CN219116532U - Ceramic conveying device - Google Patents

Abstract

A ceramic transfer device comprising: the device comprises a linear conveying mechanism, a spacing adjusting mechanism, a lifting mechanism, a transferring conveying mechanism, a rotation driving mechanism and a receiving mechanism; the output end of the lifting driver is connected with the lifting seat and used for driving the lifting seat to move up and down so as to enable the lifting seat to rise to the movable opening; the transferring and conveying mechanism is arranged on the lifting seat; the rotary driving mechanism is arranged below the discharge hole; the output end of the rotation driving mechanism is connected to the fixed end of the lifting driver, and drives the lifting driver to rotate, so that the conveying direction of the transfer conveying mechanism is regulated to be towards the receiving mechanism. This scheme provides a ceramic conveyer, it drives the regulation conveyer activity between two rotation conveying pieces through interval adjustment driver to the movable mouth that exposes shifts the ceramic to the transfer mechanism of below, can realize deviating from in the effect of production line in the conveying process of ceramic, has solved the ceramic and has break away from the required time in the conveying process temporarily and have led to the conveyer to appear the problem of jam.

Description

Ceramic conveying device

Technical Field

The utility model relates to the technical field of conveying devices, in particular to a ceramic conveying device.

Background

The existing ceramic conveying device conveys ceramics through a conveying belt or a conveying roller so as to drive the ceramics to be conveyed to different functional devices for processing; when the ceramic needs to be separated from the conveying device in the conveying process, the ceramic often needs to be separated from the output end of the ceramic conveying device, so that the ceramic is difficult to be separated temporarily in front of the output end in the conveying device; moreover, temporary falling of the ceramic may cause congestion in the ceramic conveying device due to long waiting time, and normal operation of the ceramic conveying device is affected.

Disclosure of Invention

The utility model aims to provide a ceramic conveying device, which drives an adjusting conveying part between two rotating conveying parts to move through a distance adjusting driver, so that the ceramic is transferred to a transferring conveying mechanism below an exposed movable opening, and the effect of being separated from a production line in the ceramic conveying process can be realized.

To achieve the purpose, the utility model adopts the following technical scheme:

a ceramic transfer device comprising: the device comprises a linear conveying mechanism, a spacing adjusting mechanism, a lifting mechanism, a transferring conveying mechanism, a rotation driving mechanism and a receiving mechanism;

the linear transport mechanism includes: rotating the conveying member and the conveying frame;

the plurality of rotary conveying members are rotatably arranged on the conveying frame and are arranged along the length direction of the conveying frame; the conveying frame forms a discharge hole between two partially adjacent rotary conveying pieces;

the pitch adjustment mechanism includes: an adjustment conveyor, an adjustment plate and a spacing adjustment drive;

the adjusting conveying piece is rotatably arranged on the adjusting plate; the adjusting conveying pieces are respectively positioned at the front end and the rear end of the discharge hole, and a movable hole is formed between the two adjusting conveying pieces; the distance adjusting driver is arranged on the conveying frame, the output end of the distance adjusting driver is connected with the adjusting plate and used for driving the adjusting plate to horizontally move and driving the adjusting conveying piece at the front and back positions to move in opposite directions or move in opposite directions so as to adjust the size of the movable opening;

the lifting mechanism comprises: a lifting driver and a lifting seat;

the output end of the lifting driver is connected with the lifting seat and used for driving the lifting seat to move up and down so that the lifting seat ascends to the movable opening; the transfer conveying mechanism is arranged on the lifting seat; the rotary driving mechanism is arranged below the discharge hole; the output end of the rotation driving mechanism is connected to the fixed end of the lifting driver and is used for driving the lifting driver to rotate and adjusting the conveying direction of the transferring and conveying mechanism to face the receiving mechanism.

Preferably, the distance adjusting drivers are arranged in pairs, and an output end of each distance adjusting driver is connected with one adjusting plate.

Preferably, the pitch adjustment mechanism includes: u-shaped guide frames;

the U-shaped guide frame is provided with a guide groove; the U-shaped guide frames are arranged on two sides of the conveying frame; one end of the adjusting plate is movably limited in the guide groove.

Preferably, the transfer conveyance mechanism includes: the device comprises a transfer seat, a transfer driving piece, a transfer driven piece, a transfer synchronous belt and a transfer driver;

the transfer seat is arranged on the lifting seat; the transfer driving piece and the transfer driven piece are respectively and rotatably arranged on the transfer seat; the transfer synchronous belt synchronously and rotationally connects the transfer driving piece and the transfer driven piece; the output end of the transfer driver is connected with the transfer driving piece and used for driving the transfer driving piece to rotate.

Preferably, the receiving mechanism includes: a receiving frame, a receiving rotation member, and a receiving rotation driver;

the receiving rotary piece is rotatably arranged on the receiving rack, and the output end of the receiving rotary driver is connected with the receiving rotary piece and used for driving the receiving rotary piece to rotate; the transfer conveyor is lowered to horizontally align the transfer timing belt with the receiving rotor.

Preferably, the method further comprises: a synchronous moving mechanism;

the synchronous moving mechanism comprises: a synchronization plate and a synchronization movement driver;

the rotation driving mechanism and the receiving mechanism are arranged on the synchronous plate; the output end of the synchronous movement driver is connected with the synchronous plate and is used for driving the synchronous plate to move along the length direction of the conveying frame so as to drive the transfer conveying mechanism to move to the lower parts of different discharge ports.

Preferably, a plurality of the receiving mechanisms are distributed around the transfer conveying mechanism as a midpoint, and one end of the receiving frame faces the transfer conveying mechanism.

The technical scheme provided by the utility model can comprise the following beneficial effects:

this scheme provides a ceramic conveyer, it drives the regulation conveyer activity between two rotation conveying pieces through interval adjustment driver to the movable mouth that exposes shifts the ceramic to the transfer mechanism of below, can realize deviating from in the effect of production line in the conveying process of ceramic, has solved the ceramic and has break away from the required time in the conveying process temporarily and have led to the conveyer to appear the problem of jam.

Drawings

FIG. 1 is a schematic diagram of one embodiment of a ceramic transfer device;

FIG. 2 is a schematic diagram of one embodiment of a ceramic transfer device;

FIG. 3 is an enlarged view of portion A of FIG. 2;

fig. 4 is a schematic diagram of one embodiment of the transfer conveyor, the receiver, and the synchronous movement mechanism.

Wherein:

a linear conveying mechanism 1, a spacing adjusting mechanism 2, a lifting mechanism 3, a transferring conveying mechanism 4, a rotation driving mechanism 5 and a receiving mechanism 6; a synchronous moving mechanism 7; a ceramic 9;

a discharge port 10; a rotary conveyor 11 and a conveyor frame 12;

a movable port 20; an adjustment conveyor 21, an adjustment plate 22, a pitch adjustment drive 23; u-shaped guide frames 24; a guide groove 241;

a lift driver 31 and a lift base 32;

a transfer seat 41, a transfer driving member 42, a transfer driven member 43, a transfer timing belt 44, and a transfer driver 45;

a receiving frame 61, a receiving rotary member 62, and a receiving rotary driver 63;

a synchronizing plate 71, and a synchronous movement driver 72.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more of the described features. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

The technical scheme of the scheme is further described through the specific embodiments with reference to the accompanying drawings.

A ceramic transfer device comprising: a linear conveying mechanism 1, a spacing adjusting mechanism 2, a lifting mechanism 3, a transferring conveying mechanism 4, a rotation driving mechanism 5 and a receiving mechanism 6;

the linear conveyance mechanism 1 includes: a rotary transfer member 11 and a transfer frame 12;

a plurality of the rotary conveyers 11 are rotatably installed to the conveyer frame 12 and are arranged along the length direction of the conveyer frame 12; the conveying frame 12 forms a discharge hole 10 between two partially adjacent rotary conveying members 11;

the pitch adjustment mechanism 2 includes: an adjustment conveyor 21, an adjustment plate 22, and a pitch adjustment drive 23;

the adjustment conveyor 21 is rotatably mounted to the adjustment plate 22; the adjusting and conveying members 21 are respectively positioned at the front end and the rear end of the discharge port 10, and a movable port 20 is formed between the two adjusting and conveying members 21; the distance adjusting driver 23 is mounted on the conveying frame 12, and an output end of the distance adjusting driver 23 is connected to the adjusting plate 22, and is used for driving the adjusting plate 22 to move horizontally, and driving the adjusting conveying members 21 at front and rear positions to move in opposite directions or back to adjust the size of the movable opening 20;

the lifting mechanism 3 includes: a lift driver 31 and a lift base 32;

the output end of the lifting driver 31 is connected to the lifting seat 32, and is used for driving the lifting seat 32 to move up and down, so that the lifting seat 32 is lifted to the movable opening 20; the transfer conveying mechanism 4 is mounted on the lifting seat 32; the rotation driving mechanism 5 is arranged below the discharge hole 10; the output end of the rotation driving mechanism 5 is connected to the fixed end of the lifting driver 31, and is used for driving the lifting driver 31 to rotate, and adjusting the conveying direction of the transferring and conveying mechanism 4 to face the receiving mechanism 6.

The scheme provides a ceramic conveying device, it drives the regulation conveying piece 21 activity between two rotation conveying pieces 11 through interval adjustment driver 23 to transfer the ceramic 9 to the transfer conveying mechanism 4 of below at the movable mouth 20 that exposes, can realize deviating from in the effect of production line in the conveying process of ceramic 9, solved the ceramic and break away from the required time length temporarily in the conveying process and lead to the conveying device to appear the problem of jam.

Specifically, a plurality of rotary conveying members 11 are mounted on the conveying frame 12, and the rotation of part of rotary conveying members 11 drives the ceramic on the surface to move, so that the ceramic moves along the length direction of the conveying frame 12; in the scheme, a discharge hole 10 is formed between two part of adjacent rotary conveying members 11, and ceramic is arranged on an adjusting conveying member 21 when abutting against the position of the discharge hole 10; when the operations of temporary sampling, performance testing, sampling detection, surface treatment and the like are needed in the production process of the ceramic, the lifting driver 31 can be started, and the lifting driver 31 drives the lifting seat 32 to move upwards, so that the transfer conveying mechanism 4 of the lifting seat 32 is abutted against the bottom of the ceramic; at this time, the interval adjusting driver 23 is restarted, the interval adjusting driver 23 drives the adjusting plate 22 to move so as to adjust the interval between the front and rear position adjusting conveying members 21, thereby adjusting the size of the movable opening 20, and separating the adjusting conveying members 21 from the bottom surface of the ceramic so as to place the ceramic in the transferring and conveying mechanism 4; after that, the output end of the lifting driver 31 is reset, and the lifting seat 32 drives the transfer conveying mechanism 4 to descend so as to separate the transfer conveying mechanism 4 from the movable opening 20; the receiving means 6 can be arranged in a lowered position horizontally close to the transfer conveyor 4; after the transfer conveying mechanism 4 descends, the rotary driving mechanism 5 can be started to drive the transfer conveying mechanism 4 to conduct angle adjustment, so that the angle of the transfer conveying mechanism 4 is adjusted to face the receiving mechanism 6, and the transfer conveying mechanism 4 outputs the ceramic to the receiving mechanism 6 to finish the transfer of the ceramic in the linear conveying mechanism 1; therefore, the position of the conveying part 21 can be adjusted when the ceramic abuts against the discharge hole 10, the conveying part 21 is reset after the rotary driving mechanism 5 drives the ceramic to descend, the transfer efficiency of the ceramic is high, the ceramic at the rear is not hindered from continuously moving forwards, the ceramic is quickly separated from the production line, and the problem that the conveying device is jammed due to the fact that the ceramic is temporarily separated from the production line for a long time in the conveying process is effectively solved.

The transfer conveyor 4 and the pitch adjustment driver 23 are known to have a function of driving movement, such as a cylinder, a traveling carriage, a conveyor belt structure, and the like; the lift drive 31 is a well-known mechanism having a function of driving a lift, such as a conventional lift. The rotation driving mechanism 5 is a well-known mechanism having a function of driving rotation, such as a motor.

Preferably, the distance adjusting drives 23 are arranged in pairs, and the output end of each distance adjusting drive 23 is connected with one adjusting plate 22.

The output end of each interval adjusting driver 23 drives one adjusting plate 22 to move, so that the front-back position adjusting and conveying piece 21 is respectively driven to move by the interval adjusting drivers 23 at the front-back positions, and the size of the movable opening 20 can be adjusted when the adjusting and conveying piece 21 moves back or opposite.

The pitch adjustment mechanism 2 includes: u-shaped guide frames 24;

the U-shaped guide frame 24 is provided with a guide groove 241; the U-shaped guide frames 24 are arranged on two sides of the conveying frame 12; one end of the adjustment plate 22 is movably limited to the guide groove 241.

The U-shaped guide frame 24 is fixed on the side wall of the conveying frame 12; when one end joint of regulating plate 22 in guide way 241, the inner wall of guide way 241 can carry out spacingly to regulating plate 22 to have the guide function to regulating plate 22, can make regulating plate 22 keep sharp removal, thereby make regulating plate 22 remove along the length direction of guide way 241, be difficult for deviating from in sharp direction, improved the removal smoothness who adjusts conveyer 21.

Preferably, the transfer conveyance mechanism 4 includes: a transfer seat 41, a transfer driving member 42, a transfer driven member 43, a transfer timing belt 44, and a transfer driver 45;

the transfer seat 41 is mounted on the lifting seat 32; the transfer driving member 42 and the transfer driven member 43 are rotatably mounted to the transfer seat 41, respectively; the transfer timing belt 44 connects the transfer driving member 42 and the transfer driven member 43 in a synchronous rotation manner; the output end of the transfer driver 45 is connected to the transfer driving member 42, and is used for driving the transfer driving member 42 to rotate.

When the transfer conveyor 4 is abutted against the bottom surface of the ceramic, the transfer timing belt 44 is in contact with the bottom surface of the ceramic; when the transfer conveying mechanism 4 descends to the alignment receiving mechanism 6, a transfer driver 45 can be started, the output end of the transfer driver 45 drives a transfer follower 43 to rotate, the transfer follower 43 is driven to rotate by a transfer synchronous belt 44, and the transfer synchronous belt 44 can drive ceramics to move; the rotation driving mechanism 5 can drive the lifting driver 31 to rotate, the lifting driver 31 drives the lifting seat 32 to rotate, and the rotation of the lifting seat 32 drives the transfer seat 41 to rotate, so that the linear direction of the transfer synchronous belt 44 is adjusted, the conveying direction of the transfer synchronous belt 44 is adjusted, and finally the transfer synchronous belt 44 is aligned with the receiving mechanism 6.

Preferably, the receiving mechanism 6 includes: a receiving frame 61, a receiving rotation piece 62, and a receiving rotation driver 63;

the receiving rotary member 62 is rotatably mounted on the receiving frame 61, and an output end of the receiving rotary driver 63 is connected to the receiving rotary member 62, so as to drive the receiving rotary member 62 to rotate; the transfer conveyor 4 is lowered to horizontally align the transfer timing belt 44 with the receiving rotary 62.

The rotation of the receiving rotary member 62 may drive the ceramic on the surface thereof to be transferred to other positions, for example, one end of the receiving frame 61 faces and approaches the transfer conveyor 4, and the other end faces the functional device such as a detecting device, a surface processing device, a packing device, etc.; when the ceramic output from the transfer conveyor 4 needs to be received, the receiving rotation driver 63 may be started, and the receiving rotation driver 63 drives the receiving rotation member 62 connected thereto to rotate, thereby driving the receiving rotation member 62 to transfer the received ceramic to other functional devices.

The receiving rotation driver 63 is a well-known mechanism having a function of driving rotation, such as a motor, or a combination of a motor and a speed reducer.

Preferably, the method further comprises: a synchronous moving mechanism 7;

the synchronous moving mechanism 7 includes: a synchronization plate 71 and a synchronization movement driver 72;

the rotation driving mechanism 5 and the receiving mechanism 6 are mounted on the synchronizing plate 71; the output end of the synchronous movement driver 72 is connected to the synchronous plate 71, and is used for driving the synchronous plate 71 to move along the length direction of the conveying frame 12, so as to drive the transfer conveying mechanism 4 to move to the lower parts of the discharge ports 10.

The synchronous movement driver 72 is a well-known mechanism having a driving movement function, such as a traveling carriage, a conveyor belt structure, a robot, etc.; the synchronous movement driver 72 can drive the synchronous plate 71 to move along the length direction of the conveying frame 12, so as to drive the lifting mechanism 3, the transferring and conveying mechanism 4, the rotation driving mechanism 5 and the receiving mechanism 6 to synchronously move to different discharge ports 10, so that ceramics are conveniently transferred to the functional device at different discharge ports 10, and the lifting mechanism 3, the transferring and conveying mechanism 4, the rotation driving mechanism 5 and the receiving mechanism 6 are not required to be arranged at each discharge port 10, thereby greatly simplifying the structure of the conveying device.

Preferably, a plurality of the receiving mechanisms 6 are distributed around the transfer conveyor 4 with the midpoint thereof being the midpoint, and one end of the receiving frame 61 is directed toward the transfer conveyor 4.

The number of the receiving mechanisms 6 is multiple, one end of each receiving mechanism faces the rotary driving mechanism 5, when the transfer conveying mechanism 4 falls to the horizontal alignment receiving rack 61, the transfer conveying mechanism 4 is adjusted to be aligned to one of the receiving mechanisms 6 under the driving action of the rotary driving mechanism 5, and each receiving mechanism 6 faces different functional devices, so that ceramics can be immediately transferred to the different functional devices for processing, the flexibility of ceramic conveying is improved, and the problem that the conveying device is jammed due to long time required for temporary separation of the ceramics in the conveying process is solved.

The technical principle of the present solution is described above in connection with the specific embodiments. The description is only intended to explain the principles of the present solution and should not be construed in any way as limiting the scope of the present solution. Based on the explanations herein, other embodiments of the present solution will be apparent to those skilled in the art without undue burden, and such modifications will fall within the scope of the present solution.

Claims (7)

1. A ceramic transfer device, comprising: the device comprises a linear conveying mechanism, a spacing adjusting mechanism, a lifting mechanism, a transferring conveying mechanism, a rotation driving mechanism and a receiving mechanism;

the linear transport mechanism includes: rotating the conveying member and the conveying frame;

the plurality of rotary conveying members are rotatably arranged on the conveying frame and are arranged along the length direction of the conveying frame; the conveying frame forms a discharge hole between two partially adjacent rotary conveying pieces;

the pitch adjustment mechanism includes: an adjustment conveyor, an adjustment plate and a spacing adjustment drive;

the adjusting conveying piece is rotatably arranged on the adjusting plate; the adjusting conveying pieces are respectively positioned at the front end and the rear end of the discharge hole, and a movable hole is formed between the two adjusting conveying pieces; the distance adjusting driver is arranged on the conveying frame, the output end of the distance adjusting driver is connected with the adjusting plate and used for driving the adjusting plate to horizontally move and driving the adjusting conveying piece at the front and back positions to move in opposite directions or move in opposite directions so as to adjust the size of the movable opening;

the lifting mechanism comprises: a lifting driver and a lifting seat;

the output end of the lifting driver is connected with the lifting seat and used for driving the lifting seat to move up and down so that the lifting seat ascends to the movable opening; the transfer conveying mechanism is arranged on the lifting seat; the rotary driving mechanism is arranged below the discharge hole; the output end of the rotation driving mechanism is connected to the fixed end of the lifting driver and is used for driving the lifting driver to rotate and adjusting the conveying direction of the transferring and conveying mechanism to face the receiving mechanism.

2. A ceramic transfer device according to claim 1, wherein said pitch adjustment drives are arranged in pairs, the output of each of said pitch adjustment drives being connected to one of said adjustment plates.

3. A ceramic transfer device as claimed in claim 1 wherein the spacing adjustment mechanism comprises: u-shaped guide frames;

the U-shaped guide frame is provided with a guide groove; the U-shaped guide frames are arranged on two sides of the conveying frame; one end of the adjusting plate is movably limited in the guide groove.

4. A ceramic transfer device as claimed in claim 1, wherein the transfer mechanism comprises: the device comprises a transfer seat, a transfer driving piece, a transfer driven piece, a transfer synchronous belt and a transfer driver;

the transfer seat is arranged on the lifting seat; the transfer driving piece and the transfer driven piece are respectively and rotatably arranged on the transfer seat; the transfer synchronous belt synchronously and rotationally connects the transfer driving piece and the transfer driven piece; the output end of the transfer driver is connected with the transfer driving piece and used for driving the transfer driving piece to rotate.

5. The ceramic transfer device of claim 4, wherein the receiving means comprises: a receiving frame, a receiving rotation member, and a receiving rotation driver;

the receiving rotary piece is rotatably arranged on the receiving rack, and the output end of the receiving rotary driver is connected with the receiving rotary piece and used for driving the receiving rotary piece to rotate; the transfer conveyor is lowered to horizontally align the transfer timing belt with the receiving rotor.

6. The ceramic transfer device of claim 5, further comprising: a synchronous moving mechanism;

the synchronous moving mechanism comprises: a synchronization plate and a synchronization movement driver;

the rotation driving mechanism and the receiving mechanism are arranged on the synchronous plate; the output end of the synchronous movement driver is connected with the synchronous plate and is used for driving the synchronous plate to move along the length direction of the conveying frame so as to drive the transfer conveying mechanism to move to the lower parts of different discharge ports.

7. The ceramic transfer device of claim 6, wherein a plurality of said receiving means are circumferentially distributed about said transfer means at a midpoint, one end of said receiving frame being oriented toward said transfer means.

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