 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 includes dissection type gear and clamping fork, described clamping fork and described dissection type gear It is fixedly connected, 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 be moved up and down, and described dissection type gear is in described rack bar 54 Drive under rotate, and then drive described clamping fork to swing, realize to the locking of 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, Preferably, the pendulum angle of described clamping fork is 11 ° ~ 16 °.

It is provided with guide finger 57, the edge of described guide finger 57 is fitted with described rack bar 54 in described safety box 52.

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

Described cylinder body 51 casing wall bottom is provided with guide ring 58, and described rack bar 54 stretches into described peace through described guide ring 58 Full box 52.

Described guide ring 58 is fitted with described cylinder body 51 casing wall bottom and described rack bar 54, with described guide finger 57 The movement locus of the fixing described rack bar 54 of cooperation, and avoid the abrasion of described rack bar 54.

Described cylinder body 51 is additionally provided with the inlet and outlet for input and output gas.

Described pressue device also includes driving means, and described driving means are connected with described flywheel 6.

Described driving means make two described flywheels 6 rotate when starting simultaneously, make described flywheel 6 act on described main shaft 2 On moment of torsion act simultaneously on two described eccentric blocks 21, make two described eccentric blocks 21 be not in delayed phase phenomenon, So that described slide block 3 is not in tilt phenomenon.

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

Described slide block 3, under the drive of described eccentric block 21, is pumped by the guiding of described guide rail 7.

The mechanism of described clamping device 5 is as follows: during more mold exchange, the rack bar 54 in cylinder body 51 is descending, rack bar 54 engagements drive eccentric pendulums 56 to rotate, due to eccentric presence, eccentric pendulum can first descending certain stroke unclamp inverse after mould Hour hands rotate, so that eccentric pendulum 56 opens an angle, eccentric pendulum 56 outputs mobile work platform behind break away from moulds space More mold exchange.After more mold exchange, mobile work platform 4 is opened into pressue device working area, and cylinder body 51 middle rack bar 54 is up, rack bar 54 engagements drive eccentric pendulum 56 to be clockwise to clamped position, because eccentric presence fork can up certain stroke locking Mould, it is achieved thereby that the auto lock of mould.

Preferably, described pressue device also includes control system.

It should be noted that the operation of described control system control slide block and driving means, the startup of control clamping device, Biasing strength and slide block movement frequency.Using control system, pressing technology is controlled, the operation of real time monitoring apparatus, operation Simply, be conducive to large-scale automated production.

Implement the embodiment of the present invention, have the advantages that a kind of pressurization for preparing artificial stone of the present invention fills Put including, fuselage, main shaft, flywheel, slide block and mobile work platform, divided flywheel is connected with main shaft two ends located at fuselage both sides, two Individual flywheel drives main axis simultaneously, makes main shaft stress stress equalization, and the motion phase of two eccentric blocks is identical, and slide block is in bias Be not in inclination when moving up and down under the drive of block.Mould uniform force so can be made and guide rail is not frayed, improve Product quality, the qualification rate of guarantee product.

In addition, the slider bottom of the present invention is provided with clamping device includes cylinder body, safety box, by the motion of piston in cylinder Drive eccentric pendulum to swing and realize to the locking of mould and unblock, under the cooperation of mobile work platform can automatic mold-change it is achieved that The automatization of clamping device, mitigates the labor intensity of workman, improve production efficiency.

The above is the preferred embodiment of the present invention it is noted that for those skilled in the art For, under the premise without departing from the principles of the invention, some improvements and modifications can also be made, these improvements and modifications are also considered as Protection scope of the present invention.

Claims (8)

1. a kind of pressue device for preparing artificial stone is it is characterised in that described pressue device includes: fuselage, main shaft, fly Wheel, slide block and mobile work platform, described mobile work platform is located in described fuselage, and described main shaft is located at described back, Described divided flywheel is connected with described main shaft two ends located at described fuselage both sides, and described main shaft is provided with two symmetrical bias Block, 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；

Described gripping mechanism includes cylinder body and the safety box being connected with described cylinder body, and described safety box is located under described cylinder body Side；

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

It is provided with eccentric shaft and eccentric pendulum, described eccentric shaft and the described safety box inwall phase that cooperation is connected in described safety box Even；

Described eccentric pendulum includes dissection type gear and clamping fork, and described clamping fork is fixing with described dissection type gear even Connect, described clamping fork bottom is stretched out outside described safety box.

2. pressue device according to claim 1 is it is characterised in that the teeth portion of described rack bar and described dissection type gear It is meshed.

3. pressue device according to claim 1 is it is characterised in that be provided with guide finger in described safety box, described guiding The edge of pin is fitted with described rack bar.

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

5. pressue device according to claim 1 is it is characterised in that described cylinder body is additionally provided with the import for input and output gas And outlet.

6. pressue device according to claim 1 is it is characterised in that described pressue device also includes driving means, described Driving means are connected with described flywheel.

7. pressue device according to claim 1 is it is characterised in that described fuselage is provided with guide rail, described slide block with described Guide rail cooperation is connected.

8. pressue device according to claim 1 is it is characterised in that described pressue device also includes control system.