CN215030567U - Dacromet coating film dip-coating centrifugal production line - Google Patents

Abstract

The utility model discloses a Dacromet coating dip-coating centrifugal production line, which comprises a hopper pushing device, a dip-coating centrifugal support frame and a liftable Dacromet coating liquid tank; the hopper pushing device comprises a support, wherein a support is arranged on the support, a basket net is movably erected on the support of the support, two rodless cylinders which are parallel to each other are symmetrically arranged on the support, grabbing structures are arranged on the two rodless cylinders, and a hopper with the bottom capable of opening and closing is arranged above the basket net; a workpiece conveying belt is arranged below the support; the dip-coating centrifugal support frame comprises a support frame body, wherein a plurality of radially arranged support clamping positions with outward openings are uniformly arranged on the support frame body; the dacromet coating liquid groove is arranged below the dip-coating centrifugal support frame. The utility model discloses a reach cloro coating film dip-coating centrifugal production line structure is ingenious, and degree of automation is high, and production speed is fast, and area is little, labour saving and time saving, and the practicality is strong, is worth promoting.

Description

Dacromet coating film dip-coating centrifugal production line

Technical Field

The utility model belongs to the metal parts surface treatment field especially relates to a dacromet coating film dip-coating centrifugal production line.

Background

When the existing metal parts are treated by Dacromet in batches, Dacromet solution splashes due to the fact that a large number of parts are directly thrown into a Dacromet pot, soaking and centrifugation are usually separated, steps are complicated, the parts are inconvenient to take out, the automation degree is low, and the working efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

To the technical problem, the utility model provides a dacromet coating film dip-coating centrifugal production line.

In order to achieve the technical purpose, the utility model adopts the following technical scheme:

the Dacromet coating dip-coating centrifugal production line comprises a hopper pushing device, a dip-coating centrifugal support frame and a liftable Dacromet coating liquid tank;

the hopper pushing device comprises a support, wherein a support is arranged on the support, a basket net is movably erected on the support of the support, two rodless cylinders which are parallel to each other are symmetrically arranged on the support, a grabbing structure is arranged on the two rodless cylinders, a hopper with the bottom capable of being opened and closed is arranged above the basket net, two ends of the hopper are respectively connected with the two first cylinders, and the first cylinders are connected with the support through door frames; the feeding device which can feed materials into the hopper is also arranged in a way of matching with the hopper; a workpiece conveying belt is arranged below the support, a rotating shaft is arranged between the support and the support, and the rotating shaft is driven to rotate by a motor, so that the basket net can be driven to overturn relative to the support to pour the workpiece subjected to dip-coating centrifugation onto the workpiece conveying belt;

preferably, the bottom of the hopper is provided with a turning plate, one side of the turning plate is connected with the bottom of the hopper through a pin shaft, and the other side of the turning plate is connected with the outer wall of the hopper through a second cylinder to realize opening and closing.

The dip-coating centrifugal support frame comprises a support frame body, wherein a plurality of radially arranged support screens with outward openings are uniformly arranged on the support frame body, the support frame body is driven to rotate by a motor, the support frame body is arranged at the front end of a rodless cylinder of the hopper pushing device, and the size of each support screen is matched with that of a basket net and is used for receiving the basket net delivered from a grabbing structure;

preferably, the support screens are C-shaped support screens.

Preferably, a plurality of raised anti-falling limiting blocks are arranged around the basketball net on the support and the support clamping positions so as to prevent the basketball net from falling off when the basketball net is turned over.

The dacromet liquid coating tank is arranged below the dip-coating centrifugal support frame and comprises a tank body and a plurality of lifting cylinders arranged outside the tank body and used for driving the tank body to move up and down, and the size of the tank body is adapted to the diameter of the dip-coating centrifugal support frame.

Preferably, guide rods are arranged on two sides of each first air cylinder, and the guide rods are connected with the hopper and penetrate through the door frame.

Preferably, the grabbing structure comprises a sliding plate, two ends of the sliding plate are connected with the rodless cylinders on two sides, two third cylinders are symmetrically arranged on the sliding plate, a connecting plate is arranged at the bottom of the sliding plate, the connecting plate is of a door-shaped structure, fourth cylinders are symmetrically arranged on two sides of the connecting plate, the end part of a piston rod of each fourth cylinder is connected with a grabbing plate, and each grabbing plate is of an L-shaped plate structure.

Preferably, the front end of the feeding device is further provided with a feeding device and a conveying device which are matched in sequence, and the feeding device is used for feeding materials to the conveying device.

Preferably, the feeding device comprises a fixed frame and a second hopper, a slide rail is obliquely arranged on the fixed frame, a motor is arranged on the left side surface of the upper end of the slide rail, a first inductor, a second inductor and a third inductor are sequentially arranged on the left side surface of the slide rail from top to bottom, a stop block is arranged on the position, close to the upper end, of the right side surface of the slide rail, a slide block is arranged on the slide rail, the slide block is connected with the motor and is controlled by the motor, a rotating shaft and a limiting block are arranged on the right side of the slide block, the limiting block is arranged above the rotating shaft, and the hopper is fixedly arranged on the rotating shaft;

furthermore, a limiting block is also arranged on one side face of the second hopper, and a barrier strip is arranged on the rear side of the second hopper.

Preferably, a weighing and overturning device is further arranged between the feeding device and the conveying device, the weighing and overturning device is arranged at the tail end of the conveying device and used for bearing and weighing materials, the materials are transferred into a second hopper of the feeding device, the weighing and overturning device comprises a base and a tipping bucket, the tipping bucket is arranged above the base, two sides of the tipping bucket are respectively connected with the base through cylinders, a connecting rod is arranged in front of the tipping bucket, two ends of the connecting rod are connected with the base through connecting rods, and a weighing meter is arranged at the bottom of the tipping bucket. Furthermore, forward turning limiting blocks are symmetrically arranged on two sides of the base.

Preferably, loading attachment, including ground, fixed chassis and dolly, be provided with the recess on the ground, in the fixed recess that sets up on the ground of fixed chassis, be provided with many connecting rods lifting frame on the fixed chassis, the front side of many connecting rods lifting frame is provided with the fifth cylinder and controls the lifting through the fifth cylinder, the fifth cylinder is fixed to be set up on fixed chassis, the fixed dolly place the platform that is provided with in upper end of many connecting rods lifting frame, dolly place the platform's bottom is provided with the sixth cylinder and controls the upset through the sixth cylinder, the sixth cylinder is fixed to be set up on many connecting rods lifting frame, the dolly is fixed to be placed on dolly place the platform.

Furthermore, the rear end of the trolley is connected with a hand-push handle, and the front end of the trolley is provided with a material pouring port.

Furthermore, the positions of the left side, the right side and the front side of the trolley placing platform are provided with flanges.

Due to the adoption of the technical scheme, the utility model discloses following technological effect has:

the utility model discloses a dacromet coating film dip-coating centrifugal production line structure is ingenious, degree of automation is high, the work piece of treating drops into the hopper of hopper pusher through throwing the material device earlier, fall into behind the basket net of hopper below through the hopper, gripping mechanism snatchs the basket net and send it to go the card under the effect of rodless cylinder and go into the support screens on the dip-coating centrifugal support frame, after accomplishing the material loading of dip-coating centrifugal support frame, dacromet coating cistern rises and soaks the work piece in the basket net, accomplish after the dip-coating, dacromet coating cistern descends a bit and lets coating liquid leave but still keeps the basket net to be located dacromet coating cistern with the basket net bottom, then dip-coating centrifugal support frame rotates under motor drive and centrifugates, accomplish after the centrifugation, the dacromet coating cistern descends to be less than the basket net bottom, the gripping mechanism on the hopper pusher catches the basket net of accomplishing the processing again and sends back to the support, and then the processed workpiece is poured onto the workpiece conveying belt below through the overturning of the rotating shaft between the basket net and the support, and the empty basket net can be used again, so that the automatic feeding machine is circularly used, has high production speed, small occupied area, time and labor conservation and strong practicability, and is worthy of popularization.

Drawings

The invention will now be described, by way of example, with reference to the accompanying drawings, in which:

fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a schematic perspective view of a hopper pushing device;

FIG. 4 is a front view of the hopper pushing device;

FIG. 5 is a schematic view of the grasping configuration;

FIG. 6 is a schematic view of the overall structure of the feeding device;

FIG. 7 is a side view of the feeding device;

FIG. 8 is a schematic top view of the feeding device;

FIG. 9 is a schematic view of a part of the feeding device;

FIG. 10 is a schematic view of a second partial structure of the feeding device;

FIG. 11 is a perspective view of the weighing apparatus;

FIG. 12 is a side view structural view of the weighing apparatus;

FIG. 13 is a schematic view of the overall structure of the charging device;

fig. 14 is a side view of the loading device.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

Any feature disclosed in this specification may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

The dacromet coating film dip-coating centrifugal production line shown in fig. 1-5 comprises a hopper pushing device 10, a dip-coating centrifugal support frame 20 and a liftable dacromet coating liquid tank 30;

the hopper pushing device 10 comprises a support 11, wherein a support 14 is arranged on the support 11, a basket net 13 is movably erected on the support 14 of the support, two rodless cylinders 12 which are parallel to each other are symmetrically arranged on the support 11, a grabbing structure 18 is arranged on the two rodless cylinders 12, a hopper 16 with an openable bottom is arranged above the basket net 13, two ends of the hopper 16 are respectively connected with two first cylinders 15, the first cylinders 15 are connected with the support 11 through door frames, a turning plate is arranged at the bottom of the hopper 16, one side of the turning plate is connected with the bottom of the hopper 16 through pin shafts, and the other side of the turning plate is connected with the outer wall of the hopper 6 through a second cylinder 17 so as to realize the openable bottom; a feeding device 40 which is matched with the hopper 16 and can feed materials into the hopper 16; a workpiece conveying belt 50 is arranged below the support 11, a rotating shaft 19 is arranged between the support 14 and the support 11, and the rotating shaft 19 is driven by a motor to rotate so as to drive the basket net 13 to overturn relative to the support 11 and fall the workpiece subjected to dip-coating centrifugation onto the workpiece conveying belt 50; guide rods are provided on both sides of each first cylinder 15, which guide rods are connected to the hopper 16 and pass through the gantry.

The dip-coating centrifugal support frame 20 comprises a support frame body 21, wherein a plurality of radially arranged support clamping positions 22 with outward openings are uniformly arranged on the support frame body 21, the support frame body 21 is driven to rotate by a motor, the support frame body 21 is arranged at the front end of a rodless cylinder 12 of the hopper pushing device 10, and the size of each support clamping position 22 is matched with that of a basket net 13 and is used for receiving the basket net 13 delivered from the grabbing structure 18;

the supporting clip 22 is a C-shaped supporting clip.

On the support 14 and the support screens 22, a plurality of raised anti-falling limit blocks are arranged around the net to prevent the net from falling down when turning over.

The dacromet liquid coating groove 30 is arranged below the dip-coating centrifugal support frame 20 and comprises a groove body 31 and a plurality of lifting cylinders 32 which are arranged outside the groove body 31 and drive the groove body to move up and down, wherein the size of the groove body 31 is adapted to the diameter of the dip-coating centrifugal support frame 20.

The grabbing structure 18 comprises a sliding plate 181, two ends of the sliding plate 181 are connected with the rodless cylinders 12 on two sides, two third cylinders 182 are symmetrically arranged on the sliding plate 181, a connecting plate 183 is arranged at the bottom of the sliding plate 181, the connecting plate 18 is of a door-shaped structure, fourth cylinders 184 are symmetrically arranged on two sides of the connecting plate 183, the end of a piston rod of each fourth cylinder 184 is connected with a grabbing plate 185, and the grabbing plates 185 are of an L-shaped plate structure.

Utilize first cylinder to descend the hopper to in the basket net, open the switch of hopper bottom and make the material fall into in the basket net, snatch the structure and pass through fourth cylinder push-and-pull grabs the board, utilize the structure of grabbing board L type to catch the basket net edge, snatch it through the third cylinder, through the conveying of rodless cylinder, send into the Dacromet pot with batch material with the basket net, after soaking the centrifugation and accomplishing, snatch the basket net by snatching the structure again and shift out it.

The front end of the feeding device 40 is further provided with a feeding device 60 and a conveying device 70 which are matched in sequence, and the feeding device 60 is used for feeding the conveying device 70.

As shown in fig. 6-10, the feeding device 40 includes a fixing frame 41 and a hopper 42, a slide rail 44 is disposed on the fixing frame 41 in an inclined manner, a motor 45 is disposed on a left side surface of an upper end of the slide rail 44, a first sensor 46, a second sensor 47 and a third sensor 48 are sequentially disposed on a left side surface of the slide rail 44 from top to bottom, a stopper 49 is disposed on a position, close to the upper end, of a right side surface of the slide rail 44, a slider 43 is disposed on the slide rail 44, the slider 43 is connected with the motor 45 and is controlled by the motor 45, a rotating shaft 410 and a limiting block 411 are disposed on a right side of the slider 43, the limiting block 411 is disposed above the rotating shaft 410, and the hopper 42 is fixedly disposed on the rotating shaft 410.

A limiting block 411 is also arranged on one side surface of the hopper 42, and a barrier strip 412 is arranged on the rear side of the hopper 42.

When the feeding device is used, materials to be fed are poured into the hopper 42, after the hopper 42 is full, the motor 45 drives the hopper 42 to move up on the slide rails 44, the hopper 42 is further driven to move up, when the hopper passes through the second sensor 47 in the upward movement process, the second sensor 47 controls the motor 45 to slow down the speed of pulling the hopper 42 to move up after sensing the hopper 42, meanwhile, the barrier strip 412 on the rear side of the hopper 42 is contacted with the stop block 49, after the barrier strip 412 is contacted with the stop block 49, the stop block 49 is propped against the barrier strip 412, so that the hopper 42 slowly moves up and gradually overturns after passing through the second sensor 47, the materials in the hopper 42 are fed downwards, and when the hopper 42 moves to the position of the first sensor 46, the hopper 42 stops moving upwards, meanwhile, the hopper 42 is also turned to the maximum angle for feeding, after feeding is finished, the motor 45 controls the sliding block 43 to move downwards on the sliding rail 44, the hopper 42 is further driven to move downwards, the hopper 42 is gradually far away from the first inductor 46 in the moving process, the hopper 42 turned to the maximum angle is gradually reset at the moment until the hopper 42 reaches the position of the second inductor 47, the hopper 42 is reset, the hopper 42 continues to move downwards after resetting is finished, after the hopper 42 reaches the position of the third inductor 48, the motor stops controlling the sliding block 43 to move, the hopper 42 is further enabled to return to the initial position so as to feed next time, and therefore the process is repeated sequentially.

The setting of stopper 411 can carry on spacingly to hopper 42, prevents that hopper 42 from overturning downwards.

The feeding device is reasonable in structural design, can continuously and efficiently convey and add materials, and therefore production efficiency can be effectively improved.

A weighing and turning device 80 is further arranged between the feeding device 40 and the conveying device 70, the weighing and turning device 80 is arranged at the tail end of the conveying device to receive and weigh materials, and then the materials are transferred into a second hopper of the feeding device, as shown in fig. 11-12, the weighing and turning device 80 comprises a base 81 and a skip 82, the skip 82 is arranged above the base 81, two sides of the skip 82 are respectively connected with the base 81 through air cylinders 83, a connecting rod 85 is arranged in front of the skip 82, two ends of the connecting rod 85 are connected with the base 81 through connecting rods 84, and a weighing meter 87 is arranged at the bottom of the skip 82.

Forward turning limiting blocks 86 are symmetrically arranged on two sides of the base 81.

When the weighing and overturning device 80 works, the weighing and overturning device is arranged below the end part of the conveying device 70, workpieces fall into a tipping bucket, the quantity of each batch of workpieces is accurately controlled through weighing by the weighing meter, the tipping bucket rotates around the connecting rod under the pushing action of the piston rod of the air cylinder, and the workpieces in the tipping bucket are conveyed into the feeding device 40.

As shown in fig. 13-14, the feeding device 60 includes a foundation 61, a fixed base frame 62 and a trolley 66, a groove is provided on the foundation 61, the fixed base frame 62 is fixedly disposed in the groove on the foundation 61, a multi-link lifting frame 610 is provided on the fixed base frame 62, a fifth cylinder 67 is provided on the front side of the multi-link lifting frame 610 and controls lifting through the fifth cylinder 67, the fifth cylinder 67 is fixedly disposed on the fixed base frame 62, a trolley placing platform 64 is fixedly disposed on the upper end of the multi-link lifting frame 610, a sixth cylinder 63 is provided at the bottom of the trolley placing platform 64 and controls overturning through the sixth cylinder 63, the sixth cylinder 63 is fixedly disposed on the multi-link lifting frame 610, and the trolley 66 is fixedly disposed on the trolley placing platform 64.

The rear end of the trolley 66 is connected with a hand push handle 68, and the front end of the trolley 66 is provided with a material pouring port 69.

The left side, the right side and the front side of the trolley placing platform 64 are provided with flanges 65.

In the use process of the feeding device 60, the multi-link lifting frame 610 is pulled by the fifth air cylinder 67 to move downwards, so that the trolley placing platform 64 is driven to move downwards until the trolley placing platform 64 and the foundation 61 are kept on the same plane, then the trolley 66 filled with materials is pushed onto the trolley placing platform 64, then the multi-link lifting frame 610 is jacked by the fifth air cylinder 67 to lift the multi-link lifting frame upwards, the trolley placing platform 64 and the trolley 66 are further driven to move upwards, after the trolley is moved to a feeding specified position, jacking of the fifth air cylinder 67 is stopped, meanwhile jacking of the sixth air cylinder 63 is carried out, so that the trolley placing platform 64 is turned upwards, the trolley 66 is further driven to turn over, and therefore the materials in the trolley 66 are poured along the pouring port 69 of the trolley 66, and feeding is completed; after the material loading is finished, the sixth air cylinder 63 is pulled back to reset the trolley placing platform 64, and the fifth air cylinder 67 is pulled back to enable the trolley placing platform 64 and the foundation to be located on the same plane, so that the material loading is sequentially and repeatedly carried out.

The ribs 65 are arranged to facilitate the limiting of the trolley 66 on the trolley placing platform 64 during loading.

Loading attachment 60 structural design is reasonable, and convenient to use can carry out material loading by simple efficient, has reduced the amount of labour, has improved material loading efficiency.

The utility model discloses a dacromet coating film dip-coating centrifugal production line structure is ingenious, degree of automation is high, the work piece of treating drops into the hopper of hopper pusher through throwing the material device earlier, fall into behind the basket net of hopper below through the hopper, gripping mechanism snatchs the basket net and send it to go the card under the effect of rodless cylinder and go into the support screens on the dip-coating centrifugal support frame, after accomplishing the material loading of dip-coating centrifugal support frame, dacromet coating cistern rises and soaks the work piece in the basket net, accomplish after the dip-coating, dacromet coating cistern descends a bit and lets coating liquid leave but still keeps the basket net to be located dacromet coating cistern with the basket net bottom, then dip-coating centrifugal support frame rotates under motor drive and centrifugates, accomplish after the centrifugation, the dacromet coating cistern descends to be less than the basket net bottom, the gripping mechanism on the hopper pusher catches the basket net of accomplishing the processing again and sends back to the support, and then the processed workpiece is poured onto the workpiece conveying belt below through the overturning of the rotating shaft between the basket net and the support, and the empty basket net can be used for feeding again, so that the circulating reciprocating application is realized, the practicability is high, and the popularization is worthy.

The present invention is not limited to the foregoing embodiments. The invention extends to any novel feature or any novel combination of features disclosed in this specification, and to any novel method or process steps or any novel combination of features disclosed.

Claims (7)

1. The Dacromet coating dip-coating centrifugal production line is characterized by comprising a hopper pushing device, a dip-coating centrifugal support frame and a liftable Dacromet coating liquid tank;

the hopper pushing device comprises a support, wherein a support is arranged on the support, a basket net is movably erected on the support of the support, two rodless cylinders which are parallel to each other are symmetrically arranged on the support, a grabbing structure is arranged on the two rodless cylinders, a hopper with the bottom capable of being opened and closed is arranged above the basket net, two ends of the hopper are respectively connected with the two first cylinders, and the first cylinders are connected with the support through door frames; the feeding device which can feed materials into the hopper is also arranged in a way of matching with the hopper; a workpiece conveying belt is arranged below the support, a rotating shaft is arranged between the support and the support, and the rotating shaft is driven by a motor to rotate so as to drive the basketball net to overturn relative to the support;

the dip-coating centrifugal support frame comprises a support frame body, wherein a plurality of radially arranged support screens with outward openings are uniformly arranged on the support frame body, the support frame body is driven to rotate by a motor, the support frame body is arranged at the front end of a rodless cylinder of the hopper pushing device, and the size of each support screen is matched with the size of a basket net;

the dacromet liquid coating tank is arranged below the dip-coating centrifugal support frame and comprises a tank body and a plurality of lifting cylinders arranged outside the tank body and used for driving the tank body to move up and down, and the size of the tank body is adapted to the diameter of the dip-coating centrifugal support frame.

2. The dacromet coating dip-coating centrifugal production line according to claim 1, wherein the grabbing structure comprises a sliding plate, two ends of the sliding plate are connected with rodless cylinders on two sides, two third cylinders are symmetrically arranged on the sliding plate, a connecting plate is arranged at the bottom of the sliding plate, the connecting plate is of a door-shaped structure, four cylinders are symmetrically arranged on two sides of the connecting plate, a grabbing plate is connected to the end of a piston rod of each fourth cylinder, and the grabbing plate is of an L-shaped plate structure.

3. The Dacromet coating film dip-coating centrifugal production line according to claim 1, wherein the feeding device comprises a fixing frame and a second hopper, a slide rail is obliquely arranged on the fixing frame, a motor is arranged on the left side face of the upper end of the slide rail, a first inductor, a second inductor and a third inductor are sequentially arranged on the left side face of the slide rail from top to bottom, a stop block is arranged on the position, close to the upper end, of the right side face of the slide rail, a slide block is arranged on the slide rail, the slide block is connected with the motor and controlled by the motor, a rotating shaft and a limiting block are arranged on the right side of the slide block, the limiting block is arranged above the rotating shaft, and the hopper is fixedly arranged on the rotating shaft.

4. The centrifugal dip-coating production line for the Dacromet coating film according to claim 3, wherein a limiting block is arranged on one side surface of the second hopper, and a barrier strip is arranged on the rear side of the second hopper.

5. The centrifugal dip-coating production line for dacromet coating according to claim 1, wherein a feeding device and a conveying device are sequentially matched with each other at the front end of the feeding device, and the feeding device is used for feeding the conveying device.

6. The Dacromet coating dip-coating centrifugal production line according to claim 5, wherein a weighing and overturning device is further arranged between the feeding device and the conveying device, the weighing and overturning device is arranged at the tail end of the conveying device and used for receiving and weighing materials and transferring the materials into a second hopper of the feeding device, the weighing and overturning device comprises a base and a tipping bucket, the tipping bucket is arranged above the base, two sides of the tipping bucket are respectively connected with the base through cylinders, a connecting rod is arranged in front of the tipping bucket, two ends of the connecting rod are connected with the base through the connecting rod, and a weighing meter is arranged at the bottom of the tipping bucket.

7. The Dacromet coating dip-coating centrifugal production line according to claim 5, wherein the feeding device comprises a foundation, a fixed underframe and a trolley, a groove is formed in the foundation, the fixed underframe is fixedly arranged in the groove in the foundation, a multi-connecting-rod lifting frame is arranged on the fixed underframe, a fifth cylinder is arranged on the front side of the multi-connecting-rod lifting frame and is controlled to lift through the fifth cylinder, the fifth cylinder is fixedly arranged on the fixed underframe, a trolley placing platform is fixedly arranged at the upper end of the multi-connecting-rod lifting frame, a sixth cylinder is arranged at the bottom of the trolley placing platform and is controlled to overturn through the sixth cylinder, the sixth cylinder is fixedly arranged on the multi-connecting-rod lifting frame, and the trolley is fixedly placed on the trolley placing platform.

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