CN216780996U - Automated production assembly line device for hardware processing - Google Patents

Abstract

The utility model provides an automatic production line device for hardware processing, which comprises a working platform, wherein a polishing component, a soaking component, a primary drying component, a dust removing component, a plastic spraying component, a secondary drying component, a first conveying component, a second conveying component, a third conveying component and a fourth conveying component are arranged on the working platform; the primary drying component is arranged between the polishing component and the soaking component; the first conveying assembly and the grinding assembly are arranged correspondingly; the polishing assembly and the immersion cleaning assembly are connected through a second conveying assembly; the immersion cleaning component and the primary drying component are connected through a third conveying component; the fourth conveying assembly is sequentially provided with a primary drying assembly, a dust removing assembly, a plastic spraying assembly and a secondary drying assembly from left to right according to the processing procedure. The beneficial effects of the utility model are: the automatic hardware polishing, immersion cleaning, primary drying, dust removal, plastic spraying, secondary drying and other processes are completed, the working efficiency is high, and the number of operators is reduced.

Description

Automated production assembly line device for hardware processing

Technical Field

The utility model relates to the technical field of hardware processing, in particular to an automatic production line device for hardware processing.

Background

Hardware is a tool obtained by processing and casting metal such as gold, silver, copper, iron, tin, etc., and is used for fixing, processing, decorating, etc. In the hardware processing process, the processing procedures are multiple, each basic processing link is completed by a single station, after each procedure is completed, the workpiece needs to be transferred, and the multi-station and workpiece transfer operation among the links result in more required workers, large workshop space is occupied, and the working efficiency is low. In view of such circumstances, improvement is urgently required.

SUMMERY OF THE UTILITY MODEL

Based on the above, the utility model aims to provide the automatic production line device for hardware processing, which can automatically finish the working procedures of hardware such as polishing, soaking, primary drying, dust removal, plastic spraying, secondary drying and the like, has high working efficiency and reduces the number of operators.

The utility model provides an automatic production line device for hardware processing, which comprises a working platform, wherein a polishing component, a soaking component, a primary drying component, a dust removal component, a plastic spraying component, a secondary drying component, a first conveying component, a second conveying component, a third conveying component and a fourth conveying component are arranged on the working platform; the primary drying assembly is arranged between the grinding assembly and the immersion cleaning assembly; the first conveying assembly and the grinding assembly are arranged correspondingly; the polishing assembly is connected with the immersion cleaning assembly through a second conveying assembly; the first conveying assembly and the second conveying assembly form a vertical relation; the immersion cleaning component and the primary drying component are connected through a third conveying component; the second conveying assembly and the third conveying assembly form a vertical relation; a primary drying assembly, a dust removing assembly, a plastic spraying assembly and a secondary drying assembly are sequentially arranged on the fourth conveying assembly from left to right according to the processing procedure; a first transition section is arranged between the dust removal assembly and the plastic spraying assembly, and a second transition section is arranged between the plastic spraying assembly and the secondary drying assembly; the third conveying assembly and the fourth conveying assembly form a vertical relation.

Preferably, the polishing assembly comprises a polishing outer box, a first dust collector, a rotating seat, a first telescopic motor, a first telescopic shaft, a pressing plate, a linear sliding table A, a second telescopic motor, a rotating motor and a polishing wheel; the first conveying assembly is arranged as a linear sliding table B; the rotating seat is installed on a sliding seat of the linear sliding table B, the first telescopic motor is installed on the side wall of the inner cavity of the grinding outer box, one end of the first telescopic shaft is connected with the power output end of the first telescopic motor, and the other end of the first telescopic shaft is connected with the pressing plate; the linear sliding table A is vertically arranged on the other side, opposite to the pressing plate, of the side wall of the inner cavity of the grinding outer box, the second telescopic motor is arranged on a sliding seat of the linear sliding table A, the rotary motor is connected with a power output end of the second telescopic motor, and the grinding wheel is connected with a power output end of the rotary motor; the first dust collector is installed on the top of the inner cavity of the grinding outer box.

Preferably, the immersion cleaning component comprises a soaking pool, a first lifting component, a second lifting component and a material pushing component; the first lifting assembly and the second lifting assembly respectively comprise two lead screw motors which are respectively arranged on two opposite side walls of the soaking pool, and a bearing plate is connected between the two lead screw motors through a connecting rod; the first lifting assembly is arranged on one side, close to the second conveying assembly, of the soaking pool; the second lifting assembly is arranged on one side, close to the third conveying assembly, of the soaking pool; the bottom of the soaking pool is provided with a guide groove; the material pushing assembly is arranged at the lower part of one side of the soaking pool close to the first lifting assembly; the pushing assembly comprises a pushing motor, a pushing shaft and a pushing plate; the pushing motor is arranged on the outer side surface of the soaking pool, one end of the pushing shaft is connected with the power output end of the pushing motor, and the other end of the pushing shaft extends into the soaking pool and is connected with the push plate; the push plate is positioned in the guide groove.

Preferably, the second conveying assembly and the third conveying assembly respectively comprise a linear sliding table C, a lifting motor and a material taking manipulator; the lifting motor is installed on the sliding seat of the linear sliding table C, and the material taking manipulator is installed at the power output end of the lifting motor.

Preferably, the primary drying component and the secondary drying component both comprise drying outer boxes, heaters arranged on two opposite side walls of the drying outer boxes, and air blowers arranged at the tops of the drying outer boxes and communicated with inner cavities of the drying outer boxes.

Preferably, the dust removal assembly comprises a dust removal outer box, linear sliding tables D which are respectively and oppositely arranged on two opposite inner side walls of the dust removal outer box, third telescopic motors which are respectively and correspondingly arranged on sliding seats of the linear sliding tables D, and air knives which are respectively connected with power output ends of the third telescopic motors; and a second dust collector communicated with the inner cavity of the dust removing outer box is arranged at the top of the dust removing outer box.

Preferably, the spraying plastics subassembly includes the spraying plastics outer container, installs respectively relatively the sharp slip table F of two relative inside walls of spraying plastics outer container, correspond respectively and install the flexible motor of fourth on the sharp slip table F slide, respectively with the nozzle that the power take off end of the flexible motor of fourth is connected, install the storage tank at spraying plastics outer container top, with the material pump that draws material that the storage tank is connected, draw material pump pass through the pipeline with the nozzle is connected.

Preferably, the fourth conveying assembly is provided as a conveying belt.

Preferably, the first transition section and the second transition section are both provided as hollow protective covers.

The utility model has the beneficial effects that: be provided with the subassembly of polishing, soak the subassembly, once dry the subassembly, remove dust the subassembly, the subassembly of spraying plastics, the subassembly is dried to the secondary, first conveying component, second conveying component, third conveying component, fourth conveying component on the work platform, accomplish the processes such as polishing, soak and wash, once dry, remove dust, spraying plastics, secondary stoving of hardware automatically, work efficiency is high, the operating personnel's that significantly reduces quantity has also reduced personnel's loss.

Drawings

FIG. 1 is a top view of the present invention.

Figure 2 is a front view of the grinding assembly.

Fig. 3 is a top view of the immersion cleaning assembly.

Fig. 4 is a side view of the immersion cleaning assembly.

Fig. 5 is a front view of the primary drying assembly or the secondary drying assembly.

Fig. 6 is a front view of the dusting assembly.

Fig. 7 is a front view of the spray assembly.

Fig. 8 is a front view of the second conveyor assembly or the third conveyor assembly.

Reference numerals: the device comprises a working platform 10, a grinding assembly 11, a soaking assembly 12, a primary drying assembly 13, a dust removing assembly 14, a plastic spraying assembly 15, a secondary drying assembly 16, a first conveying assembly 17, a second conveying assembly 18, a third conveying assembly 19, a fourth conveying assembly 20, a grinding outer box 58, a first dust collector 33, a rotary base 23, a first telescopic motor 26, a first telescopic shaft 27, a pressing plate 28, a linear sliding table A57, a second telescopic motor 29, a rotary motor 30, a grinding wheel 31, a soaking pool 36, a first lifting assembly 44, a second lifting assembly 35, a material pushing assembly 45, a pushing motor 41, a pushing shaft 42, a pushing plate 43, a connecting rod 39, a linear sliding table C60, a lifting motor 61, a material taking manipulator 59, a drying outer box 46, a heater 48, a 47, a dust removing outer box 53, a linear sliding table D50, a third telescopic motor 52, an air knife 51, a second dust collector 49, a linear sliding table F55, a linear sliding table A57, a linear sliding table B, a linear sliding table B, a linear sliding table B, a linear sliding table B, a sliding, A fourth telescopic motor 56, a nozzle 24, a storage tank 32, a material pumping pump 54, a first transition section 21, a second transition section 22, a plastic spraying outer box 34, a guide groove 37, a screw rod motor 38, a bearing plate 40 and a bracket 25.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral connections; can be mechanically or electrically connected; either directly or indirectly through intervening media, or may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Please refer to fig. 1-8: an automatic production line device for hardware processing comprises a working platform 10, wherein a polishing assembly 11, a soaking assembly 12, a primary drying assembly 13, a dust removal assembly 14, a plastic spraying assembly 15, a secondary drying assembly 16, a first conveying assembly 17, a second conveying assembly 18, a third conveying assembly 19 and a fourth conveying assembly 20 are arranged on the working platform 10; the grinding assembly 11, the immersion cleaning assembly 12, the primary drying assembly 13, the dust removal assembly 14, the plastic spraying assembly 15, the secondary drying assembly 16, the first conveying assembly 17, the second conveying assembly 18, the third conveying assembly 19 and the fourth conveying assembly 20 are all connected with a control device. The primary drying assembly is arranged between the polishing assembly and the soaking assembly; the first conveying assembly is arranged corresponding to the polishing assembly; the polishing assembly and the immersion cleaning assembly are connected through a second conveying assembly; the first conveying assembly and the second conveying assembly form a vertical relation; the immersion cleaning component and the primary drying component are connected through a third conveying component; the second conveying assembly and the third conveying assembly form a vertical relation; the fourth conveying assembly is sequentially provided with a primary drying assembly, a dust removing assembly, a plastic spraying assembly and a secondary drying assembly from left to right according to the processing procedure; a first transition section 21 is arranged between the dust removal assembly and the plastic spraying assembly, and a second transition section 22 is arranged between the plastic spraying assembly and the secondary drying assembly; the third conveying assembly and the fourth conveying assembly form a vertical relation.

The grinding assembly comprises a grinding outer box 58, a first dust collector 33, a rotary base 23, a first telescopic motor 26, a first telescopic shaft 27, a pressing plate 28, a linear sliding table A57, a second telescopic motor 29, a rotary motor 30 and a grinding wheel 31; the first conveying assembly is arranged as a linear sliding table B; the rotary seat is arranged on a sliding seat of the linear sliding table B, the first telescopic motor is arranged on the side wall of the inner cavity of the grinding outer box, one end of the first telescopic shaft is connected with the power output end of the first telescopic motor, and the other end of the first telescopic shaft is connected with the pressing plate; the linear sliding table A is vertically arranged on the other side, opposite to the pressing plate, of the side wall of the inner cavity of the polishing outer box, a second telescopic motor is arranged on a sliding seat of the linear sliding table A, a rotating motor is connected with a power output end of the second telescopic motor, and a polishing wheel is connected with a power output end of the rotating motor; the first dust collector is arranged at the top of the inner cavity of the grinding outer box. During polishing operation, the bracket 25 with the hardware placed is placed on the rotating base 23, the first telescopic motor 26 drives the pressing plate 28 through the first telescopic shaft 27 to press one side of the bracket 25 tightly, the linear sliding table A57 enables the second telescopic motor 29, the rotating motor 30 and the polishing wheel 31 to move to corresponding positions, the second telescopic motor 29 enables the rotating motor 30 and the polishing wheel 31 to extend out to a preset distance, the rotating motor 30 enables the polishing wheel 31 to polish the hardware on the bracket 25 from top to bottom, and meanwhile, the first dust absorber 33 is in an open state to absorb dust flying in the polishing outer box 58; after finishing the polishing operation on one side, the rotating seat 23 causes the bracket 25 to rotate 180 degrees, and the polishing operation is repeated; after finishing the polishing operation on both sides, the bracket 25 is moved to the intersection with the second conveying assembly 18 by the first conveying assembly 17, so that the bracket 25 can be taken by the second conveying assembly 18 and then conveyed to the position of the immersion cleaning assembly.

The immersion cleaning component comprises a soaking pool 36, a first lifting component 44, a second lifting component 35 and a material pushing component 45; the first lifting assembly and the second lifting assembly respectively comprise two lead screw motors 38 which are respectively arranged on two opposite side walls of the soaking pool, and a bearing plate 40 is connected between the two lead screw motors through a connecting rod 39; the first lifting component is arranged on one side of the soaking pool close to the second conveying component; the second lifting component is arranged on one side of the soaking pool close to the third conveying component; the bottom of the soaking pool is provided with a guide groove 37; the material pushing assembly is arranged at the lower part of one side of the soaking pool close to the first lifting assembly; the pushing assembly comprises a pushing motor 41, a pushing shaft 42 and a pushing plate 43; the pushing motor is arranged on the outer side surface of the soaking pool, one end of the pushing shaft is connected with the power output end of the pushing motor, and the other end of the pushing shaft extends into the soaking pool and is connected with the push plate; the push plate is positioned in the guide groove. When the immersion cleaning operation is carried out, the second conveying assembly 18 moves the support with the hardware to the position above the first lifting assembly 44 and places the support on the bearing plate 40 of the first lifting assembly 44, the first lifting assembly 44 enables the bearing plate 40 to drive the support to descend to the position of the guide groove, and then the support is pushed along the length direction of the guide groove through the pushing assembly 45; when the rack placed on the guide groove is moved to the placing plate 40 of the second lifting assembly 35, the rack is lifted by the second lifting assembly 35, and then the rack is taken by the third conveying assembly and moved to the fourth conveying assembly 20.

The second conveying assembly and the third conveying assembly respectively comprise a linear sliding table C60, a lifting motor 61 and a material taking manipulator 59; lifting motor installs on sharp slip table C's slide, and the power take off end at lifting motor is installed to the manipulator of reclaiming. The fourth conveying assembly is arranged as a conveying belt. During material taking operation, the linear sliding table C60 drives the lifting motor 61 and the material taking manipulator 59 to move to a predetermined position, and the lifting motor 61 further causes the material taking manipulator 59 to descend to the predetermined position to take materials.

The primary drying component and the secondary drying component respectively comprise a drying outer box 46, heaters 48 arranged on two opposite side walls of the drying outer box, and an air blower 47 arranged at the top of the drying outer box and communicated with an inner cavity of the drying outer box. During the stoving operation, will dry and form required stoving temperature in outer container 46 through heater 48, the heat in rethread air-blower 47 will dry outer container 46 disperses to make the more even of the heat in the outer container 46 of drying, thereby promote the effect of drying.

The dust removal assembly comprises a dust removal outer box 53, linear sliding tables D50 which are respectively and oppositely arranged on two opposite inner side walls of the dust removal outer box, third telescopic motors 52 which are respectively and correspondingly arranged on sliding seats of the linear sliding tables D, and air knives 51 which are respectively connected with power output ends of the third telescopic motors; the top of the dust-removing outer box is provided with a second dust collector 49 communicated with the inner cavity of the dust-removing outer box. The linear sliding table D50 drives the third telescopic motor 52 and the air knife 51 to move up and down, the third telescopic motor 52 drives the air knife 51 to move to a set position, and the hardware on the support is swept back and forth through the air knife 51, so that dust is not left on the surface of the hardware. The air knife 51 is connected with an air source through a pipeline.

The plastic spraying component comprises a plastic spraying outer box 34, linear sliding tables F55 which are respectively and oppositely arranged on two opposite inner side walls of the plastic spraying outer box, fourth telescopic motors 56 which are respectively and correspondingly arranged on the linear sliding tables F sliding seats, nozzles 24 which are respectively connected with power output ends of the fourth telescopic motors, a storage tank 32 which is arranged at the top of the plastic spraying outer box and a material pumping pump 54 which is connected with the storage tank, wherein the material pumping pump is connected with the nozzles through a pipeline. The linear sliding table F55 drives the fourth telescopic motor 56 and the nozzle 24 to move to a desired position, and after the fourth telescopic motor 56 drives the nozzle 24 to move to the desired position, the material pumping pump 54 pumps the material from the storage tank to deliver the material to the nozzle 24 for spraying.

As preferred scheme, first changeover portion and second changeover portion all set up to cavity safety cover, avoid accomplishing the hardware after the dust removal and expose in the air, influence its cleanliness factor.

In this embodiment, the last subassembly of polishing, the subassembly of pickling, the subassembly of drying once, the dust removal subassembly, the spraying plastics subassembly, the subassembly of drying twice, first conveyor components, second conveyor components, third conveyor components, fourth conveyor components that are provided with of work platform, accomplish the processes such as polishing, the pickling of hardware, drying once, remove dust, spraying plastics, secondary stoving automatically, work efficiency is high, the operating personnel's that significantly reduces quantity has also reduced personnel's loss.

The operation steps of the utility model are as follows:

1. sequentially clamping and placing hardware on a bracket, and putting the bracket into a polishing assembly 11 for polishing;

2. after the polishing operation is finished, the bracket is conveyed to the corresponding position of the second conveying assembly 18 through the first conveying assembly 17, and the bracket is moved to the position of the immersion cleaning assembly 12 through the second conveying assembly 18 for immersion cleaning operation;

3. after the immersion cleaning operation is finished, the third conveying assembly 19 conveys the bracket to the fourth conveying assembly 20, and the bracket is dried in the primary drying assembly 13 on the fourth conveying assembly 20;

4. after drying operation within a set time is completed, the drying operation is conveyed into the dust removal assembly 14 through the fourth conveying assembly 20 to perform dust removal operation;

5. after the dust removal operation is finished, the powder is conveyed into the plastic spraying assembly 15 through the fourth conveying assembly 20 for plastic spraying operation;

6. after the plastic spraying operation is finished, the plastic is conveyed to the position of the secondary drying component 16 through the fourth conveying component 20 for secondary drying;

7. after the secondary drying operation is completed, the bracket is output to other processing procedures through the fourth conveying assembly 20, and the operation is repeated.

The above-mentioned embodiments only express one embodiment of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit and scope of the utility model.

Claims (9)

1. The utility model provides an automated production assembly line device that hardware processing used which characterized in that: the device comprises a working platform, wherein a polishing component, a soaking component, a primary drying component, a dust removing component, a plastic spraying component, a secondary drying component, a first conveying component, a second conveying component, a third conveying component and a fourth conveying component are arranged on the working platform; the primary drying assembly is arranged between the grinding assembly and the immersion cleaning assembly; the first conveying assembly and the grinding assembly are arranged correspondingly; the polishing assembly is connected with the immersion cleaning assembly through a second conveying assembly; the first conveying assembly and the second conveying assembly form a vertical relation; the immersion cleaning component and the primary drying component are connected through a third conveying component; the second conveying assembly and the third conveying assembly form a vertical relation; a primary drying assembly, a dust removing assembly, a plastic spraying assembly and a secondary drying assembly are sequentially arranged on the fourth conveying assembly from left to right according to the processing procedure; a first transition section is arranged between the dust removal assembly and the plastic spraying assembly, and a second transition section is arranged between the plastic spraying assembly and the secondary drying assembly; the third conveying assembly and the fourth conveying assembly form a vertical relation.

2. The automated production line device for hardware processing according to claim 1, characterized in that: the polishing assembly comprises a polishing outer box, a first dust collector, a rotary seat, a first telescopic motor, a first telescopic shaft, a pressing plate, a linear sliding table A, a second telescopic motor, a rotary motor and a polishing wheel; the first conveying assembly is arranged as a linear sliding table B; the rotating seat is installed on a sliding seat of the linear sliding table B, the first telescopic motor is installed on the side wall of the inner cavity of the grinding outer box, one end of the first telescopic shaft is connected with the power output end of the first telescopic motor, and the other end of the first telescopic shaft is connected with the pressing plate; the linear sliding table A is vertically arranged on the other side, opposite to the pressing plate, of the side wall of the inner cavity of the grinding outer box, the second telescopic motor is arranged on a sliding seat of the linear sliding table A, the rotary motor is connected with a power output end of the second telescopic motor, and the grinding wheel is connected with a power output end of the rotary motor; the first dust collector is installed on the top of the inner cavity of the grinding outer box.

3. The automated production line device for hardware processing according to claim 1, characterized in that: the immersion cleaning component comprises an immersion pool, a first lifting component, a second lifting component and a material pushing component; the first lifting assembly and the second lifting assembly respectively comprise two lead screw motors which are respectively arranged on two opposite side walls of the soaking pool, and a bearing plate is connected between the two lead screw motors through a connecting rod; the first lifting assembly is arranged on one side, close to the second conveying assembly, of the soaking pool; the second lifting assembly is arranged on one side, close to the third conveying assembly, of the soaking pool; the bottom of the soaking pool is provided with a guide groove; the material pushing assembly is arranged at the lower part of one side of the soaking pool close to the first lifting assembly; the pushing assembly comprises a pushing motor, a pushing shaft and a pushing plate; the pushing motor is arranged on the outer side surface of the soaking pool, one end of the pushing shaft is connected with the power output end of the pushing motor, and the other end of the pushing shaft extends into the soaking pool and is connected with the push plate; the push plate is positioned in the guide groove.

4. The automated production line device for hardware processing according to claim 3, wherein: the second conveying assembly and the third conveying assembly respectively comprise a linear sliding table C, a lifting motor and a material taking manipulator; the lifting motor is installed on the sliding seat of the linear sliding table C, and the material taking manipulator is installed at the power output end of the lifting motor.

5. The automated production line device for hardware processing according to claim 1, characterized in that: the primary drying assembly and the secondary drying assembly respectively comprise a drying outer box, heaters arranged on two opposite side walls of the drying outer box, and an air blower arranged at the top of the drying outer box and communicated with an inner cavity of the drying outer box.

6. The automated production line device for hardware processing according to claim 1, characterized in that: the dust removal assembly comprises a dust removal outer box, linear sliding tables D which are respectively and oppositely arranged on two opposite inner side walls of the dust removal outer box, third telescopic motors which are respectively and correspondingly arranged on sliding seats of the linear sliding tables D, and air knives which are respectively connected with power output ends of the third telescopic motors; and a second dust collector communicated with the inner cavity of the dust removing outer box is arranged at the top of the dust removing outer box.

7. The automated production line device for hardware processing according to claim 1, characterized in that: the spraying plastics subassembly includes the spraying plastics outer container, installs respectively relatively the sharp slip table F of two relative inside walls of spraying plastics outer container, correspond respectively and install the flexible motor of fourth on the sharp slip table F slide, respectively with the nozzle that the power take off end of the flexible motor of fourth is connected, install the storage tank at spraying plastics outer container top, with the pump of drawing material that the storage tank is connected, the pump of drawing material pass through the pipeline with the nozzle is connected.

8. The automated production line device for hardware processing according to claim 1, characterized in that: the fourth conveying assembly is arranged as a conveying belt.

9. The automated production line device for hardware processing according to claim 1, characterized in that: the first transition section and the second transition section are both arranged to be hollow protective covers.

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