CN216035349U - Transmission mechanism for ceramic tile packaging machine - Google Patents

Abstract

The utility model provides a transmission device for ceramic tile packagine machine, relate to a ceramic manufacture technology, especially ceramic tile packagine machine's transmission technology includes the frame, belt transmission device, its characterized in that belt transmission device includes preceding belt transmission device, back belt transmission device, preceding belt transmission device comprises two preceding belt transmission device units, preceding belt transmission device unit includes the front beam, the front belt wheel, preceding motor member, preceding transmission belt, be provided with the preceding width modulation mechanism of adjusting two preceding belt transmission device unit widths, back belt transmission device comprises two back belt transmission device units, back belt transmission device unit includes the back beam, the back belt wheel, back motor member, back transmission belt, be provided with the back width modulation mechanism of adjusting two back belt transmission device unit widths. Compared with the prior art, the transmission mechanism for the tile packaging machine has the advantages of being capable of being adjusted quickly according to the specifications of corresponding packaged tiles, high in adjustment efficiency, synchronism and accuracy, and meanwhile, not influencing the efficiency of tile packaging.

Description

Transmission mechanism for ceramic tile packaging machine

Technical Field

The utility model relates to a ceramic production technology, in particular to a transmission technology of a ceramic tile packaging machine.

Background

Packagine machine packs the ceramic tile, generally include on the transmission line to the ceramic tile buttress vertically transversely align, then get into on the transmission line, afterwards, send into by the transmission line and put into carton mechanism, mention the ceramic tile buttress earlier in putting into carton mechanism, then, take out the below of the ceramic tile buttress that the tiling was put to the carton station from the carton storehouse, then put into the higher authority of carton with the ceramic tile buttress, afterwards, send the carton into cornerite placement machine by the transmission line and put the mechanism position with the ceramic tile buttress above, place the plastics angle bead by cornerite placement machine to four angles of ceramic tile buttress, afterwards, send forming mechanism position by the transmission line, four sides folding with the carton by forming mechanism, thereby wrap up the ceramic tile buttress in the carton, in alignment operation and place cornerite operation, all need lift away the ceramic tile buttress earlier and leave the transmission line. Because of the need to have stacks of tiles and cartons placed between the transfer line and the various stations, whether the stacks are transported or aligned, and the placement of the plastic corner protectors and the folding of the cartons, the packaging machine is faced with tiles of different sizes, which requires adjustment of the packaging machine. During adjustment, each station needs to be synchronously adjusted, wherein the transverse width of the transmission mechanism needs to be adjusted to meet the transmission requirements of tiles with different specifications, the transmission mechanism is often long in distance, and in order to facilitate adjustment and improvement of adjustment efficiency and adjustment precision, patent CN210653774U discloses a transmission mechanism for a tile packaging machine, which comprises a frame and a belt transmission mechanism arranged on the frame, wherein the belt transmission mechanism is composed of two belt transmission mechanism units, each belt transmission mechanism unit comprises a support, a belt pulley arranged on the support, a motor member arranged on the support and driving the belt pulley to rotate, and a transmission belt driven by the belt pulley, a guide rail mechanism is arranged on the frame, and the guide rail mechanism comprises two or more guide rails which are arranged in parallel and perpendicular to the transmission belt, racks which are arranged beside the guide rails and are parallel to the guide rails, and a slide block which moves along the guide rails, The transmission shaft is parallel to the transmission belt and is rotatably connected on the sliding block in a penetrating way, the bracket is fixed on the sliding block, when the transmission width of the transmission mechanism is adjusted according to the specification of the ceramic tile, the adjusting motor mechanism is started, the adjusting motor mechanism drives the transmission shaft to rotate, the gears on the sliding blocks of more than two guide rails are synchronously driven to synchronously rotate, the gears roll back and forth along the rack to drive the sliding block to synchronously move back and forth along the guide rails, and the bracket, the belt pulley on the bracket, the transmission belt and the motor component are driven to synchronously move back and forth, so that the transmission width of the transmission mechanism is synchronously adjusted, the width between the two transmission belts is integrally adjusted, therefore, the synchronization and the accuracy are high, and the transmission mechanism comprises the bracket, the belt pulley, the transmission belt and the motor mechanism which are synchronously and electrically adjusted, the adjustment is quick, high efficiency, however, because a transmission belt is shared by all the technological processes of ceramic tile packaging, therefore, each technological step of ceramic tile packaging is easily influenced by the working state of the transmission belt, if the ceramic tile is put into a carton process, the ceramic tile needs to be lifted from the transmission belt, then the carton is put into the transmission belt, finally, the ceramic tile is placed on the carton, three process time periods of lifting the ceramic tile, placing the carton and putting down the ceramic tile all need the transmission belt to stop, and other technological steps of ceramic tile packaging only need one process time period to need the transmission belt to stop, thereby influencing the efficiency of ceramic tile packaging.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a transmission mechanism for a tile packaging machine, which can be quickly adjusted according to the specification of a packaged tile, has high adjustment efficiency, synchronism and accuracy, and does not influence the packaging efficiency of the tile.

The transmission mechanism for the tile packaging machine is realized by comprising a rack and a belt transmission mechanism arranged on the rack, and is characterized in that the belt transmission mechanism comprises a front belt transmission mechanism positioned in front of a carton placing station and a rear belt transmission mechanism positioned behind the carton placing station, the front belt transmission mechanism consists of two front belt transmission mechanism units, each front belt transmission mechanism unit comprises a front cross beam, a front belt pulley arranged on the front cross beam, a front motor component arranged on the front cross beam and used for driving the front belt pulley to rotate, and a front transmission belt driven by the front belt pulley, a front width adjusting mechanism used for adjusting the width of the two front belt transmission mechanism units is arranged at the front end of the rack, the rear belt transmission mechanism consists of two rear belt transmission mechanism units, each rear belt transmission mechanism unit comprises a rear cross beam, a rear belt pulley arranged on the rear cross beam, and a rear motor component arranged on the rear cross beam and used for driving the rear belt pulley to rotate, The rear transmission belt driven by the rear belt pulley is provided with a rear width adjusting mechanism for adjusting the width of the two rear belt transmission mechanism units on the rear end of the frame.

The front width adjusting mechanism comprises two front guide rails which are arranged in parallel and vertical to the front transmission belt, a front screw rod which is rotationally arranged on the front guide rails, a front adjusting motor mechanism which drives the front screw rod to rotate and a pair of front slide blocks which move along each front guide rail, the front screw rod is screwed on the front slide blocks, the thread rotating directions of the two front slide blocks connected on the front screw rod are opposite or the thread rotating directions of the two sides of the front screw rod are opposite, the front slide blocks positioned on the same side on the two front guide rails are fixedly connected with the front cross beam of the front belt transmission mechanism unit positioned on the same side, the rear width adjusting mechanism comprises two rear guide rails which are arranged in parallel and vertical to the rear transmission belt, a rear screw rod which is rotationally arranged on the rear guide rails, a rear adjusting motor mechanism which drives the rear screw rod to rotate and a pair of rear slide blocks which move along each rear guide rail, the rear screw rod is screwed on the rear slide blocks, the thread rotating directions of the two rear slide blocks connected on the rear screw rod are opposite or the thread rotating directions of the two sides of the rear screw rod are opposite, the rear sliding blocks on the same side of the two rear guide rails are fixedly connected with the rear cross beam of the rear belt transmission mechanism unit on the same side.

When the transmission width of the transmission mechanism is adjusted according to the specification of the ceramic tile, the front adjusting motor mechanism and the rear adjusting motor mechanism are started, the front adjusting motor mechanism and the rear adjusting motor mechanism respectively drive the front screw rod and the rear screw rod to rotate, so that the pair of front sliding blocks and the pair of rear sliding blocks synchronously move to drive the sliding blocks to synchronously open and close along the guide rails, the pair of front cross beams, the front belt pulley, the front transmission belt and the front motor component on the front cross beam synchronously and relatively move, and the pair of rear cross beams, the rear belt pulley, the rear transmission belt and the rear motor component on the rear cross beam synchronously and relatively move, so that the transmission width of the front belt transmission mechanism and the rear belt transmission mechanism is synchronously adjusted The belt pulley, the transmission belt and the motor mechanism are synchronously moved and adjusted, and the adjustment is quick and efficient. Meanwhile, the front belt transmission mechanism and the rear belt transmission mechanism are separated, so that the operation of the front belt transmission mechanism and the operation of the rear belt transmission mechanism cannot be influenced by mutual interference, the process of aligning the stations around the ceramic tile arranged on the front belt transmission mechanism, the process of placing the corner brace stations and the carton folding stations on the rear belt transmission mechanism, the carton placing process and the ceramic tile conveying process cannot be influenced by each other, and the ceramic tile packaging efficiency is ensured.

Compared with the prior art, the transmission mechanism for the tile packaging machine has the advantages of being capable of being adjusted quickly according to the specification of the packaged tiles, high in adjustment efficiency, synchronization and accuracy, and meanwhile, the efficiency of packaging the tiles is not affected.

Drawings

Fig. 1 is a schematic view of the structure of a transfer mechanism for a tile packing machine of the present invention.

Detailed Description

The transfer mechanism for a tile packing machine of the present invention will now be described in further detail with reference to the accompanying drawings and examples:

as shown in the figure, the transmission mechanism for the tile packaging machine comprises a frame 1 and a belt transmission mechanism a arranged on the frame 1, and is characterized in that the belt transmission mechanism a comprises a front belt transmission mechanism c positioned in front of a carton placing station b and a rear belt transmission mechanism d positioned behind the carton placing station b, a tile aligning station e forming the tile packaging machine is arranged on the front belt transmission mechanism c, an angle placing code station f and a carton folding station g forming the tile packaging machine are sequentially arranged on the rear belt transmission mechanism d, the front belt transmission mechanism c comprises two front belt transmission mechanism units 2, each front belt transmission mechanism unit 2 comprises a front cross beam 201, a front belt pulley 202 arranged on the front cross beam 201, a front motor member 203 (comprising a motor and a gearbox) arranged on the front cross beam 201 and driving the front belt pulley 202 to rotate and a front transmission belt 204 driven by the front belt pulley 202, a front width adjusting mechanism 3 is arranged at the front end of the frame 1, the front width adjusting mechanism 3 comprises two front guide rails 301 which are arranged in parallel and are perpendicular to the front transmission belt 204, front screw rods 302 (adopting ball screw rods) which are arranged at the two ends of the front guide rails 301 through bearings at the two ends in a rotating manner, a front adjusting motor mechanism 303 (comprising a motor and a speed change mechanism) which drives the front screw rods 302 to rotate, and a pair of front slide blocks 304 which move along each front guide rail 301, the front screw rods 302 are connected to the front slide blocks 304 in a screwing manner, the thread rotating directions of the two front slide blocks 304 connected to the front screw rods 302 in a screwing manner are opposite, the front slide blocks 304 on the same side on the two front guide rails 301 are fixedly connected with the front cross beam 201 of the front belt transmission mechanism unit 2 on the same side, a rear belt transmission mechanism d is composed of two rear belt transmission mechanism units 4, each rear belt transmission mechanism unit 4 comprises a rear cross beam 401 and a belt 402 arranged on the rear cross beam 401, A rear motor member 403 (including a motor and a speed change mechanism) which is provided on the rear cross member 401 and drives the rear pulley 402 to rotate, and a rear transmission belt 404 which is driven by the rear pulley 402, the rear width adjusting mechanism 5 is arranged at the rear end of the rack 1, the rear width adjusting mechanism 5 comprises two rear guide rails 501 which are arranged in parallel and perpendicular to the rear conveying belt 404, a rear screw 502 (adopting a ball screw) which is arranged on the rear guide rails 501 in a rotating manner through bearings at two ends, a rear adjusting motor mechanism 503 (comprising a motor and a speed change mechanism) which drives the rear screw 502 to rotate, and a pair of rear sliders 504 which move along each rear guide rail 501, the rear screw 502 is connected to the rear sliders 504 in a rotating manner, the thread rotating directions of the two rear sliders 504 connected to the rear screw 502 in a rotating manner are opposite, and the rear sliders 504 on the same side of the two rear guide rails 501 are fixedly connected with the rear cross beam 401 of the rear belt conveying mechanism unit 4 on the same side.

The front beam 201 of the two front belt transmission mechanism units 2 of the front belt transmission mechanism c is provided with a first mounting table 205 corresponding to the tile alignment station e and used for mounting the tile alignment mechanism.

Thus, the two tile aligning mechanism units constituting the tile aligning mechanism are symmetrically fixed to the first mounting tables 205 on the front cross members 201 of the two front belt conveying mechanism units 2.

And a second mounting table 405 corresponding to the corner bead releasing station f and used for mounting the corner bead releasing mechanism is arranged on the rear cross beam 401 of the two rear belt transmission mechanism units 4 of the rear belt transmission mechanism d.

Thus, the two corner relief mechanism units constituting the corner relief mechanism are symmetrically fixed to the second mounting tables 405 on the rear cross members 401 of the two rear belt conveying mechanism units 4.

And a third mounting table 406 which is positioned behind the corner placing and protecting station f and corresponds to the carton folding station g and is used for mounting the carton folding mechanism is arranged on the rear cross beam 401 of the two rear belt transmission mechanism units 4 of the rear belt transmission mechanism d.

In this way, the two carton folding mechanism units constituting the carton folding mechanism parallel to the conveying direction of the rear belt conveying mechanism d are symmetrically fixed to the third mounting tables 406 on the rear cross members 401 of the two rear belt conveying mechanism units 4.

A fourth mounting table 6 for mounting the carton placing mechanism and a frame 7 for mounting the brick grabbing and conveying mechanism are arranged on the frame 1 at the carton placing station b between the front belt transmission mechanism c and the rear belt transmission mechanism d.

Thus, the brick grabbing and conveying mechanism is mounted on the frame 7, the carton placing mechanism is mounted on the fourth mounting table 6, one end of each of a pair of transmission mechanisms on the carton placing mechanism is connected with the rear cross beam 401 of each of the two rear belt transmission mechanism units 4 and is in linkage adjustment with the rear cross beam 401, meanwhile, a transmission belt pulley 407 is arranged on the rear cross beam 401 of each of the two rear belt transmission mechanism units 4 of the rear belt transmission mechanism d close to the carton placing station b, the rear motor member 403 drives the pair of transmission mechanisms on the carton placing mechanism through the transmission belt pulley 407, the other end of each of the pair of transmission mechanisms on the carton placing mechanism is arranged on a linear guide rail in a sliding mode through a sliding block, and the linear guide rail is fixed at a linear guide rail mounting position 8 on the rack 1 at the carton placing station b.

When the transmission width of the transmission mechanism is adjusted according to the tile specification, the two front adjusting motor mechanisms 303 and the two rear adjusting motor mechanisms 503 are started, the two front adjusting motor mechanisms 303 and the two rear adjusting motor mechanisms 503 respectively drive the two front screw rods 302 and the two rear screw rods 502 to rotate, so that the two pairs of front sliders 304 and the two pairs of rear sliders 504 synchronously move, the two pairs of front sliders 304 are driven to synchronously move back and forth along the corresponding front guide rails 301, the two pairs of rear sliders 504 are driven to synchronously move back and forth along the corresponding rear guide rails 501, the pair of front beams 201, the front belt pulley 202 on the front beam 201, the front transmission belt 204 and the front motor member 203 are driven to synchronously and relatively move, the pair of rear beams 401, the rear belt pulley 402 on the rear beam 401, the rear transmission belt 404 and the rear motor member 403 are driven to synchronously and relatively move, and the pair of transmission mechanisms on the carton placing mechanism are driven to synchronously and relatively move, so that the front belt transmission mechanisms c, b and b are synchronously adjusted, The transmission widths of the rear belt transmission mechanism d and the pair of transmission mechanisms on the carton placing mechanism, and meanwhile, the width between two tile aligning mechanism units forming the tile aligning mechanism, the width between two corner placing mechanism units forming the corner placing mechanism and the width between two carton folding mechanism units forming the carton folding mechanism and parallel to the transmission direction of the rear belt transmission mechanism d are synchronously adjusted.

Claims (7)

1. A transmission mechanism for a tile packaging machine comprises a frame and a belt transmission mechanism arranged on the frame, and is characterized in that the belt transmission mechanism comprises a front belt transmission mechanism positioned in front of a carton placing station and a rear belt transmission mechanism positioned behind the carton placing station, the front belt transmission mechanism comprises two front belt transmission mechanism units, each front belt transmission mechanism unit comprises a front cross beam, a front belt pulley arranged on the front cross beam, a front motor component arranged on the front cross beam and used for driving the front belt pulley to rotate and a front transmission belt driven by the front belt pulley, a front width adjusting mechanism used for adjusting the width of the two front belt transmission mechanism units is arranged at the front end of the frame, each rear belt transmission mechanism unit comprises two rear belt transmission mechanism units, each rear belt transmission mechanism unit comprises a rear cross beam, a rear belt pulley arranged on the rear cross beam, a rear motor component arranged on the rear cross beam and used for driving the rear belt pulley to rotate and a rear transmission belt driven by the rear belt pulley, the rear end of the frame is provided with a rear width adjusting mechanism for adjusting the width of the two rear belt transmission mechanism units.

2. The conveying mechanism for a tile packing machine according to claim 1, wherein the front width-adjusting mechanism comprises two front guide rails disposed in parallel and perpendicular to the front conveying belt, a front screw rod rotatably disposed on the front guide rails, a front adjusting motor mechanism driving the front screw rod to rotate, and a pair of front sliders moving along each front guide rail, the front screw rod is screwed on the front slider, the screw rotation directions of the two front sliders connected to the front screw rod are opposite or the screw rotation directions of both sides of the front screw rod are opposite, the front sliders on the same side on the two front guide rails are fixedly connected to the front cross beam of the front belt conveying mechanism unit on the same side, the rear width-adjusting mechanism comprises two rear guide rails disposed in parallel and perpendicular to the rear conveying belt, a rear screw rod rotatably disposed on the rear guide rails, a rear adjusting motor mechanism driving the rear screw rod to rotate, and a pair of rear sliders moving along each rear guide rail, the rear screw rod is connected to the rear sliding block in a screwed mode, the thread rotating directions of the two rear sliding blocks connected to the rear screw rod are opposite, or the thread rotating directions of the two sides of the rear screw rod are opposite, and the rear sliding blocks located on the same side on the two rear guide rails are fixedly connected with the rear cross beam of the rear belt transmission mechanism unit located on the same side.

3. The conveying mechanism for a tile packing machine according to claim 1, wherein the front cross member of the two front belt conveying mechanism units of the front belt conveying mechanism is provided with a first mounting table corresponding to the tile aligning station for mounting the tile aligning mechanism.

4. The conveying mechanism for a tile packing machine according to claim 1, wherein a second mounting table for mounting the corner bead releasing mechanism is provided on the rear cross member of the two rear belt conveying mechanism units of the rear belt conveying mechanism, corresponding to the corner bead releasing station.

5. The conveying mechanism for the tile packaging machine according to claim 1, wherein a third mounting table corresponding to the carton folding station and arranged behind the corner bead placing station is arranged on the rear cross beam of the two rear belt conveying mechanism units of the rear belt conveying mechanism.

6. The conveying mechanism for the tile packaging machine as claimed in claim 1, wherein a fourth mounting table for mounting the carton placing mechanism and a frame for mounting the brick grabbing and conveying mechanism are arranged on the frame at the carton placing station between the front belt conveying mechanism and the rear belt conveying mechanism.

7. The conveying mechanism for tile packaging machine according to claim 6, wherein a driving pulley is provided on the rear cross beam of the two rear belt conveying mechanism units of the rear belt conveying mechanism near the carton placing station.

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