CN214793794U - Bearing automatic weighing detection device - Google Patents

Abstract

The utility model relates to an automatic weighing and detecting device for a bearing, which comprises an electronic scale, a frame, a weighing rod, a tray, a weighing cylinder and a material guide plate, wherein the frame is provided with a material guide groove, a material stacking platform and a material collecting box; the feeding device is arranged at the top of the frame; the first material distributing device is arranged above the feeding device and used for pushing the bearing from the feeding device to the tray and the weighing rod and pushing the bearing from the tray to the material guide groove; the second material distributing device is positioned above the material guide plate and used for pushing the bearing from the tray into the material collecting box. The device realizes automatic weighing, simple structure of bearing through the lift tray, can detect whether filling lubricating grease or whether be equipped with the shield to through feed divider with accomplish the bearing of assembly and the bearing of not accomplishing the assembly separate, work efficiency is high.

Description

Bearing automatic weighing detection device

Technical Field

The utility model relates to a bearing apparatus for producing, especially a bearing automatic weighing detection device.

Background

After the bearing is filled with the oil gland, the weight needs to be detected, whether lubricating grease is added or not is judged, the bearing without lubricating grease or with less lubricating grease is eliminated, and the bearing without the dust cap is eliminated. At present, whether oil is injected or not is detected by adopting optical fibers or visual images, which can only determine whether grease exists or not, cannot determine the injection amount of lubricating grease, and can only carry out qualitative detection and cannot carry out quantitative detection. Many visual influence factors can cause certain misjudgment. The visual costs can also be much higher from a cost perspective.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problem, the utility model provides a carry out quantitative determination through the mode of weighing, the filling amount of detection lubricating grease that can be accurate, detect a bearing automatic weighing detection device that the structure is accurate, with low costs, concrete technical scheme is:

the utility model provides a bearing automatic weighing detection device, includes the electronic scale, still includes: the electronic scale comprises a rack, wherein a guide chute, a stacking platform and a material receiving box are arranged on the rack, one end of the guide chute is positioned on the stacking platform, and the electronic scale is installed on the rack; the bottom of the weighing rod is mounted on the electronic scale, and the top of the weighing rod is in contact with the inner ring of the bearing and used for placing the bearing; the center of the tray is provided with a lifting hole, the weighing rod is movably inserted into the lifting hole, and the tray is used for supporting the outer ring of the bearing; the weighing cylinder is fixed at the top of the rack, is connected with the tray, and is used for descending the tray during weighing and ascending the tray during feeding and distributing; the guide plate is arranged at the top of the rack, a weighing hole with the diameter larger than the outer diameter of the bearing is formed in the guide plate, the tray is movably inserted into the weighing hole, and one end of the guide plate is positioned above the guide chute; the feeding device is arranged at the top of the rack and is positioned on one side of the material guide plate; the first material distributing device is arranged above the feeding device and used for pushing the bearing from the feeding device to the tray and the weighing rod and pushing the bearing from the tray to the material guide groove; and the second material distributing device is positioned above the material guide plate and used for pushing the bearing from the tray into the material collecting box.

Through adopting above-mentioned technical scheme, adopt tray lift bearing, can realize weighing to the bearing, and then judge whether filling lubricating grease and shield according to the weight of bearing. The tray is the annular to the lifting hole of tray is less than the external diameter of bearing, and the bearing can stop on the surface of tray, and when the tray descends, the bearing falls on the weighing pole, and the bearing separates with the tray, and the electronic scale can weigh the bearing.

The feeding device can automatically convey the bearing of the previous procedure to the first material distributing device, the first material distributing device pushes the bearing to the tray, and the first material distributing device is also used for pushing the bearing filled with lubricating grease or provided with the dust cover to the stacking platform.

The second material distributing device is used for pushing the bearing which is not filled with lubricating grease or is not provided with the dust cap into the material collecting box, the bearing in the material collecting box needs to be reworked, and the lubricating grease is filled or the dust cap is installed.

The automatic weighing and screening of the bearing are realized by the feeding device, the weighing cylinder, the tray, the first material distributing device and the second material distributing device, the structure is simple, the working efficiency is high, and the detection structure is accurate.

Preferably, a feed inlet is formed in one side of the guide chute and is located at the end of the guide plate, and the bottom of the guide chute is obliquely arranged.

Through adopting above-mentioned technical scheme, the feed inlet of baffle box makes things convenient for the bearing to get into, and the bottom slope of baffle box sets up and is convenient for the bearing to slide to the windrow platform.

Preferably, the weighing device further comprises a weighing platform, wherein the weighing platform is fixed on the weighing rod and movably inserted into the lifting hole.

Through adopting above-mentioned technical scheme, the platform of weighing passes through the fix with screw on the weighing pole to convenient the change, the diameter of the platform of weighing and the inner circle phase-match of bearing, thereby guarantee that the tray descends the back bearing can be stable stop on the platform of weighing, and the tray with weigh a phase-match, the bearing of different diameters uses different trays and platform of weighing, improved application scope.

Preferably, the feeding device comprises: the first roller is rotatably arranged at the top of the rack and is positioned on one side of the material guide plate; the second roller is opposite to the first roller and is positioned on the other side of the material guide plate; the conveying belt is connected with the first roller and the second roller respectively and is positioned above the material guide plate in a sliding manner; and the motor is connected with the second roller.

Through adopting above-mentioned technical scheme, the conveyer belt slides and is located the top of stock guide, and reliable and stable when can guaranteeing the bearing and carry.

Preferably, the material stopping device further comprises a material stopping block, wherein the material stopping block is arranged on the material guiding plate and is positioned above the conveying belt.

Through adopting above-mentioned technical scheme, the fender material piece is injectd the bearing on the conveyer belt, fixes a position the bearing, makes things convenient for first minute feed arrangement propelling movement bearing.

Preferably, the first material distribution device comprises: the first material distributing cylinder is fixed on the rack and is a double-shaft or three-shaft cylinder; the first distributing block is arranged on the first distributing cylinder and is positioned above the conveying belt and the material guide plate, and a first distributing groove is formed in the first distributing block and is used for pushing a bearing onto a tray from the conveying belt; one end of the first material distributing plate is mounted on the first material distributing block; and the second distributing block is arranged at the other end of the first distributing plate, and a second distributing groove is formed in the second distributing block and used for pushing the bearing into the guide groove.

By adopting the technical scheme, the first distributing cylinder is used for pushing the bearing, before weighing, the bearing enters the first distributing block through the conveying belt, the first distributing cylinder pushes the bearing to the position right above the tray, then weighing is carried out, the tray drives the bearing to descend to the position below the first distributing block and the second distributing block, then the first distributing cylinder retracts, the second distributing block moves to one side above the weighing hole, when the bearing is filled with lubricating grease or a dust cover is installed, the first distributing cylinder continues to stretch out, and the second distributing block pushes the bearing to the material guide groove.

First branch silo and second divide the silo to be circular arc groove or V-arrangement groove for fix a position the bearing, thereby guarantee the bearing and the lift hole coaxial line of tray, guarantee that the bearing is stable stops on the weighing rod.

Preferably, the second material dividing device comprises: the second material distribution cylinder is fixed on the rack and is positioned above the material guide plate; and the second material distributing plate is arranged on the second material distributing cylinder, is opposite to the material receiving box and is used for pushing the bearing into the material receiving box.

Through adopting above-mentioned technical scheme, the second branch material cylinder is arranged in pushing away the bearing to the collecting box from another direction, compact structure.

The collecting device comprises a material collecting box, and is characterized by further comprising a material collecting guide rail, wherein the material collecting guide rail is arranged on the rack, one end of the material collecting guide rail is located on one side of the material guide plate, and the other end of the material collecting guide rail is located above the material collecting box.

Through adopting above-mentioned technical scheme, receive the material guide rail with the bearing guide to install in the receipts magazine of frame side, make things convenient for operating equipment.

Preferably, the device further comprises an alignment device, wherein the alignment device comprises: the transverse cylinder is fixed on one side of the top of the rack and is positioned above the stacking platform; the transverse push plate is fixed on the transverse cylinder, is positioned at one end of the guide chute and is used for pushing the bearing from one side of the stacking platform to the other side; the longitudinal cylinder is fixed at the top of the rack and is positioned at one end of the stacking platform; the longitudinal push plate is fixed on the longitudinal cylinder; the material supporting plate is movably arranged on the stacking platform and is opposite to the longitudinal push plate; and the striker plates are fixed on two sides of the material supporting plate.

Through adopting above-mentioned technical scheme, collating unit can arrange the bearing according to the row, makes things convenient for the next process to pack.

Further, the method also comprises the following steps: the linear bearing seats are fixed at the top of the rack and positioned on two sides of the longitudinal cylinder; and one end of the round guide rail is fixed on the longitudinal push plate and is movably inserted on the linear bearing seat.

By adopting the technical scheme, the linear bearing seat and the circular guide rail improve the reciprocating movement stability of the longitudinal push plate.

Compared with the prior art the utility model discloses following beneficial effect has:

the utility model provides a pair of bearing automatic weighing detection device realizes the automatic weighing of bearing through the lift tray, and simple structure can carry out quantitative determination, and it is accurate to detect the structure, can detect whether filling lubricating grease through weight, can be equipped with the shield through weight detection simultaneously to the bearing that will accomplish the assembly through feed divider separates with the bearing of not accomplishing the assembly, and work efficiency is high, with low costs.

Drawings

FIG. 1 is a schematic structural diagram of an automatic weighing and detecting device for a bearing;

FIG. 2 is a front view of an automatic bearing weight detecting device;

FIG. 3 is a top view of an automatic bearing weighing and detecting device;

FIG. 4 is a schematic view of an assembly of an electronic scale, a tray, a weighing cylinder and a weighing bar;

FIG. 5 is an exploded schematic view of the weigh station, weigh bar, and pallet;

fig. 6 is an assembled view of the feeding device and the guide plate;

fig. 7 is a schematic structural view of a material guide plate;

fig. 8 is a schematic view of the structure of a guide chute;

FIG. 9 is a front view of the first dispensing device;

fig. 10 is a schematic structural view of the first distributing device.

Detailed Description

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

Realize the automatic weighing of bearing through lift tray 23, simple structure can be through whether filling lubricating grease of weight detection, can be equipped with the shield through weight detection simultaneously to through feed divider with qualified bearing and unqualified bearing separation, work efficiency is high.

Example one

As shown in fig. 1 to 10, an automatic weighing and detecting device for a bearing includes an electronic scale 21, a frame 11, a weighing rod 22, a tray 23, a weighing cylinder 25, a material guide plate 51, a feeding device, a first material distributing device and a second material distributing device.

Adopt tray 23 lift bearing, can realize weighing to the bearing, and then judge whether filling lubricating grease and shield according to the weight of bearing. The tray 23 is ring-shaped, and the lifting hole 232 of the tray 23 is smaller than the outer diameter of the bearing, the bearing can stay on the surface of the tray 23, when the tray 23 descends, the bearing falls on the weighing rod 22, the bearing is separated from the tray 23, and the electronic scale 21 can weigh the bearing.

The feeding device can automatically convey the bearing of the previous procedure to the first material distribution device, the first material distribution device pushes the bearing to the tray 23, and the first material distribution device is also used for pushing the bearing filled with lubricating grease or provided with the dust cover to the stacking platform 15.

The second material distributing device is used for pushing the bearing which is not filled with the lubricating grease or is not provided with the dust cap into the material receiving box 64, the bearing in the material receiving box 64 needs to be reworked, and the lubricating grease is filled or the dust cap is installed.

The feeding device, the weighing cylinder 25, the tray 23, the first material distributing device and the second material distributing device achieve automatic weighing and screening of the bearings, and the bearing weighing device is simple in structure and high in working efficiency.

As shown in fig. 1 and 3, a material guiding chute 52 and a material receiving box 64 are installed at one side of the top of the frame 11, a stacking platform 15 is installed at one end of the frame 11, and a discharging end of the material guiding chute 52 is located on the stacking platform 15. The material blocking column 16 is arranged on the material stacking platform 15, the material blocking column 16 is arranged opposite to the material guide groove 52, and a bearing rolled out from the material guide groove 52 is blocked on the material stacking platform 15.

As shown in fig. 8, a feed inlet is formed at one side of the feed end of the material guide chute 52, the feed inlet is formed at the end of the material guide plate 51, and the bottom of the material guide chute 52 is inclined. The feed inlet of the guide chute 52 is convenient for the bearing to enter, and the bottom of the guide chute 52 is obliquely arranged so that the bearing can slide onto the stacking platform 15.

As shown in fig. 2 and 4, the electronic scale 21 is installed inside the frame 11, the weighing bar 22 is fixed to the electronic scale 21, and the weighing bar 22 is movably inserted through the top of the frame 11. The diameter of the weighing rod 22 is larger than the diameter of the inner hole of the bearing and not larger than the inner diameter of the outer ring, and the weighing rod 22 can only be propped against the inner ring of the bearing and is not contacted with the outer ring.

Due to the adoption of the weighing rod 22 and the tray 23, the bearing detection device can be suitable for detecting a bearing in a larger range, for example, the bearing with the diameter of 60-100mm, and the detection range is large.

The weighing cylinder 25 is fixed on the top of the frame 11, the tray 23 is mounted on a piston rod of the weighing cylinder 25, an outer ring of the bearing is positioned on the tray 23, and an inner ring of the bearing is opposite to the weighing rod 22. The weighing cylinder 25 can be a double-shaft cylinder or a three-shaft cylinder, and the stability is high.

As shown in fig. 6 and 7, the material guiding plate 51 is fixed on the top of the frame 11, the material guiding plate 51 is provided with a weighing hole 512, the diameter of the weighing hole 512 is larger than the outer diameter of the bearing, the tray 23 is movably inserted into the weighing hole 512, the tray 23 can freely lift in the weighing hole 512, and the bearing lifts along with the tray 23. The end of the material guiding plate 51 opposite to the material guiding groove 52 is provided with a material guiding arc surface 513, so that the bearing is changed from a horizontal state to a vertical state, and can roll from the material guiding groove 52 to the stacking platform 15.

The positioning ring 231 is arranged at the bottom of the tray 23, and when the weighing cylinder 25 rises, the positioning ring 231 enables the top surface of the tray 23 to be flush with the top surface of the material guide plate 51, so that the rising height of the tray 23 is positioned, and a bearing can conveniently slide onto the tray 23 from the material guide plate 51.

As shown in fig. 6, the feeding device includes a first roller 41, a second roller 42, a conveyor belt 43, a motor 44 and a material blocking block 46, wherein the first roller 41 is installed on the top of the frame 11 through a bearing seat and is located on one side of the material guiding plate 51; the second roller 42 is installed on the top of the frame 11 through a bearing seat, and the first roller 41 and the second roller 42 are respectively located on two sides of the material guide plate 51; the conveyer belt 43 is sleeved on the first roller 41 and the second roller 42, and is located above the material guide plate 51 in a sliding manner, a sliding chute 511 is arranged on the material guide plate 51, the conveyer belt 43 is located in the sliding chute 511, the top surface of the conveyer belt 43 is flush with the top surface of the material guide plate 51, the bearing can smoothly slide onto the material guide plate 51 from the conveyer belt 43, the motor 44 is fixed on the rack 11 and is connected with the second roller 42, and the motor 44 drives the conveyer belt 43 to convey the bearing through the second roller 42. The material blocking block 46 is fixed on the material guide plate 51, is positioned above the conveying belt 43 and is also positioned at the discharge end of the conveying belt 43, the bearing is limited on the conveying belt 43 by the material blocking block 46, and the bearing is positioned, so that the bearing is convenient to push by the first material distributing device. The conveyor belt 43 and the guide plate 51 are perpendicular to each other.

As shown in fig. 9 and 10, the first distributing device includes a first distributing cylinder 35, a first distributing block 31, a first distributing block 33, and a second distributing block 32. The first material distributing cylinder 35 is fixed on the frame 11, and the first material distributing cylinder 35 is a double-shaft or three-shaft cylinder; the first material distributing block 31 is arranged on the first material distributing cylinder 35 and is positioned above the conveying belt 43 and the material guide plate 51, the material blocking block 46 is positioned on one side of the first material distributing block 31, and a first material distributing groove 311 is arranged on the first material distributing block 31; one end of the first distribution plate 33 is mounted on the first distribution block 31; the second distributing block 32 is installed at the other end of the first distributing plate 33, and a second distributing groove 321 is provided on the second distributing block 32. The first material-dividing cylinder 35 and the first material-dividing plate 33 are perpendicular to the conveyor belt 43. The first distributing block 31 and the second distributing block 32 are made of engineering plastics, so that the outer ring of the bearing is prevented from being damaged.

The first material distributing cylinder 35 is used for pushing the bearings, before weighing, the bearings enter the first material distributing block 31 through the conveying belt 43, the first material distributing cylinder 35 pushes the bearings to be right above the tray 23, then weighing is carried out, the tray 23 drives the bearings to descend below the second material distributing block 32, then the first material distributing cylinder 35 retracts, the second material distributing block 32 moves to one side above the weighing hole 512, when the bearings are filled with lubricating grease or dust covers are installed, the first material distributing cylinder 35 continues to extend out, and the second material distributing block 32 pushes the bearings to the material guide groove 52.

First branch silo 311 and second branch silo 321 are arc groove or V-arrangement groove for fix a position the bearing, thereby guarantee the bearing and the lift hole 232 coaxial line of tray 23, guarantee that the bearing is stable stops on weighing rod 22, avoid the bearing landing.

The second material distributing device comprises a second material distributing cylinder 71 and a second material distributing plate 72, the second material distributing cylinder 71 is fixed on the frame 11 and is located above the material guide plate 51, and the second material distributing cylinder 71 is perpendicular to the material guide plate 51 and is parallel to the conveying belt 43. The second material distributing plate 72 is mounted on the second material distributing cylinder 71, and is disposed opposite to the material receiving box 64, and is used for pushing the bearing into the material receiving box 64. The second material distributing plate 72 is a plastic part to avoid damaging the outer surface of the bearing. The second distributing cylinder 71 is used for pushing the bearing into the material collecting box 64 from the other direction, and the structure is compact.

The top of the frame 11 is further provided with a material receiving guide rail 63, the material receiving guide rail 63 is a 90-degree guide rail, the material receiving guide rail 63 is provided with a guide groove, one end of the material receiving guide rail 63 is located on one side of the material guide plate 51, and the other end of the material receiving guide rail 63 is located above the material receiving box 64 and used for guiding the bearing into the material receiving box 64. The receiving guide rail 63 guides the bearing to a receiving box 64 installed on the side of the frame 11, which facilitates the operation of the apparatus.

During operation, the bearings are sequentially conveyed onto the conveying belt 43, the conveying belt 43 conveys the bearings to the first distributing block 31, the first distributing cylinder 35 extends, the bearings slide onto the guide plate 51 from the conveying belt 43 and continue to slide onto the tray 23, the first distributing groove 311 enables the bearings to be coaxial with the tray 23, then the weighing cylinder 25 retracts, the bearings descend and stop on the weighing rod 22, the tray 23 is separated from the bearings, the bearings are also positioned below the second distributing block 32, the first distributing cylinder 35 retracts, meanwhile, the electronic scale 21 weighs the bearings through the weighing rod 22, then whether lubricating grease is filled or a dust cap is installed is judged according to the weight of the bearings, the weighing cylinder 25 extends after weighing is completed, the tray 23 rises, the bearings ascend to the top surface of the guide plate 51, if lubricating grease is filled and the dust cap is installed, the first distributing cylinder 35 extends, the bearings are pushed into the guide groove 52 by the second distributing block 32, the bearing rolls through the material guiding groove 52 to the material stacking platform 15, if the bearing is not filled with grease or provided with a dust cover, the second material distributing cylinder 71 extends out, the bearing is pushed from the tray 23 to the material collecting guide rail 63, and finally enters the material collecting box 64.

Example two

On the basis of the first embodiment, as shown in fig. 1 to 10, the weighing platform 24 is further included, and the weighing platform 24 is fixed on the weighing rod 22 and movably inserted in the lifting hole 232.

The weighing platform 24 is fixed on the weighing rod 22 through screws, so that replacement is convenient, the diameter of the weighing platform 24 is matched with the inner ring of a bearing, the bearing can stably stay on the weighing platform 24 after the tray 23 descends, the lifting hole 232 of the tray 23 is matched with the weighing platform 24, the trays 23 and the weighing platforms 24 with different diameters are used for bearings with different diameters, the application range is widened, for example, the weighing platform 24 and the tray 23 can be adopted for bearing detection with the diameter of 60-100mm, and the weighing platforms 24 trays 23 with other specifications are adopted for bearings with the diameter exceeding the range.

When the weighing platform 24 is adopted, the first material distribution plate 33 is provided with a waist-shaped hole 331, the first material distribution plate 33 is respectively connected with the first material distribution block 31 and the second material distribution block 32 through screws, and the screws are inserted in the waist-shaped holes 331, so that the positions of the first material distribution block 31 and the second material distribution block 32 can be adjusted.

EXAMPLE III

On the basis of any one of the above embodiments, as shown in fig. 1 to 3, the device further comprises a arranging device, wherein the arranging device comprises a transverse air cylinder 88, a transverse push plate 89, a longitudinal air cylinder 81, a longitudinal push plate 82, a side baffle 83, a retainer plate 86, a material baffle 87, a linear bearing seat 84 and a circular guide rail 85.

The transverse cylinder 88 is fixed on one side of the top of the frame 11 and is positioned above the stacking platform 15; the transverse push plate 89 is fixed on the transverse cylinder 88 and is positioned at one end of the material guide chute 52, the transverse push plate 89 is made of engineering plastics, and the transverse push plate 89 is used for pushing the bearing from one side of the stacking platform 15 to the other side; the longitudinal cylinder 81 is fixed on the top of the frame 11 and is positioned at one end of the stacking platform 15;

the longitudinal push plate 82 is fixed on the longitudinal cylinder 81, and the longitudinal push plate 82 is made of engineering plastics;

the side baffle 83 is fixed on one side of the longitudinal push plate 82 and is arranged opposite to the transverse push plate 89;

the retainer plate 86 is movably arranged on the stacking platform 15 and is opposite to the longitudinal push plate 82; striker plates 87 are fixed to both sides of the retainer plate 86.

The arranging device can arrange the bearings in a string according to the rows, so that the bearings are convenient to take away. The linear bearing seats 84 are fixed on the top of the frame 11 and located on two sides of the longitudinal cylinder 81; one end of the round guide rail 85 is fixed on the longitudinal push plate 82 and is movably inserted on the linear bearing seat 84. The linear bearing blocks 84 and the circular guide rails 85 improve the stability of the reciprocating movement of the longitudinal push plate 82.

The supporting rod 12 is arranged on the side face of the rack 11, the bottom supporting plate 13 is arranged on the supporting rod 12, the bottom supporting plate 13 is located on one side of the stacking platform 15, and the material supporting plate 86 is movably placed on the bottom supporting plate 13 and can be taken away integrally.

The material piling platform 15 is provided with a material piling groove, and the bearings are in a vertical state, so that the bearings can stay in the push-pull grooves for arrangement.

When the bearings are arranged, the bearings enter the stacking platform 15, the transverse cylinder 88 extends out, the transverse push plate 89 pushes the bearings to the side baffle 83, when the bearings between the transverse push plate 89 and the side baffle 83 are arranged fully, the longitudinal cylinder 81 extends out, the longitudinal push plate 82 pushes the whole row of bearings to the material supporting plate 86 and is positioned between the two material retaining plates 87, and after the material supporting plate 86 is filled with the bearings, the material supporting plate 86 is taken away, or the bearings can be taken away in a whole row after the stacking groove is filled with the bearings.

The automatic bearing weighing and detecting device has the advantages of stable weighing and detecting, capability of arraying and arranging the bearings, simple and reliable mechanical structure, high space utilization rate and very convenient tool adjustment and replacement.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a bearing automatic weighing detection device, includes the electronic scale, its characterized in that still includes:

the electronic scale comprises a rack, wherein a guide chute, a stacking platform and a material receiving box are arranged on the rack, one end of the guide chute is positioned on the stacking platform, and the electronic scale is installed on the rack;

the bottom of the weighing rod is mounted on the electronic scale, and the top of the weighing rod is in contact with the inner ring of the bearing and used for placing the bearing;

the center of the tray is provided with a lifting hole, the weighing rod is movably inserted into the lifting hole, and the tray is used for supporting the outer ring of the bearing;

the weighing cylinder is fixed at the top of the rack, is connected with the tray, and is used for descending the tray during weighing and ascending the tray during feeding and distributing;

the guide plate is arranged at the top of the rack, a weighing hole with the diameter larger than the outer diameter of the bearing is formed in the guide plate, the tray is movably inserted into the weighing hole, and one end of the guide plate is positioned above the guide chute;

the feeding device is arranged at the top of the rack and is positioned on one side of the material guide plate;

the first material distributing device is arranged above the feeding device and used for pushing the bearing from the feeding device to the tray and the weighing rod and pushing the bearing from the tray to the material guide groove;

and the second material distributing device is positioned above the material guide plate and used for pushing the bearing from the tray into the material collecting box.

2. The automatic bearing weighing and detecting device of claim 1, wherein a feed inlet is arranged at one side of the guide chute, the feed inlet is positioned at the end part of the guide plate, and the bottom of the guide chute is obliquely arranged.

3. The automatic bearing weighing and detecting device of claim 1, further comprising a weighing platform, wherein the weighing platform is fixed on the weighing rod and movably inserted into the lifting hole.

4. The automatic bearing weighing and detecting device of any one of claims 1 to 3, wherein the feeding device comprises:

the first roller is rotatably arranged at the top of the rack and is positioned on one side of the material guide plate;

the second roller is opposite to the first roller and is positioned on the other side of the material guide plate; and

the conveying belt is connected with the first roller and the second roller respectively and is positioned above the material guide plate in a sliding manner; and

the motor is connected with the second roller.

5. The automatic bearing weighing and detecting device of claim 4, further comprising a material blocking block, wherein the material blocking block is mounted on the material guide plate and is positioned above the conveying belt.

6. The automatic bearing weighing and detecting device of claim 4, wherein the first material distributing device comprises:

the first material distributing cylinder is fixed on the rack and is a double-shaft or three-shaft cylinder;

the first distributing block is arranged on the first distributing cylinder and is positioned above the conveying belt and the material guide plate, and a first distributing groove is formed in the first distributing block and is used for pushing a bearing onto a tray from the conveying belt;

one end of the first material distributing plate is mounted on the first material distributing block; and

and the second distributing block is arranged at the other end of the first distributing plate, and a second distributing groove is formed in the second distributing block and used for pushing the bearing into the guide groove.

7. The automatic bearing weighing and detecting device of any one of claims 1 to 3, wherein the second material distributing device comprises:

the second material distribution cylinder is fixed on the rack and is positioned above the material guide plate; and

and the second material distributing plate is arranged on the second material distributing cylinder, is opposite to the material receiving box and is used for pushing the bearing into the material receiving box.

8. The automatic bearing weighing and detecting device of claim 7, further comprising a material receiving guide rail, wherein the material receiving guide rail is mounted on the rack, one end of the material receiving guide rail is located on one side of the material guide plate, and the other end of the material receiving guide rail is located above the material receiving box.

9. The automatic weight detecting device for bearing of any one of claims 1 to 3, further comprising an aligning device, said aligning device comprising:

the transverse cylinder is fixed on one side of the top of the rack and is positioned above the stacking platform;

the transverse push plate is fixed on the transverse cylinder, is positioned at one end of the guide chute and is used for pushing the bearing from one side of the stacking platform to the other side;

the longitudinal cylinder is fixed at the top of the rack and is positioned at one end of the stacking platform;

the longitudinal push plate is fixed on the longitudinal cylinder;

the side baffle is fixed on one side of the longitudinal push plate and is arranged opposite to the transverse push plate;

the material supporting plate is movably arranged on the stacking platform and is opposite to the longitudinal push plate; and

the striker plate is fixed on two sides of the material supporting plate.

10. The automatic bearing weighing and detecting device of claim 9, further comprising: the linear bearing seats are fixed at the top of the rack and positioned on two sides of the longitudinal cylinder; and

one end of the round guide rail is fixed on the longitudinal push plate and is movably inserted on the linear bearing seat.

Images