CN214767040U - Saw blade automatic measuring machine - Google Patents

Abstract

The utility model discloses a saw bit automatic measuring machine, wherein, the on-line screen storage device comprises a base, the saw bit elevating system who is equipped with on the base, the saw bit that is equipped with on saw bit elevating system divides a mechanism, the portable saw bit placing mechanism that is equipped with on the base of saw bit elevating system one side, the measurement station mechanism that is equipped with on the base of portable saw bit placing mechanism one side, the portable finished product placing mechanism that is equipped with on the base of measuring station mechanism one side, the substandard product placing mechanism that is equipped with on portable finished product placing mechanism, and at saw bit elevating system, portable saw bit placing mechanism, the saw bit tongs mechanism that is equipped with on the base of measuring station mechanism and portable finished product placing mechanism with one side. The utility model discloses have the effect that measurement of efficiency is high and save the cost.

Description

Saw blade automatic measuring machine

Technical Field

The utility model relates to a saw bit is thick device field surely, in particular to saw bit automatic measuring machine.

Background

At present, the mode that the market carries out thickness detection to the metal saw bit that is processed is more traditional, mainly measures one by one through the manual work handheld micrometer, and above-mentioned measuring method is not only efficiency relatively slow, has increased the cost of measurement moreover, and it is exactly that metal saw bit has the potential safety hazard to workman measuring process, and metal saw bit is the easy fish tail workman of measuring in-process promptly.

SUMMERY OF THE UTILITY MODEL

In view of the above problem, an object of the present invention is to provide an automatic saw blade measuring machine with high measuring efficiency and cost saving.

For realizing the above-mentioned purpose, the utility model provides a pair of saw bit automatic measuring machine, wherein, the on-line screen storage device comprises a base, the saw bit elevating system who is equipped with on the base, the saw bit that is equipped with on saw bit elevating system divides a mechanism, the portable saw bit placing mechanism that is equipped with on the base of saw bit elevating system one side, the measurement station mechanism that is equipped with on the base of portable saw bit placing mechanism one side, the portable finished product placing mechanism that is equipped with on the base of measurement station mechanism one side, the substandard product placing mechanism that is equipped with on portable finished product placing mechanism, and at saw bit elevating system, portable saw bit placing mechanism, the saw bit tongs mechanism that is equipped with on the base of measurement station mechanism and portable finished product placing mechanism with one side.

The saw blade lifting mechanism comprises a vertical frame arranged on a base, a first motor arranged at the top of the vertical frame, a first lead screw extending downwards and arranged on the first motor, a moving block connected with the first lead screw and arranged on the first lead screw, a supporting platform extending out of the vertical frame and arranged on the moving block, first guide rails for guiding the supporting platform to lift and fall and a fork frame extending outwards and arranged on the supporting platform.

The saw blade separating mechanism comprises a transverse translation seat arranged on one side of a supporting platform, a first belt pulley arranged on one side of the transverse translation seat, a first transmission belt arranged on the first belt pulley, an upper fixing block and a lower fixing block which are respectively arranged above and below the first transmission belt, a first clamping arm connected with the upper fixing block and a second clamping arm connected with the lower fixing block which are arranged on one side of the supporting platform, a first air cylinder connected with the lower fixing block and a first magnetic block and a second magnetic block which are respectively arranged at the inner sides of the first clamping arm and the second clamping arm, wherein the first air cylinder is arranged on the transverse translation seat below the first transmission belt;

the movable saw blade placing mechanism comprises a first longitudinal frame arranged on the base, a first sliding rail arranged on the first longitudinal frame, a first sliding table arranged on the first sliding rail in a sliding mode, a second air cylinder connected with the first sliding table and arranged on the first longitudinal frame at the bottom of the first sliding table, a guide pipe extending upwards is arranged on the first sliding table, a supporting plate sleeved on the guide pipe, a limiting cushion block with a groove and a limiting block corresponding to the position of the limiting cushion block are arranged on the inner side of the supporting plate on the first sliding table between the supporting plate and the first sliding table, and a saw blade arranged on the supporting plate through the guide pipe is penetrated.

The position and height of the limiting block correspond to the fork.

The measuring station mechanism comprises a second longitudinal frame arranged on the base on one side of the first longitudinal frame, a first workbench arranged on the second longitudinal frame, a placing frame for placing the single saw blade arranged on the first workbench, a thickness gauge corresponding to the single saw blade arranged on the first workbench on one side of the placing frame, a second motor arranged on the first workbench on one side of the thickness gauge, a second lead screw arranged on the second motor, and a connecting block connected with the thickness gauge arranged on the second lead screw.

The movable finished product placing mechanism comprises a third longitudinal frame arranged on the base on one side of the second longitudinal frame, a second sliding rail arranged on the third longitudinal frame, a second sliding table arranged on the second sliding rail in a sliding mode, a second air cylinder arranged on the third longitudinal frame at the bottom of the second sliding table and connected with the second sliding table at the end part, and a first gasket for placing a saw blade.

The substandard product placing mechanism comprises a fourth longitudinal frame arranged on one side of the third longitudinal frame and a second gasket arranged on the fourth longitudinal frame.

The saw blade gripper mechanism comprises a cross saw blade lifting mechanism, a movable saw blade placing mechanism, a portal frame, a second belt pulley, a second transmission belt, a third motor, a second guide rail, a first translation frame, a second translation frame, a connecting rod, a first vertical plate and a second vertical plate, a first vertical air cylinder and a second vertical air cylinder, a first lifting frame and a second lifting frame, wherein the portal frame is arranged on a base on the same side of the measurement station mechanism and the movable finished product placing mechanism, the second belt pulley is arranged at two ends of the top of the portal frame respectively, the second transmission belt is arranged on the second belt pulley, the third motor is arranged on the second belt pulley, the second guide rail is arranged below the second belt pulley, the first translation frame and the second translation frame are arranged on the same side of the second belt pulley, the connecting rod is arranged between the first translation frame and the second translation frame, the first vertical plate and the second vertical plate are arranged on the first translation frame and the second translation frame respectively, the first vertical air cylinder and the second vertical air cylinder are arranged on the first vertical plate respectively, the first lifting frame and the second lifting frame are arranged on the first vertical air cylinder and the second lifting frame, The first lifting frame and the second lifting frame are respectively provided with a first vertical guide rail and a second vertical guide rail which are used for guiding the first lifting frame and the second lifting frame to move up and down, the first lifting frame and the second lifting frame are respectively provided with a first fixing seat and a second fixing seat which are perpendicular to the first lifting frame and the second lifting frame, and the first fixing seat and the second fixing seat are respectively provided with a first electromagnetic suction block and a second electromagnetic suction block which are used for sucking or putting down a saw blade.

In some embodiments, the yoke is a U-shaped plate.

The beneficial effects of the utility model are that have the effect that measurement of efficiency is high and save the cost. During operation, workers for placing and taking the saw blade are respectively arranged in front of and behind the first longitudinal frame. In an initial state, 200 saw blades are firstly put on a supporting plate of a guide pipe, then a second air cylinder is used for moving a first sliding table to a position corresponding to a saw blade gripper mechanism, a fork frame moves downwards to the lower portion of the supporting plate and is integrally supported with the saw blades, a first magnetic block and a second magnetic block are inwards tightened under the action of a first clamping arm and a second clamping arm, and a magnetic force distractor adopts the working principle that steel plates (saw blades) needing to be distracted are magnetized in the same polarity under the action of an ultra-strong magnetic field of the magnetic force distractor, so that mutual repulsive force is generated among multiple layers of steel plates (saw blades) to achieve distraction, and the single saw blades are obtained. After the movable finished product placing mechanism is translated, the first electromagnetic attraction block is used for grabbing the saw blade, the saw blade is placed on the measuring station mechanism, the thickness gauge is used for moving forwards, four positioning points are measured on the saw blade sequentially from the inner diameter to the outer diameter, whether the four positioning points are uniform or not is measured, and then the saw blade is returned. After the detection is finished, the first electromagnetic attraction block grabs the next saw blade to be detected, and meanwhile, the second electromagnetic attraction block grabs the saw blade which is qualified through detection; and translating, placing the saw blade to be measured on the measuring station mechanism, and placing the qualified saw blade on a second sliding table of the movable finished product placing mechanism. If unqualified saw blades are measured on the measuring station mechanism, the first electromagnetic attraction block is used for grabbing and directly horizontally moving the saw blades to be placed on a fourth longitudinal frame of the inferior-quality product placing mechanism, and the operation is repeated. Not only the measuring speed is improved, but also the measurement is even and very high, and the manual measurement is omitted, thereby realizing the effects of high measuring efficiency and cost saving.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the blade lifting mechanism and the blade separating mechanism shown in FIG. 1;

FIG. 3 is a schematic structural view of the saw blade lifting mechanism and the saw blade separating mechanism shown in FIG. 1 from another view;

FIG. 4 is a schematic structural view of the mobile blade placement mechanism of FIG. 1;

FIG. 5 is a schematic view of the movable blade placement mechanism of FIG. 1 from another perspective;

FIG. 6 is a schematic structural view of the measuring station mechanism shown in FIG. 1;

FIG. 7 is a schematic structural view of the mobile finished product placement mechanism and the defective product placement mechanism shown in FIG. 1;

fig. 8 is a schematic view of the mobile product placement mechanism and the defective product placement mechanism of fig. 1 from another perspective.

FIG. 9 is a schematic structural view of the blade gripper mechanism of FIG. 1;

fig. 10 is a schematic view of the saw blade gripper mechanism of fig. 1 from another perspective.

Detailed Description

The following describes the present invention in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 10, an automatic measuring machine for a saw blade includes a base 01, a saw blade lifting mechanism 02 provided on the base 01, a saw blade separating mechanism 03 provided on the saw blade lifting mechanism 02, a movable saw blade placing mechanism 04 provided on the base 01 on the side of the saw blade lifting mechanism 02, a measuring station mechanism 05 provided on the base 01 on the side of the movable saw blade placing mechanism 04, a movable finished product placing mechanism 06 provided on the base 01 on the side of the measuring station mechanism 05, a defective product placing mechanism 07 provided on the movable finished product placing mechanism 06, and a saw blade gripper mechanism 08 provided on the base 01 on the same side of the saw blade lifting mechanism 02, the movable saw blade placing mechanism 04, the measuring station mechanism 05, and the movable finished product placing mechanism 06.

The saw blade lifting mechanism 02 includes an upright frame 21 provided on the base 01, a first motor 22 provided on the top of the upright frame 21, a first lead screw 23 provided on the first motor 22 and extending downward, a moving block 24 provided on the first lead screw 23 and connected to the first lead screw 23, a saddle 25 provided on the moving block 24 and extending outward of the upright frame 21, first guide rails 26 provided on the upright frame 21 on both sides of the saddle 25 and guiding the saddle 25 to lift, and a fork 27 provided on the saddle 25 and extending outward.

The saw blade separating mechanism 03 comprises a transverse translation seat 31 arranged on one side of the saddle 25, a first belt pulley 32 arranged on one side of the transverse translation seat 31, a first transmission belt 33 arranged on the first belt pulley 32, an upper fixing block 34 and a lower fixing block 35 which are respectively arranged above and below the first transmission belt 33, a first clamping arm 36 connected with the upper fixing block 34 and a second clamping arm 37 connected with the lower fixing block 35 which are arranged on one side of the saddle 25, a first air cylinder 38 connected with the lower fixing block 35 which is arranged on the transverse translation seat 31 below the first transmission belt 33, and a first magnetic block 39 and a second magnetic block which are respectively arranged on the inner sides of the first clamping arm 36 and the second clamping arm 37;

the movable saw blade placing mechanism 04 comprises a first longitudinal frame 41 arranged on the base 01, a first sliding rail 42 arranged on the first longitudinal frame 41, a first sliding table 43 arranged on the first sliding rail 42 and sliding on the first sliding rail 42, a second air cylinder 44 arranged on the first longitudinal frame 41 at the bottom of the first sliding table 43 and connected with the first sliding table 43 at the end part, a guide pipe 45 extending upwards arranged on the first sliding table 43, a supporting plate 46 sleeved on the guide pipe 45, a limiting cushion block 47 with a groove arranged on the first sliding table 43 between the supporting plate 46 and the first sliding table 43, a limiting block 48 arranged on the inner side of the supporting plate 46 and corresponding to the limiting cushion block 47, and a saw blade penetrating through the guide pipe 45 and placed on the supporting plate 46.

The position and height of the stopper 48 correspond to the yoke 27.

The measuring station mechanism 05 comprises a second longitudinal frame 51 arranged on the base 01 on one side of the first longitudinal frame 41, a first workbench 52 arranged on the second longitudinal frame 51, a placing frame 53 arranged on the first workbench 52 and used for placing a single saw blade, a thickness gauge 54 corresponding to the single saw blade and arranged on the first workbench 52 on one side of the placing frame 53, a second motor 55 arranged on the first workbench 52 on one side of the thickness gauge 54, a second screw rod 56 arranged on the second motor 55, and a connecting block 57 connected with the thickness gauge 54 and arranged on the second screw rod 56.

The movable finished product placing mechanism 06 comprises a third longitudinal frame 61 arranged on the base 01 on one side of the second longitudinal frame 51, a second slide rail 62 arranged on the third longitudinal frame 61, a second sliding table 63 arranged on the second slide rail 62 and sliding on the second slide rail 62, a third cylinder 65 arranged on the third longitudinal frame 61 at the bottom of the second sliding table 63 and connected with the second sliding table 63 at the end part, and a first gasket 64 arranged on the second sliding table 63 and used for placing a saw blade.

The defective product placing mechanism 07 includes a fourth longitudinal frame 71 provided on one side of the third longitudinal frame 61, and a second spacer 72 provided on the fourth longitudinal frame 71.

The saw blade gripper mechanism 08 comprises a cross saw blade lifting mechanism 02, a movable saw blade placing mechanism 04, a measuring station mechanism 05 and a movable finished product placing mechanism 06, a portal frame 81 arranged on a base 01 on the same side, second belt pulleys 82 arranged at two ends of the top of the portal frame 81, a second conveying belt 83 arranged on the second belt pulleys 82, a third motor 84 arranged on the second belt pulleys 82, a second guide rail 85 arranged on the portal frame 81 below the second belt pulleys 82, a first translation frame 86 and a second translation frame 87 arranged on the second guide rail 85 on the same side as the second belt pulleys 82, a connecting rod 88 arranged between the first translation frame 86 and the second translation frame 87, a first vertical plate 89 and a second vertical plate 810 arranged on the first translation frame 86 and the second translation frame 87 respectively, a first vertical cylinder 811 and a second vertical cylinder 812 arranged on the first vertical plate 89 and the second vertical plate 810 respectively, The saw blade lifting mechanism comprises a first lifting frame 813 and a second lifting frame 814 arranged on a first vertical cylinder 811 and a second vertical cylinder 812, a first vertical guide rail 815 and a second vertical guide rail 816 which guide the first lifting frame 813 and the second lifting frame 814 to move up and down are respectively arranged on the first lifting frame 813 and the second lifting frame 814, a first fixing seat 817 and a second fixing seat 818 which are perpendicular to the first lifting frame 813 and the second lifting frame 814 are respectively arranged on the first lifting frame 813 and the second lifting frame 814, and a first electromagnetic absorption block 819 and a second electromagnetic absorption block 820 which absorb or put down a saw blade are respectively arranged on the first fixing seat 817 and the second fixing seat 818.

Fork 27 is a U-shaped plate.

In operation, workers for placing and taking the saw blade are respectively arranged in front of and behind the first longitudinal frame 41. In an initial state, 200 saw blades are firstly put on a supporting plate 46 of a guide pipe 45, then a second air cylinder 44 is used for moving a first sliding table 43 to a position corresponding to a saw blade gripping mechanism 08, a fork frame 27 is moved downwards to the lower portion of the supporting plate 46 and is integrally supported with the saw blades, a first magnetic block 39 and a second magnetic block 30 are inwards tightened under the action of a first clamping arm 36 and a second clamping arm 37, and a magnetic force splitter adopts the working principle that steel plates (saw blades) to be split are magnetized in the same polarity under the action of a super-strong magnetic field of the magnetic force splitter, so that mutual repulsive force is generated among multiple layers of steel plates (saw blades) to achieve splitting, and the single saw blades are obtained. After the movable finished product placing mechanism 06 translates, the first electromagnetic absorption block 819 is used to capture the saw blade, the saw blade is placed on the measuring station mechanism 05, the thickness gauge 54 moves forwards, four positioning points are measured on the saw blade sequentially from the inner diameter to the outer diameter, whether the four positioning points are uniform or not is determined, and then the saw blade returns. After the saw blade detection is completed, the first electromagnetic absorption block 819 further grabs the next saw blade to be detected, and meanwhile, the second electromagnetic absorption block 820 grabs the saw blade which is qualified through detection; and then, the saw blade to be measured is placed on the measuring station mechanism 05, and the qualified saw blade is placed on the second sliding table 63 of the movable finished product placing mechanism 06. If an unqualified saw blade is measured on the measuring station mechanism 05, the saw blade is grabbed by the first electromagnetic chuck 819 and directly translated to the fourth longitudinal frame of the defective placement mechanism 07, and the process is repeated. Not only the measuring speed is improved, but also the measurement is even and very high, and the manual measurement is omitted, thereby realizing the effects of high measuring efficiency and cost saving.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (2)

1. An automatic measuring machine for saw blades is characterized by comprising a base, a saw blade lifting mechanism arranged on the base, a saw blade separating mechanism arranged on the saw blade lifting mechanism, a movable saw blade placing mechanism arranged on the base on one side of the saw blade lifting mechanism, a measuring station mechanism arranged on the base on one side of the movable saw blade placing mechanism, a movable finished product placing mechanism arranged on the base on one side of the measuring station mechanism, a defective product placing mechanism arranged on the movable finished product placing mechanism, and a saw blade gripper mechanism arranged on the base on the same side of the saw blade lifting mechanism, the movable saw blade placing mechanism, the measuring station mechanism and the movable finished product placing mechanism;

the saw blade lifting mechanism comprises a vertical frame arranged on a base, a first motor arranged at the top of the vertical frame, a first lead screw arranged on the first motor and extending downwards, a moving block arranged on the first lead screw and connected with the first lead screw, a supporting platform arranged on the moving block and extending out of the vertical frame, first guide rails arranged on the vertical frame on two sides of the supporting platform and used for guiding the supporting platform to lift, and a fork frame arranged on the supporting platform and extending outwards;

the saw blade separating mechanism comprises a transverse translation seat arranged on one side of a supporting platform, a first belt pulley arranged on one side of the transverse translation seat, a first transmission belt arranged on the first belt pulley, an upper fixing block and a lower fixing block which are respectively arranged above and below the first transmission belt, a first clamping arm connected with the upper fixing block and a second clamping arm connected with the lower fixing block which are arranged on one side of the supporting platform, a first air cylinder connected with the lower fixing block which is arranged on the transverse translation seat below the first transmission belt, and a first magnetic block and a second magnetic block which are respectively arranged at the inner sides of the first clamping arm and the second clamping arm;

the movable saw blade placing mechanism comprises a first longitudinal frame arranged on a base, a first sliding rail arranged on the first longitudinal frame, a first sliding table arranged on the first sliding rail and used for sliding the first sliding rail, a second air cylinder arranged on the first longitudinal frame at the bottom of the first sliding table and connected with the first sliding table at the end part, a guide pipe extending upwards, a supporting plate sleeved on the guide pipe, a limiting cushion block with a groove arranged on the first sliding table between the supporting plate and the first sliding table, a limiting block arranged on the inner side of the supporting plate and corresponding to the limiting cushion block, and a saw blade arranged on the supporting plate by penetrating the guide pipe;

the position and the height of the limiting block correspond to the fork;

the measuring station mechanism comprises a second longitudinal frame arranged on a base on one side of the first longitudinal frame, a first workbench arranged on the second longitudinal frame, a placing frame for placing a single saw blade arranged on the first workbench, a thickness gauge corresponding to the single saw blade arranged on the first workbench on one side of the placing frame, a second motor arranged on the first workbench on one side of the thickness gauge, a second screw rod arranged on the second motor, and a connecting block connected with the thickness gauge arranged on the second screw rod;

the movable finished product placing mechanism comprises a third longitudinal frame arranged on the base on one side of the second longitudinal frame, a second sliding rail arranged on the third longitudinal frame, a second sliding table arranged on the second sliding rail and used for sliding the second sliding rail, a second air cylinder arranged on the third longitudinal frame at the bottom of the second sliding table and provided with an end part connected with the second sliding table, and a first gasket for placing a saw blade;

the inferior-quality product placing mechanism comprises a fourth longitudinal frame arranged on one side of the third longitudinal frame and a second gasket arranged on the fourth longitudinal frame;

the saw blade gripper mechanism comprises a cross saw blade lifting mechanism, a movable saw blade placing mechanism, a portal frame, a second belt pulley, a second transmission belt, a third motor, a second guide rail, a first translation frame, a second translation frame, a connecting rod, a first vertical plate and a second vertical plate, a first vertical air cylinder and a second vertical air cylinder, a first lifting frame and a second lifting frame, wherein the portal frame is arranged on a base on the same side of the measurement station mechanism and the movable finished product placing mechanism, the second belt pulley is arranged at two ends of the top of the portal frame respectively, the second transmission belt is arranged on the second belt pulley, the third motor is arranged on the second belt pulley, the second guide rail is arranged below the second belt pulley, the first translation frame and the second translation frame are arranged on the same side of the second belt pulley, the connecting rod is arranged between the first translation frame and the second translation frame, the first vertical plate and the second vertical plate are arranged on the first translation frame and the second translation frame respectively, the first vertical air cylinder and the second vertical air cylinder are arranged on the first vertical plate respectively, the first lifting frame and the second lifting frame are arranged on the first vertical air cylinder, The first lifting frame and the second lifting frame are respectively provided with a first vertical guide rail and a second vertical guide rail which are used for guiding the first lifting frame and the second lifting frame to move up and down, the first lifting frame and the second lifting frame are respectively provided with a first fixing seat and a second fixing seat which are perpendicular to the first lifting frame and the second lifting frame, and the first fixing seat and the second fixing seat are respectively provided with a first electromagnetic suction block and a second electromagnetic suction block which are used for sucking or putting down a saw blade.

2. An automatic saw blade measuring machine according to claim 1, wherein said fork is a U-shaped plate.

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