CN201645283U - Stone material grinder - Google Patents

Abstract

The utility model discloses a stone material grinder, a serial communication port, include: the rack is fixedly provided with a semicircular arc-shaped tooth row; a rotation drive mechanism having a housing and an output shaft, the output shaft being engaged with the gear row through a gear; the grinding assembly is provided with a power motor, a grinding disc connected with an output shaft of the power motor and an adjusting mechanism connected with a shell of the power motor, and the adjusting mechanism is arranged along the radial direction of the tooth row and is fixedly connected with the shell of the rotation driving mechanism; and the control assembly is provided with a controller and sensors arranged at two ends of the gear row, and the controller is connected with the rotation driving mechanism, the power motor, the adjusting mechanism and the sensors. The utility model discloses multiple type grinding can be realized to have the effect that grinding effect is good, simple structure and with low costs.

Description

A kind of stone grinding device

Technical field

The utility model relates to the processing and manufacturing apparatus field, relates to a kind of stone grinding device in particular.

Background technology

Stone material, such as marble and granite in slab, it generally is used to make daily living article by people.In order to satisfy the requirement of people to its surface configuration, manufacturer often need process accordingly according to client's demand, such as carries out rounding, falls the hypotenuse or the trapezoidal side etc. of falling, and at this moment just needs to satisfy the stone grinding device of various demands.

Existing a kind of stone grinding device, it comprises abrasive disk and the power motor that links to each other with abrasive disk, this power motor drives this abrasive disk high speed rotating, thereby utilizes the abrasive disk of this high speed rotating and the friction between the stone surface and realize the shape of this stone material appearance is repaired.When reality is used, also be connected with handle on this power motor housing, this handle grips for the operator.But this existing stone grinding device is to rely on operator individual's technology to realize grinding to stone material fully, locatees the shortcoming not accurate enough, that general applicability is low and grinding effect is not good so it has.Also have some full-automatic lapping devices in the prior art, but lapping device that should full-automation often complex structure, cost height and operation sequence are many, so also influenced the skilled use of the common employee of factory to it greatly, its general generalization is poor.

In view of this, the inventor has this case to produce at the above-mentioned defective further investigation of existing stone grinding device then.

The utility model content

The purpose of this utility model is to provide a kind of stone grinding device, and grinding effect is not good to solve in the prior art, complex structure and the high problem of cost.

In order to reach above-mentioned purpose, solution of the present utility model is:

A kind of stone grinding device wherein, comprising:

Frame is installed with the tooth row that is the semicircle arcuation;

Rotating drive mechanism has housing and output shaft, and this output shaft is meshed with this tooth row by gear;

Grinding assembly, the governor motion that has power motor, the abrasive disk that links to each other with the power motor output shaft and link to each other with the power motor housing, this governor motion is fixedly linked along the setting of tooth row radial direction and with the rotating drive mechanism housing;

Control Component, the sensor that has controller and be arranged on the tooth row two ends, this controller all links to each other with this rotating drive mechanism, power motor, governor motion and sensor.

Further, this governor motion is the cylinder that is provided with along the tooth row radial direction.

Further, also comprise link between this cylinder and the rotating drive mechanism housing, this link and air cylinder driven axle are fixedly linked, and this power motor then is fixed on the housing of cylinder.

Further, also be connected with slide block on this link, this slide block is inverted L shape and can slides along this semicircle arcuation tooth row.

Further, this rotating drive mechanism is a motor.

Further, this rotating drive mechanism is a hydraulic motor.

Further, this grinding assembly is set to many groups and all links to each other with Control Component with the rotating drive mechanism housing.

After adopting said structure, the grinding assembly in the utility model lapping device is equivalent to increase governor motion in existing lapping device, thereby can finely tune exactly grinding distance; This rotating drive mechanism then is to be used to realize that circular arc grinds, and promptly realizes chamfer grinding; This Control Component is then controlled the said modules collaborative work, so the utlity model has advantage simple in structure and simple to operate, the utility model can also be realized polytype grinding simultaneously: when needs carry out the straight line grinding, only need under the control of Control Component, after earlier the abrasive disk in this grinding assembly being adjusted to needed angle and this governor motion being adjusted to desired location, the motor that turns on the power can realize that straight line grinds; When needs carry out circular chamfering, under the control of Control Component, earlier this governor motion is adjusted to desired location, and turn on the power motor and rotating drive mechanism, this power motor drives abrasive disk stone material is ground, this rotating drive mechanism then drives whole grinding assembly and rotates, thereby realizes stone material is carried out chamfering; Certainly, in the specific implementation, can select the motion or the whole rectilinear motion of lapping device of stone material in order to realize the grinding of whole stone surface.Need to prove,, need successively grind in order to reach final required grinding state; Promptly when concrete the grinding, often need adjusting one by one, thereby realize required state by this governor motion.

Description of drawings

Stone grinding device frame and rotating drive mechanism perspective view partly that Fig. 1 relates to for the utility model;

Fig. 2 is the perspective exploded view of Fig. 1;

Structural representation when the stone grinding device that Fig. 3 relates to for the utility model comprises grinding assembly;

Fig. 4 is the perspective exploded view of Fig. 3;

Fig. 5 is the perspective exploded view of grinding assembly among Fig. 3;

The structural representation of angle when Fig. 6 is used to grind step surface for the stone grinding device that the utility model is related to;

The structural representation of another angle when Fig. 7 is used to grind step surface for the stone grinding device that the utility model is related to;

The structural representation of another angle when Fig. 8 is used to grind step surface for the stone grinding device that the utility model is related to;

Structural representation when Fig. 9 is used to grind the inclined-plane for the stone grinding device that the utility model is related to;

The structural representation of three angles when Figure 10 to Figure 12 is used to grind circular arc for the stone grinding device that the utility model is related to;

The schematic diagram of two positions when governor motion is regulated in the stone grinding device that Figure 13 and Figure 14 relate to for the utility model;

The structural representation that comprises a plurality of grinding assemblies and grind in the stone grinding device that Figure 15 relates to for the utility model.

Among the figure:

Lapping device 100 frames 1

Tooth row 11 joint pins 12

Installing rack 13 rotating drive mechanisms 2

Housing 21 output shafts 22

Gear 23 links 24

Slide block 25 grinding assemblies 3

Power motor 31 output shafts 311

Housing 312 abrasive disks 32

Governor motion 33 stone materials 4

The specific embodiment

In order further to explain the technical solution of the utility model, the utility model is elaborated below by specific embodiment.

To shown in Figure 5, a kind of stone material 4 lapping devices 100 that relate to for the utility model shown in it comprise frame 1, rotating drive mechanism 2, grinding assembly 3 and Control Component (not shown) as Fig. 1, wherein,

This frame 1, be installed with the tooth row 11 that is the semicircle arcuation on it, this frame 1 itself also is preferably and is the semicircle arcuation, and be connected with installing rack 13 by many joint pins 12, this installing rack 13 can be on the conveying mechanism (not shown) that connects, this conveying mechanism can drive whole frame 1 and do rectilinear motion, and this conveying mechanism is that this area guide rail mechanism commonly used gets final product;

This rotating drive mechanism 2, have housing 21 and output shaft 22, this output shaft 22 is meshed with this tooth row 11 by gear 23, thereby makes this gear 23 to rotate along this tooth row 11, and then makes this whole rotating drive mechanism 2 to carry out the running of circular arc direction along this tooth row 11; This rotating drive mechanism can adopt motor, can also adopt hydraulic motor to realize certainly, as long as can guarantee to realize rotating drive.

This grinding assembly 3, have power motor 31, abrasive disk 32 and governor motion 33, this abrasive disk 32 links to each other with the output shaft 311 of this power motor 31, thereby drive and run at full speed through this power motor 31, and then contacting use with stone material 4 when grinding, this governor motion 33 links to each other with power motor 31 housings, and along tooth row 11 radial direction settings, in addition, this governor motion 33 also is fixedly linked with the housing 21 of rotating drive mechanism 2; Like this, this governor motion 33 can be regulated this power motor 31 and abrasive disk 32 in radial direction, thereby realizes the grinding to stone material 4;

This Control Component (not shown), have controller (not shown) and sensor (not shown), this sensor is arranged on tooth row 11 two ends, and be preferably displacement transducer, thereby detect the operating condition of this gear 23, and link to each other with controller, finally avoid this gear 23 to break away from this tooth row 11, this controller also with this rotating drive mechanism 2, power motor 31 and governor motion 33 all link to each other, thereby control rotating drive mechanism 2, power motor 31 and governor motion 33 turn round, this controller adopts this area control device commonly used to get final product, such as adopts singlechip technology or PLC control technology.

Like this, the grinding assembly 3 in the lapping device 100 that the utility model relates to promptly is equivalent to increase governor motion 33 in existing lapping device 100, thereby can finely tune and then realize to locate exactly exactly to grinding distance; This rotating drive mechanism 2 then is to be used to realize that circular arc grinds, and promptly realizes chamfer grinding; This Control Component is then controlled the said modules collaborative work, so the utlity model has advantage simple in structure and simple to operate, the utility model can also be realized polytype grinding simultaneously: when needs carry out the straight line grinding, only need under the control of Control Component, after earlier the abrasive disk 32 in this grinding assembly 3 being adjusted to needed angle and this governor motion 33 being adjusted to desired location, the motor 31 that turns on the power can realize that straight line grinds; When needs carry out circular chamfering, under the control of controller, earlier this governor motion 33 is adjusted to desired location, and turn on the power motor 31 and rotating drive mechanism 2, this power motor 31 drives 32 pairs of stone materials 4 of abrasive disk and grinds, this rotating drive mechanism 2 then drives whole grinding assembly 3 and rotates, thereby realizes stone material 4 is carried out chamfering; Certainly in order to realize the grinding on whole stone material 4 surfaces, in the specific implementation, can select the motion or the lapping device 100 whole rectilinear motions of stone material 4.In addition, need to prove,, need successively grind in order to reach final required grinding state; Promptly when concrete the grinding, often need adjusting one by one, thereby realize required state by this governor motion.

A kind of specific embodiment as this governor motion 33, this governor motion 33 is the cylinder that is provided with along tooth row 11 radial direction, promptly the flexible direction of this cylinder is passed the center of circle of tooth row 11, thereby the camber line that it forms in the time of can realizing this cylinder and abrasive disk 32 runnings and the camber line of tooth row 11 are isocentric circular arc, as Figure 13 and shown in Figure 14, the structural representation of it shows this governor motion 33 when regulating two states.

Extremely shown in Figure 5 as Fig. 1, for the ease of fixedlying connected between this cylinder and the rotating drive mechanism 2, also comprise link 24 between the housing 21 of this cylinder and rotating drive mechanism 2, this link 24 is fixedly linked with the air cylinder driven axle, and this power motor 31 then is fixed on the housing of cylinder.Further, also be connected with slide block 25 on this link 24, this slide block 25 is inverted L shape and can slides along this semicircle arcuation tooth row 11, this L type slide block 25 is preferably and is set to two along the vertical direction, can guarantee that like this this gear 23 can not break away from this tooth row 11, certainly above-mentioned is not existing these slide block 25 structures to gear 23 spacing structures on this tooth row 11, can also will not be described in detail at this for this area other limit methods commonly used.

As shown in figure 15, this grinding assembly 3 is set to many groups and all links to each other with Control Component with rotating drive mechanism 2 housings, when grinding, only need carry out the grinding that certain fine setting can realize whole stone material 4 planes, and then improve the integral grinding efficient of whole stone grinding device 100 like this.

Concrete operations when following emphasis is described the stone grinding device 100 that utilizes the utility model to relate to and carried out multiple different grinding demand:

To shown in Figure 8, being respectively of its demonstration is that three angles are ground stone material 4 and the structural representation that forms step surface as Fig. 6; When practical operation, at first need make the center line of this stone material 4 be positioned on the center of circle of this tooth row 11, then under the control of controller, regulate rotating drive mechanism 2, and make abrasive disk 32 adjust to needed first angle, simultaneously also under the control of controller, thereby the length of regulating this cylinder guarantees to have suitable distance between this abrasive disk 32 and the stone material 4; Can drive whole lapping device 100 by external conveying device this moment and carry out laterally moving, thereby realize the grinding on whole plane, this conveying device can also carry out laterally moving the grinding that realizes whole plane by driving this stone material 4 certainly; After ground, be adjusted to second angle and third angle degree by this rotating drive mechanism 2 once more, grind then, the working method and first angle when second angle and third angle are spent are identical, so do not encyclopaedize, after the grinding of finishing three angles, thereby obtain finished product.

Structural representation when as shown in Figure 9,100 pairs of stone materials of stone material 4 lapping devices 4 for utilizing the utility model to relate to of its demonstration carry out bevel ground; An angle when it only needs according to above-mentioned trapezoidal the grinding gets final product, so do not encyclopaedize.

Extremely shown in Figure 12 as Figure 10, the structural representation of three angles when 100 pairs of stone materials of stone material 4 lapping devices 4 for utilizing the utility model to relate to of its demonstration carry out the circular arc grinding; At first under the adjusting of governor motion 33, regulate the distance between this abrasive disk 32 and the stone material 4, and startup power motor 31 and rotating drive mechanism 2, thereby this power motor 31 drives these abrasive disk 32 rotations and grinds, 2 of this rotating drive mechanisms drive its rotation along the circular arc direction, thereby realize the grinding to circular arc; Can drive whole lapping device 100 by external conveying device this moment carries out laterally moving, thereby the circular arc of realizing whole stone material 4 surfaces grinds, and this conveying device can also carry out laterally moving the grinding that realizes whole stone material 4 surfaces by driving this stone material 4 certainly.

The foregoing description and graphic and non-limiting product form of the present utility model and style, any person of an ordinary skill in the technical field all should be considered as not breaking away from patent category of the present utility model to its suitable variation or modification of doing.

Claims (7)

1. a stone grinding device is characterized in that, comprising:

Frame is installed with the tooth row that is the semicircle arcuation;

Rotating drive mechanism has housing and output shaft, and this output shaft is meshed with this tooth row by gear;

Grinding assembly, the governor motion that has power motor, the abrasive disk that links to each other with the power motor output shaft and link to each other with the power motor housing, this governor motion is fixedly linked along the setting of tooth row radial direction and with the rotating drive mechanism housing;

Control Component, the sensor that has controller and be arranged on the tooth row two ends, this controller all links to each other with this rotating drive mechanism, power motor, governor motion and sensor.

2. a kind of stone grinding device as claimed in claim 1 is characterized in that, this governor motion is the cylinder that is provided with along the tooth row radial direction.

3. a kind of stone grinding device as claimed in claim 2 is characterized in that, also comprises link between this cylinder and the rotating drive mechanism housing, and this link and air cylinder driven axle are fixedly linked, and this power motor then is fixed on the housing of cylinder.

4. a kind of stone grinding device as claimed in claim 3 is characterized in that, also is connected with slide block on this link, and this slide block is inverted L shape and can slides along this semicircle arcuation tooth row.

5. as each described a kind of stone grinding device of claim 1 to 4, it is characterized in that this rotating drive mechanism is a motor.

6. as each described a kind of stone grinding device of claim 1 to 4, it is characterized in that this rotating drive mechanism is a hydraulic motor.

7. as each described a kind of stone grinding device of claim 1 to 4, it is characterized in that this grinding assembly is set to many groups and all links to each other with Control Component with the rotating drive mechanism housing.

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