CN110587797A

CN110587797A - Powder brushing mechanism

Info

Publication number: CN110587797A
Application number: CN201910766593.5A
Authority: CN
Inventors: 钱荣高; 季海虎; 胡朱峰; 张晋; 程旗凯; 徐振宇; 陈晓平
Original assignee: JIAXING JIALI ELECTRONICS CO Ltd; Zhejiang Seokho Robot Technology Co Ltd
Current assignee: JIAXING JIALI ELECTRONICS CO Ltd; Zhejiang Seokho Robot Technology Co Ltd
Priority date: 2019-08-19
Filing date: 2019-08-19
Publication date: 2019-12-20

Abstract

The invention discloses a powder brushing mechanism, which comprises two parallel conveying belts and a cleaning mechanism arranged above the conveying belts and used for brushing powder on semi-finished ceramic wafers on the conveying belts; the cleaning mechanism comprises a housing, a driving motor, a mounting substrate and bristles, wherein a cavity is formed in the housing, the top of the housing is connected with a dust absorption pipeline, the dust absorption pipeline is externally connected with the dust removal mechanism, the bottom of the housing is provided with an opening, the driving motor is arranged in the middle of the cavity of the housing, the motor shaft is connected with the mounting substrate, and a circle of bristles are arranged on the outer edge of the mounting substrate; the cover is covered above the conveying belts, so that the brush hairs brush the semi-finished ceramic plates on the two conveying belts when being driven to rotate, and meanwhile, the external dust removal mechanism sucks away dust under negative pressure. According to the invention, two conveyer belts are covered above a circle of bristles, and the bristles are brushed twice through the conveyer belts twice before and after rotating, so that a good powder removing effect is achieved; the dust brushed down can be covered by the housing, and the dust is sucked away by negative pressure generated by an external dust removing mechanism.

Description

Powder brushing mechanism

Technical Field

The invention relates to a workpiece conveying and cleaning device, in particular to a powder brushing mechanism.

Background

Passive antenna refers to an antenna unit for receiving and transmitting radio signals, and is generally formed by combining metal parts and various media, and the product does not have any active circuit. The heat dissipation ceramic chip as the part is formed into a cubic sheet by raw material powder pressing in the manufacturing process, and is sintered into the ceramic chip after the powder is remained on the surface by cleaning. Among the prior art, not having better transport cleaning device, can be in the transportation process better brush go the powder on the cube lamellar body under the semi-manufactured goods state, if adopt artifical brush powder, inefficiency to operational environment is abominable, influences staff's health, and semi-manufactured goods cube lamellar body itself is fragile, and artifical brush powder also appears the misoperation easily and damages semi-manufactured goods.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a powder brushing mechanism which can well brush and clean powder on the surfaces of semi-finished ceramic wafers in the conveying process, realize robot replacement, improve the powder brushing efficiency and the automation degree and improve the yield.

The invention adopts the following technical scheme: a powder brushing mechanism comprises two parallel conveyer belts for conveying semi-finished ceramic wafers, a cleaning mechanism arranged above the conveyer belts for brushing and cleaning the semi-finished ceramic wafers on the conveyer belts, and a dust suction pipeline connected with the cleaning mechanism and externally connected with a dust removal mechanism; the cleaning mechanism comprises a housing, a driving motor, a mounting substrate and bristles, wherein the housing forms a cavity, a dust absorption pipeline is connected to the top of the housing, the bottom of the housing is provided with an opening, the driving motor is arranged in the middle of the cavity of the housing, a motor shaft of the driving motor is connected with the mounting substrate, and a circle of bristles are arranged on the outer edge of the mounting substrate; the cover shell is arranged above the conveying belts, so that the brush hair brushes the semi-finished ceramic plates on the two conveying belts when being driven to rotate, and meanwhile, the external dust removal mechanism sucks away dust under negative pressure.

As an improvement, the mounting substrate comprises a middle plate and a plurality of sub-plates, wherein the middle plate is arranged in the middle and connected with a motor shaft of the driving motor, the sub-plates are uniformly arranged outside the middle plate in a surrounding mode and are arranged in a radiating mode, and the bristles are correspondingly arranged at the far ends of the sub-plates.

As an improvement, the brush hair is detachably arranged at the far end of the sub-plate.

As an improvement, the cleaning mechanism further comprises a mounting frame used for mounting the housing, wherein the side edge of the conveying belt is provided with a blocking needle, and the blocking needle is positioned on the rotating path of the bristles and used for matching dust on the fluctuated bristles when the bristles pass through.

As an improvement, the cleaning mechanism further comprises a mounting frame used for mounting a housing, the mounting frame comprises sub-frames respectively arranged on two sides of the two conveying belts, and the housing is hinged to the sub-frame on one side and detachably mounted on the sub-frame on the other side through a fastening piece.

As an improvement, the conveyer belt is arranged in an annular shape by rolling a roller, and the conveyer belt cleaning device also comprises another cleaning mechanism for cleaning the conveyer belt, wherein the cleaning mechanism for cleaning the conveyer belt is arranged below the annular conveyer belt and faces the conveyer belt; the cleaning mechanism for brushing and cleaning the semi-finished ceramic wafer is arranged above the annular conveying belt and faces the conveying belt, and the upper cleaning mechanism and the lower cleaning mechanism correspond to each other in position.

As an improvement, dust suction pipelines connected with the upper cleaning mechanism and the lower cleaning mechanism are connected to a main pipe and then connected to an external dust removal mechanism.

The invention has the beneficial effects that: two conveying belts can be well covered above by the brush hair arranged into a circle, the brush hair passes through the conveying belts twice before and after rotating, and the semi-finished ceramic plates passing through the conveying belts are brushed twice in two directions, so that a good powder removing effect is achieved; the brushing powder is efficiently treated twice by means of the diameter of the two conveyer belts which are well matched with the bristles arranged into a ring; the dust brushed down can be covered by the housing, and negative pressure is generated in the housing by the dust removing mechanism which is externally connected with the dust collecting pipeline to suck away the dust; the whole working environment is clean, and the daily inspection and maintenance of workers are facilitated; the powder brushing mechanisms can be connected with a plurality of groups in front and back, and the front and back surfaces of the semi-finished ceramic wafer are cleaned after the semi-finished ceramic wafer is turned over by means of the mechanisms; the powder brushing mechanism can be connected with the press forming mechanism and the boxing mechanism in front and back processes, and integral automatic conveying is realized.

Drawings

Fig. 1 is a schematic perspective view of the brush mechanism of the present invention in combination.

Fig. 2 is a schematic perspective view of the brush powder mechanism of the present invention.

Fig. 3 is a schematic sectional structure view of a longitudinal section in one direction of the brush powder mechanism of the present invention.

Fig. 4 is a schematic cross-sectional view of another longitudinal cross-section of the brush mechanism of the present invention.

Fig. 5 is a schematic cross-sectional view of a transverse cross-section of the brush mechanism of the present invention.

Detailed Description

The following detailed description of specific embodiments of the invention refers to the accompanying drawings.

Fig. 1, 2, 3, 4 and 5 show an embodiment of the brush mechanism according to the present invention. The embodiment comprises two parallel conveyor belts 1 for conveying semi-finished ceramic wafers, a cleaning mechanism 2 arranged above the conveyor belts 1 for brushing and cleaning the semi-finished ceramic wafers on the conveyor belts 1, and a dust collection pipeline 3 connected with the cleaning mechanism 2 and externally connected with a dust removal mechanism; the cleaning mechanism 2 comprises a housing 21, a driving motor 22, a mounting substrate 23 and bristles 24, wherein the housing 21 forms a cavity, the dust suction pipeline 3 is connected to the top of the housing 21, the bottom of the housing 21 is provided with an opening, the driving motor 22 is arranged in the middle of the cavity of the housing 21, a motor shaft of the driving motor 22 is connected with the mounting substrate 23, and a circle of bristles 24 are arranged on the outer edge of the mounting substrate 23; the cover 21 covers the conveyor belts 1, so that the brush bristles 24 brush the semi-finished ceramic plates on the two conveyor belts 1 when being driven to rotate, and meanwhile, the external dust removing mechanism sucks away dust under negative pressure.

When the semi-finished ceramic wafer turning device is used, a plurality of groups of powder brushing mechanisms can be sequentially arranged, preferably 4 groups of powder brushing mechanisms are arranged, then the turning mechanism is arranged between adjacent groups, turning of the semi-finished ceramic wafer is realized, continuous twice powder brushing and powder suction on the front side and the back side can be sequentially carried out by means of the 4 groups of powder brushing mechanisms, and a better powder brushing effect is achieved; of course, a plurality of groups can be arranged according to the requirement, and the front and back sides can be brushed as many times as required. The conveying belts 1 arranged on the powder brushing mechanism are two parallel and adjacent belts, specifically, the lower part of the conveying belts is a belt for supporting the semi-finished ceramic wafer to advance, and flanges are arranged on two sides of the conveying belts for limiting the semi-finished ceramic wafer; the housing 21 is covered on the two conveyor belts 1 as a cover, the brush bristles 24 extend to the positions above the conveyor belts 1 and can brush semi-finished ceramic plates, and a circle of brush bristles 24 arranged on the outer edge of the mounting substrate 23 can pass through the two conveyor belts 1 from left to right and from right to left twice on the whole circumference when driven by the driving motor 22 to rotate, so that the two-time powder brushing effect when the semi-finished ceramic plates pass is realized, and the two-time powder brushing directions are different, so that powder with adhered surfaces can be better brushed; the mounting substrate 23 is provided with a gap communicating the upper cavity and the lower cavity of the whole housing 21, so that the negative pressure generated by the suction of an external dust removal mechanism after the powder is brushed up is favorably sucked away along the dust suction pipeline 3, the dust cannot leak outwards, the cleanness of the working environment where the powder brushing mechanism is located is ensured, the daily inspection and maintenance of workers are favorably realized, and the dust collection device is healthier and safer compared with the original working environment; after the multiple groups of powder brushing mechanisms are connected, the press forming mechanism and the boxing mechanism can be connected in the front and rear processes, so that the whole automatic conveying is realized, the robot is replaced, the labor cost is reduced, the production efficiency is improved, and the error rate is reduced; a detection mechanism can be arranged between the press forming mechanism and the powder brushing mechanism to remove unqualified products, so that the product quality is ensured.

As a modified embodiment, the mounting base plate 23 includes a middle plate 231 connected to a motor shaft of the driving motor 22 at a middle portion thereof, and a plurality of sub-plates 232 uniformly disposed at a periphery of the middle plate 231 in a radial arrangement, and a plurality of bristles 24 are correspondingly disposed at distal ends of the plurality of sub-plates 232.

As shown in fig. 3, 4 and 5, the middle plate 231 is mainly connected with the motor shaft of the driving motor 22, the bristles 24 are installed by means of the radial sub-plates 232, and a space is reserved between the sub-plates 232 for dust to pass through, so that the dust is favorably sucked upwards; a larger space is reserved in the middle of the circle of bristles 24, so that dust can better flow to the middle to be concentrated and sucked upwards.

Further bristles 24 may be provided as a removable structure, such as by being planted at the distal end of the sub-plate 232, which may be replaced after it has worn away over time, and may be cost controlled, without having to replace the mounting base plate 23, so that the mounting base plate 23 may be used for a longer period of time.

As a modified embodiment, the cleaning mechanism 2 further comprises a mounting frame 25 for mounting the housing 21, and the mounting frame 25 is provided with a blocking pin 251 at the side edge of the conveyor belt 1, and the blocking pin 251 is positioned on the rotation path of the brush bristles 24 and is used for matching with dust on the brush bristles 24 when the brush bristles 24 pass by.

As shown in fig. 4, the brush hair 24 may collect a lot of dust after long-term use, which may reduce the overall brushing ability and may not brush the dust on the semi-finished ceramic sheet well; therefore, the structure of the blocking needle 251 is arranged, the blocking needle 251 can be a rib structure arranged on the mounting rack 25, and the bristles 24 are blocked by the blocking needle 251 when passing through, so that the bristles 24 are fluctuated by the blocking needle 251 when passing through, dust accumulated in the bristles 24 can be shaken out, and the dust can be conveniently sucked away; as the optimized blocking pin 251, a plurality of groups can be arranged on the rotating route of the bristles 24, so that the composite powder removing effect is provided, and the powder brushing quality of the bristles 24 is improved.

As a modified embodiment, the cleaning mechanism 2 further comprises a mounting frame 25 for mounting the housing 21, the mounting frame 25 comprises sub-frames 252 respectively disposed at two sides of the two conveyor belts 1, and the housing 21 is hinged to the sub-frame 252 at one side and detachably mounted on the sub-frame 252 at the other side by a fastener.

As shown in figures 2 and 3, in order to maintain the cleaning mechanism 2 when the machine is stopped, a cover 21 structure which can be opened conveniently is arranged, namely, the cover 21 structure can be fixed by a fastener on one side, the other side of the cover is installed on the installation frame 25 in a hinged mode, a worker can rotate to open the cover 21 by removing the locking on one side, the cleaning and maintenance of internal parts are carried out, the maintenance difficulty and the stop time are reduced integrally, and the efficiency is improved.

As a modified embodiment, the conveyer belt 1 is arranged in a ring shape by rolling, and the conveyer belt further comprises another cleaning mechanism 2 for cleaning the conveyer belt 1, wherein the cleaning mechanism 2 for cleaning the conveyer belt 1 is arranged below the ring-shaped conveyer belt 1 and faces the conveyer belt 1; the cleaning mechanism 2 for brushing and cleaning the semi-finished ceramic wafer is arranged above the annular conveying belt 1 and faces the conveying belt 1, and the upper and lower cleaning mechanisms 2 correspond to each other in position.

As shown in fig. 2, 3 and 4, when dust is brushed off or semi-finished ceramic wafers are conveyed, dust is prevented from attaching to the surface of the conveyor belt 1, and if the dust cannot be sucked away, the dust can be scattered to the external environment in the whole operation process of the conveyor belt, so that the air quality of the working environment is reduced; affecting the health of workers. Therefore, another group of cleaning mechanisms 2 is further arranged to adapt to the circularly arranged conveying belt 1, the overall structural details of the lower cleaning mechanism 2 can be completely set with reference to the upper cleaning mechanism 2, and the brush bristles 24 thereof extend to the surface of the conveying belt 1, so that the brush dust cleaning of the surface of the conveying belt 1 is carried out; the comprehensiveness of brushing the powder is improved, less dust flows into the external working environment, the air quality of the working environment is guaranteed, and the health and safety of workers are guaranteed. The cleaning mechanisms 2 which are correspondingly arranged up and down have a certain bearing function on dust flowing up and down, and if the dust leaks from the bottom opening of the housing 21, the dust can be adsorbed by the negative pressure in the other corresponding housing 21, so that the possibility of dust leakage is reduced; and is convenient for the staff to maintain the cleaning mechanism 2 up and down.

As a modified embodiment, the dust suction pipes 3 connected with the upper and lower cleaning mechanisms 2 are connected to a header pipe 4 and then connected to an external dust removing mechanism.

As shown in fig. 1, after a plurality of groups of brushing mechanisms are arranged in sequence, the brushing mechanisms and the dust pipes 3 of each group of upper and lower cleaning mechanisms 2 can be collected to a header pipe 4 and then connected to an external dust removing mechanism, so that the whole structure is simpler, the occupied space is small, and a group of dust removing mechanisms can be adopted to realize functions and control cost well.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims

1. A brush whitewashed mechanism which characterized in that: the device comprises two conveying belts (1) which are arranged in parallel and used for conveying semi-finished ceramic plates, a cleaning mechanism (2) which is arranged above the conveying belts (1) and used for brushing and cleaning the semi-finished ceramic plates on the conveying belts (1), and a dust collection pipeline (3) which is connected with the cleaning mechanism (2) and is externally connected with a dust collection mechanism;

the cleaning mechanism (2) comprises a housing (21), a driving motor (22), a mounting substrate (23) and bristles (24), wherein a cavity is formed in the housing (21), a dust suction pipeline (3) is connected to the top of the housing (21), the bottom of the housing (21) is provided with an opening, the driving motor (22) is arranged in the middle of the cavity of the housing (21), a motor shaft of the driving motor (22) is connected with the mounting substrate (23), and a circle of bristles (24) are arranged on the outer edge of the mounting substrate (23); the cover shell (21) is covered above the conveying belts (1), so that the brush bristles (24) brush the semi-finished ceramic plates on the two conveying belts (1) when the semi-finished ceramic plates are driven to rotate, and meanwhile, the external dust removal mechanism sucks away dust under negative pressure.

2. A brushing mechanism according to claim 1, wherein: the mounting base plate (23) comprises a middle plate (231) which is arranged in the middle and connected with a motor shaft of the driving motor (22) and a plurality of sub-plates (232) which are uniformly arranged on the periphery of the middle plate (231) in a radial mode, and the plurality of bristles (24) are correspondingly arranged at the far ends of the sub-plates (232).

3. A brushing mechanism according to claim 2, wherein: the bristles (24) are detachably arranged at the far end of the sub-plate (232).

4. A brushing mechanism according to claim 1, 2 or 3, wherein: the cleaning mechanism (2) further comprises a mounting frame (25) used for mounting the housing (21), wherein a blocking needle (251) is arranged on the side edge of the conveying belt (1) on the mounting frame (25), and the blocking needle (251) is located on a rotating line of the bristles (24) and is used for matching dust on the fluctuated bristles (24) when the bristles (24) pass through.

5. A brushing mechanism according to claim 1, 2 or 3, wherein: the cleaning mechanism (2) further comprises a mounting frame (25) used for mounting the housing (21), the mounting frame (25) comprises sub-frames (252) respectively arranged on two sides of the two conveying belts (1), and the housing (21) is hinged to the sub-frame (252) on one side and detachably mounted on the sub-frame (252) on the other side through fasteners.

6. A brushing mechanism according to claim 1, 2 or 3, wherein: the conveying belt (1) is arranged in an annular shape in a winding mode through a rolling shaft, the conveying belt further comprises another cleaning mechanism (2) used for cleaning the conveying belt (1), and the cleaning mechanism (2) used for cleaning the conveying belt (1) is arranged below the annular conveying belt (1) and faces the conveying belt (1); the cleaning mechanism (2) for brushing and cleaning the semi-finished ceramic wafer is arranged above the annular conveying belt (1) and faces the conveying belt (1), and the upper and lower cleaning mechanisms (2) correspond to each other in position.

7. A plastering mechanism as claimed in claim 4, wherein: the conveying belt (1) is arranged in an annular shape in a winding mode through a rolling shaft, the conveying belt further comprises another cleaning mechanism (2) used for cleaning the conveying belt (1), and the cleaning mechanism (2) used for cleaning the conveying belt (1) is arranged below the annular conveying belt (1) and faces the conveying belt (1); the cleaning mechanism (2) for brushing and cleaning the semi-finished ceramic wafer is arranged above the annular conveying belt (1) and faces the conveying belt (1), and the upper and lower cleaning mechanisms (2) correspond to each other in position.

8. A plastering mechanism as claimed in claim 5, wherein: the conveying belt (1) is arranged in an annular shape in a winding mode through a rolling shaft, the conveying belt further comprises another cleaning mechanism (2) used for cleaning the conveying belt (1), and the cleaning mechanism (2) used for cleaning the conveying belt (1) is arranged below the annular conveying belt (1) and faces the conveying belt (1); the cleaning mechanism (2) for brushing and cleaning the semi-finished ceramic wafer is arranged above the annular conveying belt (1) and faces the conveying belt (1), and the upper and lower cleaning mechanisms (2) correspond to each other in position.

9. A brushing mechanism according to claim 6, wherein: the dust collection pipelines (3) connected with the upper cleaning mechanism and the lower cleaning mechanism (2) are connected to a header pipe (4) and then are connected to an external dust removal mechanism.

10. A brushing mechanism according to claim 7, wherein: the dust collection pipelines (3) connected with the upper cleaning mechanism and the lower cleaning mechanism (2) are connected to a header pipe (4) and then are connected to an external dust removal mechanism.