CN109718993A - Stone dyeing device - Google Patents

Abstract

The present invention provides stone dyeing device, the coating roll outer surface in dyeing course can be prevented to be damaged, and can rapidly and easily realize dyeing course, which includes: multiple conveying rollers, it and is arranged to rotate in one direction along the conveying direction arranged for interval of stone material；First coating roll, positioned at the top of conveying roller, a part being arranged to below immerses in the bucket with pigment, as rotation is by the pigments absorbalight in bucket to outer surface；Second coating roll, positioned at the top of conveying roller, outer surface is close to the first coating roll, and is arranged to rotate in the opposite direction with the rotation of the first coating roll, thus by the face be close to the first coating roll by the pigments absorbalight in bucket to outer surface；Third coating roll is close to the second coating roll on one side positioned at the top of conveying roller, and is configured to be close to the upper surface with the transported stone material of conveying roller, as the rotation of the second coating roll rotates round about.

Description

Stone dyeing device

Technical field

The present invention relates to stone dyeing devices, and in particular, to can be realized the stone dyeing device stablized and used, the stone Pigment can be uniformly coated in the stone surface of dyeing to be realized in material dyeing apparatus, and can prevent from dyeing in dyeing course The deformation of roller surface.

Background technique

Stone material refers to the material made of stone used in the fields such as building or building.

According to the widespread characteristic in South Korea mountainous region, production, and root are realized in more areas to this stone material in various ways Produced according to the difference in mountainous region the different stone material of feature carry out using.

Above-mentioned stone material is not only stone material with the variation in epoch as the stone material for building or building must use Shape, but also be processed as the stone material of diversified form according to the purposes used and use.

For example, proposing as shown in existing technical literature one, document two and catching pigment on the surface of stone material, thus by force The method of the surface of fossilized wood, the surface color beauty for making stone material etc..

But in the process for dyeing stone of the prior art as shown in document one, in order to the stone surface for completing processing It is dyed, by the way that pigment is coated in stone surface, or the method for dripping pigment realizes that but it is not only difficult in stone material Surface even application pigment, and in dyeing course convey dyestuff pipeline or spray pigment nozzle be blocked when, be difficult Realize the dyeing course of stone material.In the situation as shown in document two, it is immersed in pigment although proposing the stone material for being intended to dye Method, but there are dyeing course complexity, and the process is difficult to the problem of efficiently carrying out.

This is to say, produce cannot be easily real for existing process for dyeing stone as shown in document one, document two etc. Existing dyeing course, the problem of increasing the unnecessary dyeing activity duration, and thus expense caused to increase, and there is also because The problem of expense increases and the price of stone material is caused to rise.

Existing technical literature

Patent document

Document one: Ebrean Registered Patent number of registration 10-1472438 (2014.12.08)

Document two: Ebrean Registered Patent number of registration 10-1319372 (2013.10.11)

Summary of the invention

The present invention proposes that purpose is as follows to solve the above-mentioned problems.

First, it realizes and pigment is uniformly coated in stone surface.

Second, it prevents from during the surface of stone material applies pigment dyeing roller surface caused by because of the temperature of stone material Deformation, and realize stable use.

Third completes the dyeing course of stone material easy to quickly, realizes the simplification of dyeing stone flow chart.

4th, simplify dyeing stone process, prevents the increase of unnecessary activity duration and operating cost, so as to It is enough to realize the expense for reducing dyeing course.

5th, pigment can be evenly coated at stone surface, to reduce the defect rate for the stone material being colored, thus It can be realized the increase of output.

To achieve the goals above, the present invention provides a kind of stone dyeing device, which includes: multiple conveying rollers, Multiple conveying rollers and are arranged to rotate in one direction along the conveying direction arranged for interval of stone material, for conveying Stone material；First coating roll, first coating roll are located at the top of the conveying roller, are arranged to a part leaching below Enter in the bucket with pigment, thus with rotating the pigments absorbalight in the bucket to outer surface；Second coating roll, described second Coating roll is located at the top of the conveying roller, and the outer surface of second coating roll is close to first coating roll, and by It is set as rotating in the opposite direction with the rotation of first coating roll, thus will by the face being close to first coating roll Pigments absorbalight in the bucket is to outer surface；Third coating roll, the third coating roll are located at the top of the conveying roller, institute The one side for stating third coating roll is close to the second coating roll, and be arranged to lower surface can with as the conveying roller is defeated The upper surface of the stone material sent is close to, as the rotation of second coating roll rotates round about, by with the second coating roll The face of abutting will be absorbed into the pigment of outer surface coated on the surface of the stone material.

At this point, the surface of first coating roll, the second coating roll, third coating roll could be formed with heat-resisting sponge.

In addition, the diameter of first coating roll, the second coating roll, third coating roll can be different.

In addition, the first coating roll, the second coating roll, third coating roll may include: bracket, which makes the first dyeing Roller, the second coating roll, third coating roll one end along its length and the other end respectively rotatably connect；Velocity measuring sensing Device, the speed detection sensor are arranged on the bracket, to detect the rotation speed of the third coating roll；Hydraulic cylinder, should Hydraulic cylinder is connected on the bracket, makes the third coating roll according to the velocity amplitude that the speed detection sensor measures It rises or falls.

In addition, the third coating roll may include: rotary shaft, which is formed with hollow portion, which makes outer The inner central section of portion's air along its length flows into, and interval is formed with multiple discharges in the outer periphery of the rotary shaft The air in the hollow portion is discharged to outside in hole, the tap；Connection framework, the connection framework are formed as encasing described Rotary shaft it is tubular, along outer surface, periphery is formed with the multiple airports being connected to the tap, with to encasing outer surface and The inner surface of the heat-resisting sponge of connection transmits air pressure, to prevent the outer surface of heat-resisting sponge from deforming.

In addition, net is also provided between the connection framework and the heat-resisting sponge, for preventing heat-resisting sea The appearance face contact of continuous inner surface and connection framework.

Following effect can be obtained present invention as described above.

First, pigment can be uniformly coated in stone surface.

Second, can prevent stone material surface apply pigment during because of the temperature of stone material caused by coating roll table The deformation in face, and realize stable use.

Third makes the dyeing course of stone material be easy and be rapidly completed, realizes the flow chart simplification of dyeing stone.

4th, simplify dyeing stone process, so that the increase of unnecessary activity duration and operating cost is prevented, from And it can be realized the expense for reducing dyeing course.

5th, pigment can be evenly coated at stone surface, to reduce the defect rate for the stone material being colored, thus It can be realized the increase of output.

Detailed description of the invention

Fig. 1 is the schematic drawing of stone dyeing device of the invention；

Fig. 2 is the usage state diagram according to the stone dyeing device of Fig. 1；

Fig. 3 is the schematic drawing for showing another use state of stone dyeing device of the invention；

Fig. 4 is the schematic drawing for showing the working condition of Fig. 3；

Fig. 5 is the schematic drawing for showing the coating roll of stone dyeing device according to the present invention；

Fig. 6 is another schematic drawing for showing the coating roll of stone dyeing device according to the present invention.

Description of symbols

10: 20: the first coating roll of conveying roller

30: the second coating rolls 40: third coating roll

41: rotary shaft 41a: hollow portion

41b: tap 42: connection framework

42a: airport 43: net

S: heat-resisting sponge

Specific embodiment

The term or word used in present specification and claims, which should not be explained, to be limited on common or dictionary The meaning, and should stand " inventor can suitably define the concept of term to illustrate its invention with optimal method " In position, it is construed as meeting the meaning and concept of technical idea of the invention.

In addition, the embodiment recorded in this specification and the structure being shown in the accompanying drawings are preferred implementation of the invention Example, does not represent whole technical ideas of the invention, it is thus understood that can be can replace the more of these when proposing the application Kind equipollent and variation.

Hereinafter, with reference to attached drawing to a preferred embodiment of the present invention will be described in detail.

Stone dyeing device of the invention may include: multiple conveying rollers 10, and multiple conveying rollers 10 are along the defeated of stone material 1 Direction arranged for interval is sent, and is arranged to rotate in one direction, for conveying stone material 1；First coating roll 20, the first dyeing Roller 20 is located at the top of the conveying roller 10, and a part being arranged to below immerses in the bucket 2 with pigment 3, thus It is that the pigment 3 in the bucket 2 is absorbed into outer surface with rotation；Second coating roll 30, the second coating roll 30 are located at described defeated The top of idler wheel 10 is sent, the outer surface of the second coating roll 30 is close to first coating roll 20, and is arranged to described The rotation of first coating roll 20 rotates in the opposite direction, thus by the face be close to the first coating roll 20 by the face in the bucket 2 Material is absorbed into outer surface；Third coating roll 40, third coating roll 40 are located at the top of the conveying roller 10, third coating roll 40 One side be close to the second coating roll 30, and be arranged to lower surface can with the transported stone material of the conveying roller 10 1 upper surface is close to, and rotates round about with the rotation of second coating roll 30, by tight with the second coating roll 30 The face of patch will be absorbed into the pigment 3 of outer surface coated on the surface of the stone material 1.

Although the conveying roller 10 does not illustrate in detail in the present invention, it is placed on conveying roller 10 in order to support The weight of the stone material 1 on surface is arranged on the upper layer for the shell 4 being securely arranged in the setting place of stone dyeing device of the present invention There are multiple conveying rollers 10.

In addition, as shown in Figure 1, along conveying stone material 1 direction the upside of shell 4 is provided with multiple conveying rollers 10, Thus it is configured to the lower surface of supported stone 1, and stone material 1 is guided to 10 setting direction of conveying roller.

At this point, conveying roller 10 can be connect with motor (not shown) respectively, (do not schemed so that the motor that transmitting comes can be received Show) rotary force, may be set to be by conveyer belt (not shown) etc. make the multiple conveying rollers 10 being set be connected with each other, So as to transmit the rotary force of motor (not shown) to any conveying roller 10 being set, pass through motor can be realized The rotary force of (not shown) rotates connected conveying roller 10 in one direction.

In addition, the stone material 1 is heated when stone material 1 is conveyed by conveying roller 10 to the direction of third coating roll 40 It after temperature within to 80~120 DEG C, is conveyed by dry, so that pigment 3 can be arrived the table of stone material 1 by easily dyeing Face.

Such process is to enable pigment 3 by easily dyeing to the surface of stone material 1.

In addition, as depicted in figs. 1 and 2, the first coating roll 20 can be set to a part below and immerse equipped with face In the bucket 2 of material 3.

Such structure is to make the pigment 3 in bucket 2 as the rotation of the first coating roll 20 is attached to the first dye The surface of color roller 20, thus be absorbed, as depicted in figs. 1 and 2, a part energy and pigment below only the first coating roll 20 3 contacts, will not both hinder the rotation of the first coating roll 20, while pigment 3 can also be made to be easy to contact the appearance of the first coating roll 20 Face.

At this time, it is preferable that the shape of bucket 2 is corresponding with the shape of the first coating roll 20, and the pigment 3 being supplied in bucket 2 can To be automatically supplied by outside, or the form filled as needed by operator.

In addition, the second coating roll 30 is located at the top of conveying roller 10, outer surface is close to the first coating roll 20, with First coating roll 20 realizes rotation in the state of being close to, thus when the first coating roll 20 is realized and rotated, so as to receive quilt It is absorbed into the pigment 3 of 20 outer surface of the first coating roll.

Structure as described above, that is, when the first coating roll 20, which is realized, to be rotated, the pigment 3 in bucket 2 is absorbed into outer The rotation being close to the first coating roll 20 is realized on surface, at the same time, the second coating roll 30, so that its outer surface can receive biography Pass the pigment 3 come.

In addition, as shown in Figures 1 to 4, the one side of third coating roll 40 is realized in the state of being close to the second coating roll 30 It is rotated to mutually opposite direction, the outer surface of third coating roll can receive and absorb to come from the transmitting on the second coating roll 30 Pigment 3, be close to below third coating roll 40 with the surface of stone material 1 transported with conveying roller 10 and rotated, The pigment 3 for being absorbed in 40 outer surface of third coating roll is set to be applied to the surface of stone material 1.

Process as described above is described in more detail, the first coating roll 20, the second coating roll 30, third coating roll 40 are tight It is rotated in the state of patch, is absorbed in the pigment 3 of 20 outer surface of the first coating roll by the second coating roll 30 and is passed to the Three coating rolls 40 at the same time, are absorbed in outside third coating roll so that pigment 3 is absorbed in the outer surface of third coating roll 40 The pigment 3 on surface is applied to the surface of stone material 1 by the position being close to stone material 1, to enable the pigment 3 in bucket 2 It is enough uniformly coated on the surface by the transported stone material 1 of conveying roller 10.

In addition, the diameter of the first coating roll 20, the second coating roll 30, third coating roll 40 can be different, the first coating roll 20, the second coating roll 30, third coating roll 40 are close to, and mutually pigment 3 of the transmitting in the bucket 2 when rotated, realize tight The variation of veneer, so as to efficiently realize the transmitting of pigment 3.

In addition, the surface of the first coating roll 20, the second coating roll 30, third coating roll 40 is formed with heat-resisting sponge S.

As described above, this makes the pigment 3 in bucket 2 pass through the first coating roll 20, the second coating roll 30, third dyeing When the rotation of roller 40 and the structure of abutting are transmitted to stone material 1, it is easily attached to pigment 3 in each dyeing roller surface, and It is readily absorbed it, so that dyeing course be made rapidly and easily to complete.

Further, the first coating roll 20, the second coating roll 30, third coating roll 40 the transported stone material 1 in lower part When being conveyed after heating process, can prevent from damaging because of the temperature of stone material 1 first coating roll 20, the second coating roll 30, The outer surface of third coating roll 40.

On the other hand, as shown in Figure 3 and Figure 4, in another embodiment of the invention, be provided with by the first coating roll 20, Second coating roll 30, third coating roll 40 one end along its length and the other end are respectively rotatably connected on bracket 50, It is provided with the speed detection sensor 60 for being able to detect 40 rotation speed of third coating roll on bracket 50, is provided with root on bracket 50 The hydraulic cylinder 70 for rising or falling third coating roll 40 according to the velocity amplitude measured by speed detection sensor 60.

Such structure be in order to enable the surface of third coating roll 40 and transported stone material 1 selective contact with and Separation and constitute, this can prevent from damaging the third coating roll being close to stone material 1 because of the surface temperature of transported stone material 1 40 outer surface.

For example, being dried after the temperature being heated within 80~120 DEG C due to stone material 1, and real by conveying roller 10 It now conveys, in the higher situation of 1 surface temperature of stone material, due to the stone material 1 transmitted to the position being close to third coating roll 40 Heat and may cause the appearance surface damage of third coating roll 40.

As a result, as shown in Figure 3 and Figure 4, the detection of the speed detection sensor 60 that is set on bracket 50 be close to stone material 1 and The rotation speed for realizing the third coating roll 40 of rotation maintains the rotation of third coating roll 40 when there is no problem for the velocity amplitude of detection Turn, when detecting that the rotation of third coating roll 40 is delayed or stopped by speed detection sensor 60, such velocity amplitude is transmitted To hydraulic cylinder 70 and as shown in figure 4, according to the operation that rises or falls of hydraulic cylinder 70, the mobile third being close to stone material 1 is dyed The position of roller 40, so that the position for being close to stone material 1 with third coating roll 40 separates.

Although being illustrated at this point, being transferred to hydraulic cylinder 70 to the speed of speed detection sensor 60 in the present invention, But the other control unit (not shown) connecting with speed detection sensor 60 and hydraulic cylinder 70 also can be set, thus according to speed The velocity amplitude of degree detection sensor 60 makes hydraulic cylinder 70 work, and can also be the side of composition that hydraulic cylinder 70 can be controlled by operator Formula, thus the position for the third coating roll 40 that movement is close to stone material 1 according to the selection of operator, so that stone material 1 and third The position separation that coating roll 40 is close to.

Further, as another embodiment of third coating roll 40, as shown in Figure 5 and Figure 6, third coating roll 40 is wrapped Include: rotary shaft 41, the rotary shaft are formed with hollow portion 41a, and hollow portion 41a makes the medial center of outside air along its length Portion flows into, and interval is formed with multiple tap 41b in the outer periphery of rotary shaft 41, and tap 41b makes in hollow portion 41a Air is discharged to outside；And connection framework 42, which is formed as encasing the tubular of the rotary shaft 41, along appearance Face periphery is formed with the multiple airport 42a being connected to the tap 41b, with to the heat-resisting sponge for encasing outer surface and connecting The inner surface of S transmits air pressure, to prevent the outer surface of heat-resisting sponge S from deforming.

In such structure, third coating roll 40 is close to stone material 1, even if in the heat-resisting sponge S of third coating roll 40 When outer surface is damaged, the air transmitted by hollow portion 41a can also be made to be transferred to heat-resisting sponge S's by airport 42a Inner surface prevents the outer surface of heat-resisting sponge S from deforming so as to the pressure by air.

At this point, in above process, can not only prevent the heat-resisting sponge S of third coating roll 40 from forming the case where damaging, i.e., Make when being without damage, by the hollow portion 41a sustainable supply outside air using rotary shaft 41, so as to prevent third from dyeing The case where heat-resisting sponge S of roller 40 is damaged, and then can easily be done the dyeing course of stone material 1.

Further, it is also provided with net 43 between connection framework 42 and heat-resisting sponge S, for preventing heat-resisting sea The inner surface of continuous S and the appearance face contact of connection framework 42.

As shown in fig. 6, such structure, is arranged net 43, to prevent heat-resisting between connection framework 42 and heat-resisting sponge S The damage location of sponge S is contacted with the airport 42a of connection framework 42 and is blocked, for this purpose, net 43 is firm material, preferably It is formed by metal material or synthetic resin.

The present invention illustrates and illustrates relevant specific embodiment, but the technical staff with the common knowledge in this field answers The understanding, in the limit of the gist of the invention and range for not departing from claim offer, the present invention can also carry out a variety of change Good and deformation.

Claims (5)

1. stone dyeing device, which is characterized in that the stone dyeing device includes:

Multiple conveying rollers (10), the multiple conveying roller (10) and are set along the conveying direction arranged for interval of stone material (1) To rotate in one direction, for conveying stone material (1)；

First coating roll (20), first coating roll (20) are located at the top of the conveying roller (10), are arranged under it The a part in face immerses in the bucket (2) with pigment (3), thus with rotation the pigment (3) in the bucket (2) is absorbed into it is outer Surface；

Second coating roll (30), second coating roll (30) are located at the top of the conveying roller (10), second dyeing The outer surface of roller (30) is close to first coating roll (20), and is arranged to the rotation with first coating roll (20) It rotates in the opposite direction, thus by the face be close to the first coating roll (20) by the pigments absorbalight in the bucket (2) to outer surface；

Third coating roll (40), the third coating roll (40) are located at the top of the conveying roller (10), third coating roll (40) one side is close to second coating roll (30), and be arranged to lower surface can with the conveying roller (10) The upper surface of transported stone material (1) is close to, and rotates round about with the rotation of second coating roll (30), thus The pigment (3) of outer surface will be absorbed into coated in the stone material (1) by the face being close to second coating roll (30) On surface.

2. stone dyeing device according to claim 1, which is characterized in that first coating roll (20), described second Coating roll (30), the third coating roll (40) surface be formed with heat-resisting sponge S,

First coating roll (20), second coating roll (30), the third coating roll (40) diameter be formed as different.

3. stone dyeing device according to claim 1, which is characterized in that the stone dyeing device includes:

Bracket (50), the bracket (50) dye first coating roll (20), second coating roll (30), the third Roller (40) one end along its length and the other end respectively rotatably connect；

Speed detection sensor (60), the speed detection sensor (60) is set on the bracket (50), for detecting State the rotation speed of third coating roll (40)；

Hydraulic cylinder (70), the hydraulic cylinder (70) are connected on the bracket (50), pass according to by the velocity measuring The velocity amplitude that sensor (60) measures rises or falls the third coating roll (40).

4. stone dyeing device according to claim 2, which is characterized in that the third coating roll (40) includes:

Rotary shaft (41), the rotary shaft (41) are formed with hollow portion (41a), which makes outside air along length The inner central section in direction flows into, and interval is formed with multiple taps (41b), institute in the outer periphery of the rotary shaft (41) Stating tap (41b) is discharged the air in the hollow portion (41a) to outside；And

Connection framework (42), the connection framework (42) is formed as encasing the tubular of the rotary shaft (41), along outer surface periphery The multiple airports (42a) being connected to the tap (41b) are formed with, with to the heat-resisting sponge for encasing outer surface and connecting (S) inner surface transmits air pressure, prevents the outer surface of heat-resisting sponge (S) from deforming.

5. stone dyeing device according to claim 4, which is characterized in that the stone dyeing device further include:

Net (43), the net (43) are set between the connection framework (42) and the heat-resisting sponge (S), described for preventing The inner surface of heat-resisting sponge (S) and the appearance face contact of the connection framework (42).