CN211966774U - Brake block automatic processing equipment - Google Patents

Abstract

The utility model provides a brake block automatic processing equipment includes board, controller, pay-off area, tool, portal frame, main shaft, goes up unloading mechanism, trades knife rest, CCD imaging camera. The machine table is fixed with the controller, a jig is arranged on the machine table, the two ends of the jig are respectively provided with the feeding belts, the machine table is provided with the portal frame, the portal frame is connected with the main shaft in a sliding mode, and the machine table is provided with the feeding and discharging mechanism, the tool changing frame and the CCD imaging camera. The utility model provides a brake block automatic processing equipment is through one the pay-off area with go up unloading mechanism and remove the brake block that will wait to process pass through on the tool controller control the spacing groove and the mounting hole of main shaft motion processing brake block, through go up unloading mechanism and another the pay-off area is followed the brake block that will process is moved down on the tool, realizes brake block automated processing, and production efficiency is high, recruitment cost reduction.

Description

Brake block automatic processing equipment

Technical Field

The utility model relates to an automobile device processing equipment field especially relates to a brake block automatic processing equipment.

Background

The brake pad is an important component of an automobile brake system and is the most critical safety part, and the quality of the brake effect is determined by the brake pad under most conditions.

For automobile braking, a brake pad is one of indispensable devices, and the brake pad needs to be replaced frequently, so that the pin consumption and the consumption of the brake pad are large, for the brake pad, when the brake pad is machined, a limit hole or a mounting hole needs to be drilled and a limit groove needs to be cut, so as to be convenient for the installation of the brake pad, at present, the drilling and the cutting of the brake pad are generally carried out separately, and special multi-shaft cutting and drilling devices are needed, the device not only has a complex structure and low machining efficiency, but also can only realize the machining of one brake pad at each time, clamping generally adopts a pressing plate and bolt mode, the clamping mode needs to clamp each brake pad, the operation is very inconvenient, and more importantly, when different parts are drilled and cut, the adjustment is difficult, the multi-axis machine tool is too complex in structure and low in machining efficiency, so that how to design the automatic brake pad machining equipment is to improve the machining efficiency of the brake pad, and the multi-axis machine tool plays an extremely important role in production of the brake pad.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a brake block automatic processing equipment.

The utility model provides an automatic processing device of a brake pad, which comprises a machine table, wherein a controller is arranged on the machine table,

a gantry is arranged on the machine table in a sliding manner, a main shaft is vertically arranged on the gantry in a sliding manner, and a cutter is detachably connected to the main shaft; the machine table is provided with a tool changing frame, and the tools of different types are placed on the tool changing frame;

a vertically upward stepping motor is embedded on the machine table, a jig is fixed on an output shaft of the stepping motor and comprises a placing table, the placing table is fixed on the stepping motor, two elongated grooves are formed in the top of the placing table along the length direction of the placing table, first air cylinders are respectively arranged in the two elongated grooves, limiting plates are respectively connected to the first air cylinders, pressing blocks are arranged at the tops of the limiting plates, a second air cylinder is fixed at one end of the top of the placing table, a limiting block is arranged at the end part of the second air cylinder, a support is arranged on the placing table, a spray head is arranged on the support, the two first air cylinders, the second air cylinder and the spray head are respectively communicated with an air pump through electric control valves, and the air pump is arranged in the machine table;

the automatic feeding device is characterized in that feeding belts are respectively arranged at two ends of the placing table, a feeding and discharging mechanism is arranged on one side of the placing table and comprises a sliding groove, a sliding block is arranged on the sliding groove in a sliding mode, a linear motor is fixed to the end portion of the sliding groove, an output shaft of the linear motor is connected with the sliding block, a lifting rod is fixed to the top of the sliding block, and a pushing plate is fixed to the lifting rod.

Preferably, the tool changing frame comprises a support frame, the support frame is fixed on the machine table on the lower side of the portal frame, and two tool holders are arranged on the support frame.

Preferably, a negative pressure cavity is arranged in the placing table, a negative suction hole penetrating through the placing table is formed in the top of the negative pressure cavity, a ball valve is arranged at the end of the negative suction hole, the negative pressure cavity is communicated with a negative pressure machine, and the negative pressure machine is arranged in the machine table.

Preferably, the feeding belt is provided with guide plates corresponding to the two limiting plates respectively.

Preferably, the push plate comprises a fixed plate, a sliding rod is arranged on the fixed plate, a strong spring is sleeved on the sliding rod, and a sliding plate is connected to the sliding rod in a sliding mode.

Preferably, the end of the machine table is provided with a CCD imaging camera.

Preferably, the support frame is provided with two groups of clamping grooves, each group of clamping grooves is respectively connected with a cutter support in a sliding mode, the side wall of each cutter support is provided with a rack, the support frame is respectively provided with a motor corresponding to the rack, an output shaft of each motor is provided with a gear, and the gear is in toothed connection with the rack.

Preferably, the clamping groove is vertically and slidably connected to the support frame, and a spring is arranged between the clamping groove and the support frame.

Compared with the prior art, the utility model provides a brake block automatic processing equipment has following beneficial effect:

the utility model provides a brake block automatic processing equipment is through one the pay-off area with go up unloading mechanism and remove the brake block that will wait to process pass through on the tool controller control the spacing groove and the mounting hole of main shaft motion processing brake block, through go up unloading mechanism and another the pay-off area is followed the brake block that will process is moved down on the tool, realizes brake block automated processing, and production efficiency is high, recruitment cost reduction. In the machining process, the main shaft carries out tool changing through the tool changing frame, and a limit groove and a mounting hole are machined through one main shaft in a tool changing mode; the brake block can be accurately moved to the position fixed by the placing table through the limiting plate and the limiting block, then the limiting plate moves downwards to drive the pressing block to press and fix the brake block on the placing table, so that the machining precision of the positions of the brake block limiting groove and the mounting hole is ensured, the brake block is adsorbed on the placing table through the negative suction hole, and the fixation firmness of the brake block is further ensured; two cutter holders are arranged on the cutter changing frame, and cutters for milling limiting grooves and drilling holes are respectively placed on the cutter holders, so that the cutter changing is convenient; the guide plate can guide the brake pad pushed by the feeding and discharging mechanism to move between the limiting plates, so that the smoothness of a processing flow is ensured; the CCD imaging camera can photograph the processed brake pad, the controller measures the sizes of the limiting groove and the mounting hole according to the photograph, and the controller timely finds out that the brake pad is unqualified in processing caused by overlarge cutter swing due to cutter abrasion or incorrect cutter installation through whether the size is qualified or not, and automatically solves the problem through cutter changing; the controller controls the movement of the cutter holder by controlling the motor, and is matched with the spindle to perform cutter changing operation, so that cutter changing is simple and convenient; the spring is arranged between the clamping groove and the supporting frame, so that a certain buffer space is ensured when the main shaft is connected with a cutter, and the occurrence of machine collision is avoided.

Drawings

Fig. 1 is a schematic structural diagram of an automatic brake pad processing apparatus according to a preferred embodiment of the present invention;

fig. 2 is a schematic structural view of the stepping motor and the jig shown in fig. 1;

FIG. 3 is a schematic view of the construction of the tool changer carriage shown in FIG. 1;

FIG. 4 is a schematic structural view of the loading and unloading mechanism shown in FIG. 1;

fig. 5 is a schematic structural view of the lifting rod shown in fig. 1.

Reference numbers in the figures: 1. a machine table, 11, a portal frame, 111, a slideway, 112, a first linear motor, 2, a controller, 3, a main shaft, 31, a cutter, 32, a main shaft fixing seat, 33, a second linear motor, 4, a stepping motor, 5, a jig, 51, a placing table, 511, a negative pressure cavity, 512, a negative suction hole, 513, a ball valve, 514, a negative pressure machine, 52, a first air cylinder, 53, an air pump, 54, a limit plate, 55, a press block, 56, a second air cylinder, 57, a limit block, 58, a bracket, 59, a sprayer, 6, a feeding belt, 61, a guide plate, 7, a feeding and discharging mechanism, 71, a chute, 72, a sliding block, 73, a linear motor, 74, a lifting rod, 741, a loop rod, 742, 743, a third linear motor, 75, a push plate 751, a fixing plate, 752, a sliding rod, 753, a powerful spring, 754, a sliding plate, 8, a cutter changing frame, 81, a supporting frame, 82, a cutter holder, Rack 83, card slot 84, motor 841, gear 85, spring 9, CCD imaging camera.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, in which fig. 1 is a schematic structural diagram of an automatic brake pad processing apparatus according to a preferred embodiment of the present invention; fig. 2 is a schematic structural view of the stepping motor and the jig shown in fig. 1; FIG. 3 is a schematic view of the construction of the tool changer carriage shown in FIG. 1; FIG. 4 is a schematic structural view of the loading and unloading mechanism shown in FIG. 1; fig. 5 is a schematic structural view of the lifting rod shown in fig. 1.

Referring to fig. 1, the automatic brake pad processing device provided by the present invention comprises a machine table 1, wherein a controller 2 for controlling the automatic brake pad processing device to operate is arranged on the machine table 1, the controller 2 can be a PLC controller, the PLC controller is connected to a display screen, wherein,

a portal frame 11 is arranged on the machine table 1 in a sliding manner, a slide rail 111 is arranged at the top of the portal frame 11, the end of the slideway 111 is provided with a first linear motor 112, the slideway 111 is provided with a main shaft fixing seat 32, the spindle fixing base 32 is connected to an output shaft of the first linear motor 112, the spindle fixing base 32 is connected to the spindle 3, the main shaft 3 is vertically arranged, in the specific implementation process, one side of the main shaft fixing seat 32 is provided with a vertical guide rail, the spindle 3 is connected on the vertical guide rail in a sliding way, the end part of the vertical rail is provided with a second linear motor 33, the second linear motor 33 is connected with the main shaft 3, an electric buckle is arranged in the main shaft 3, the main shaft 3 is detachably connected with a cutter 31 through the electric buckle, and the first linear motor 112, the second linear motor 33 and the main shaft 3 are electrically connected with the controller 2.

A tool changing frame 8 is arranged on the machine table 1, and the tools 31 of different types are placed on the tool changing frame 8; the tool changing frame 8 comprises a support frame 81, the support frame 81 is fixed on the machine table 1 on the lower side of the portal frame 11, and two tool holders 82 are arranged on the support frame 81. In a specific implementation process, two sets of clamping grooves 83 are arranged on the supporting frame 81, a cutter holder 82 is respectively connected to each set of clamping groove 83 in a sliding manner, a rack 821 is respectively arranged on the side wall of each cutter holder 82, a motor 84 is respectively arranged on the supporting frame 81 corresponding to the rack 821, a gear 841 is arranged on an output shaft of the motor 84, and the gear 841 is in toothed connection with the rack 821. The motor 84 is electrically connected to the controller 2. The controller 2 controls the motor 84 to drive the cutter holder 82 to slide along the clamping groove 83. In a specific implementation process, the locking groove 83 is vertically and slidably connected to the supporting frame 81, and a spring 85 is arranged between the locking groove 83 and the supporting frame 81.

A vertically upward stepping motor 4 is embedded on the machine table 1, a jig 5 is fixed on an output shaft of the stepping motor 4, in the specific implementation process, the jig 5 comprises a placing table 51, the placing table 51 is fixed on the output shaft of the stepping motor 4, two elongated grooves are formed in the top of the placing table 51 along the length direction of the placing table 51, first air cylinders 52 are respectively arranged in the two elongated grooves, two limiting plates 54 are respectively connected to the two first air cylinders 52, a pressing block 55 is arranged at the top of each limiting plate 54, a second air cylinder 56 is fixed at one end of the top of the placing table 51, a limiting block 57 is arranged at the end of the second air cylinder 56, a support 58 is arranged on the placing table 51, a spray head 59 is arranged on the support 58, and the two first air cylinders 52, the second air cylinder 56 and the spray head 59 are respectively communicated with an air pump 53 through an electric control valve, the air pump 53 is disposed in the machine 1. Through the shower nozzle 59 blowout gas will process the iron fillings that produce and blow down tool 5 utilizes the gas flow to dispel the heat simultaneously, and the control is processed the temperature of cutter 31, increases the life of cutter 31.

The two ends of the placing table 51 are respectively provided with a feeding belt 6, one side of the placing table 51 is provided with a feeding and discharging mechanism 7, the feeding and discharging mechanism 7 comprises a sliding groove 71, the sliding groove 71 is provided with a sliding block 72 in a sliding manner, the end part of the sliding groove 71 is fixed with a linear motor 73, an output shaft of the linear motor 73 is connected with the sliding block 72, the top of the sliding block 72 is fixed with a lifting rod 74, in the specific implementation process, the lifting rod 74 comprises a sleeve rod 741, the sleeve rod 741 is connected with a connecting rod 742 in a sliding manner, a third linear motor 743 is arranged in the sleeve rod 741, the third linear motor 743 is connected with the connecting rod 742, and a push plate 75 is fixed on the connecting rod 742. In a specific implementation process, the push plate 75 includes a fixed plate 751, the fixed plate 751 is fixed to the connecting rod, a sliding rod 752 is disposed on the fixed plate 751, a strong spring 753 is sleeved on the sliding rod 752, and a sliding plate 754 is slidably connected to the sliding rod 752.

Place and be provided with negative pressure chamber 511 in the platform 51, negative pressure chamber 511 top sets up and runs through place platform 51's negative suction hole 512, the negative suction hole 512 tip sets up ball valve 513, negative pressure chamber 511 intercommunication negative pressure machine 514, negative pressure machine 514 set up in board 1. Guide plates 61 are respectively arranged on the feeding belt 6 corresponding to the two limit plates 54.

The end part of the machine table 1 is provided with a CCD imaging camera 9, and the CCD imaging camera 9 is over against the feeding belt at the lower position of the jig.

The utility model provides a brake block automatic processing equipment theory of operation as follows:

during machining, a brake pad to be machined is sent to the placing table 51 from the feeding belt 6 on the upper position of the jig 5, at this time, the lifting rod 74 is in an extension state, the controller 2 controls the linear motor 73 to rotate so as to move the slider 72 to the brake pad, the controller 2 controls the third linear motor 743 to rotate, the connecting rod 742 descends, the sliding plate 754 descends to push the brake pad, the controller 2 controls the linear motor 73 to rotate so as to enable the slider 72 to move towards the jig 5, the brake pad pushed by the sliding plate 754 is guided by the guide plate 61 on the feeding belt 6 to move between the two limiting plates 54, the first air cylinder 52 and the second air cylinder 56 are in an extension state, the limiting plates 57 limit the brake pad, the strong spring 753 plays a role in buffering, and the collision is avoided, the controller 2 controls the first cylinder 52 to shorten, the pressing block 55 descends to press the brake pad, the controller 2 controls the ball valve 513 to be opened, so that the negative suction hole 512 is communicated with the negative pressure machine 514, the brake pad is further fixed, the controller 2 controls the main shaft 3 to mill the groove by the cutter 31 for milling the groove, the controller 2 controls the main shaft 3 to move to the tool changing frame 8, the spindle 3 is lowered to place a tool for milling grooves on the tool holder 82, the spindle 3 is moved, aligning a tool for drilling, moving the spindle 3 to mount the tool 31 for drilling on the spindle 3, the controller 2 controls the spindle 3 to move to a proper position to drill the brake pad, and in the process, the controller 2 controls the stepping motor 4 to rotate the placing table 51, so that different positions of the brake pad are aligned with the spindle 3; after the machining is completed, the controller 2 controls the placing table 51 to reset, the controller 2 controls the first air cylinder 52 to extend, the pressing block 55 no longer presses a brake pad, the controller 2 controls the second air cylinder 56 to shorten, the limiting block 57 no longer blocks the brake pad, the controller 2 controls the ball valve 513 to close, the controller 2 controls the sliding block 72 to continue sliding, so that the sliding plate 754 pushes the brake pad to move from the placing table 51 to another feeding belt 6, the feeding belt 6 brings the brake pad to the CCD imaging camera 9 for taking a picture, the CCD imaging camera 9 sends the picture to the controller 2, the controller 2 detects the sizes of a limiting groove and a mounting hole to be machined according to the picture, when the size of the limiting groove or the mounting hole is not qualified, the controller 2 controls the corresponding motor 84 to rotate during tool changing, so that the tool holder 82 slides along the pocket 83 and a new tool placed on the tool holder 82 is aligned with the spindle 3, thereby replacing the new tool.

The utility model provides a brake block automatic processing equipment is through one pay-off area 6 with go up unloading mechanism 7 and remove the brake block of waiting to process pass through on the tool 5 controller 2 control the spacing groove and the mounting hole of 3 motion processing brake blocks of main shaft, through go up unloading mechanism 7 and another pay-off area 6 will process the brake block follow the tool 5 moves down, realizes brake block automated processing, and production efficiency is high, recruitment cost reduction. In the machining process, the main shaft 3 carries out tool changing through the tool changing frame 8, and a limit groove and a mounting hole are machined through one main shaft 3 in a tool changing mode; the brake pad can be accurately moved to the position fixed by the placing table 51 through the limiting plate 54 and the limiting block 57, then the limiting plate 54 moves downwards to drive the pressing block 55 to press and fix the brake pad on the placing table 51, so that the machining precision of the positions of the brake pad limiting groove and the mounting hole is ensured, the brake pad is adsorbed on the placing table 51 through the negative suction hole, and the fixation firmness of the brake pad is further ensured; two cutter 31 supports are arranged on the cutter changing frame 8, and cutters 31 for milling limit grooves and drilling holes are respectively placed, so that the cutter changing is convenient; the guide plate 61 can guide the brake pad pushed by the loading and unloading mechanism 7 to move between the limit plates 54, so that the processing flow is smooth; the CCD imaging camera 9 can photograph the processed brake pad, the controller 2 measures the sizes of the limiting groove and the mounting hole according to the photograph, and the brake pad processing disqualification caused by overlarge cutter pendulum due to abrasion of the cutter 31 or incorrect installation of the cutter 31 is found in time through whether the sizes are qualified or not, and is automatically solved through cutter replacement; the controller 2 controls the movement of the cutter 31 holder by controlling the motor 84, and is matched with the spindle 3 to perform cutter changing operation, so that cutter changing is simple and convenient; the clamping groove 83 and the spring 85 arranged between the supporting frames 81 ensure that the main shaft 3 has a certain buffer space when being connected with the cutter 31, so that the occurrence of collision is avoided.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (8)

1. An automatic processing device for brake pads is characterized by comprising a machine table (1), wherein a controller (2) for controlling the automatic processing device for brake pads to operate is arranged on the machine table (1),

a gantry (11) is slidably arranged on the machine table (1), a main shaft (3) is vertically slidably arranged on the gantry (11), and a cutter (31) is detachably connected to the main shaft (3); a tool changing frame (8) is arranged on the machine table (1), and the tools (31) of different types are placed on the tool changing frame (8);

the automatic detection device is characterized in that a vertical and upward stepping motor (4) is embedded in the machine table (1), a jig (5) is fixed on an output shaft of the stepping motor (4), the jig (5) comprises a placing table (51), the placing table (51) is fixed on the stepping motor (4), two strip-shaped grooves are formed in the top of the placing table (51) along the length direction of the placing table (51), first air cylinders (52) are arranged in the two strip-shaped grooves respectively, limiting plates (54) are connected to the first air cylinders (52) respectively, pressing blocks (55) are arranged at the tops of the limiting plates (54), a second air cylinder (56) is fixed at one end of the top of the placing table (51), limiting blocks (57) are arranged at the end parts of the second air cylinders (56), a support (58) is arranged on the placing table (51), and a spray head (59) is arranged on the support (58), the two first air cylinders (52), the second air cylinder (56) and the spray head (59) are respectively communicated with an air pump (53) through an electric control valve, and the air pump (53) is arranged in the machine table (1);

the two ends of the placing table (51) are respectively provided with a feeding belt (6), one side of the placing table (51) is provided with a feeding and discharging mechanism (7), the feeding and discharging mechanism (7) comprises a sliding groove (71), a sliding block (72) is arranged on the sliding groove (71) in a sliding mode, the end portion of the sliding groove (71) is fixed with a linear motor (73), an output shaft of the linear motor (73) is connected with the sliding block (72), a lifting rod (74) is fixed to the top of the sliding block (72), and a pushing plate (75) is fixed to the lifting rod (74).

2. The automatic processing equipment for the brake pad according to claim 1, wherein the tool changing frame (8) comprises a support frame (81), the support frame (81) is fixed on the machine table (1) on the lower side of the portal frame (11), and two tool holders (82) are arranged on the support frame (81).

3. The automatic processing equipment of the brake pad according to claim 1, characterized in that a negative pressure cavity (511) is arranged in the placing table (51), a negative suction hole (512) penetrating through the placing table (51) is arranged at the top of the negative pressure cavity (511), a ball valve (513) is arranged at the end part of the negative suction hole (512), the negative pressure cavity (511) is communicated with a negative pressure machine (514), and the negative pressure machine (514) is arranged in the machine table (1).

4. The automatic processing equipment of the brake pad according to claim 1, characterized in that guide plates (61) are respectively arranged on the feeding belt (6) corresponding to the two limit plates (54).

5. The automatic processing device for the brake pad according to claim 1, characterized in that the push plate (75) comprises a fixed plate (751), a sliding rod (752) is arranged on the fixed plate (751), a strong spring (753) is sleeved on the sliding rod (752), and a sliding plate (754) is connected on the sliding rod (752) in a sliding manner.

6. The automatic processing equipment of the brake pad according to claim 1, characterized in that a CCD imaging camera (9) is arranged at the end of the machine table (1).

7. The automatic processing equipment for the brake pad according to claim 2, wherein two sets of clamping grooves (83) are arranged on the supporting frame (81), a cutter holder (82) is respectively connected to each set of clamping grooves (83) in a sliding manner, a rack is arranged on the side wall of each cutter holder (82), a motor (84) is arranged on the supporting frame (81) and corresponds to the rack (821) respectively, a gear (841) is arranged on an output shaft of the motor (84), and the gear (841) is in toothed connection with the rack (821).

8. The automatic processing equipment for the brake pad according to claim 7, characterized in that the clamping groove (83) is vertically and slidably connected to the supporting frame (81), and a spring (85) is arranged between the clamping groove (83) and the supporting frame (81).

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