CN213617389U - High-efficient multistage glaze spraying device of profile modeling - Google Patents

Abstract

The utility model relates to a multistage glaze spraying device of high-efficient profile modeling, including bearing the frame, a workbench, the plummer, the carrier post, the carrier arm, the slider, spray the mouth, the jet pump, linear drive guide rail, lift actuating mechanism and drive circuit, it is connected with the workstation to bear the frame up end, establish the bearing groove on the workstation, the plummer passes through lift actuating mechanism and bearing groove lateral wall sliding connection, linear drive guide rail is connected with the side surface of bearing the frame, linear drive guide rail passes through the slider and is connected with the carrier post, the terminal surface is articulated with the carrier post up end through revolving stage mechanism under the carrier arm, the side surface passes through revolving stage mechanism and sprays the mouth articulated, the jet pump inlays in bearing the frame, drive circuit inlays in bearing the frame lateral surface. On one hand, the structure of the equipment can be flexibly adjusted according to the use requirement; on the other hand, the spraying direction and angle can be flexibly adjusted according to the structure, the efficiency, the quality and the precision of spraying operation are improved, and the scattered and overflowed liquid drops of glaze spraying operation can be effectively recovered.

Description

High-efficient multistage glaze spraying device of profile modeling

Technical Field

The utility model relates to a material mixing device, in particular to a high-efficiency profiling multistage glaze spraying device.

Background

At present, in the process of glaze spraying operation of a blank piece in the production and processing of a ceramic piece, although various glaze spraying operation devices can meet the requirements of ceramic workpiece processing, the traditional glaze spraying devices are poor in device structure adjustment capability in different degrees during operation, so that the current glaze spraying devices can only meet the requirements of the glaze spraying operation of the ceramic workpiece with a specific structure type, and the angle and direction of the spraying operation cannot be synchronously adjusted according to the structural change of the workpiece, so that the working efficiency of the spraying operation is low, the conditions of uneven thickness of a sprayed glaze layer and spraying omission are easily caused, and the spraying quality is seriously influenced; on the other hand, in the operation of the conventional current glaze spraying equipment, the effective recovery capacity of scattered or dropped liquid materials is often lacked, so that the material loss is high easily caused during glaze spraying operation, and meanwhile, the equipment and the surrounding environment are also easily polluted seriously, thereby seriously influencing the flexibility and the reliability of the glaze spraying operation for processing ceramic workpieces.

Therefore, in order to meet the current situation, a multistage efficient annular glaze spraying device is urgently needed to be developed so as to meet the actual use requirement.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects existing in the prior art, the utility model provides a high-efficiency profiling multistage glaze spraying device which has the advantages of simple structure, good universality, high integration degree and modularization degree on one hand, and flexible adjustment of equipment structure according to the use requirement; on the other hand, the glaze spraying operation has high working efficiency and precision, the spraying direction and angle can be flexibly adjusted according to the structure, the efficiency, the quality and the precision of the spraying operation are improved, the scattered liquid drops of the glaze spraying operation can be effectively recovered, the material waste and the pollution to the surrounding environment caused by the glaze spraying operation are prevented, and the processing quality, the spraying precision, the reliability, the flexibility and the safety of the glaze spraying operation are improved.

In order to achieve the above purpose, the present invention is realized by the following technical solution:

a high-efficiency profiling multistage glaze spraying device comprises a bearing frame, a workbench, a bearing table, a bearing column, a bearing arm, sliders, spraying ports, a jet pump, linear driving guide rails, lifting driving mechanisms and a driving circuit, wherein the bearing frame is of a frame structure with the axis vertical to the horizontal plane, the upper end face of the bearing frame is connected with and coaxially distributed with the workbench, the workbench is provided with at least two bearing grooves coaxially distributed with the workbench, the lifting driving mechanisms are uniformly distributed around the axis of the bearing grooves and are parallelly distributed with the axis of the bearing grooves, the lifting driving mechanisms are parallelly distributed with the axis of the bearing grooves, the bearing table is embedded in the bearing grooves and coaxially distributed with the bearing grooves, the side wall of the bearing table is slidably connected with the side wall of the bearing grooves through the lifting driving mechanisms, at least one linear driving guide rail is connected with the side surface of the bearing frame and is parallelly distributed with the upper end face of the workbench, the linear driving guide, the bearing column is connected with the bearing column through a sliding block, the axis of the bearing column is vertically distributed with the upper end face of the workbench, at least two bearing arms are hinged with each other through a turntable mechanism, the lower end face of the bearing arm positioned at the lowest part is hinged with the upper end face of the bearing column through the turntable mechanism, the axis of the bearing arm and the upper end face of the workbench form an included angle of 0-90 degrees, the side surface of the bearing arm is hinged with a spray opening through the turntable mechanism, the axis of the spray opening is intersected with the midpoint of the upper end face of the bearing platform and forms an included angle of 0-90 degrees with the upper end face of the bearing platform, the spray openings are connected in parallel with each other and are communicated with a jet pump through a guide pipe, the jet pump is embedded in the bearing rack and is electrically connected with a driving circuit, and the driving circuit is embedded in the outer side face of.

Further, the plummer include tray, positioning fixture, bear fossil fragments, transmission shaft, uide bushing, driving motor and speed sensor, bear fossil fragments for with the coaxial frame construction who distributes of bearing the weight of the groove, driving motor and uide bushing all inlay in bearing fossil fragments and be connected with the tray through the transmission shaft, the tray is located bears 5 millimeters at least departments of fossil fragments top, the uide bushing cladding is outside the transmission shaft, and coaxial distribution between tray, positioning fixture, bear fossil fragments, transmission shaft, uide bushing and driving motor, speed sensor is connected and coaxial distribution with the driving motor rear end face, positioning fixture is two at least, encircles the tray axis and is connected with the tray up end, driving motor and speed sensor all with drive circuit electrical connection.

Furthermore, at least one sliding block is arranged on the linear driving guide rail, each sliding block is connected with one bearing column, the upper end face of each bearing column is at least 5 mm higher than the upper end face of the workbench, at least one displacement sensor is arranged on the side surface of each sliding block, and each displacement sensor is electrically connected with the driving circuit.

Furthermore, a receiving disc is arranged in the bearing frame corresponding to the bearing groove, the receiving disc and the bearing groove are coaxially distributed, the axial section of the receiving disc is in a U-shaped groove-shaped structure, and the area of the upper end face of the receiving disc is at least 1.5 times that of the lower end face of the bearing table.

Furthermore, when the number of the bearing columns is two or more, the bearing columns are uniformly distributed around the axis of the bearing table.

Furthermore, the driving circuit is a circuit system based on an industrial single chip microcomputer, and a data communication device is additionally arranged on the driving circuit.

The novel device has the advantages of simple structure, good universality, high integration degree and modularization degree, and flexible adjustment of the device structure according to the use requirement; on the other hand, the glaze spraying operation has high working efficiency and precision, the spraying direction and angle can be flexibly adjusted according to the structure, the efficiency, the quality and the precision of the spraying operation are improved, the scattered liquid drops of the glaze spraying operation can be effectively recovered, the material waste and the pollution to the surrounding environment caused by the glaze spraying operation are prevented, and the processing quality, the spraying precision, the reliability, the flexibility and the safety of the glaze spraying operation are improved.

Drawings

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic diagram of the novel structure.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in figure 1, a high-efficiency profiling multistage glaze spraying device comprises a bearing frame 1, a workbench 2, a bearing table 3, a bearing column 4, a bearing arm 5, a slide block 6, a spraying port 7, a jet pump 8, linear driving guide rails 9, lifting driving mechanisms 10 and a driving circuit 11, wherein the bearing frame 2 is a frame structure with the axis vertical to the horizontal plane, the upper end surface of the frame structure is connected with the workbench 3 and coaxially distributed, the workbench 3 is provided with at least two bearing grooves 12 coaxially distributed with the workbench 3, the lifting driving mechanisms 10 are uniformly distributed around the axis of the bearing groove 12 and are parallel to the axis of the bearing groove 12, the lifting driving mechanisms 10 are parallel to the axis of the bearing groove 12, the bearing table 3 is embedded in the bearing groove 12 and is coaxially distributed with the bearing groove 12, the side wall of the bearing table 3 is slidably connected with the side wall of the bearing groove 12 through the lifting driving mechanisms 10, at least one linear driving guide rail, the linear driving guide rail 9 is provided with at least one slide block 6 and is connected with a bearing column 4 through the slide block 6, the axis of the bearing column 4 is vertically distributed with the upper end surface of the workbench 2, at least two bearing arms 5 are provided, the adjacent two bearing arms 5 are hinged through a rotary table mechanism 13, the lower end surface of the bearing arm 5 positioned at the lowest part is hinged with the upper end surface of the bearing column 4 through the rotary table mechanism 13, the axis of the bearing arm 5 forms an included angle of 0-90 degrees with the upper end surface of the workbench 2, the side surface of the bearing arm 5 is hinged with a spray opening 7 through the rotary table mechanism 13, the axis of the spray opening 7 is intersected with the midpoint of the upper end surface of the bearing table 3 and forms an included angle of 0-90 degrees with the upper end surface of the bearing table 3, the spray openings 7 are mutually connected in parallel and are mutually communicated with a jet pump 8 through a guide pipe, the jet pump 8 is embedded in the bearing frame 1 and is electrically connected with, the driving circuit 11 is embedded on the outer side surface of the bearing frame 1 and is electrically connected with the linear driving guide rail 9, the lifting driving mechanism 10 and the turntable mechanism 13 respectively.

It is important to explain that the bearing table 3 includes a tray 31, a positioning fixture 32, a bearing keel 33, a transmission shaft 34, a guide sleeve 37, a driving motor 35 and a rotation speed sensor 36, the bearing keel 33 is a frame structure which is coaxially distributed with the bearing groove 12, the driving motor 35 and the guide sleeve 37 are both embedded in the bearing keel 33 and connected with the tray 31 through the transmission shaft 34, the tray 31 is located at least 5 mm above the bearing keel 33, the guide sleeve 37 is covered outside the transmission shaft 34, and the tray 31, the positioning clamp 32, the bearing keel 33, the transmission shaft 34, the guide sleeve 37 and the driving motor 35 are coaxially distributed, the rotating speed sensors 36 are connected with the rear end face of the driving motor 35 and are coaxially distributed, at least two positioning clamps 32 are connected with the upper end face of the tray 31 around the axis of the tray 31, and the driving motor 35 and the rotating speed sensors 36 are electrically connected with the driving circuit 11.

Meanwhile, at least one sliding block 6 is arranged on the linear driving guide rail 9, each sliding block 6 is connected with one bearing column 4, the upper end face of each bearing column 4 is at least 5 mm higher than the upper end face of the workbench 2, at least one displacement sensor 14 is arranged on the side surface of each sliding block 6, and each displacement sensor 14 is electrically connected with the driving circuit 11.

It should be noted that the receiving tray 15 is arranged in the bearing frame 1 corresponding to the bearing groove 12, and the receiving tray 15 and the bearing groove 12 are coaxially distributed, the receiving tray 15 is a u-shaped groove-shaped structure with an axial cross section, and the area of the upper end surface of the receiving tray 15 is at least 1.5 times that of the lower end surface of the bearing table 3.

In this embodiment, when the number of the bearing columns 4 is two or more, the bearing columns are uniformly distributed around the axis of the bearing table.

In this embodiment, the driving circuit 11 is a circuit system based on an industrial single chip, and the driving circuit 11 is additionally provided with a data communication device.

This is novel in the concrete implementation, at first assembles this neotype frame, workstation, plummer, carrier post, carrier arm, slider, the mouth that sprays, jet pump, linear drive guide rail, lift actuating mechanism and drive circuit that bears of constitution, then will assemble this neotype through bearing the frame mounting appointed operating position to with jet pump and outside glaze spraying raw materials feed system intercommunication, establish data connection with drive circuit and external power supply circuit system and remote control system at last, can accomplish this neotype assembly.

During glaze spraying operation, a blank is installed on a tray of a bearing table, a positioning clamp is used for installing the blank on the tray, a lifting driving mechanism is used for adjusting the working position of the bearing table, a driving motor drives the tray to drive the blank to rotate so as to meet the requirement of subsequent glaze spraying, a rotating speed sensor is used for synchronously detecting the rotating speed of the blank, a linear driving guide rail drives a sliding block to move along the axial direction of the linear driving guide rail, the sliding block is used for adjusting the bearing column and the position relation between a bearing arm connected with the bearing column and the blank, a rotary table mechanism is used for adjusting the relative position relation between each spraying pump connected with the bearing arm and the surface of the blank so as to meet the requirement of glaze spraying operation, finally, glaze spraying operation is carried out through a spraying head after the glaze spraying material is pressurized through a jet pump, and in the spraying operation process, the spraying operation is realized along with the synchronous adjustment of the surface structure of the blank by adjusting the relative position relationship between the bearing arm and each spraying port through the turntable mechanism.

In the spraying process, the scattered and overflowed liquid materials are collected through the material receiving disc at the bottom of the bearing groove, so that the material waste and the environment pollution caused by the scattered and overflowed materials are prevented.

The novel device has the advantages of simple structure, good universality, high integration degree and modularization degree, and flexible adjustment of the device structure according to the use requirement; on the other hand, the glaze spraying operation has high working efficiency and precision, the spraying direction and angle can be flexibly adjusted according to the structure, the efficiency, the quality and the precision of the spraying operation are improved, the scattered liquid drops of the glaze spraying operation can be effectively recovered, the material waste and the pollution to the surrounding environment caused by the glaze spraying operation are prevented, and the processing quality, the spraying precision, the reliability, the flexibility and the safety of the glaze spraying operation are improved.

Those skilled in the art should understand that the present invention is not limited by the above embodiments. The foregoing embodiments and description have been made only for the purpose of illustrating the principles of the invention. The present invention can be further modified and improved without departing from the spirit and scope of the present invention. Such changes and modifications are intended to be within the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a multistage glaze spraying device of high-efficient profile modeling which characterized in that: the high-efficiency profiling multistage glaze spraying device comprises a bearing frame, a workbench, a bearing table, bearing columns, bearing arms, sliders, spraying ports, a jet pump, linear driving guide rails, lifting driving mechanisms and a driving circuit, wherein the bearing frame is of a frame structure with the axis vertical to the horizontal plane, the upper end face of the bearing frame is connected with and coaxially distributed with the workbench, the workbench is provided with bearing grooves coaxially distributed with the workbench, at least two lifting driving mechanisms are uniformly distributed around the axis of the bearing grooves and are parallelly distributed with the axis of the bearing grooves, the lifting driving mechanisms are parallelly distributed with the axis of the bearing grooves, the bearing table is embedded in the bearing grooves and is coaxially distributed with the bearing grooves, the side wall of the bearing table is slidably connected with the side wall of the bearing grooves through the lifting driving mechanisms, at least one linear driving guide rail is connected with the side surface of the bearing frame and is parallelly distributed with the upper end face of the workbench, the linear driving guide rail is provided with at least one sliding block and is connected with the bearing column through the sliding block, the axis of the bearing column is vertically distributed with the upper end face of the workbench, at least two bearing arms are hinged through a rotary table mechanism, the lower end face of the bearing arm positioned at the lowest part is hinged with the upper end face of the bearing column through the rotary table mechanism, the axis of each bearing arm and the upper end face of the workbench form an included angle of 0-90 degrees, the side surface of each bearing arm is hinged with a spray opening through the rotary table mechanism, the axis of the spray opening is intersected with the midpoint of the upper end face of the bearing table and forms an included angle of 0-90 degrees with the upper end face of the bearing table, the spray openings are mutually connected in parallel and are mutually communicated with the jet pump through a guide pipe, the jet pump is embedded in the bearing frame and is electrically connected with a driving circuit, the driving circuit is embedded in the outer side face, The lifting driving mechanism is electrically connected with the turntable mechanism.

2. The efficient profiling multistage glaze spraying device according to claim 1, wherein: the plummer include tray, positioning fixture, bear fossil fragments, transmission shaft, uide bushing, driving motor and speed sensor, bear fossil fragments for with the coaxial frame construction who distributes of bearing groove, driving motor and uide bushing all inlay in bearing fossil fragments and be connected with the tray through the transmission shaft, the tray is located bears 5 millimeters at least departments in fossil fragments top, the uide bushing cladding is outside the transmission shaft, and tray, positioning fixture, bear fossil fragments, transmission shaft, uide bushing and driving motor between coaxial distribution, speed sensor is connected and coaxial distribution with the driving motor rear end face, positioning fixture is two at least, encircles the tray axis and is connected with the tray up end, driving motor and speed sensor all with drive circuit electrical connection.

3. The efficient profiling multistage glaze spraying device according to claim 1, wherein: the linear driving guide rail is provided with at least one sliding block, each sliding block is connected with one bearing column, the upper end face of each bearing column is at least 5 mm higher than the upper end face of the workbench, the side surface of each sliding block is provided with at least one displacement sensor, and each displacement sensor is electrically connected with the driving circuit.

4. The efficient profiling multistage glaze spraying device according to claim 1, wherein: the bearing frame corresponding to the bearing groove is internally provided with a take-up disc which is coaxially distributed with the bearing groove, the take-up disc is of a U-shaped groove-shaped structure, and the area of the upper end face of the take-up disc is at least 1.5 times that of the lower end face of the bearing table.

5. The efficient profiling multistage glaze spraying device according to claim 1, wherein: when the number of the bearing columns is two or more, the bearing columns are uniformly distributed around the axis of the bearing table.

6. The efficient profiling multistage glaze spraying device according to claim 1, wherein: the driving circuit is a circuit system based on an industrial single chip microcomputer, and a data communication device is additionally arranged on the driving circuit.

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