CN209793061U - Annular friction plate assembly system - Google Patents

Abstract

The utility model provides an annular friction disc assembly system, structural design is reasonable, assembly efficiency is high. The tooling plate is arranged on the tooling plate conveying line; the outlet of the mounting component feeding device is matched with the tooling plate; the friction plate separating device is fixed on the friction plate feeding device and comprises a discharging material channel, a side surface elastic sheet assembly and a top surface elastic sheet assembly, and the side surface elastic sheet assembly and the top surface elastic sheet assembly are arranged on the discharging material channel; the inlet of the discharging channel is connected with the outlet of the friction plate feeding device; the outlet of the discharging channel is positioned above the tooling plate; the pushing rod is arranged on a piston rod of the pushing cylinder; the slideway device is arranged below the tooling plate; the clamp is arranged on the robot; the bottom of the slideway is positioned in the action area of the robot; the middle part of the material tray conveying line is positioned in the action area of the robot; the two sets of material tray laminating devices are respectively arranged at the inlet and the outlet of the material tray conveying line; the tray is placed in a tray stacking apparatus.

Description

Annular friction plate assembly system

Technical Field

The utility model relates to an annular friction disc assembly system for the assembly of clutch or stopper annular friction disc.

Background

Some types of clutches or brakes are provided with annular friction plates, and the annular friction plates have a clutch or brake effect, and are particularly used in small electromagnetic clutches or electromagnetic brakes. The annular friction plate is mounted in a mounting member, which is an armature, a disc, or the like, depending on the type of clutch or brake.

The current friction plate assembling mechanism has the problem of low assembling efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the above-mentioned not enough that exists among the prior art, and provide an annular friction disc assembly system that structural design is reasonable, assembly efficiency is high.

The utility model provides a technical scheme that above-mentioned problem adopted is: an annular friction disc assembly system which characterized in that: the automatic feeding device comprises an installation part feeding device, a friction plate feeding and separating mechanism, a tooling plate conveying line device, a material pushing device, a robot device, a slide rail device, a material tray laminating device, a material tray conveying line and a material tray;

The tooling plate conveying line device comprises a tooling plate conveying line and a tooling plate; the tooling plate is arranged on the tooling plate conveying line; the mounting component feeding device, the friction plate feeding and separating mechanism and the material pushing device are sequentially arranged on one side of the tooling plate conveying line device from back to front; the outlet of the mounting component feeding device is matched with the tooling plate;

The friction plate feeding and separating mechanism comprises a friction plate feeding device and a friction plate separating device; the friction plate separating device is fixed on the friction plate feeding device and comprises a discharging material channel, a side surface elastic sheet assembly and a top surface elastic sheet assembly; the rear part of the discharging channel is an inlet, the front part of the discharging channel is an outlet, and the discharging channel is in an inclined shape with a high rear part and a low front part; the inlet of the discharging channel is connected with the outlet of the friction plate feeding device; the outlet of the discharging channel is positioned above the tooling plate; the side elastic piece assembly comprises a side elastic piece, a side adjusting spring and a side adjusting bolt; the rear part of the side elastic sheet is arranged on the discharging channel, and the front part of the side elastic sheet is bent towards the outlet of the discharging channel; the side adjusting bolt is arranged on the discharging channel; the side surface adjusting spring is arranged on the side surface adjusting bolt, one end of the side surface adjusting spring is connected with the side surface adjusting bolt, and the other end of the side surface adjusting spring is connected with the side surface elastic sheet; the top surface elastic piece component comprises a top surface elastic piece, a top surface adjusting spring and a top surface adjusting bolt; the rear part of the top surface elastic sheet is arranged on the discharging channel, and the front part of the top surface elastic sheet is bent towards the outlet direction of the discharging channel; the top surface adjusting bolt is arranged on the discharging channel; the top surface adjusting spring is arranged on the top surface adjusting bolt, one end of the top surface adjusting spring is connected with the top surface adjusting bolt, and the other end of the top surface adjusting spring is connected with the top surface elastic sheet;

The pushing device comprises a pushing cylinder and a pushing rod, and the pushing rod is arranged on a piston rod of the pushing cylinder; the material pushing rod is positioned above the tooling plate; the slideway device is arranged below the tooling plate; an inclined slideway is arranged on the slideway device; the robot device is arranged beside the slideway device and comprises a robot and a clamp, and the clamp is arranged on the robot; the bottom of the slideway is positioned in the action area of the robot; the material tray conveying line is arranged beside the robot device; the middle part of the material tray conveying line is positioned in the action area of the robot; the two sets of material tray laminating devices are respectively arranged at the inlet and the outlet of the material tray conveying line; the tray is placed in a tray stacking apparatus.

The frock board on be provided with the installing component draw-in groove, the notch of installing component draw-in groove is towards one side at installing component loading attachment place.

The discharging channel of the utility model comprises a discharging bottom plate, a discharging side plate and a discharging top plate; one end of the discharging bottom plate is an inlet of the discharging channel, and the other end of the discharging bottom plate is an outlet of the discharging channel; the discharging side plates are arranged on two sides of the discharging bottom plate; the discharging top plate is arranged at the top of the discharging side plate and is positioned at the outlet of the discharging channel.

side shell fragment on be provided with side shell fragment adjustment hole, side adjusting bolt passes and installs the side of saying at the ejection of compact material behind the side shell fragment adjustment hole.

The utility model discloses side shell fragment subassembly is two sets of, sets up respectively in the both sides that the ejection of compact material was said.

The top surface elastic sheet of the utility model is provided with a top surface elastic sheet adjusting hole; the top surface adjusting bolt passes through the top surface elastic sheet adjusting hole and then is installed on the top surface of the discharging channel.

Friction piece material loading separating mechanism be two, set gradually.

The charging tray laminating device comprises a bracket, a lifting cylinder, a lifting block, a supporting cylinder, a supporting rotating shaft, a supporting block and a rotating shaft connecting block; a tray accommodating cavity is arranged on the bracket; the lifting cylinder is vertically and upwards arranged at the bottom of the bracket; the lifting block is arranged on a piston rod of the lifting cylinder and is positioned at the bottom of the material tray accommodating cavity; the supporting cylinder is arranged on the side surface of the bracket; the supporting rotating shaft is rotatably arranged on the side surface of the bracket; one end of the rotating shaft connecting block is fixed with the supporting rotating shaft, and the other end of the rotating shaft connecting block is hinged with a piston rod of the supporting cylinder; the supporting block is fixed on the supporting rotating shaft and is positioned on the side surface of the material tray accommodating cavity.

Installation part loading attachment and friction disc loading attachment be vibration dish material loading machine.

Compared with the prior art, the utility model, have following advantage and effect: the degree of automation is high, only needs 0.75 second to pack into installation component with one deck annular friction disc, has greatly improved assembly efficiency, has reduced manufacturing cost.

drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is an enlarged schematic view of a portion a of fig. 1.

Fig. 3 is a schematic structural diagram of a tray stacking device and a tray according to an embodiment of the present invention.

Detailed Description

the present invention will be described in further detail by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and are not intended to limit the present invention.

Referring to fig. 1-3, the embodiment of the present invention includes a mounting part feeding device 1, a friction plate feeding and separating mechanism 2, a tooling plate conveying line device 3, a material pushing device 4, a robot device 5, a slide device 6, a material tray stacking device 7, a material tray conveying line 8, a material tray 9, and a workbench 10.

The mounting part feeding device 1, the friction plate feeding and separating mechanism 2, the tooling plate conveying line device 3, the pushing device 4, the robot device 5, the slide device 6, the material tray laminating device 7 and the material tray conveying line 8 are all arranged on the workbench 10.

The tooling plate conveyor line device 3 includes a tooling plate conveyor line 31 and a tooling plate 32.

The tooling plate 32 is mounted on the tooling plate conveyor line 31, and the tooling plate conveyor line 31 can drive the tooling plate 32 to move. The tool plate 32 is provided with a mounting component slot 33, and a notch of the mounting component slot 33 faces to the side where the mounting component feeding device 1 is located. The tooling plate 32 is a flexible tooling plate.

The mounting component feeding device 1, the friction plate feeding and separating mechanism 2 and the material pushing device 4 are sequentially arranged on one side of the tooling plate conveying line device 3 from back to front.

The mounting component feeding device 1 is used for feeding a mounting component a. The outlet of the mounting part loading device 1 is matched with a mounting part clamping groove 33 on the tool plate 32. The mounting part feeding device 1 is a vibrating disk feeding machine.

the friction plate feeding and separating mechanism 2 includes a friction plate feeding device 21 and a friction plate separating device 22.

The friction plate feeding device 21 is used for feeding the annular friction plates b. The friction plate feeding device 21 is a vibrating disk feeder.

The friction plate separating device 22 is fixed on the friction plate feeding device 21 in an inclined shape with a high rear part and a low front part, and the friction plate separating device 22 comprises a discharging material channel, a side surface elastic sheet assembly and a top surface elastic sheet assembly.

The rear part of the discharging channel is an inlet, the front part of the discharging channel is an outlet, and the discharging channel is in an inclined shape with a high rear part and a low front part. The inlet of the discharging channel is connected with the outlet of the friction plate feeding device 21. The outlet of the discharge channel is positioned above the tooling plate 32.

The discharging channel comprises a discharging bottom plate 221, a discharging side plate 222 and a discharging top plate 223.

One end of the discharging bottom plate 221 is an inlet of the discharging channel, and the other end is an outlet of the discharging channel.

The discharging side plates 222 are installed at both sides of the discharging bottom plate 221.

The discharging top plate 223 is installed on the top of the discharging side plate 222 and is located at the outlet of the discharging channel.

The side spring assembly includes a side spring 224, a side adjustment spring 225, and a side adjustment bolt 226.

The rear part of the side elastic sheet 224 is arranged on the side surface of the discharging side plate 222 of the discharging channel by a bolt, and the front part of the side elastic sheet 224 bends towards the outlet direction of the discharging channel. The side spring 224 is provided with a side spring adjustment hole.

The side adjusting bolt 226 passes through the side spring plate adjusting hole and is installed on the side of the discharging side plate 222 of the discharging channel.

The side surface adjusting spring 225 is mounted on the side surface adjusting bolt 226, and has one end connected to the side surface adjusting bolt 226 and the other end connected to the side surface resilient piece 224. Turning the side adjustment bolt 226 adjusts the compression of the side adjustment spring 225 and thus the resilience of the side spring 224.

The side elastic sheet assemblies are two groups and are respectively arranged at two sides of the discharging channel.

The top spring assembly includes a top spring 227, a top adjustment spring 228, and a top adjustment bolt 229.

The rear part of the top surface spring plate 227 is installed on the top surface of the discharging top plate 223 of the discharging channel by a bolt, and the front part of the top surface spring plate 227 bends towards the outlet direction of the discharging channel. The top spring 227 is provided with a top spring adjustment hole.

The top surface adjusting bolt 229 passes through the top surface spring plate adjusting hole and is installed on the top surface of the discharging top plate 223 of the discharging channel.

The top surface adjusting spring 228 is mounted on the top surface adjusting bolt 229, and has one end connected to the top surface adjusting bolt 229 and the other end connected to the top surface spring 227. Turning the top adjustment bolt 229 adjusts the compression of the top adjustment spring 228, and thus the resilience of the top spring 227.

The friction plate feeding and separating mechanism 2 comprises two friction plate feeding and separating mechanisms which are arranged in sequence.

the pushing device 4 comprises a pushing cylinder 41 and a pushing rod, and the pushing rod is arranged on a piston rod of the pushing cylinder. The ejector pins 42 are located above the tooling plate 32.

the slide means 6 is arranged obliquely below the tooling plate 32. The ramp device 6 is provided with an inclined ramp 61. The chute 61 is located below the pusher arm. The slide way 61 is a plurality of pieces arranged side by side.

The robot device 5 is disposed beside the slide device 6, and includes a robot 51 and a jig 52, and the jig 52 is mounted on the robot 51. The bottom of the chute 61 is located within the action area of the robot 51.

The tray conveyor line 8 is arranged beside the robot device 5. The middle of the tray conveyor line 8 is located in the action area passing through the robot 51.

Two sets of tray laminating devices 7 are respectively arranged at the inlet and the outlet of the tray conveying line 8. The tray stacking device 7 comprises a bracket 71, a lifting cylinder 72, a lifting block 73, a supporting cylinder 74, a supporting rotating shaft 75, a supporting block 76 and a rotating shaft connecting block 77.

The rack 71 is provided with a tray housing chamber 78.

The lift cylinder 72 is vertically installed upward at the bottom of the bracket 71. The lifting block 73 is mounted on the piston rod of the lifting cylinder 72 and is located at the bottom of the tray accommodating chamber 78.

The support cylinder 74 is installed at the side of the bracket 71.

The support shaft 75 is rotatably installed at a side of the bracket 71.

One end of the rotating shaft connecting block 77 is fixed to the supporting rotating shaft 75, and the other end is hinged to the piston rod of the supporting cylinder 74.

The support block 76 is fixed to the support shaft 75 and is located on the side of the tray accommodating chamber 78.

A plurality of trays 9 are stacked one on another and then placed in the tray accommodating cavity 78, and the supporting block 76 is positioned at the bottom of the tray 9 at the bottommost layer and supports the tray 9. The isolating rod 91 is arranged at the top of the material tray 9, after the material trays 9 are stacked one by one, the material tray 9 on the upper layer is placed on the isolating rod 91 of the material tray 9 on the lower layer, so that a gap exists between the two material trays 9, and the supporting block 76 can conveniently rotate inwards to the bottom of the material tray 9. The head of the isolating rod 91 is provided with an isolating rod clamping block 92, the bottom of the material tray 9 is provided with a material tray clamping groove, when the material tray 9 on the upper layer is placed on the isolating rod 91 of the material tray 9 on the lower layer, the isolating rod clamping block 92 is clamped into the material tray clamping groove, so that the material trays 9 are more stable after being stacked one layer by one layer.

Empty trays 9 placed in the tray stacking means 7 at the entrance of the tray conveyor line 8, full trays 9 placed in the tray stacking means 7 at the exit of the tray conveyor line 8.

the utility model discloses working method as follows:

(1) the mounting parts a are fed into the mounting part clamping grooves 33 one by one through the mounting part feeding device 1 and then are driven to move forwards by the tooling plate 32 in sequence; meanwhile, the annular friction plates b are fed into the discharge material channel of the friction plate separating device 22 one by one through the friction plate feeding device 21, the foremost annular friction plate b slides to the outlet of the discharge material channel and then is blocked by the side surface elastic sheet 224 and the top surface elastic sheet 227, and the annular friction plate b is in an inclined shape with a high rear part and a low front part.

(2) The mounting component a moves to the lower part of the friction plate separating device 22 of the first friction plate feeding and separating mechanism 2, the top of the mounting component a abuts against the front part of the inner ring of the annular friction plate b at the outlet of the discharging material channel, the side elastic sheet 224 and the top elastic sheet 227 are gradually opened under the thrust action of the annular friction plate b along with the continuous movement of the mounting component a, the annular friction plate b gradually overcomes the resistance of the side elastic sheet 224 and the top elastic sheet 227 until the annular friction plate b is completely separated from the outlet of the discharging material channel, and then the mounting component a is sleeved under the action of gravity to finish the assembly of the first layer of annular friction plate b; after the foremost annular friction plate b in the discharging channel is sleeved with one mounting part a, the following annular friction plate b slides to the outlet of the discharging channel and is blocked by the side elastic sheet 224 and the top elastic sheet 227; the mounting part a sleeved with the annular friction plate b continues to be driven by the tooling plate 32 to move forwards to the position below the friction plate separating device 22 of the second friction plate feeding and separating mechanism 2, and the assembly of the annular friction plate b of the second layer is completed as in the above process; the annular friction plate b and the mounting part a form an annular friction plate assembly;

(3) The annular friction plate assembly is driven by the tooling plate 32 to move forwards to the pushing range of the pushing rod 42, the pushing cylinder 41 pushes the pushing rod to move, the pushing rod pushes the annular friction plate assembly in the pushing range away from the tooling plate 32, and the annular friction plate assembly falls in the slide way 61 of the slide way device 6 and falls to the bottom of the slide way 61 under the action of gravity;

(4) In the tray laminating device 7 at the inlet of the tray conveying line 8, the piston rod of the lifting cylinder 72 drives the lifting block 73 to ascend, the lifting block 73 supports the tray 9 at the bottom layer, then the piston rod of the supporting cylinder 74 acts to enable the supporting rotating shaft 75 to rotate, the supporting rotating shaft 75 drives the supporting block 76 to rotate outwards to be separated from the bottom of the tray 9 at the bottom layer, then the piston rod of the lifting cylinder 72 drives the lifting block 73 to descend for a certain distance, the tray 9 descends along with the piston rod of the supporting cylinder 74 acts again to enable the supporting rotating shaft 75 to rotate, and the supporting rotating shaft 75 drives the supporting block 76 to rotate inwards to the bottom of the tray 9 at the penultimate layer and support the tray 9; then the piston rod of the lifting cylinder 72 drives the lifting block 73 to descend, and the material tray 9 at the bottommost layer descends to the bottom of the material tray accommodating cavity 78 and then is conveyed away by the material tray conveying line 8;

(5) the tray conveying line 8 conveys the trays 9 into the action area of the robot 51, and the robot 51 grabs the annular friction plate assembly at the bottom of the slide 61 through the clamp 52 and then places the annular friction plate assembly into the trays 9 on the tray conveying line 8; after the material tray 9 is fully placed, the material tray conveying line 8 conveys the material tray 9 to the outlet, and is positioned above the lifting block 73 of the material tray laminating device 7 at the outlet, in the material tray laminating device 7 at the outlet, the piston rod of the lifting cylinder 72 drives the lifting block 73 to ascend, after the lifting block 73 supports the material tray 9, the material tray 9 is driven to move upwards and is supported at the bottom of the original bottommost material tray 9, the material tray 9 replaces the original bottommost material tray 9 to become a new bottommost material tray 9, then the piston rod of the supporting cylinder 74 acts to rotate the supporting rotating shaft 75, the supporting shaft 75 drives the supporting block 76 to rotate outwards and separate from the bottom of the original bottommost material tray 9, then the piston rod of the lifting cylinder 72 drives the lifting block 73 to ascend a distance, the material tray 9 rises along with the piston rod of the supporting cylinder 74 to act again, the supporting rotating shaft 75 rotates, and the supporting shaft 75 drives the supporting block 76 to rotate inwards to the bottom of, the material tray 9 is supported, and then a piston rod of the lifting cylinder 72 drives the lifting block 73 to descend; by repeating this operation, the empty trays 9 in the tray stacking apparatus 7 at the inlet of the tray conveyor line 8 are emptied one by one, and the full trays 9 in the tray stacking apparatus 7 at the outlet of the tray conveyor line 8 are stacked one by one.

In this document, the directions "front" and "rear" are described based on the conveying direction of the tooling plate conveying line.

In addition, it should be noted that the specific embodiments described in the present specification may be different in the components, the shapes of the components, the names of the components, and the like, and the above description is only an example of the structure of the present invention. All the equivalent changes or simple changes made according to the structure, characteristics and principle of the utility model are included in the protection scope of the utility model. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (9)

1. Annular friction disc assembly system, its characterized in that: the automatic feeding device comprises an installation part feeding device, a friction plate feeding and separating mechanism, a tooling plate conveying line device, a material pushing device, a robot device, a slide rail device, a material tray laminating device, a material tray conveying line and a material tray;

The tooling plate conveying line device comprises a tooling plate conveying line and a tooling plate; the tooling plate is arranged on the tooling plate conveying line; the mounting component feeding device, the friction plate feeding and separating mechanism and the material pushing device are sequentially arranged on one side of the tooling plate conveying line device from back to front; the outlet of the mounting component feeding device is matched with the tooling plate;

The friction plate feeding and separating mechanism comprises a friction plate feeding device and a friction plate separating device; the friction plate separating device is fixed on the friction plate feeding device and comprises a discharging material channel, a side surface elastic sheet assembly and a top surface elastic sheet assembly; the rear part of the discharging channel is an inlet, the front part of the discharging channel is an outlet, and the discharging channel is in an inclined shape with a high rear part and a low front part; the inlet of the discharging channel is connected with the outlet of the friction plate feeding device; the outlet of the discharging channel is positioned above the tooling plate; the side elastic piece assembly comprises a side elastic piece, a side adjusting spring and a side adjusting bolt; the rear part of the side elastic sheet is arranged on the discharging channel, and the front part of the side elastic sheet is bent towards the outlet of the discharging channel; the side adjusting bolt is arranged on the discharging channel; the side surface adjusting spring is arranged on the side surface adjusting bolt, one end of the side surface adjusting spring is connected with the side surface adjusting bolt, and the other end of the side surface adjusting spring is connected with the side surface elastic sheet; the top surface elastic piece component comprises a top surface elastic piece, a top surface adjusting spring and a top surface adjusting bolt; the rear part of the top surface elastic sheet is arranged on the discharging channel, and the front part of the top surface elastic sheet is bent towards the outlet direction of the discharging channel; the top surface adjusting bolt is arranged on the discharging channel; the top surface adjusting spring is arranged on the top surface adjusting bolt, one end of the top surface adjusting spring is connected with the top surface adjusting bolt, and the other end of the top surface adjusting spring is connected with the top surface elastic sheet;

The pushing device comprises a pushing cylinder and a pushing rod, and the pushing rod is arranged on a piston rod of the pushing cylinder; the material pushing rod is positioned above the tooling plate; the slideway device is arranged below the tooling plate; an inclined slideway is arranged on the slideway device; the robot device is arranged beside the slideway device and comprises a robot and a clamp, and the clamp is arranged on the robot; the bottom of the slideway is positioned in the action area of the robot; the material tray conveying line is arranged beside the robot device; the middle part of the material tray conveying line is positioned in the action area of the robot; the two sets of material tray laminating devices are respectively arranged at the inlet and the outlet of the material tray conveying line; the tray is placed in a tray stacking apparatus.

2. an annular friction plate assembly system according to claim 1, wherein: the tooling plate is provided with an installation part clamping groove, and the notch of the installation part clamping groove faces to one side where the installation part feeding device is located.

3. An annular friction plate assembly system according to claim 1, wherein: the discharging channel comprises a discharging bottom plate, a discharging side plate and a discharging top plate; one end of the discharging bottom plate is an inlet of the discharging channel, and the other end of the discharging bottom plate is an outlet of the discharging channel; the discharging side plates are arranged on two sides of the discharging bottom plate; the discharging top plate is arranged at the top of the discharging side plate and is positioned at the outlet of the discharging channel.

4. An annular friction plate assembly system according to claim 1, wherein: the side surface elastic piece is provided with a side surface elastic piece adjusting hole, and a side surface adjusting bolt penetrates through the side surface elastic piece adjusting hole and then is installed on the side surface of the discharging channel.

5. An annular friction plate assembly system according to claim 1, wherein: the side elastic sheet assemblies are two groups and are respectively arranged at two sides of the discharging channel.

6. An annular friction plate assembly system according to claim 1, wherein: the top surface elastic sheet is provided with a top surface elastic sheet adjusting hole; the top surface adjusting bolt passes through the top surface elastic sheet adjusting hole and then is installed on the top surface of the discharging channel.

7. An annular friction plate assembly system according to claim 1, wherein: the friction plate feeding and separating mechanism comprises two friction plate feeding and separating mechanisms which are arranged in sequence.

8. An annular friction plate assembly system according to claim 1, wherein: the material tray laminating device comprises a bracket, a lifting cylinder, a lifting block, a supporting cylinder, a supporting rotating shaft, a supporting block and a rotating shaft connecting block; a tray accommodating cavity is arranged on the bracket; the lifting cylinder is vertically and upwards arranged at the bottom of the bracket; the lifting block is arranged on a piston rod of the lifting cylinder and is positioned at the bottom of the material tray accommodating cavity; the supporting cylinder is arranged on the side surface of the bracket; the supporting rotating shaft is rotatably arranged on the side surface of the bracket; one end of the rotating shaft connecting block is fixed with the supporting rotating shaft, and the other end of the rotating shaft connecting block is hinged with a piston rod of the supporting cylinder; the supporting block is fixed on the supporting rotating shaft and is positioned on the side surface of the material tray accommodating cavity.

9. An annular friction plate assembly system according to claim 1, wherein: the mounting component feeding device and the friction plate feeding device are both vibrating disc feeding machines.