CN110053982B

CN110053982B - Automatic feeding production line for quenching bearing roller

Info

Publication number: CN110053982B
Application number: CN201910364790.4A
Authority: CN
Inventors: 邓招禄; 郑世浩; 魏升栋; 卢健清
Original assignee: FUJIAN YONGAN BEARING CO LTD
Current assignee: FUJIAN YONGAN BEARING CO LTD
Priority date: 2019-04-30
Filing date: 2019-04-30
Publication date: 2024-05-10
Anticipated expiration: 2039-04-30
Also published as: CN110053982A

Abstract

The invention discloses an automatic feeding production line for quenching processing of bearing rollers, which relates to the field of bearing production equipment and comprises an automatic discharging machine, a conveying belt and a material arranging mechanism. The automatic discharging machine comprises a frame, a hopper and a groove body for placing the material box, wherein the left side and the right side of the groove body can be vertically and overturned to be arranged on the frame, and the groove body is provided with a locking mechanism for fixing the material box. The frame is provided with the hopper in the below of cell body for accept the bearing roller that pours out from the workbin. A conveyer belt is arranged below a discharge hole of the hopper, and the tail end of the conveyer belt is provided with a material arranging mechanism which enables the bearing rollers to pass horizontally one by one in the vertical direction. The automatic feeding and arranging process of the bearing roller can be realized, and the automatic feeding and arranging process has the advantages of simplicity in operation, time and labor saving, high automation level and the like, and can effectively avoid unnecessary damage to the bearing roller caused by the traditional feeding and arranging mode.

Description

Automatic feeding production line for quenching bearing roller

Technical Field

The invention relates to the field of bearing production equipment, in particular to an automatic feeding production line for quenching processing of bearing rollers.

Background

Tapered roller bearings belong to split bearings, and the inner ring and the outer ring of the bearings are provided with tapered raceways, so that the tapered roller bearings are widely applied to industries such as automobiles, rolling mills, mines, metallurgy, plastic machinery and the like. Wherein the bearing roller is one of the important parts for manufacturing the tapered roller bearing, and the bearing roller is required to be subjected to quenching treatment before the tapered roller bearing is assembled.

Because most of purchased bearing rollers are installed in a massive feed box in batches, the whole weight of the feed box and the bearing rollers loaded in the feed box reaches about 1 to 2 tons, and the feed box and the bearing rollers are difficult to move. Therefore, the bearing rollers are usually required to be continuously shoveled out of the feed box by workers by a shovel and transferred onto a conveying line for quenching processing, so that feeding is realized. In addition, the other worker holds the shift lever to stand beside the quenching conveying line to finish the bearing rollers on the conveying line, so that the bearing rollers keep flat and enter the quenching station in a non-stacking manner, and the uniformity of the metallographic structure of the bearing rollers after quenching is ensured. The feeding mode and the material arranging mode consume manpower and large workload, are tedious in operation, time-consuming and labor-consuming, easily influence the production efficiency and the physical and mental health of workers, easily cause collision between the bearing roller and the shovel opening of the shovel, and cause damage to the bearing roller.

Disclosure of Invention

The invention provides an automatic feeding production line for quenching processing of bearing rollers, and mainly aims to solve the problems that the existing manual feeding and material arranging modes of the bearing rollers are complex in operation, time-consuming and labor-consuming, and the bearing rollers are easy to collide and damage.

The invention adopts the following technical scheme:

the automatic feeding production line comprises an automatic discharging machine, a conveying belt and a material arranging mechanism, wherein the automatic discharging machine comprises a frame, a hopper and a groove body for placing a material box, the left side and the right side of the groove body can be vertically and overturned to the frame, and the groove body is provided with a locking mechanism for fixing the material box; the frame is provided with the hopper below the groove body and is used for receiving bearing rollers poured out of the feed box; the conveyer belt is arranged below the discharge hole of the hopper, and the tail end of the conveyer belt is provided with a material arranging mechanism which enables the bearing rollers to pass horizontally one by one in the vertical direction.

Further, the locking mechanism comprises a stop lever, the groove body can horizontally rotate and is provided with a plurality of stop levers distributed around the groove body, and the upper end of the stop lever extends towards the opening of the groove body to be provided with a bending part.

Further, the locking mechanism further comprises a linkage assembly for enabling the plurality of stop rods to rotate simultaneously.

Further, the linkage subassembly includes push-and-pull rod, first connecting rod and second connecting rod, the front and back both sides of cell body all are equipped with two and are arranging about the pin, and the lower extreme of pin sets firmly first linking arm, but push-and-pull rod side-to-side movement sets up in the cell body bottom, and the push-and-pull rod has set firmly the second linking arm, is in two between the first linking arm of cell body homonymy first connecting rod has been articulated, both ends and two of second linking arm all articulate between the first connecting rod the second connecting rod.

Further, the automatic feeding device further comprises a motor and a motor controller, wherein the motor and the motor controller enable the tank body to overturn, a first proximity switch connected with the motor controller is fixedly arranged at the bottom of the tank body, a first detection body is fixedly arranged on the second connecting arm, and when the locking mechanism is used for fixing the feed box, the first detection body is located in an induction area of the first proximity switch.

Further, the side wall of the hopper is provided with an infrared sensor connected with the motor controller and used for detecting whether the hopper is deficient or not.

Further, the groove body is obliquely provided with a plurality of first guide plates which are convenient for placing the feed box into the groove body at the opening.

Further, the hopper is provided with a plurality of second guide plates which are convenient for the bearing rollers to fall into the hopper in an inclined manner at the feed inlet.

Further, the material arranging mechanism comprises a vibrator, a baffle and a material tray with a concave cross section, wherein the vibrator is fixedly arranged at the bottom of the material tray, the baffle is transversely arranged above the material tray in a vertically adjustable manner, a gap is formed between the lower edge of the baffle and the material tray, and the gap can only pass through one bearing roller in a flat-lying state in the vertical direction.

Further, the conveyor belt is provided with a plurality of transverse baffles arranged at intervals along the length direction thereof.

Compared with the prior art, the invention has the beneficial effects that:

1. According to the automatic feeding and arranging device, the automatic discharging machine, the conveying belt and the arranging mechanism are matched with each other, so that the automatic feeding and arranging process before quenching of the bearing rollers is completed, the operation is simple, time and labor are saved, and unnecessary damage to the bearing rollers caused by the traditional feeding and arranging mode is effectively avoided.

2. The locking mechanism has ingenious structural design, other linkage components and the stop lever can be driven to synchronously act by moving the push-pull rod leftwards and rightwards, so that the feed box is locked in the groove body, and the operation is simple and convenient.

3. According to the invention, the first proximity switch, the second proximity switch and the infrared sensor are arranged, so that the motor controller is assisted to control the vertical overturning and the overturning angle of the tank body, and the automation level of an automatic feeding production line is effectively improved.

In conclusion, the automatic feeding and arranging process of the bearing roller can be realized, and the automatic feeding and arranging device has the advantages of simplicity in operation, time and labor saving, high automation level and the like, and can effectively avoid unnecessary damage to the bearing roller caused by the traditional feeding and arranging method.

Drawings

FIG. 1 is a perspective view of the present invention (monolith mechanism not shown).

FIG. 2 is a front view of the present invention (monolith mechanism not shown).

FIG. 3 is a schematic diagram of a tank body according to the present invention.

FIG. 4 is a schematic structural view of the monolith mechanism of the present invention.

Detailed Description

Specific embodiments of the present invention will be described below with reference to the accompanying drawings. Numerous details are set forth in the following description in order to provide a thorough understanding of the present invention, but it will be apparent to one skilled in the art that the present invention may be practiced without these details.

Referring to fig. 1,2, 3 and 4, an automatic feeding production line for quenching bearing rollers comprises an automatic discharging machine 1, a conveying belt 2 and a material arranging mechanism 3, wherein the automatic discharging machine 1 comprises a frame 11, a hopper 12 and a groove body 13 for placing a material box 14, the left side and the right side of the groove body 13 can be vertically and overturned to the frame 11, and the groove body 13 is provided with a locking mechanism 15 for fixing the material box 14; the frame 11 is provided with a hopper 12 below the trough body 13 for receiving bearing rollers poured out of a feed box 14; a conveyer belt 2 is arranged below a discharge hole of the hopper 12, and a material arranging mechanism 3 which enables bearing rollers to pass horizontally one by one in the vertical direction is arranged at the tail end of the conveyer belt 2.

Referring to fig. 1 and 3, the locking mechanism 15 includes a blocking rod 151, the slot 13 is horizontally rotatably provided with a plurality of blocking rods 151 distributed around the slot, and the upper end of the blocking rod 151 extends into the opening of the slot 13 to form a bending part 152. When the stop lever 151 is rotated to make the bending part 152 face the opening of the tank body at the same time, the feed box 14 can be locked in the tank body 13.

Referring to fig. 1, 2 and 3, the locking mechanism 15 further includes a linkage assembly that rotates the plurality of bars 151 simultaneously. Specifically, the linkage assembly includes push-pull rod 154, first connecting rod 155 and second connecting rod 156, and the front and back both sides of cell body 13 all are equipped with two and are arranging ground pin 151 about, and the lower extreme of pin 151 sets firmly first linking arm 153, and push-pull rod 154 sets up in cell body 13 bottom with moving about, and push-pull rod 154 has set firmly second linking arm 157, articulates between two first linking arms 153 that are in cell body 13 homonymy has first connecting rod 155, all articulates between the both ends of second linking arm 157 and two first connecting rods 155 has second connecting rod 156. The push-pull rod 154 is moved left and right, so that the linkage assembly is driven by the second connecting arm 157 to synchronously act, and the stop lever 151 is further synchronously and horizontally rotated, and finally the locking mechanism 15 is opened and closed.

Referring to fig. 1,2 and 3, specifically, the tank 13 is formed by overlapping a plurality of cross beams 131 and longitudinal beams 132, a blocking rod 151 is horizontally rotatably inserted into the cross beams 131 on both front and rear sides, and the blocking rod 151 is provided with a limiting post 133 preventing it from sliding down along the cross beams 131. The longitudinal beam 132 at the bottom of the tank body 13 is fixedly provided with a sleeve 134, the push-pull rod 154 is movably penetrated in the sleeve 134 left and right, the tail end of the push-pull rod 154 is provided with a limit groove 158 along the length direction thereof, and a bolt 135 screwed on the sleeve 134 is arranged in the limit groove 158, thereby limiting the displacement distance of the push-pull rod 154.

Referring to fig. 1,2 and 3, the automatic discharging machine 1 further includes a motor 16 and a motor controller 17 for turning the tank 13, a first proximity switch 18 connected to the motor controller 17 is fixed at the bottom of the tank 13, a first detecting body 181 is fixed on the second connecting arm 157, and when the locking mechanism 15 fixes the bin 14, the first detecting body 181 is located in the sensing area of the first proximity switch 18. When the first proximity switch 18 senses the first detection body 181, the motor controller 17 controls the motor 16 to rotate, so as to control the tank body 13 to vertically overturn, and realize the material pouring process; when the first proximity switch 18 does not sense the first detecting body 181, it indicates that the locking mechanism 15 is in an open state, and the tank 13 stops turning over for safety.

Referring to fig. 1 and 2, a travel control switch for controlling the turning angle of the tank 13 is provided at the left side of the tank 13. As a preferable scheme: the travel control switch is a second proximity switch. Specifically, the frame 11 is provided with an arc plate 111 on the left side of the tank body, three arc grooves 112 are provided on the arc plate 111, a second proximity switch 19 connected with the motor controller 17 is adjustably provided in each arc groove 112, and a second detection body 191 is fixedly provided on the left side of the tank body. According to the position of the three second proximity switches 19 of the maximum overturning angle of the tank body 13, the second detection body 191 overturns vertically along with the tank body 13, when the tank body 13 overturns to the maximum angle towards one side, the second detection body 191 is positioned at the induction position of the second proximity switches 19, and at the moment, the motor controller 17 controls the tank body 13 to overturns towards the other side, so that slow material pouring is realized, and excessive material pouring is prevented.

Referring to fig. 1 and 2, the sidewall of the hopper 12 is provided with an infrared sensor 121 connected to the motor controller 17 for detecting whether the hopper 12 is deficient. When the infrared sensor 121 detects that the hopper 12 is out of stock, the motor controller 17 controls the tank body 13 to overturn for pouring, and when the infrared sensor 121 detects that the hopper 12 is full, the motor controller 17 controls the tank body 13 to stop overturning for pouring.

Referring to fig. 1,2 and 3, a plurality of anti-collision plates 137 for preventing the bin 14 from being bumped are disposed in the tank 13, and anti-collision pads (not shown) are further disposed on the anti-collision plates 137.

Referring to fig. 1,2 and 3, the tank 13 is provided at an opening with a plurality of first guide plates 136 inclined to facilitate the insertion of the bin 14 into the tank 13.

Referring to fig. 1, the hopper 12 is provided with a plurality of second guide plates 122 at the feed inlet at an incline to facilitate the bearing rollers to drop into the hopper 12.

Referring to fig. 1 and 2, the hopper 12 is provided with a push-pull plate 123 for adjusting the size of the discharge port in a manner that the discharge port can be moved left and right, and the size of the discharge port of the hopper 12 is adjusted by moving the push-pull plate 123 left and right, so that the speed of the bearing roller falling onto the conveyor belt 2 is controlled. The push-pull plate 123 can be designed into an automatic push-pull plate or a manual push-pull plate according to actual needs.

Referring to fig. 1 and 2, the conveyor belt 2 is disposed obliquely right under the discharge port of the hopper 12, and the conveyor belt 2 is provided with a plurality of diaphragm plates 21 arranged at intervals along its length direction for preventing the bearing rollers from sliding. In addition, the purpose of preventing the bearing rollers from sliding may be achieved by providing the wavy line guard plates along both side edges in the longitudinal direction of the conveyor belt 2, but the structure of the conveyor belt 2 is not limited thereto.

Referring to fig. 4, the material arranging mechanism 3 includes a vibrator 31, a baffle 32, and a tray 33 with a concave cross section, wherein the tray 33 is obliquely and fixedly arranged at the end of a conveyor belt bracket (not shown in the figure) through a plurality of connecting plates, the vibrator 31 is fixedly arranged at the bottom of the tray 33 through screws, most of small vibrators in the existing market can be selected as the vibrator 31, and a person skilled in the art can select a proper mounting mode to mount the vibrator 31 at the bottom of the tray 33 according to the specific model of the selected vibrator, so that a specific mounting structure between the vibrator and the tray is not repeated herein.

Referring to fig. 4, in detail, the baffle 32 is vertically and horizontally adjustably installed above the tray 33, so that a gap 34 is formed between the lower edge of the baffle 32 and the tray 33, and the gap 34 is vertical and allows only one bearing roller a to pass in a flat state.

Referring to fig. 4, more specifically, both ends of the baffle 32 are erected on the tray 33 by an adjusting assembly 35. Wherein, the adjusting assembly 35 comprises an inverted L-shaped supporting rod 351, a first screw 352, a second screw 353, a three-way pipe 354, a first nut 355 and a second nut 356. Two mutually parallel inverted L-shaped support rods 351 are welded on the outer side wall of the material tray 33, and an installation opening 350 is formed between the two inverted L-shaped support rods 351. One end of the first screw 352 is welded to the baffle 32, and the other end passes through the mounting port 350 in the horizontal direction, and is rotatably sleeved with a three-way pipe 354, and the first screw 352 is further screwed with a first nut 355 at two sides of the three-way pipe 354, for fixing the first screw 352 and the three-way pipe 354. The lower end of the second screw 353 is screwed to the three-way pipe member 354. The upper port of the three-way pipe fitting 354 is welded with a nut for screwing the second screw 353. The upper end of the second screw 353 passes through the mounting port, and the second screw 353 is screwed with a second nut 356 at both upper and lower sides of the two inverted-L support rods 351 for fixing the second screw 353 and the inverted-L support rods 351. For better adjustment and fixation, the second screw 353 is further provided with a spacer between the second nut 356 and the two inverted-L support rods 351, and the second nut 356 at the upper end is further provided with an antenna for facilitating rotational adjustment.

With reference to fig. 1,2,3 and 4, a specific embodiment of the present invention will be described:

Placing the purchased feed box 14 with the bearing rollers into the groove body 13 by using a crane, and moving the push-pull rod 154 to enable the bending part 152 of the stop lever 151 to face and be attached to the feed box 14, so that the feed box 14 is locked in the groove body 13; the height of the baffle plate 32 is adjusted according to the maximum diameter of the bearing roller, so that the height of a gap 34 between the lower edge of the baffle plate 32 and the material disc 33 is ensured to be slightly larger than the diameter of the bearing roller, and therefore, the bearing roller a which is in a flat state can only pass through in the height direction of the bearing roller a; the motor controller 17 controls the trough body 13 to turn over, so that the bearing rollers in the feed box 14 are obliquely poured into the hopper 12; the size of the discharge hole of the hopper 12 is adjusted by moving the push-pull plate 123, so that the bearing roller slowly falls onto the conveying belt 2; the conveyor belt 2 conveys the bearing rollers to the material tray 33 of the material arranging mechanism 3 at a constant speed, and the stacked or inclined bearing rollers are arranged to be in a flat state under the vibration action of the vibrator 31 and the interception action of the baffle plate 32, pass through the gap 34 and enter the quenching station, so that the automatic feeding and material arranging process is completed.

The foregoing is merely illustrative of specific embodiments of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modification of the present invention by using the design concept shall fall within the scope of the present invention.

Claims

1. An automatic feeding production line for quenching bearing rollers is characterized in that: comprises an automatic discharging machine, a conveying belt and a material arranging mechanism; the automatic discharging machine comprises a frame, a hopper and a groove body for placing the material box, wherein the left side and the right side of the groove body can be vertically and overturned and are arranged on the frame, and the groove body is provided with a locking mechanism for fixing the material box; the frame is provided with the hopper below the groove body and is used for receiving bearing rollers poured out of the feed box; the conveying belt is arranged below the discharge hole of the hopper, and the tail end of the conveying belt is provided with a monolith mechanism which enables the bearing rollers to pass horizontally one by one in the vertical direction; the locking mechanism comprises a stop lever, the groove body is horizontally rotatably provided with a plurality of stop levers distributed around the groove body, and the upper end of the stop lever extends towards the opening of the groove body to be provided with a bending part; the locking mechanism further comprises a linkage assembly which enables the plurality of blocking rods to rotate simultaneously, the linkage assembly comprises a push-pull rod, a first connecting rod and a second connecting rod, two blocking rods which are arranged left and right are arranged on the front side and the rear side of the groove body, a first connecting arm is fixedly arranged at the lower end of each blocking rod, the push-pull rod is arranged at the bottom of the groove body in a left-right movable mode, a second connecting arm is fixedly arranged on the push-pull rod, the first connecting rod is hinged between the two first connecting arms which are positioned on the same side of the groove body, and the second connecting rod is hinged between the two ends of each second connecting arm and the two first connecting rods; the groove body is formed by overlapping a plurality of cross beams and longitudinal beams, the stop lever can be horizontally and rotatably inserted into the cross beams on the front side and the rear side, the stop lever is provided with a limit post for preventing the stop lever from sliding downwards along the cross beams, the longitudinal beam at the bottom of the groove body is fixedly provided with a sleeve, the push-pull rod can be horizontally and movably arranged in the sleeve in a penetrating manner, the tail end of the push-pull rod is provided with a limit groove along the length direction of the push-pull rod, and a bolt screwed on the sleeve is arranged in the limit groove, so that the displacement distance of the push-pull rod is limited; the automatic feeding device is characterized by further comprising a motor and a motor controller, wherein the motor and the motor controller enable the tank body to overturn, a first proximity switch connected with the motor controller is fixedly arranged at the bottom of the tank body, a first detection body is fixedly arranged on the second connecting arm, and when the locking mechanism is used for fixing the feed box, the first detection body is located in an induction area of the first proximity switch.

2. An automatic loading line for quenching a bearing roller as claimed in claim 1, wherein: the side wall of the hopper is provided with an infrared sensor connected with the motor controller and used for detecting whether the hopper is deficient or not.

3. An automatic loading line for quenching a bearing roller as claimed in claim 1, wherein: the groove body is obliquely provided with a plurality of first guide plates which are convenient for placing the feed box into the groove body at the opening.

4. An automatic loading line for quenching a bearing roller as claimed in claim 1, wherein: the hopper is provided with a plurality of second guide plates which are convenient for the bearing rollers to fall into the hopper in a tilting manner at the feed inlet.

5. An automatic loading line for quenching a bearing roller as claimed in claim 1, wherein: the material arranging mechanism comprises a vibrator, a baffle and a material tray with a concave cross section, wherein the vibrator is fixedly arranged at the bottom of the material tray, the baffle is transversely erected above the material tray in an up-and-down adjusting manner, a gap is formed between the lower edge of the baffle and the material tray, and the gap can only pass through a bearing roller in a flat state in the vertical direction.

6. An automatic loading line for quenching a bearing roller as claimed in claim 1, wherein: the conveyer belt is provided with a plurality of transverse baffles along the length direction at intervals.