CN212314848U - Quality inspection conveying device for automobile crankshaft - Google Patents

Abstract

The utility model discloses a quality inspection conveyor of car bent axle, draw conveyor, quality inspection platform, lift conveyor, first move and carry conveyor, buffer memory conveyor, second to move including material loading conveyor, side and carry conveyor, unloading conveyor and electrically controlled device. The quality inspection conveying device for the automobile crankshafts, provided by the utility model, has high automation degree, is convenient for quality inspectors to perform appearance quality inspection on each automobile crankshaft, reduces the labor intensity of the quality inspectors, and avoids substandard products from flowing into the market; and the reasonable setting of each device realizes the mixed detection of two types or more than two types of automobile crankshafts and the classification and caching of qualified products, thereby improving the inspection applicability and flexibility of the quality conveying device.

Description

Quality inspection conveying device for automobile crankshaft

Technical Field

The utility model relates to a car bent axle quality testing equipment field, in particular to car bent axle's quality testing conveyor.

Background

The automobile crankshaft is an important part of an automobile engine, and the automobile crankshaft finished product which is just produced cannot be directly loaded because the quality inspection is not carried out; the finished automobile crankshaft products can be stored in a warehouse for quality inspection, then the finished automobile crankshaft products are subjected to appearance quality inspection through a quality inspection conveying device, and the finished automobile crankshaft products are judged to be qualified and then sent to a loading position through a transport trolley.

The existing quality inspection carrying device mainly comprises a feeding conveying line, a quality inspection platform and a discharging conveying line. In order to facilitate conveying, finished automobile crankshaft products (namely workpieces) are placed on a tray; the finished tray of automobile crankshaft will be carried to the material loading transfer chain and is carried the quality control platform and carry out appearance quality and detect, if the finished product of automobile crankshaft judges qualified back, the tray that carries the certified products can carry and carry out the buffer memory on the unloading transfer chain, carries to loading department by the floor truck at last, and the empty tray that produces after the loading is accomplished can be sent back to the material loading transfer chain by the floor truck. The prior quality inspection conveying device has the following defects: 1. during working, only the quality detection can be realized for the automobile crankshafts of a single type, and the mixed detection and classified storage of the automobile crankshafts of two types or more than two types cannot be realized, so that the flexibility and the applicability are low; 2. the existing manual quality inspection platform has low automation degree, an operator needs to convey workpieces to the manual quality inspection platform one by one in a manual conveying mode, the workpieces need to be conveyed to a blanking conveying line again after quality inspection is finished, and the operation is time-consuming and labor-consuming; 3. the unloading transfer chain does not have empty tray and returns the function, can only rely on travelling bogie to send back the material loading transfer chain.

Therefore, improvements and improvements are needed in the conventional quality inspection and transportation apparatus.

SUMMERY OF THE UTILITY MODEL

In view of above-mentioned prior art's weak point, the utility model aims at providing a quality testing conveyor of automobile crankshaft aims at solving among the prior art during operation and can only carry out the quality testing to the automobile crankshaft of single model, can not realize that the automobile crankshaft more than two types or two types mixes and detects and classified storage.

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

a quality inspection conveying device for an automobile crankshaft comprises a feeding conveying device, a side pulling conveying device, a quality inspection platform, a lifting conveying device, a first transfer conveying device, a buffer conveying device, a second transfer conveying device, a blanking conveying device and an electric control device; the feeding and conveying device is used for identifying the type and the placing posture of the tray and conveying the tray loaded with the workpiece forwards; the side pulling conveying device is used for guiding the tray to be pulled to the quality inspection platform in the side direction; the quality inspection platform is used for carrying out qualified inspection on the workpiece; the lifting conveying device is used for carrying out pairing identification on qualified products and the trays and conveying the trays with the qualified products to the first transfer conveying device; the buffer conveying devices are arranged in parallel, and each buffer conveying device can buffer a plurality of qualified products; the first transfer conveying device is used for conveying the trays with the qualified products to the corresponding cache conveying devices to realize classified cache; the second transfer conveying device is used for conveying the trays with the qualified products in the buffer conveying device to the blanking conveying device; the blanking conveying device is used for conveying the tray loaded with the qualified products to the carrying trolley; the feeding conveying device, the side pulling conveying device, the quality inspection platform, the lifting conveying device, the first transfer conveying device, the buffer conveying device, the second transfer conveying device and the blanking conveying device are electrically connected with the electric control device, and the electric control device controls the feeding conveying device, the side pulling conveying device, the quality inspection platform, the lifting conveying device, the first transfer conveying device, the buffer conveying device, the second transfer conveying device and the blanking conveying device to work.

The feeding and conveying device comprises a first rack, a first roller way conveying mechanism arranged on the first rack, and a first induction assembly and a first blocking mechanism which are arranged on the first roller way conveying mechanism; each tray is provided with an identification module arranged on a preset position, and the first induction assembly is used for inducing the arrangement position of the identification module on the tray and feeding induction signals back to the electric control device; the first blocking mechanism is used for blocking the tray from being conveyed forwards.

The side-pulling conveying device comprises a second rack, a second roller way conveying mechanism arranged on the second rack, a flange arranged on the second roller way conveying mechanism, a roller group and a lifting mechanism used for driving the roller group to lift, wherein the roller group extends towards the direction of the quality inspection table.

The quality inspection platform comprises a third rack, a transportation panel and a bottom plate which are arranged on the third rack, and a first lifting mechanism arranged on the bottom plate, wherein the transportation panel is positioned above the bottom plate, the first lifting mechanism comprises a mounting plate, a lifting arm arranged on the mounting plate, and a first cylinder used for driving the mounting plate to vertically move relative to the bottom plate, the lifting arm is used for lifting a workpiece placed on the transportation panel, the lifting arm comprises a support arm fixedly arranged on the mounting plate and a positioning structure arranged on the free end of the support arm, the positioning structure comprises two positioning wheels fixedly arranged on the side of the support arm, and a V-shaped receiving station is formed between the two positioning wheels.

The mounting plate is provided with a position adjusting device for driving the lifting arm to transversely move, and the position adjusting device comprises a guide rail, a sliding block and a second air cylinder; the guide rail extends along the axial length direction of the workpiece, the bottom of the support arm is connected with the guide rail in a sliding mode through a sliding block, and the second cylinder is used for driving the support arm and the sliding block to move.

The lifting conveying device comprises a lifting frame, a bottom frame, a second lifting mechanism arranged on the bottom frame and a third roller way conveying mechanism arranged on the lifting frame, wherein the second lifting mechanism is used for driving the lifting frame to vertically move relative to the bottom frame; the third roller conveying mechanism is provided with a lifting thrust mechanism, the third roller conveying mechanism is provided with a second induction assembly and a third induction assembly, and the second induction assembly is used for inducing the arrangement position of the identification module on the tray and feeding back an induction signal to the electric control device; the third sensing assembly is used for identifying the type of the workpiece; the lifting thrust mechanism is used for preventing the tray from being conveyed forwards.

The first transfer conveying device and the second transfer conveying device respectively comprise a base, a sliding frame arranged at the top of the base in a sliding mode, a transfer upper roller conveying mechanism, a transfer lower roller conveying mechanism and a sliding frame driving mechanism, wherein the transfer upper roller conveying mechanism and the transfer lower roller conveying mechanism are arranged on the sliding frame; the shifting upper roller way conveying mechanism is positioned above the shifting lower roller way conveying mechanism, a second blocking mechanism for blocking the forward conveying of the tray is arranged on the shifting upper roller way conveying mechanism of the first shifting conveying device, and a third blocking mechanism for blocking the forward conveying of the tray is arranged on the shifting upper roller way conveying mechanism of the second shifting conveying device; the sliding frame driving mechanism is used for driving the sliding frame to horizontally move towards the direction vertical to the workpiece conveying direction.

Every buffer memory conveyor includes the fourth frame, sets up roll table conveying mechanism, buffer memory lower roll table conveying mechanism on the buffer memory in the fourth frame, roll table conveying mechanism is located buffer memory lower roll table conveying mechanism's top on the buffer memory, be equipped with a plurality of last buffer memory stations on the roll table conveying mechanism on the buffer memory, the last buffer memory station that is closest to buffer memory last roll table conveying mechanism output is first buffer memory station, and both sides are equipped with fourth blocking mechanism and fifth blocking mechanism respectively around first buffer memory station, and fourth blocking mechanism is used for blockking the tray on the first buffer memory station and carries forward, fifth blocking mechanism is used for blockking the tray that is located the last buffer memory station of first buffer memory station rear side and carries forward.

The blanking conveying device comprises a fifth rack, a blanking roller conveying mechanism and a tray returning roller conveying mechanism, wherein the blanking roller conveying mechanism and the tray returning roller conveying mechanism are arranged on the fifth rack; the discharging roller way conveying mechanism is located above the tray returning roller way conveying mechanism, and a sixth blocking mechanism used for blocking the tray from being conveyed forwards is arranged at the output end of the discharging roller way conveying mechanism.

A fourth induction assembly and a seventh blocking mechanism are arranged on the tray returning roller way conveying mechanism; the fourth sensing assembly is used for sensing the setting position of the identification module on the empty tray and feeding back a sensing signal to the electric control device; and the seventh blocking mechanism is used for blocking the empty tray from being conveyed forwards.

Has the advantages that:

the utility model provides a quality inspection conveyor of automobile crankshafts, during operation, empty trays can be conveyed to a feeding conveyor, the feeding conveyor senses the empty trays and feeds back sensing signals to an electric control device, and the electric control device analyzes the types and the placing postures of the trays according to the sensing signals; the electric control device controls the carrying manipulator to carry the automobile crankshaft finished products with corresponding models to the empty tray according to the type of the tray; the quality inspector pulls the tray with the workpiece to the quality inspection platform for appearance inspection, the tray with the qualified product is pushed to the lifting conveying device, the lifting conveying device carries out pairing identification on the qualified product and the tray, and if the tray is correctly paired with the qualified product; the lifting conveying device conveys the tray loaded with the qualified products to the first transfer conveying device; and the first transfer conveying device conveys the trays with the qualified products to the corresponding cache conveying devices according to the types of the qualified products to realize classification cache. Therefore, the quality inspection conveying device for the automobile crankshafts, provided by the utility model, has high automation degree, is convenient for quality inspectors to perform appearance quality inspection on each automobile crankshaft, reduces the labor intensity of the quality inspectors, and avoids defective products from flowing into the market; and the reasonable setting of each device realizes the mixed detection of two types or more than two types of automobile crankshafts and the classification and caching of qualified products, thereby improving the inspection applicability and flexibility of the quality conveying device.

Drawings

Fig. 1 is a perspective view of the quality inspection conveying device provided by the present invention.

Fig. 2 is a perspective view of the feeding conveyor in the quality inspection conveyor provided by the present invention.

Fig. 3 is a partially enlarged view of the region L in fig. 2.

Fig. 4 is a schematic structural view of a roller conveying mechanism in the quality inspection conveying device provided by the present invention.

Fig. 5 is a perspective view of a tray in the quality inspection conveying device provided by the present invention.

Fig. 6 is a top view of the first tray in the quality inspection conveying device provided by the present invention.

Fig. 7 is a plan view of the second tray in the quality inspection conveying apparatus according to the present invention.

Fig. 8 is a top view of the first tray on the feeding conveyor with correct posture in the quality inspection conveyor of the present invention.

Fig. 9 is a top view of the first tray placed on the feeding conveyor in the quality inspection conveyor of the present invention.

Fig. 10 is a top view of the second tray on the feeding conveyor with correct posture in the quality inspection conveyor of the present invention.

Fig. 11 is a top view of the second tray placed on the feeding conveyor in the quality inspection conveyor of the present invention.

Fig. 12 is a perspective view of a quality inspection table in the quality inspection conveying apparatus according to the present invention.

Fig. 13 is a perspective view of the quality inspection table for inspecting the workpiece in the quality inspection conveying apparatus of the present invention.

Fig. 14 is a perspective view of a lifting conveyor in the quality inspection conveyor according to the present invention.

Fig. 15 is a top view of the first tray on the lifting and conveying device with correct posture in the quality inspection and conveying device provided by the present invention.

Fig. 16 is a plan view of the first tray placed upside down on the lifting and conveying device in the quality inspection and conveying device provided by the present invention.

Fig. 17 is a top view of the second tray on the elevating conveyor device with correct posture in the quality inspection conveyor device of the present invention.

Fig. 18 is a top view of the second tray placed upside down on the lifting and conveying device in the quality inspection and conveying device provided by the present invention.

Fig. 19 is a perspective view of the first transfer conveyor and the second transfer conveyor in the quality inspection conveyor according to the present invention.

Fig. 20 is a perspective view of a buffer memory conveying device in the quality inspection conveying device provided by the present invention.

Fig. 21 is a partially enlarged view of the region S in fig. 20.

Fig. 22 is a top view of the roller conveying mechanism on the buffer memory in the quality inspection conveying device provided by the present invention.

Fig. 23 is a perspective view of the blanking conveying device in the quality inspection conveying device provided by the present invention.

Detailed Description

The utility model provides a quality control conveyor of car bent axle, for making the utility model discloses a purpose, technical scheme and effect are clearer, clear and definite, and it is right that the following refers to the drawing and the embodiment is lifted the utility model discloses further detailed description. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

As used herein, front means the direction in which each apparatus is moving forward, and front and back are reversed.

Referring to fig. 1-23, the present invention provides a quality inspection conveying device for automobile crankshafts, which includes a feeding conveying device a, a side-pulling conveying device B, a quality inspection table C, a lifting conveying device D, a first transfer conveying device E, a buffer conveying device F, a second transfer conveying device G, a blanking conveying device H and an electric control device; the feeding conveying device A is used for identifying the type and the placing posture of the tray and conveying the tray loaded with the workpiece forwards; the side-pulling conveying device B is used for guiding the tray to be laterally pulled to the quality inspection platform C; the quality inspection platform C is used for carrying out qualified inspection on the workpiece; the lifting conveying device D is used for carrying out pairing identification on qualified products and trays and conveying the trays with the qualified products to the first transfer conveying device E, the cache conveying devices F are provided with two or more cache conveying devices, the cache conveying devices F are arranged in parallel, and the cache conveying devices F can cache a plurality of qualified products; the first transfer conveying device E is used for conveying the trays with the qualified products to the corresponding cache conveying devices to realize classified cache; the second transfer conveying device G is used for conveying the trays with the qualified products in the buffer conveying device F to the blanking conveying device H; the blanking conveying device H is used for conveying the tray loaded with the qualified products to the carrying trolley; the feeding conveying device A, the side pulling conveying device B, the quality inspection platform C, the lifting conveying device D, the first transfer conveying device E, the buffer conveying device F, the second transfer conveying device G and the blanking conveying device H are electrically connected with the electric control device, and the electric control device controls the feeding conveying device A, the side pulling conveying device B, the quality inspection platform C, the buffer conveying device F, the second transfer conveying device G and the blanking conveying device H to work.

When the automatic tray placing device works, empty trays are conveyed to the feeding conveying device A, the feeding conveying device A senses the empty trays and feeds back sensing signals to the electric control device, and the electric control device analyzes the types and placing postures of the trays according to the sensing signals; if the placing posture is reversed, the electric control device gives a prompt to ensure that the quality inspector puts the empty tray right again. The electric control device controls the carrying manipulator to carry the automobile crankshaft finished products with corresponding models to an empty tray according to the types of the trays, then the tray loaded with the workpieces is conveyed to the side-pulling conveying device B, a quality inspector pulls the tray loaded with the workpieces to a quality inspection table to perform appearance inspection, and if the workpieces are not inspected, the quality inspector carries the workpieces to a non-qualified product storage rack; if the workpiece is detected to be qualified, the tray carrying the qualified products is pushed to a lifting conveying device D, the lifting conveying device D carries out pairing identification on the qualified products and the tray, and if the tray is matched with the type of the qualified products and the tray is placed in a correct posture; the lifting conveying device D conveys the trays loaded with the qualified products to a first transfer conveying device E; if the pairing of the tray and the qualified product is wrong, the quality inspector re-pairs the tray and the qualified product; the first transfer conveying device E conveys the trays with the qualified products to the corresponding cache conveying devices F according to the types of the qualified products to realize classified cache; when the carrying trolley requests to carry qualified products of a certain type, the second transfer conveying device G can move to the corresponding buffer conveying device F to receive the qualified products, then the qualified products are conveyed to the blanking conveying device H to wait for carrying, the blanking conveying device H conveys the qualified products to the carrying trolley, and finally the carrying trolley carries the automobile crankshaft to a loading position. Therefore, the quality inspection conveying device for the automobile crankshafts, provided by the utility model, has high automation degree, is convenient for quality inspectors to perform appearance quality inspection on each automobile crankshaft, reduces the labor intensity of the quality inspectors, and avoids defective products from flowing into the market; and the reasonable setting of each device realizes the mixed detection of two types or more than two types of automobile crankshafts and the classification and caching of qualified products, thereby improving the inspection applicability and flexibility of the quality conveying device.

The electric control device comprises a PLC controller and a related control circuit.

In this embodiment, as shown in fig. 2, the feeding and conveying device a includes a first rack a1, a first roller conveyor a2 disposed on the first rack a1, and a first sensing assembly A3 and a first blocking mechanism a4 disposed on the first roller conveyor a 2; each tray J is provided with an identification module K arranged at a preset position, and the first sensing assembly A3 is used for sensing the arrangement position of the identification module on the tray and feeding back a sensing signal to the electric control device; the first blocking mechanism a4 is used for blocking the forward conveyance of the tray. The automobile crankshafts of different types are different in shaft length, so that the automobile crankshafts of different types need special trays for bearing; the first roller way conveying mechanism A2 conveys the empty tray forwards to a first detection station A5 (namely, the position of the first sensing assembly capable of normally detecting the tray), and the first blocking mechanism A4 blocks the tray from continuing to convey forwards, so that the tray is ensured to be positioned on the first detection station A5; the identification module on the tray can enable part of the sensors of the first sensing assembly A3 to generate sensing signals, the other part of the sensors cannot generate sensing signals, the electric control device can acquire the sensing signals of the first sensing assembly A3 at the moment, and the electric control device obtains a tray identification result after analysis. If N kinds of trays are provided, N kinds of detection results can correspondingly appear due to different setting positions of the identification modules on each kind of trays, and the N kinds of detection results are different; in addition, the tray may be placed correctly or placed reversely, so that the total of 2N detection results may appear by adding reversed detection results, and the 2N detection results are different from each other. Therefore, since each tray identification result is unique, the electronic control device can not only determine the type of the tray according to the tray identification result, but also detect whether the tray is set upside down.

When the automatic tray conveying device works, the first roller way conveying mechanism A2 conveys an empty tray to the first detection station A5, and the first blocking mechanism A4 prevents the empty tray from moving forwards; at the moment, the first sensing assembly A3 senses an empty tray and feeds a sensing signal back to the electric control device, when the electric control device determines the type of the tray and the placing posture is correct, the electric control device can control the carrying manipulator to clamp the automobile crankshaft finished product of the corresponding type onto the tray of the first detection station A5, then the first blocking mechanism A4 releases the blocking, and the first roller way conveying mechanism A2 enables the tray loaded with the workpiece to be conveyed forwards; when the electric control device determines that the tray is placed reversely, the electric control device can send out a warning signal to inform a quality inspector to place the tray right again, so that the workpiece can be correctly placed on the tray, and the finished automobile crankshaft can be smoothly matched with a quality inspection platform to carry out quality inspection.

In this embodiment, the utility model provides a quality testing conveyor designs and is used for carrying out quality testing to two types of work pieces, like the bent axle of 2.0L engine and the bent axle of 2.5L engine, tray J includes first tray J5 and second tray J6, is equipped with first identification module K1 and first bearing seat J51 on the first tray J5, is equipped with second identification module K2 and second bearing seat J61 on the second tray J6; the first bearing seat J51 is used for bearing a first workpiece L1, and the second bearing seat J61 is used for bearing a second workpiece L2; the first inductor assembly A3 includes a first inductor a31, a second inductor a32, and a third inductor a 33. For ease of illustration, the crankshaft of the 2.0L engine is a first workpiece L1, which is carried by a first pallet J5; the crankshaft of the 2.5L engine is a second workpiece L2, which is carried by a second pallet J6.

Specifically, as shown in fig. 5, the tray J has 4 corners, and the 4 corner positions are respectively set as a left front portion J1, a right front portion J2, a left rear portion J3 and a right rear portion J4; the identification module K is selectively disposed on the corners of the tray part according to a predetermined design manner to distinguish different tray types. The first sensor A31 is used for detecting whether an identification module K is arranged on the left front J1 of the tray; the second sensor A32 is used for detecting whether the right front part J2 of the tray is provided with an identification module K or not; the third sensor a33 is used for detecting whether an identification module K is arranged on any one of the left rear portion J3 and the right rear portion J4. Through the arrangement, the tray is reasonable and compact in structure, and interference between the identification module and the automobile crankshaft is avoided; and the detection mode is simple and reasonable, the sensor consumption is less, and the manufacturing cost is saved.

In one embodiment, the first recognition module K1 is a recognition bump provided on the left rear portion J3 and the right rear portion J4 of the first tray J5, and the second recognition module K2 is a recognition bump provided on the right rear portion J4 and the right front portion J2 of the second tray J6, as shown in fig. 6 and 7. The tray can obtain the following 4 detection results after being detected by the sensor: (1) the first tray J5 is correctly placed: the third sensor a33 can sense the identification bump (i.e. the third sensor a33 has a sensing signal output to the electronic control device), the first sensor a31 and the second sensor a32 cannot sense the identification bump (i.e. the first sensor a31 and the second sensor a32 have no sensing signal output to the electronic control device), as shown in fig. 8; (2) the first tray J5 is placed in a reversed posture: the first sensor a31 and the second sensor a32 were able to sense the identification bump, and the third sensor a33 was not able to sense the identification bump, as shown in fig. 9; (3) the second tray J6 is placed correctly: the second sensor a32 and the third sensor a33 can sense the identification bump, and the first sensor a31 cannot sense the identification bump, as shown in fig. 10; (4) the second tray J6 is placed in a reversed posture: the first sensor a31 and the third sensor a33 were able to sense the identification bump, and the second sensor a32 was not able to sense the identification bump, as shown in fig. 11.

In this embodiment, the tray is set by using the tray identification logic, and the tray identification method according to this embodiment is such that the identification module on the tray can induce part of the sensors, and each sensor feeds back an induction signal to the electric control device;

if the third sensor A33 can sense the identification bump, and the first sensor A31 and the second sensor A32 cannot sense the identification bump, the electric control device judges that the empty tray on the first detection station is the first tray J5 with correct placing posture; the manipulator clips the finished automobile crankshaft of the 2.0L engine onto a first tray J5.

If the first sensor A31 and the second sensor A32 can sense the identification bump, and the third sensor A33 cannot sense the identification bump, the electric control device determines that the empty tray on the first detection station is the first tray J5 with the reversed placing posture; the electronic control device can send out a warning signal to inform an operator to take the tray away or put the tray right again in time.

If the second sensor A32 and the third sensor A33 can sense the identification bump, and the first sensor A31 cannot sense the identification bump, the electric control device judges that the empty tray on the first detection station is the second tray J6 with correct placing posture; the robot grips the crankshaft of the 2.5L engine onto the second pallet J6.

If the first sensor a31 and the third sensor a33 can sense the identification bump and the second sensor a32 cannot sense the identification bump, the electronic control device determines that the empty tray at the first inspection station is the second tray J6 with the reversed posture. The electronic control device can send out a warning signal to inform an operator to take the tray away or put the tray right again in time.

In one embodiment, the first sensor a31, the second sensor a32, and the third sensor a33 are all opposite photoelectric sensors, each of which includes a transmitter and a receiver, the detection light emitted by the third sensor a33 is parallel to the extending direction of the guide roller a22, and in order to make the detection result more accurate and prevent interference of other components, the detection light emitted by the first sensor a31 and the detection light emitted by the second sensor a32 are arranged crosswise, but do not intersect. Through the arrangement, the work of each group of inductors is not interfered with each other, and each inductor is arranged on the first roller way conveying mechanism through the sensor support, so that the whole structure is relatively compact.

The feeding conveying device A is connected with the quality inspection platform C through a side pulling conveying device B, and the side pulling conveying device B is shown in figure 1; the side pulling conveying device B comprises a second frame B1, a second roller way conveying mechanism B2 arranged on the second frame B1, a flange B3 arranged on the second roller way conveying mechanism, a roller group B5 and a lifting mechanism (not visible in the figure) for controlling the roller group to lift, wherein the roller group B5 extends towards the direction of the quality inspection table C. The lifting mechanism comprises a connecting plate for connecting all the roller groups and a vertically arranged sixth air cylinder, the sixth air cylinder is fixedly arranged on the second frame B1, and the piston rod end of the sixth air cylinder is connected with the connecting plate.

During operation, the second roller way conveying mechanism B2 receives the workpieces on the first roller way conveying mechanism A2 and conveys the tray loaded with the workpieces forwards, the flange B3 blocks the tray to continue to convey forwards, the lifting mechanism drives the roller set B5 to ascend, the conveying plane of the roller set B5 is higher than the conveying plane of the second roller way conveying mechanism B2, the roller set B5 supports the tray, and then a quality inspector manually pulls the tray to the quality inspection platform C. Because rolling friction is formed between the bottom of the tray and the roller group, the friction force is small, and a quality inspector can pull the tray loaded with the workpiece onto the quality inspection table C with little effort, so that the labor intensity of the quality inspector is greatly reduced.

In one embodiment, as shown in fig. 12 and 13, the quality control platform C includes a third rack C1, a transport panel C2 and a bottom plate C3 disposed on the third rack C1, a first lifting mechanism C3 disposed on the bottom plate C3, the transport panel being located above the bottom plate, the first lifting mechanism C3 includes a mounting plate C31, a lifting arm C32 disposed on the mounting plate, and a first cylinder C33 for driving the mounting plate C31 to move vertically relative to the bottom plate C22, the lifting arm C32 is used for lifting a workpiece placed on the transport panel C2, and the lifting arm C32 includes an arm C4 fixedly disposed on the mounting plate and a positioning structure C5 disposed on a free end of the arm.

Still be equipped with handle J0 on the tray, quality testing person pulls handle J0 on the tray, slide to predetermineeing on the quality testing station C6 of transportation panel from side-pull conveyor B, then first cylinder C33 drive mounting panel C31 and lift arm C32 rise, make location structure C5 on two lift arms C32 respectively take over the front end axle and the rear end axle of automobile crankshaft earlier, then mounting panel C31 and lift arm C32 continue to rise, make automobile crankshaft break away from the bearing of tray J, automobile crankshaft is located the tray J directly over this moment. The quality inspector can turn the automobile crankshaft at any angle, so that the quality inspector can check each part of the finished automobile crankshaft and judge whether quality defects occur or not; the finished automobile crankshaft without quality defects is regarded as a qualified product, the first air cylinder C33 drives the mounting plate C31 and the lifting arm C32 to descend and reset, so that the automobile crankshaft is placed on the tray J again, and then a quality inspector pushes the tray J and the automobile crankshaft together onto the lifting conveying device D. And the finished automobile crankshaft with the quality inspection defect is regarded as a defective product, the first air cylinder C33 drives the mounting plate C31 and the lifting arm C32 to descend and reset, so that the automobile crankshaft is placed on the tray J again, and then a quality inspector slides the tray J and the automobile crankshaft to a defective placing frame. Compare with current quality control platform, the utility model provides a quality control platform degree of automation is high, and quality control platform links up other conveying equipment well, does not need the great labour of quality control personnel's cost to go up unloading transport work, and the quality control personnel's that has significantly reduced intensity of labour improves detection efficiency.

Specifically, as shown in fig. 12 and 13, the positioning structure C5 includes two positioning wheels C51 fixedly disposed on the side of the arm C4, and a V-shaped receiving station C52 is formed between the two positioning wheels C51. During quality inspection, the end shaft of the automobile crankshaft is clamped into the V-shaped carrying station C52, and the automobile crankshaft is rotated to inspect the appearance quality of the workpiece in all directions, so that the quality inspection work is facilitated to be carried out smoothly. Compared with the existing half-wrapping type positioning mechanism (namely a positioning block with a U-shaped sliding chute, wherein the end shaft is clamped into the U-shaped sliding chute), the half-wrapping type positioning mechanism has the following advantages: 1. the two positioning wheels C51 are in line contact with the end shaft, compared with the mode of surface contact of the U-shaped sliding groove and the end shaft, the contact area is smaller, and a quality inspector can rotate the automobile crankshaft by applying smaller force; 2. when the wheel surface of the positioning wheel C51 has a guiding function, if the workpiece is not directly opposite to the V-shaped carrying station, the wheel surface of the positioning wheel guides the end shaft of the automobile crankshaft to slide into the middle of the V-shaped carrying station, so that the adaptability of the positioning structure and the workpiece is greatly improved.

In order to make the quality testing platform capable of compatibly testing two types of automobile crankshafts, a position adjusting device C7 for driving a lifting arm to transversely move is arranged on the mounting plate C31, in the embodiment, the position adjusting device C7 is only arranged on the lifting arm for lifting the rear end shaft of the automobile crankshaft, and the lifting arm for lifting the front end shaft of the automobile crankshaft is fixedly arranged on the mounting plate C31 and cannot transversely move relative to the mounting plate C31, so that the distance between the two lifting arms C32 is adjusted according to the shaft length of the automobile crankshaft to be tested, and the lifting arm C32 can lift the automobile crankshaft.

Specifically, as shown in fig. 12, the position adjustment device C7 includes a guide rail C71, a slider C72, and a second cylinder C73, the guide rail C71 extends along the axial length of the workpiece, the bottom of the arm C4 is slidably connected to the guide rail C71 through a slider C72, and the second cylinder C73 is used to drive the arm C4 and the slider C72 to move, so that the two lifting arms C32 move toward or away from each other. The electric control device controls the output end of the second air cylinder C73 to stretch out or reset according to the tray type identification result of the feeding conveying device A.

In an embodiment, as shown in fig. 12, the upper surface of the transportation panel C2 is provided with a plurality of universal balls C21 and a plurality of positioning balls C22, the plurality of positioning balls C22 define a quality inspection station C6, the bottom surface of the tray J abuts against the universal balls C21, friction is small, a quality inspector can conveniently pull the tray loaded with finished automobile crankshafts to the quality inspection station C6, and the tray is horizontally pushed onto the lifting conveyor D or onto a defective product placing rack after quality inspection is finished.

Preferably, as shown in fig. 12, an in-place sensor C8 for detecting whether the workpiece is turned right to the right after the quality inspection is finished is arranged on the mounting plate C31, and the in-place sensor C8 is preferably a proximity switch; the detection light emitted by the in-place sensor C8 is vertically upward and is indicated by a dotted line because the detection light cannot be directly observed; the detection light is used for sensing the connecting shaft C9 on the crank. If the in-place sensor C8 can sense the connecting shaft C9, the workpiece is placed right after the quality inspection is finished; if the in-position sensor C8 cannot sense the connecting shaft C9, the workpiece is not aligned. Through setting up like this, ensure that automobile crankshaft detects the back through the upset, the position accuracy of falling back to the tray makes automobile crankshaft obtain the effective location and the support of tray once more. In order to be suitable for sensing two types of automobile crankshafts, the in-place sensors C8 are correspondingly provided in two numbers.

Preferably, a lifting control button C01 and a descending control button C02 which need to be controlled by two hands are arranged on the third rack C1. The lifting control key C01 and the descending control key C02 are electrically connected with the control module on the quality inspection line, when the workpiece lifting action needs to be started, the workpiece lifting action needs to be started by pressing the corresponding lifting control keys C01 with both hands, and the operator is prevented from clamping the hands accidentally. Similarly, when the workpiece lowering operation needs to be started, the workpiece lowering operation needs to be started only by pressing the corresponding lowering control key C02 with both hands.

In one embodiment, as shown in fig. 14, the lifting and conveying device D includes a lifting frame D1, a bottom frame D2, a second lifting mechanism D3 disposed on the bottom frame D2, and a third roller way conveying mechanism D4 disposed on the lifting frame D1, wherein the second lifting mechanism D3 is used for driving the lifting frame D1 to vertically move relative to the bottom frame D2; a lifting thrust mechanism D5 is arranged on the third three-roller conveying mechanism D4, a second induction component D6 and a third induction component D7 are arranged on the third three-roller conveying mechanism D4, the second induction component D6 is used for inducing the arrangement position of the identification module on the tray and feeding back induction signals to the electric control device, and the third induction component D7 is used for identifying the type of the workpiece and feeding back the induction signals to the electric control device; the elevating thrust mechanism D5 is used to stop the tray from being conveyed forward. Here, the inspection station of the third roller conveyor D4 is set to the second inspection station D8 (i.e., a position where the second sensor assembly D6 and the third sensor assembly D7 can normally inspect the tray and the workpiece).

In one embodiment, the second lifting mechanism D3 includes a fourth cylinder D31 disposed vertically upward, a cylinder body of the fourth cylinder is fixedly connected with the underframe D2, and a piston rod end of the fourth cylinder D31 is connected with the crane D1 through a connecting plate D32.

When the tray identification device works, the second lifting mechanism D3 drives the lifting frame D1 and the third three-roller conveying mechanism D4 to descend, so that the height of the conveying plane of the third three-roller conveying mechanism D4 is consistent with that of the bearing surface of the quality inspection table C, a quality inspector pushes a tray loaded with qualified pieces to the second detection station D8 of the third three-roller conveying mechanism D4 (namely, the positions of the second induction assembly D6 and the third induction assembly D7, which can normally detect the tray and a workpiece), the identification module enables part of the inductors of the second induction assembly D6 to generate induction signals, the other part of the inductors cannot generate induction signals, at the moment, the electric control device can acquire the induction signals of the second induction assembly D6, and the electric control device can obtain a tray identification result after analysis. Similarly, the workpiece may cause a part of the sensors of the third sensing assembly D7 to generate sensing signals, and another part of the sensors may not generate sensing signals, at this time, the electronic control device may obtain the sensing signals of the third sensing assembly D7; the electric control device obtains a workpiece detection result after analysis, and the type of the workpiece can be obtained from the workpiece detection result. The control module continuously judges whether the tray and the workpiece are correctly matched, and compares a tray identification result with a workpiece detection result: (1) if the placing posture of the tray is correct and the tray is matched with the type of the workpiece, the tray and the workpiece are considered to be correctly matched; (2) if the tray is placed in a correct posture, but the types of the tray and the workpiece are not matched, the tray and the workpiece are considered to be incorrectly matched; (3) if the tray is placed in a reversed posture, the tray and the workpiece are not correctly matched no matter whether the type of the tray is matched with that of the workpiece or not. When the tray and the workpiece are not correctly matched, the quality inspector pulls the tray with the qualified products back to the quality inspection platform, and puts the tray right or replaces the tray correctly matched with the workpiece according to the matching result. When the tray and the workpiece are correctly matched, the second lifting mechanism D3 drives the lifting frame D1 and the third roller conveyor mechanism D4 to ascend, so that the height of the conveying plane of the third roller conveyor mechanism D4 is consistent with that of the conveying plane of the transfer upper roller conveyor mechanism of the first transfer conveyor device E, then the third roller conveyor mechanism D4 conveys the tray with qualified products to the first transfer conveyor device E, and finally the electric control device can perform classification caching according to the tray identification result or the workpiece identification result.

Unqualified workpieces can become qualified pieces after the overhaul is finished, the qualified pieces can be placed on the tray, then the operation is carried out according to the working process, the tray loaded with the qualified pieces is conveyed to the lifting conveying device D for identification and comparison, and if the tray and the workpieces are correctly matched, the electric control device controls the lifting conveying device D to convey the tray loaded with the qualified products to the cache conveying device F for classification and cache.

It can be seen that lift conveyor D can discern on tray and the work piece respectively through second response subassembly D6 and third response subassembly D7, and whether intelligent ground judges tray and work piece on the one hand matches, in time corrects the matching error, avoids causing the condition emergence that work piece and motorcycle type match the mistake when the loading, and on the other hand tray discernment result or work piece discernment result also provide categorised foundation for first year conveyor E that moves, and degree of automation is high. In addition, the lifting conveying device D is provided with a second lifting mechanism D3, so that the quality inspection platform C and the transferring roller-feeding conveying mechanism of the first transferring conveying device E are connected in height, and the flexibility is high.

In this embodiment, the tray is set by using the above-mentioned tray identification logic, and the second sensor assembly D6 includes a fourth sensor D61, a fifth sensor D62 and a sixth sensor D63; the fourth sensor D61 is used for detecting whether an identification module is arranged on the right rear J4 of the tray; the fifth sensor D62 is used for detecting whether an identification module is arranged on the left rear J3 of the tray; the sixth sensor D63 is used to detect whether an identification module is provided on any one of the left front portion J1 and the right front portion J2 of the tray. Fourth inductor D61, fifth inductor D62 and sixth inductor D63 are correlation formula photoelectric sensor, and correlation formula photoelectric sensor includes transmitter and receiver, the detection light that sixth inductor D63 sent is parallel with the extending direction of deflector roll, and in order to make the testing result more accurate, prevent other parts from interfering, the detection light that fourth inductor D61 and fifth inductor D62 sent sets up crosswise, but the detection light is non-intersect.

Here, the sensing principle of the first sensing assembly a3 and the second sensing assembly D6 is the same, so that the tray sensed by the second sensing assembly D6 can obtain the following 4 detection results: (1) the first tray is placed in a correct posture: the fourth sensor D61 and the fifth sensor D62 can sense the identification bump, and the sixth sensor D63 cannot sense the identification bump, as shown in fig. 15; (2) the first tray J5 is placed in a reversed posture: the sixth sensor D63 senses the identification bump, and the fourth sensor D61 and the fifth sensor D62 do not sense the identification bump, as shown in fig. 16; (3) the second tray is placed in a correct posture: the fourth sensor and the sixth sensor D63 sense the identification bump, and the fifth sensor D62 does not sense the identification bump, as shown in fig. 17; (4) the placing posture of the second tray is reversed: the fifth sensor D62 and the sixth sensor D63 were able to sense the identification bump, and the fourth sensor was not able to sense the identification bump, as shown in fig. 18.

Specifically, the third sensing assembly D7 includes a seventh sensor D71 and an eighth sensor D72, a first distinguishing feature L3 different from the second workpiece L2 is disposed on the first workpiece L1, and a second distinguishing feature L4 different from the first workpiece L1 is disposed on the second workpiece L2; in a specific embodiment: the first workpiece L1 is a crankshaft of a 2.0L engine, the second workpiece L2 is a crankshaft of a 2.5L engine, and the first distinguishing characteristic L3 is that the lengths of the two crankshafts are unequal, the length of the crankshaft of the 2.0L engine is shorter than that of the crankshaft of the 2.5L engine, and the crank setting positions of the two crankshafts are different in the axial direction; the second distinguishing feature, L4, is the presence of a toothed disc on the 2.5L engine crankshaft, whereas the 2.0L engine crankshaft is not provided with a toothed disc. The seventh sensor D71 is used for sensing whether the workpiece has a first distinguishing characteristic L3; the eighth sensor 52 is used for sensing whether the workpiece has the second distinguishing characteristic L4. It can be understood that if the workpiece is a crankshaft of a 2.0L engine, the seventh sensor D71 can sense the crank on the crankshaft of the 2.0L engine to generate a sensing signal, and the eighth sensor D72 cannot generate a sensing signal; if the workpiece is the crankshaft of a 2.5L engine, the eighth sensor D72 can sense the fluted disc on the crankshaft of the 2.5L engine to generate a sensing signal, and the seventh sensor D71 cannot generate a sensing signal.

In one embodiment, the seventh sensor D71 and the eighth sensor D72 are all opposite photoelectric sensors, each opposite photoelectric sensor includes a transmitter and a receiver, the detection light emitted by the seventh sensor faces downward vertically, the seventh sensor D71 and the transmitter of the seventh sensor D71 are installed on the sensor support and above the middle of the third roller conveyor, the receiver of the seventh sensor D71 is installed on the crane D1, and the detection light emitted by the seventh sensor D71 does not interfere with the guide roller. The detection light emitted by the eighth sensor D72 is parallel to the extending direction of the guide roller.

A recognition and comparison method based on a lifting conveying device is characterized in that a tray is conveyed to a detection station, a recognition module on the tray enables part of sensors in a second sensing assembly D6 to sense, a workpiece on the tray enables part of sensors in a third sensing assembly D7 to sense, each sensor feeds back sensing signals to an electric control device, and the electric control device generates a tray recognition result and a workpiece recognition result through analysis; and the electric control device compares the tray identification result with the workpiece identification result.

If the pallet is the first pallet J5 with correct placing posture in the pallet recognition result, and the workpiece is the first workpiece L1 in the workpiece recognition result, the pairing between the pallet and the workpiece is correct;

if the pallet is the second pallet J6 with the correct placing posture in the pallet recognition result, and the workpiece is the second workpiece L2 in the workpiece recognition result, the pairing between the pallet and the workpiece is correct;

if the pallet is the first pallet J5 with correct placing posture in the pallet recognition result and the workpiece is the second workpiece L2 in the workpiece recognition result, the pairing between the pallet and the workpiece is incorrect;

if the pallet is the second pallet J6 with correct placing posture in the pallet recognition result, and the workpiece is the first workpiece L1 in the workpiece recognition result, the pairing between the pallet and the workpiece is incorrect;

and if the tray is the tray with the reversed placing posture in the tray recognition result, the tray and the workpiece are not correctly matched.

When the tray and the workpiece are not correctly matched, the quality inspector pulls the tray with the qualified products back to the quality inspection platform C, and puts the tray in a correct posture or replaces the tray correctly matched with the model of the workpiece according to the comparison result. When the tray and the workpiece are correctly matched, the second lifting mechanism D3 drives the lifting frame D1 and the third roller conveying mechanism D4 to ascend, so that the height of the conveying plane of the third roller conveying mechanism D4 is consistent with that of the upper conveying plane of the first transfer conveying device, then the third roller conveying mechanism D4 conveys the tray with qualified products to the first transfer conveying device E, and finally the electric control device can perform classification caching according to the tray identification result or the workpiece identification result.

In one embodiment, as shown in fig. 19, each of the first transfer conveyor E and the second transfer conveyor G includes a base E1, a carriage E2 slidably disposed on top of the base, a transfer upper roller conveyor E3 and a transfer lower roller conveyor E4 disposed on the carriage, and a carriage drive E5; the shifting upper roller conveying mechanism E3 is positioned above the shifting lower roller conveying mechanism E4, a second blocking mechanism E6 for blocking the forward conveying of the tray is arranged on the shifting upper roller conveying mechanism E3 of the first shifting conveying device, and a third blocking mechanism G1 for blocking the forward conveying of the tray is arranged on the shifting upper roller conveying mechanism E3 of the second shifting conveying device G; the carriage drive mechanism E5 is used to drive the carriage E2 to move horizontally in the direction perpendicular to the workpiece conveying direction. Similarly, a tenth stopper mechanism for stopping forward transport of the tray is provided on the transfer lower roller conveyor E4 of the first transfer conveyor E, and an eleventh stopper mechanism for stopping forward transport of the tray is provided on the transfer lower roller conveyor E4 of the second transfer conveyor G.

Here, the upper transfer roller conveyor E3 is used to convey pallets loaded with conforming articles, and the lower transfer roller conveyor E4 is used to convey empty pallets, and thus the upper transfer roller conveyor E3 and the lower transfer roller conveyor E4 have a workpiece conveying function and an empty pallet return function, which are two-line conveying capabilities, and thus space is saved and conveying efficiency is improved; on the other hand, the sliding frame E2 can be driven to move by the sliding frame driving mechanism E5 according to production requirements, so that workpieces on the roller way are transferred to the input end or the output end of the corresponding buffer conveying device F, and the single or mixed model quality inspection requirements of a quality inspection line are met.

When the automatic conveying device works, the electric control device obtains a tray model identification result through analysis of the lifting conveying device D, qualified products are conveyed to a transferring upper roller conveying mechanism E3 of the first transferring conveying device E, a second blocking mechanism E6 on the transferring upper roller conveying mechanism E3 blocks trays carrying the qualified products to continue to convey forwards, then the control system controls the sliding frame driving mechanism E5 to move the sliding frame E2 to a cache upper roller conveying mechanism E3 of the corresponding cache conveying device F, and the second blocking mechanism E6 releases blocking to enable the trays carrying the qualified products to be conveyed to the cache conveying device F for caching; when a transport trolley comes to the output end of the blanking conveying device H to convey qualified products of a required model, the electric control device controls the sliding frame driving mechanism E5 on the second transfer conveying device G to move the sliding frame E2 to the corresponding buffer roller feeding conveying mechanism F2 of the buffer conveying device F, the tray carrying the qualified products is conveyed to the transfer roller feeding conveying mechanism E3 of the second transfer conveying device G, then the third blocking mechanism G1 on the transfer roller feeding conveying mechanism E3 blocks the tray carrying the qualified products to continue to convey forwards, then the electric control device controls the sliding frame driving mechanism E5 to move the sliding frame E2 to the input end of the blanking roller feeding conveying mechanism of the blanking conveying device H, and the third blocking mechanism G1 releases the blocking to enable the tray carrying the qualified products to be conveyed to the blanking conveying device H.

In one embodiment, as shown in fig. 20-22, each of the buffer conveying devices F includes a fourth machine frame F1, an upper buffer roller conveying mechanism F2 disposed on the fourth machine frame F1, and a lower buffer roller conveying mechanism F3, the upper buffer roller conveying mechanism F2 is located above the lower buffer roller conveying mechanism F3, a plurality of upper buffer stations F4 and a plurality of first detectors F5 corresponding to the upper buffer stations F4 for detecting whether workpieces exist in each upper buffer station F4 are disposed on the upper buffer roller conveying mechanism F2, a plurality of lower buffer stations F6 and a plurality of second detectors F7 corresponding to the lower buffer stations F6 for detecting whether workpieces exist in each lower buffer station F6 are disposed on the lower buffer roller conveying mechanism F3, the upper buffer station closest to the output end of the upper buffer roller conveying mechanism is the first buffer station F8, and fourth blocking mechanisms F9 and fifth blocking mechanisms F10 are disposed on the front and rear sides of the first buffer station F8, the fourth blocking mechanism F9 is used for blocking the forward conveying of the trays on the first buffer station F8, and the fifth blocking mechanism F10 is used for blocking the forward conveying of the trays on the upper buffer station at the rear side of the first buffer station F8. Similarly, the lower buffer station closest to the output end of the lower buffer conveying mechanism of the buffer is a second buffer station, the front side and the rear side of the second buffer station are respectively provided with an eighth blocking mechanism and a ninth blocking mechanism, the eighth blocking mechanism is used for blocking the empty tray on the second buffer station from being conveyed forwards, and the ninth blocking mechanism is used for blocking the empty tray on the lower buffer station on the rear side of the second buffer station from being conveyed forwards.

In this embodiment, the utility model provides a quality testing conveyor designs and is used for realizing the quality testing to the automobile crankshaft of two types, so buffer memory conveyor F is provided with two side by side, every buffer memory conveyor F corresponds the work piece of a model of buffer memory, and qualified products realize categorised buffer memory through first moving and carry conveyor E and carry to corresponding buffer memory conveyor F. When the transportation trolley requests to transport qualified products, the fourth blocking mechanism F9 releases the blocking, and the fifth blocking mechanism F10 keeps blocking; the pallet with the good products is conveyed forwards continuously, so that the good products on the first buffer storage station F8 are conveyed to the second transfer conveying mechanism G, then the fourth blocking mechanism F9 restores blocking, the fifth blocking mechanism F10 releases blocking, and the workpiece on the upper buffer storage station F8 moves forwards. Each first detector F5 corresponds to one upper buffer station F8, and the first detector F5 can detect the existence number of qualified products in all the upper buffer stations F8 in real time, so that the electric control device plans a scheme and efficiency for transporting the qualified products.

In one embodiment, as shown in fig. 23, the blanking conveying device H comprises a fifth frame H1, a blanking roller conveying mechanism H2 and a tray returning roller conveying mechanism H3, wherein the blanking roller conveying mechanism H is arranged on the fifth frame H1; the discharging roller way conveying mechanism H2 is located above the tray returning roller way conveying mechanism H3, and a sixth blocking mechanism H4 used for blocking the forward conveying of the tray is arranged at the output end of the discharging roller way conveying mechanism H2. And a third detector H5 for detecting whether the workpiece is in place is arranged on the blanking conveying device.

A sixth blocking mechanism H4 on the blanking roller conveying mechanism H2 blocks the trays with qualified products from being conveyed forwards continuously, and a third detector H5 feeds detection information back to the electric control device; when the qualified product is conveyed by the conveying trolley, the sixth blocking mechanism H4 releases the blocking, and the conveying trolley conveys the tray and the crankshaft to a loading position together.

In one embodiment, a fourth induction assembly and a seventh blocking mechanism (not visible in the figure) are arranged on the tray returning roller way conveying mechanism; the fourth sensing assembly is used for sensing the setting position of the identification module on the empty tray and feeding back a sensing signal to the electric control device; and the seventh blocking mechanism is used for blocking the forward conveying of the tray. The fourth response subassembly can discern the model of empty tray and put the posture to can move through the second according to the kind of empty tray and move the transfer conveyor and carry corresponding buffer memory conveyor on, because the inspection principle of fourth response subassembly and first response subassembly is the same, and the inspection principle of fourth response subassembly is no longer repeated here.

During operation, the sixth blocking mechanism blocks the H4 tray carrying the qualified products to continue to be conveyed forwards, when the carrying trolley carries the qualified products, the sixth blocking mechanism H4 releases the blocking, the carrying trolley carries the tray and the crankshaft to the loading position, the empty tray generated after the loading is finished can be sent back to the tray by the carrying trolley and sent back to the roller way conveying mechanism, and the seventh blocking mechanism blocks the empty tray to continue to be conveyed forwards to wait for further classification. Therefore, the blanking conveying device has double-line conveying capacity (two mutually independent workpiece conveying capacities), is compact in structure and saves occupied space.

And after loading, an empty tray is generated, the carrying trolley conveys the empty tray back to a tray returning roller way conveying mechanism H3 of the blanking conveying device H, the tray returning roller way conveying mechanism H3 identifies the model of the empty tray, so that the electric control device can know the model of the empty tray, the empty tray is conveyed to a shifting lower roller way conveying mechanism E4 of a second shifting conveying device G, an eleventh blocking mechanism of the shifting lower roller way conveying mechanism E4 blocks the empty tray to continue to be conveyed forwards, then the electric control device controls a sliding frame driving mechanism E5 to move a sliding frame E2 to a lower buffer roller way conveying mechanism of a corresponding buffer conveying device F, and the eleventh blocking mechanism releases blocking to enable the empty tray to be conveyed to the buffer conveying device F for buffering. The electric control device selects an empty tray with a suitable model to feed the feeding conveying device A according to the current production requirement, the electric control device controls the sliding frame driving mechanism E5 on the first transfer conveying device E to move the sliding frame E2 to the output end of the lower buffer roller conveying mechanism F6 of the corresponding buffer conveying device F, the tenth blocking mechanism on the lower buffer roller conveying mechanism F6 blocks the empty tray to continue to convey forwards, then the electric control device controls the sliding frame driving mechanism E5 to move the sliding frame E2 to the input end of the feeding conveying device A, the tenth blocking mechanism releases blocking to enable the empty tray to be conveyed to the feeding conveying device A, and the carrying mechanical handle and the automobile crankshaft with the model corresponding to the tray are clamped on the empty tray. It can be seen that the utility model provides a quality inspection conveyor of automobile crankshaft has work piece transport function promptly and empty tray and loopbacks the function, and design benefit saves space, improves handling efficiency.

In this embodiment, referring to fig. 21, the first blocking mechanism a4, the second blocking mechanism E6, the third blocking mechanism G1, the fourth blocking mechanism F9, the fifth blocking mechanism F10, the sixth blocking mechanism H4, the seventh blocking mechanism, the eighth blocking mechanism, the ninth blocking mechanism, the tenth blocking mechanism, and the eleventh blocking mechanism all include a first support plate F91, a driving cylinder F92 vertically upward disposed on the first support plate F91, and a baffle plate F93 disposed at an end of a piston rod of the driving cylinder F92. When the tray is blocked, the driving cylinder F92 drives the baffle plate F93 to extend upwards and be higher than the bearing surface of the roller way conveying mechanism, so that the tray is blocked from being conveyed forwards; when the blocking is released, the driving air cylinder F92 drives the baffle F93 to reset, and the tray continues to be transported forwards.

Preferably, the bottom surface of the baffle plate F93 is provided with two guide rods F94, the first support plate F91 is fixedly provided with a sliding sleeve F95 corresponding to the positions of the guide rods, and the two guide rods F94 are respectively slidably inserted in the sliding sleeve F95. Through the guide effect of sliding sleeve F95 and guide bar F94, can guarantee that the direction of motion of baffle F93 is correct, can also avoid the piston rod of drive cylinder F92 to receive the shearing force, prevent that the piston rod from warping because of the shearing force.

In this embodiment, referring to fig. 3, thrust mechanisms P are respectively disposed on the feeding conveying device a, the side pushing device B, the first transferring conveying device E, the second transferring conveying device G, the buffer conveying device F, and the discharging conveying device H, each thrust mechanism P includes a second support plate (not visible in the figure), and a plurality of setting thrust blocks P1, each thrust block P1 includes a support P11 on the second support plate, and a thrust block P12 rotatably disposed on the support P11, a limit groove P13 is disposed on the support, the thrust block P12 is disposed in the limit groove P13 through a pin P14, a torsion spring P15 is disposed on the pin P14, and the torsion spring P15 is used for pulling the thrust block P12 to enable the thrust block P12 to abut against the support P11.

When the tray is conveyed forwards, the tray J overcomes the elasticity of the torsion spring and pushes the thrust block P12 to swing, the bottom surface of the tray J presses the thrust block P12, the tray J is conveyed forwards smoothly, after the tray J passes through the thrust mechanism P, the elasticity applied to the thrust block P12 by the torsion spring P15 pulls the thrust block, the thrust block P12 is pressed on the limiting groove P13 in a propping mode, at the moment, the thrust block P12 is in a vertical state, even if the tray J pushes the thrust block P12 backwards, the thrust block P12 can be limited to rotate by the support P11, so that the tray is prevented from moving backwards continuously, and the tray can move only in a single direction.

Similarly, the lifting thrust mechanism D5 comprises a third support plate arranged on the lifting frame D1, a fifth cylinder vertically arranged on the third support plate upwards, a connecting block arranged at the end part of a piston rod of the fifth cylinder, and thrust devices P respectively arranged at two ends of the connecting block.

In this embodiment, referring to fig. 4, the first roller conveyor a2, the second roller conveyor B2, the third roller conveyor D4, the load-transferring upper roller conveyor E3, the load-transferring lower roller conveyor E4, the buffer-storing upper roller conveyor F2, the buffer-storing lower roller conveyor F3, the blanking roller conveyor H2, and the pallet-returning roller conveyor H3 are roller conveyors, and the roller conveyors include two mounting seats a21, a plurality of guide rollers a22 disposed between the two mounting seats, a drive motor a23, and a transmission mechanism, and the drive motor drives the guide rollers to rotate synchronously through the transmission mechanism.

In one embodiment, the transmission mechanism comprises a torque limiter a24 arranged at the output end of a driving motor a23, a friction sprocket a25 is arranged on the torque limiter, a driving sprocket a26 and a driven sprocket a27 are arranged at the end of each guide roller, the friction sprocket is in transmission connection with the driving sprocket on one of the guide rollers through a first chain a28 (only part of the chain is shown in the figure), and the driven sprockets on the guide rollers are in transmission connection through a second chain a 29. The torque limiter A24 comprises a coupling main body, a driving friction plate, a driven friction plate, a disc spring and a locking end cover, wherein the driving friction plate, the driven friction plate, the disc spring and the locking end cover are arranged on the coupling main body, the friction chain wheel is arranged between the driving friction plate and the driven friction plate, and the disc spring is used for pressing the driven friction plate to enable the friction chain wheel to rotate under the action of friction force provided by the driving friction plate and the driven friction plate. The compression amount of the disc spring can be adjusted by locking the end cover, so that the effect of adjusting the torsion preset value of the torsion limiter is achieved. During manual work, the danger of being drawn into the deflector roll clearance exists in operator's hand, because driving motor's output passes through the torque limiter and is connected with the friction sprocket, when the external force that the deflector roll received exceeded 75N, the transmission torque of friction sprocket and torque limiter can increase in the twinkling of an eye and surpass the slip torque value that predetermines of torque limiter for take place to skid between friction sprocket and the torque limiter, thereby the deflector roll immediately stops moving, plays manual work safety protection purpose.

Preferably, the inner sides of the two mounting seats a21 are provided with guide bars a61, and the guide bars a61 are fixedly connected with the mounting seats a21 through guide adjusting plates a 62. The tray moves between two gibs, and gib block A61 guide tray keeps sharp moving trajectory, prevents that the tray off tracking from influencing automobile crankshaft's placement accuracy. In addition, the distance between the two guide bars A61 can be adjusted through the position of the guide adjusting plate A62, and the motion guide precision of the tray is improved better.

It should be understood that equivalent alterations and modifications can be made by those skilled in the art according to the technical solution of the present invention and the inventive concept thereof, and all such alterations and modifications should fall within the scope of the appended claims.

Claims (10)

1. A quality inspection conveying device for an automobile crankshaft is characterized by comprising a feeding conveying device, a side pulling conveying device, a quality inspection platform, a lifting conveying device, a first transfer conveying device, a buffer conveying device, a second transfer conveying device, a blanking conveying device and an electric control device; the feeding and conveying device is used for identifying the type and the placing posture of the tray and conveying the tray loaded with the workpiece forwards; the side pulling conveying device is used for guiding the tray to be pulled to the quality inspection platform in the side direction; the quality inspection platform is used for carrying out qualified inspection on the workpiece; the lifting conveying device is used for carrying out pairing identification on qualified products and the trays and conveying the trays with the qualified products to the first transfer conveying device; the buffer conveying devices are arranged in parallel, and each buffer conveying device can buffer a plurality of qualified products; the first transfer conveying device is used for conveying the trays with the qualified products to the corresponding cache conveying devices to realize classified cache; the second transfer conveying device is used for conveying the trays with the qualified products in the buffer conveying device to the blanking conveying device; the blanking conveying device is used for conveying the tray loaded with the qualified products to the carrying trolley; the feeding conveying device, the side pulling conveying device, the quality inspection platform, the lifting conveying device, the first transfer conveying device, the buffer conveying device, the second transfer conveying device and the blanking conveying device are electrically connected with the electric control device, and the electric control device controls the feeding conveying device, the side pulling conveying device, the quality inspection platform, the lifting conveying device, the first transfer conveying device, the buffer conveying device, the second transfer conveying device and the blanking conveying device to work.

2. The quality inspection conveying device of the automobile crankshaft as claimed in claim 1, wherein the feeding conveying device comprises a first rack, a first roller conveying mechanism arranged on the first rack, and a first sensing assembly and a first blocking mechanism arranged on the first roller conveying mechanism; each tray is provided with an identification module arranged on a preset position, and the first induction assembly is used for inducing the arrangement position of the identification module on the tray and feeding induction signals back to the electric control device; the first blocking mechanism is used for blocking the tray from being conveyed forwards.

3. The quality inspection conveying device of the automobile crankshaft as claimed in claim 1, wherein the side pulling conveying device comprises a second frame, a second roller way conveying mechanism arranged on the second frame, a flange arranged on the second roller way conveying mechanism, a roller group and a lifting mechanism for driving the roller group to lift, wherein the roller group extends towards the direction of the quality inspection table.

4. The quality inspection conveying device of the automobile crankshaft as claimed in claim 1, wherein the quality inspection platform comprises a third frame, a transportation panel and a bottom plate which are arranged on the third frame, and a first lifting mechanism which is arranged on the bottom plate, the transportation panel is positioned above the bottom plate, the first lifting mechanism comprises a mounting plate, a lifting arm which is arranged on the mounting plate, and a first air cylinder which is used for driving the mounting plate to vertically move relative to the bottom plate, the lifting arm is used for lifting a workpiece which is placed on the transportation panel, the lifting arm comprises a support arm which is fixedly arranged on the mounting plate and a positioning structure which is arranged on the free end of the support arm, the positioning structure comprises two positioning wheels which are fixedly arranged on the side surface of the support arm, and a V-shaped receiving station is formed between the two positioning wheels.

5. The quality inspection conveying device of the automobile crankshaft as claimed in claim 4, wherein a position adjusting device for driving the lifting arm to move transversely is arranged on the mounting plate, and the position adjusting device comprises a guide rail, a sliding block and a second air cylinder; the guide rail extends along the axial length direction of the workpiece, the bottom of the support arm is connected with the guide rail in a sliding mode through a sliding block, and the second cylinder is used for driving the support arm and the sliding block to move.

6. The quality inspection conveying device of the automobile crankshaft as claimed in claim 2, wherein the lifting conveying device comprises a lifting frame, a bottom frame, a second lifting mechanism arranged on the bottom frame, and a third roller conveying mechanism arranged on the lifting frame, wherein the second lifting mechanism is used for driving the lifting frame to vertically move relative to the bottom frame; the third roller conveying mechanism is provided with a lifting thrust mechanism, the third roller conveying mechanism is provided with a second induction assembly and a third induction assembly, and the second induction assembly is used for inducing the arrangement position of the identification module on the tray and feeding back an induction signal to the electric control device; the third sensing assembly is used for identifying the type of the workpiece; the lifting thrust mechanism is used for preventing the tray from being conveyed forwards.

7. The apparatus of claim 1, wherein each of the first transfer conveyor and the second transfer conveyor comprises a base, a carriage slidably disposed on top of the base, an upper transfer roller conveyor and a lower transfer roller conveyor disposed on the carriage, and a carriage drive mechanism; the shifting upper roller way conveying mechanism is positioned above the shifting lower roller way conveying mechanism, a second blocking mechanism for blocking the forward conveying of the tray is arranged on the shifting upper roller way conveying mechanism of the first shifting conveying device, and a third blocking mechanism for blocking the forward conveying of the tray is arranged on the shifting upper roller way conveying mechanism of the second shifting conveying device; the sliding frame driving mechanism is used for driving the sliding frame to horizontally move towards the direction vertical to the workpiece conveying direction.

8. The quality inspection conveying device of the automobile crankshaft as claimed in claim 1, wherein each buffer conveying device comprises a fourth frame, a buffer upper roller conveying mechanism and a buffer lower roller conveying mechanism, the buffer upper roller conveying mechanism and the buffer lower roller conveying mechanism are arranged on the fourth frame, the buffer upper roller conveying mechanism is located above the buffer lower roller conveying mechanism, a plurality of upper buffer stations are arranged on the buffer upper roller conveying mechanism, the upper buffer station closest to the output end of the buffer upper roller conveying mechanism is a first buffer station, a fourth blocking mechanism and a fifth blocking mechanism are respectively arranged on the front side and the rear side of the first buffer station, the fourth blocking mechanism is used for blocking the tray on the first buffer station from being conveyed forwards, and the fifth blocking mechanism is used for blocking the tray on the upper buffer station located on the rear side of the first buffer station from being conveyed forwards.

9. The quality inspection conveying device of the automobile crankshaft as claimed in claim 2, wherein the blanking conveying device comprises a fifth frame, a blanking roller conveying mechanism and a tray returning roller conveying mechanism, wherein the blanking roller conveying mechanism and the tray returning roller conveying mechanism are arranged on the fifth frame; the discharging roller way conveying mechanism is located above the tray returning roller way conveying mechanism, and a sixth blocking mechanism used for blocking the tray from being conveyed forwards is arranged at the output end of the discharging roller way conveying mechanism.

10. The quality inspection conveying device of the automobile crankshaft as claimed in claim 9, wherein a fourth induction assembly and a seventh blocking mechanism are arranged on the tray returning roller conveying mechanism; the fourth sensing assembly is used for sensing the setting position of the identification module on the empty tray and feeding back a sensing signal to the electric control device; and the seventh blocking mechanism is used for blocking the empty tray from being conveyed forwards.

Images