CN212892508U - Automatic lifting and turning device for manually carving ceramic tiles - Google Patents

Abstract

The utility model provides an automatic rising turning device for making pottery brick is carved to craft, include: the engraving machine comprises a supporting platform, an engraving table and a driving mechanism, wherein the engraving table and the driving mechanism are arranged on the supporting platform; the end surface of the carving table surface facing the supporting platform is rotatably connected with the first end of the supporting platform; the end face, away from the supporting platform, of the carving table is used for fixing the ceramic tile, and the driving mechanism is used for driving the carving table to rotate for a specified angle around the first end of the supporting platform. The utility model discloses a set up rotatable sculpture platform on supporting platform to it is rotatory around supporting platform's first end, rotate the lower part with the lower part of pottery brick, rotate the higher authority part of pottery brick to before the sculpture worker face, so that the hand of sculpture worker can be positive sculpture all regions completely, has reduced the sculpture degree of difficulty and operating personnel's work load, has improved sculpture efficiency.

Description

Automatic lifting and turning device for manually carving ceramic tiles

Technical Field

The utility model belongs to the technical field of the pottery brick sculpture technique and specifically relates to an automatic rising turning device for making pottery brick by hand sculpture.

Background

After the culture art ceramic tile is manually carved, the ceramic tile blank needs to be manually carved after the procedures of design, ink-jet printing and the like. The manual carving ceramic tile with the specification of 600mm multiplied by 600mm can be manually carved on a common carving table by a carving tool. With the growth of large brick market, the manual carving product develops the ceramic bricks with the specification of 600mm multiplied by 1200mm, 900mm multiplied by 900mm and even larger specification, when the ceramic brick blank is placed on a common carving table for carving, a carving worker sits or stands, and the hand can not reach the position of 800mm-1200 mm. Therefore, the engraving worker can only engrave the lower part within the range of 0mm-800mm firstly and then stand to the opposite side of the engraving table to engrave the upper part of 800 plus 1200mm, and the hand engraving process also needs to be performed reversely, so that the engraving difficulty and the workload of the operating personnel are increased, and the engraving efficiency is reduced.

Therefore, the prior art has defects and needs to be improved and developed.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, to the above-mentioned defect of prior art, provide an automatic rising turning device for making manual carving pottery brick, when aiming at solving among the prior art and making manual carving to big specification pottery brick, unable positive sculpture completely has increased the sculpture degree of difficulty, has reduced the problem of sculpture efficiency.

The utility model provides a technical scheme that technical problem adopted as follows:

an automatic lifting and turning device for manually carving ceramic tiles, comprising: the engraving machine comprises a supporting platform, an engraving table and a driving mechanism, wherein the engraving table and the driving mechanism are arranged on the supporting platform; the end surface of the carving table surface facing the supporting platform is rotatably connected with the first end of the supporting platform; the end face, away from the supporting platform, of the carving table is used for fixing the ceramic tile, and the driving mechanism is used for driving the carving table to rotate for a specified angle around the first end of the supporting platform.

In a further implementation manner, the engraving table comprises a supporting frame and a planar rubber plate arranged on the supporting frame, and the end surface of the supporting frame facing the supporting platform is rotatably connected with the first end of the supporting platform.

In a further implementation manner, the engraving table comprises an integrally formed ascending region and a descending region, the ascending region is located on the upper end surface of the supporting platform, and the descending region is located outside the supporting platform; when the driving mechanism drives the carving table to rotate for a specified angle around the first end of the supporting platform, the ascending area rotates upwards, the descending area rotates downwards, and the original flat state of the carving table is rotated into a vertical state.

In a further implementation manner, a stop lever is arranged at the edge of the descending area, which is far away from the ascending area, and the stop lever is used for fixing the edge of the ceramic tile.

In a further implementation, the driving mechanism comprises a motor and a screw reducer which are connected with each other; the supporting platform comprises an upper layer bracket and a lower layer bracket arranged below the upper layer bracket; the engraving table is arranged on the upper layer support and is rotatably connected with the first end of the upper layer support; the motor and the screw rod speed reducer are arranged on the lower layer support, and a screw rod on the screw rod speed reducer supports the engraving table to drive the engraving table to rotate for a specified angle around the first end of the supporting platform.

In a further implementation manner, a bearing is arranged at the edge of the first end of the upper support, and the engraving table is rotatably connected with the first end of the upper support through the bearing.

In a further implementation manner, a control mechanism is further arranged on the lower layer support, and the driving mechanism is in communication connection with the control mechanism.

In a further implementation manner, an electric switch for controlling the supporting platform to automatically lift and turn is arranged on the outer side surface of the supporting platform, and the electric switch is in communication connection with the control mechanism.

In a further implementation manner, a supporting leg and a fixed supporting rod which are connected with each other are arranged below the first end of the supporting platform, the supporting leg and the fixed supporting rod are both positioned outside the supporting platform, the supporting leg is fixedly connected with the supporting platform, and the fixed supporting rod is used for being fixedly supported on the ground; the support legs deviate from the end face of the support platform and are arranged to be inclined planes, the angle of each inclined plane is the same as the designated angle, and the support legs are used for supporting the carving table in a vertical state.

In further implementations, the support platform includes four moving wheels, the control mechanism including: the control cabinet, set up the converter in the control cabinet and be used for controlling the stroke stopper of carving platform inclination.

The utility model provides an automatic rising turning device for making pottery brick is carved to craft, include: the engraving machine comprises a supporting platform, an engraving table and a driving mechanism, wherein the engraving table and the driving mechanism are arranged on the supporting platform; the end surface of the carving table surface facing the supporting platform is rotatably connected with the first end of the supporting platform; the end face, away from the supporting platform, of the carving table is used for fixing the ceramic tile, and the driving mechanism is used for driving the carving table to rotate for a specified angle around the first end of the supporting platform. The utility model discloses a set up rotatable sculpture platform on supporting platform to it is rotatory around supporting platform's first end, rotate the lower part with the lower part of pottery brick, rotate the higher authority part of pottery brick to before the sculpture worker face, so that the hand of sculpture worker can be positive sculpture all regions completely, has reduced the sculpture degree of difficulty and operating personnel's work load, has improved sculpture efficiency.

Drawings

Fig. 1 is a schematic structural view of the automatic lifting and turning device for manually carving ceramic tiles of the present invention in a vertical position in a preferred embodiment.

Fig. 2 is a schematic structural view of a supporting platform of the present invention, which is used for the automatic lifting and turning device for manually carving ceramic tiles.

Fig. 3 is a schematic structural view of the horizontal position of the automatic lifting and turning device for manually carving ceramic tiles according to the present invention.

Description of reference numerals:

10. a support platform; 11. an upper layer bracket; 12. a lower layer bracket; 20. a carving table; 21. a gear lever; 30. a drive mechanism; 40. a bearing; 50. a control mechanism; 60. fixing the support rod; 70. the wheel is moved.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention will be described in further detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The utility model relates to an automatic rising turning device for at big specification manual carving pottery brick has solved big specification pottery brick length and has been 800mm-1200mm position, the pottery brick sculpture problem of bigger specification even, and convenient manual sculpture aims at improving sculpture efficiency, promotes the sculpture quality, for enterprise reduction in production cost to improve staff's operation intensity of labour.

Referring to fig. 1, 2 and 3, the present invention provides an automatic lifting and turning device for manually carving ceramic tiles, comprising: the engraving machine comprises a supporting platform 10, an engraving table 20 and a driving mechanism 30, wherein the engraving table 20 and the driving mechanism 30 are arranged on the supporting platform 10. For example, the support platform 10 may be configured to have a length of 2.7m, a width of 1.4m, and a height of 0.78 m. The end surface of the engraving table 20 facing the support platform 10 is rotatably connected with the first end of the support platform 10; the first end of the support platform 10 is the end that the engraver engraves (which may be referred to as the front end). The end face of the engraving table 20 facing away from the support platform 10 is used for fixing ceramic tiles, and the driving mechanism 30 is used for driving the engraving table 20 to rotate around the first end of the support platform 10 by a specified angle, which may be 0-90 degrees, and is preferably 70 degrees.

That is, the ordinary engraving table 20 is fixed, and the ceramic tiles are manually engraved by placing on a table, but when the large-size ceramic tiles are manually engraved, the hand cannot be used for engraving all areas completely. The utility model discloses then set up rotatable sculpture platform 20 on supporting platform 10 to it is rotatory around supporting platform 10's first end, with the lower part of pottery brick (the part beyond supporting platform 10) rotatory lower part, with the upper part of pottery brick rotate to the engraver face before, so that the hand of engraver can be positive totally and carve all regions, has reduced the work load of the sculpture degree of difficulty and operating personnel, has improved sculpture efficiency. For example, when the carving product is carved at the position of 800mm-1200mm, the table top is erected, the carving worker can carry out carving production while standing, and the hand part of the carving worker can extend to the position of 800mm-1200mm for carving.

In one implementation, the engraving table 20 comprises a support frame and a planar rubber plate arranged on the support frame, wherein the end surface of the support frame facing the support platform 10 is rotatably connected with the first end of the support platform 10. The engraving table 20 is arranged on the upper end face of the support platform 10, the support frame is a rectangular frame, and the thickness of the plane rubber plate can be set to be 2 cm.

In one implementation, the engraving station 20 comprises an integrally formed ascending area and descending area, the ascending area being located on the upper end face of the support platform 10, and the descending area being located outside the support platform 10; when the driving mechanism 30 drives the engraving table 20 to rotate around the first end of the supporting platform 10 by a specified angle, the ascending region rotates upwards, the descending region rotates downwards, and the original flat state (shown in fig. 3) of the engraving table 20 is rotated into a vertical state (shown in fig. 1). Thus, the region near the engraver can be lowered, and the region far from the engraver can be raised and close to the engraver, so that the engraver can extend to the far region.

Further, the edge of the descending area, which is far away from the ascending area, is provided with a stop lever 21, and the stop lever 21 is used for fixing the edge of the ceramic tile. That is, when the engraving table 20 is rotated, in order to prevent the ceramic tiles from sliding down, a stopper 21 is provided at the edge of the front end to fix the edge of the ceramic tile green body so as not to slide down. Specifically, the height of the stopper bar 21 may be set to 4 cm.

In one implementation, the drive mechanism 30 includes a motor and a screw reducer connected to each other; the motor and the screw speed reducer are both provided with one, and the motor can be a 380V motor. The supporting platform 10 comprises an upper layer bracket 11 and a lower layer bracket 12 arranged below the upper layer bracket 11; the engraving table 20 is arranged on the upper bracket 11 and is rotatably connected with a first end of the upper bracket 11; the motor and the screw rod speed reducer are arranged on the lower layer support 12, and a screw rod on the screw rod speed reducer supports the engraving table 20 to drive the engraving table 20 to rotate for a specified angle around the first end of the supporting platform 10. In this way, the drive mechanism 30 can be covered in the flat position.

Further, a bearing 40 is arranged at the edge of the first end of the upper bracket 11, and the engraving table 20 is rotatably connected with the first end of the upper bracket 11 through the bearing 40. Specifically, the number of the bearings 40 is 4, and the bearings 40 are provided with seats UC 7206.

In one implementation, a control mechanism 50 is further disposed on the lower bracket 12, and the driving mechanism 30 is communicatively connected to the control mechanism 50.

Further, an electric switch for controlling the supporting platform 10 to automatically lift and turn is arranged on the outer side surface of the supporting platform 10, and the electric switch is in communication connection with the control mechanism 50.

Furthermore, a supporting foot (not shown) and a fixed supporting rod 60 which are connected with each other are arranged below the first end of the supporting platform 10, the supporting foot and the fixed supporting rod 60 are both located outside the supporting platform 10, the supporting foot is fixedly connected with the supporting platform 10, and the fixed supporting rod 60 is used for being fixedly supported on the ground; the end face of the supporting leg departing from the supporting platform 10 is provided with an inclined surface, the angle of the inclined surface is the same as the designated angle, and the supporting leg is used for supporting the carving table 20 in a vertical state. Specifically, two fixed support bars 60 of 40cm length are provided on the moving wheel 70 at the front end of the support platform 10. The inclined surfaces of the supporting legs are set to be the same as the designated angle, so that the supporting legs are prevented from damaging the engraving table 20 when supporting the engraving table.

In one implementation, the support platform 10 includes four moving wheels 70 to improve the ease of movement of the support platform 10. The control mechanism 50 comprises a control cabinet, a frequency converter arranged in the control cabinet and a stroke limiter used for controlling the inclination angle of the engraving table 20. Specifically, a Mitsubishi E500 frequency converter and two stroke limiters are arranged.

That is to say, when the product of 600mm × 1200mm is carved in use, the engraver sits at 0mm-800mm below the carved product first, and then goes up and down the lifting and turning carving table 20 to the corresponding oblique angle through the electric switch button, the oblique angle is generally 70 degrees, but the adjustment of the oblique angle can be carried out according to different conditions, the range can be 0-90 degrees, the engraving work station carries out the carving at the position of 800mm-1200mm above the carving table 20, and the lifting and turning carving table 20 is lowered after the carving is finished. The utility model discloses an automatic lift turning device drives screw rod speed reducer through the motor, and steady lift upset sculpture platform 20, through the position of the 20 slopes of stroke stopper control lift upset sculpture platform. When the engraving table 20 is lifted to an angle of 70 degrees, the green body is controlled by the green body blocking rod 21 with the lower edge of 4cm, so that the green body is prevented from sliding downwards and falling, and an engraving worker can conveniently engrave when standing. From the production cost, the engraving time is saved, and the engraving cost is reduced; in the aspect of the utilization ratio, the utility model discloses installed automatic rising turning device additional, improved glyptic efficiency, also made things convenient for the operation.

To sum up, the utility model discloses an automatic rising turning device for making pottery brick by hand carves, include: the engraving machine comprises a supporting platform, an engraving table and a driving mechanism, wherein the engraving table and the driving mechanism are arranged on the supporting platform; the end surface of the carving table surface facing the supporting platform is rotatably connected with the first end of the supporting platform; the end face, away from the supporting platform, of the carving table is used for fixing the ceramic tile, and the driving mechanism is used for driving the carving table to rotate for a specified angle around the first end of the supporting platform. The utility model discloses a set up rotatable sculpture platform on supporting platform to it is rotatory around supporting platform's first end, rotate the lower part with the lower part of pottery brick, rotate the higher authority part of pottery brick to before the sculpture worker face, so that the hand of sculpture worker can be positive sculpture all regions completely, has reduced the sculpture degree of difficulty and operating personnel's work load, has improved sculpture efficiency.

It is to be understood that the invention is not limited to the above-described embodiments, and that modifications and variations may be made by those skilled in the art in light of the above teachings, and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims (10)

1. An automatic lifting and turning device for manually carving ceramic tiles, characterized by comprising: the engraving machine comprises a supporting platform, an engraving table and a driving mechanism, wherein the engraving table and the driving mechanism are arranged on the supporting platform; the end surface of the carving table surface facing the supporting platform is rotatably connected with the first end of the supporting platform; the end face, away from the supporting platform, of the carving table is used for fixing the ceramic tile, and the driving mechanism is used for driving the carving table to rotate for a specified angle around the first end of the supporting platform.

2. The automatic lifting and turning device for manually engraving ceramic tiles according to claim 1, characterized in that the engraving station comprises a support frame and a plane slab rubber arranged on the support frame, wherein the end surface of the support frame facing the support platform is rotatably connected with the first end of the support platform.

3. The automatic lifting and turning device for the manual engraving of ceramic tiles according to claim 1, characterized in that said engraving station comprises an ascending area and a descending area, integrated in one piece, said ascending area being located on the upper end surface of said supporting platform and said descending area being located outside the supporting platform; when the driving mechanism drives the carving table to rotate for a specified angle around the first end of the supporting platform, the ascending area rotates upwards, the descending area rotates downwards, and the original flat state of the carving table is rotated into a vertical state.

4. The automatic lifting and turning device for manually engraving ceramic tiles according to claim 3, characterized in that the edge of the descending area facing away from the ascending area is provided with a stop lever for fixing the edge of the ceramic tiles.

5. The automatic lifting and turning device for manually engraving ceramic tiles according to claim 1, characterized in that said driving mechanism comprises a motor and a screw reducer which are connected with each other; the supporting platform comprises an upper layer bracket and a lower layer bracket arranged below the upper layer bracket; the engraving table is arranged on the upper layer support and is rotatably connected with the first end of the upper layer support; the motor and the screw rod speed reducer are arranged on the lower layer support, and a screw rod on the screw rod speed reducer supports the engraving table to drive the engraving table to rotate for a specified angle around the first end of the supporting platform.

6. The automatic lifting and turning device for manually carving ceramic tiles according to claim 5 is characterized in that a bearing is arranged at the edge of the first end of the upper bracket, and the carving table is rotatably connected with the first end of the upper bracket through the bearing.

7. The automatic lifting and turning device for manually engraving ceramic tiles as claimed in claim 5, wherein the lower support is further provided with a control mechanism, and the driving mechanism is in communication connection with the control mechanism.

8. The automatic lifting and turning device for the manual carving of ceramic tiles as claimed in claim 7, characterized in that an electric switch for controlling the automatic lifting and turning of the supporting platform is arranged on the outer side surface of the supporting platform, and the electric switch is in communication connection with the control mechanism.

9. The automatic lifting and turning device for manually engraving ceramic tiles as claimed in claim 3, wherein supporting legs and fixed supporting rods are arranged below the first end of the supporting platform and are connected with each other, the supporting legs and the fixed supporting rods are both positioned outside the supporting platform, the supporting legs are fixedly connected with the supporting platform, and the fixed supporting rods are used for being fixedly supported on the ground; the support legs deviate from the end face of the support platform and are arranged to be inclined planes, the angle of each inclined plane is the same as the designated angle, and the support legs are used for supporting the carving table in a vertical state.

10. The automatic lifting and turning device for hand engraving ceramic tiles according to claim 7, characterized in that said supporting platform comprises four moving wheels, said control mechanism comprising: the control cabinet, set up the converter in the control cabinet and be used for controlling the stroke stopper of carving platform inclination.

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