CN112141657A

CN112141657A - Conveying equipment for bearing manufacturing

Info

Publication number: CN112141657A
Application number: CN202011013173.9A
Authority: CN
Inventors: 陈有良
Original assignee: Heze Dunmao Machinery Equipment Co ltd
Current assignee: Heze Dunmao Machinery Equipment Co ltd
Priority date: 2020-09-24
Filing date: 2020-09-24
Publication date: 2020-12-29

Abstract

The invention discloses conveying equipment for bearing manufacturing, which structurally comprises a conveying table, a control button, a feeding port and a base, wherein the control button is installed on the front side of the conveying table in a matching manner, the bottom of the feeding port is embedded in the top of the conveying table, and the upper surface of the base is connected to the bottom of the conveying table through welding, so that the conveying equipment has the beneficial effects that: place the bearing in carrying the platform through the pan feeding mouth, make the bearing move along the baffle right, the swash plate of slope is convenient for the bearing and is moved right, the deflector roll rotates clockwise under the removal of bearing simultaneously, make the pendulum block play the effect of supporting the direction to the bearing, smooth deflector block is convenient for the bearing is quick to fall on the conveyer belt through the baffle, get into logical groove when the bearing moves right along the baffle, rotate through electric start control pivot this moment, make the push pedal swing of commentaries on classics board surface, cause the push pedal to push down vertical rolling bearing, avoid the bearing jam of vertical form to lead to the support to be worn and torn in the logical inslot, in order to avoid leading to supporting.

Description

Conveying equipment for bearing manufacturing

Technical Field

The invention relates to the field of bearings, in particular to conveying equipment for manufacturing bearings.

Background

The bearing is an important part in mechanical equipment, the friction generated in the movement process of the mechanical equipment can be reduced by the bearing, the operation of the mechanical equipment can meet the preset requirement, the surface of a workpiece needs to be subjected to heat treatment firstly in the bearing manufacturing process, then the workpiece is conveyed to the next cleaning procedure through conveying equipment, and the speed of conveying the bearing is controlled through a flow limiting plate on the conveying equipment.

At present, when a manufactured bearing is placed on a conveying device, the bearing is manufactured into a circular ring column shape, so that part of the bearing rolls on the conveying device when the conveying device conveys the bearing, and the rolling bearing is clamped in front of a flow restriction plate under a separation rail of the flow restriction plate, so that the bearing passes and is blocked, the throughput of the bearing at the bottom of the flow restriction plate is affected, and the bearing blocked in front of the flow restriction plate is continuously abraded and abraded by friction.

Disclosure of Invention

The invention provides a bearing manufacturing conveying device, aiming at the defects that when the manufactured bearing is placed on the conveying device, as the bearing is manufactured to be cylindrical, part of the bearing rolls on the conveying device when the conveying device conveys the bearing, and the rolling bearing is clamped in front of a flow limiting plate under a separation rail of the flow limiting plate, so that the passing blockage of the bearing influences the throughput of the bearing at the bottom of the flow limiting plate, and the continuous friction and abrasion between the bearing blocked in front of the flow limiting plate and the bearing are caused.

The invention is realized by the following technical scheme: a conveying device for manufacturing bearings structurally comprises a conveying table, a control button, a feeding port and a base, the control button is arranged at the front side of the conveying platform in a matching way, the bottom of the feeding port is embedded at the top of the conveying platform, the upper surface of the base is connected with the bottom of the conveying table by welding, the conveying table comprises a blanking groove, a guide plate, a flow limiting plate, a conveying belt and a driving machine, the blanking groove is embedded in the upper inner wall of the conveying table, the left end of the guide plate is embedded and fixed on the left inner wall of the conveying table, the left end of the flow limiting plate is positioned above the right end of the guide plate, the flow limiting plate is connected to the inner wall of the conveying table through welding, the conveying belt is connected to the inside of the conveying table through bolts, the driving machine is embedded and fixed at the bottom of the conveying table, and the top of the driving machine is connected with the middle section of the conveying belt, the upper right surface of the guide plate is in a shape of being high at the left and low at the right, the conveying belt runs clockwise, and a plurality of partition plates are arranged on the surface of the conveying belt.

Further say, the baffle includes fixed plate, supporting spring, swash plate, support bar, the fixed plate is the integral structure with the baffle bottom, supporting spring bottom inlays admittedly in the fixed plate upper surface, the swash plate bottom welds with supporting spring top, the support bar is installed between swash plate and fixed plate, supporting spring has three and subtracts the weak point from a left side right side in proper order, and the swash plate is two sections to the swash plate gradient of left side section is greater than the swash plate gradient of right side section.

Further say that, the swash plate includes support column, guide block, deflector roll, the support column inlays perpendicularly in inner wall about the swash plate, welded connection is passed through on the support column top in the guide block bottom, and guide block and swash plate upper surface structure as an organic whole, the deflector roll passes through movable block and connects inside the swash plate, the guide block surface is smooth, and the deflector roll can rotate the frictional force that reduces bearing and swash plate.

Further say that, the deflector roll includes fixed block, commentaries on classics piece, pendulum piece, the fixed block is located the same axis with the deflector roll, change the piece nestification in the fixed block surface, the pendulum piece is through running through the block in changeing the piece surface, the pendulum piece is the rubber material, and the pendulum piece is crooked towards clockwise, and the pendulum piece is annular evenly distributed simultaneously.

Furthermore, the current-limiting plate comprises a motor, a rotating shaft, a rotating plate, a positioning plate and a through groove, the motor is fixedly embedded in the right inner wall of the current-limiting plate, the rotating shaft is installed at the left end of the motor, the rotating plate is embedded at the left end of the rotating shaft, the top of the positioning plate is connected to the upper inner wall of the current-limiting plate through welding, the bottom of the positioning plate and the rotating shaft are located on the same axis, the through groove is embedded at the bottom of the current-limiting plate, the motor is started through electricity, and the distance between the bottom of the rotating plate and the lower surface of the.

Further, the rotating plate comprises a rotating roller, a convex block and a push plate, the rotating roller and the rotating plate are located on the same axis and tightly attached to the outer side of the rotating shaft, the convex block is fixedly embedded on the front side of the rotating plate, the push plate is connected to the outer surface of the rotating plate through welding, the convex block is made of rubber and is provided with four convex blocks, and the two sides of the push plate are arc-shaped and are outwards protruded in the middle.

Further say that, the push pedal includes bracing piece, stopper, ejector pin, the bracing piece inlays perpendicularly inside the push pedal, the stopper nestification is in the bracing piece outside, the ejector pin just runs through in the push pedal surface in the stopper surface through welded connection, the stopper has elasticity, and the ejector pin has three rows.

Advantageous effects

Compared with the prior art, the conveying equipment for manufacturing the bearing has the following advantages that:

1. the invention has the beneficial effects that: the bearing is placed in the conveying table through the feeding port, the bearing moves rightwards along the guide plate, the inclined plate facilitates the rightward movement of the bearing, meanwhile, the guide roller rotates clockwise under the movement of the bearing, the swinging block plays a role in supporting and guiding the bearing, and the smooth guide block facilitates the bearing to quickly fall on the conveying belt through the guide plate.

2. The invention has the beneficial effects that: when the bearing moves rightwards along the guide plate, the bearing enters the through groove, the rotating shaft is controlled to rotate through electric starting, the push plate on the outer surface of the rotating plate swings, the vertical rolling bearing is pushed down by the push plate, and the vertical bearing is prevented from being blocked in the through groove so as to avoid abrasion of the support.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of a conveying apparatus for manufacturing a bearing according to the present invention.

FIG. 2 is a schematic view of an enlarged structure of the interior of the conveying table of the present invention.

FIG. 3 is a front view showing an enlarged structure of the guide plate of the present invention.

Fig. 4 is a front view of the swash plate according to the present invention.

Fig. 5 is an enlarged view illustrating the construction of the guide roller according to the present invention.

Fig. 6 is an enlarged view of the interior of the restrictor plate of the present invention.

Fig. 7 is a left-view enlarged structure diagram of the rotating plate of the present invention.

FIG. 8 is a front view of the push plate of the present invention.

In the figure: the conveying device comprises a conveying table 1, a control button 2, a feeding port 3, a base 4, a discharging groove 11, a guide plate 12, a flow limiting plate 13, a conveying belt 14, a driving machine 15, a fixing plate 121, a supporting spring 122, an inclined plate 123, a supporting strip 124, a supporting column a1, a guide block a2, a guide roller a3, a fixed block a31, a rotating block a32, a swinging block a33, a motor 131, a rotating shaft 132, a rotating plate 133, a positioning plate 134, a through groove 135, a rotating roller b1, a lug b2, a push plate b3, a supporting rod b31, a limiting block b32 and a push rod b 33.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Please refer to fig. 1-8:

example 1:

the invention provides a conveying device for manufacturing bearings, which structurally comprises a conveying table 1, a control button 2, a feeding port 3 and a base 4, wherein the control button 2 is installed on the front side of the conveying table 1 in a matching manner, the bottom of the feeding port 3 is embedded in the top of the conveying table 1, the upper surface of the base 4 is connected to the bottom of the conveying table 1 through welding, the conveying table 1 comprises a blanking groove 11, a guide plate 12, a flow limiting plate 13, a conveying belt 14 and a driving machine 15, the blanking groove 11 is embedded in the upper inner wall of the conveying table 1, the left end of the guide plate 12 is embedded and fixed on the left inner wall of the conveying table 1, the left end of the flow limiting plate 13 is positioned above the right end of the guide plate 12, the flow limiting plate 13 is connected to the upper inner wall of the conveying table 1 through welding, the conveying belt 14 is connected to the inside of the conveying table 1 through bolts, the driving machine 15, the upper right surface of the guide plate 12 is in a shape of being high at the left and low at the right, the conveying belt 14 runs clockwise, and a plurality of partition plates are arranged on the surface of the conveying belt 14, so that the bearings can be placed on the conveying belt 14 through the guide plate 12 and conveyed from left to right.

In the drawing, the baffle 12 includes fixed plate 121, supporting spring 122, swash plate 123, support bar 124, fixed plate 121 and the bottom of baffle 12 are the integral structure, supporting spring 122 bottom is embedded in fixed plate 121 upper surface, swash plate 123 bottom welds with supporting spring 122 top mutually, support bar 124 is installed between swash plate 123 and fixed plate 121, supporting spring 122 has three and subtracts the weak point from the left right side in proper order, and swash plate 123 is two sections to the swash plate 123 gradient of left section is greater than the swash plate 123 gradient of right section, does benefit to and slides to the conveyer belt 14 surface along the swash plate 123 of slope right side through the bearing of unloading groove 11 whereabouts down.

In the drawing, the swash plate 123 includes support column a1, guide block a2, guide roller a3, support column a1 inlays perpendicularly in swash plate 123 upper and lower inner wall, guide block a2 bottom is through welded connection in support column a1 top, and guide block a2 and swash plate 123 upper surface structure as an organic whole, guide roller a3 is connected inside swash plate 123 through the activity block, guide block a2 surface is smooth, and guide roller a3 can rotate the frictional force that reduces bearing and swash plate 123, does benefit to the bearing and moves to the right at swash plate 123 to avoid the bearing card to stop on the swash plate 123 surface.

In the figure, deflector roll a3 includes fixed block a31, commentaries on classics piece a32, pendulum piece a33, fixed block a31 and deflector roll a3 are located the same axis, change piece a32 nestification in fixed block a31 surface, pendulum piece a33 is through running through the block in changeing piece a32 surface, pendulum piece a33 is the rubber material, and pendulum piece a33 is crooked towards clockwise, and pendulum piece a33 is annular evenly distributed simultaneously, does benefit to and drives pendulum piece a33 to support and promote through the rotation of deflector roll a 3.

The specific principle of the embodiment is as follows: the manufactured bearing is added into the conveying table 1 through the feeding port 3 and the blanking groove 11, the bearing is enabled to move rightwards along the inclined guide plate 12, at the moment, the inclined plate 123 on the surface of the guide plate 12 keeps an inclined angle unchanged under the support of the support spring 122 and the support bar 124, the bearing is convenient to move rightwards, meanwhile, the guide roller a3 in the inclined plate 123 rotates clockwise under the movement of the bearing, the swinging block a33 and the rotating block a32 in the guide roller a3 rotate along with the guide roller a3, the bearing is supported and guided, the smooth guide block a2 facilitates the bearing to quickly fall on the conveying belt 14 through the guide plate 12, and then the driving machine 15 is started to drive the conveying belt 14 to rotate clockwise, so that the conveying belt 14 conveys the bearing to the next process.

Example 2:

In the figure, the current-limiting plate 13 comprises a motor 131, a rotating shaft 132, a rotating plate 133, a positioning plate 134 and a through groove 135, the motor 131 is embedded in the right inner wall of the current-limiting plate 13, the rotating shaft 132 is installed at the left end of the motor 131, the rotating plate 133 is embedded at the left end of the rotating shaft 132, the top of the positioning plate 134 is connected to the inner wall of the current-limiting plate 13 by welding, the bottom of the positioning plate 134 and the rotating shaft 132 are located on the same axis, the through groove 135 is embedded at the bottom of the current-limiting plate 13, the motor 131 is electrically started, and the distance between the bottom of the rotating plate 133 and the lower surface of the current-limiting plate 13 is slightly larger than the thickness of a single bearing, so that the throughput of the bearing.

In the figure, the commentaries on classics board 133 includes commentaries on classics roller b1, lug b2, push pedal b3, change roller b1 and commentaries on classics board 133 and be located same axis and hug closely in the pivot 132 outside, lug b2 inlays in commentaries on classics board 133 front side, push pedal b3 passes through welded connection in commentaries on classics board 133 surface, lug b2 is the rubber material, and lug b2 has four to push pedal b3 both sides are the arc and middle outside arch simultaneously, do benefit to making push pedal b3 push down the bearing of vertical rolling under the rotation of commentaries on classics board 133, avoid the bearing jam of vertical form to lead to the inslot 135.

In the drawing, the push plate b3 includes a support rod b31, a limit block b32 and a push rod b33, the support rod b31 is vertically embedded inside the push plate b3, the limit block b32 is embedded outside the support rod b31, the push rod b33 is connected to the outer surface of the limit block b32 by welding and penetrates through the surface of the push plate b3, the limit block b32 has elasticity, and three rows of the push rods b33 are provided, so that the push rod b33 can have outward thrust, and the push plate b3 supports a vertical bearing through the push rod b33 when pushing the bearing.

The specific principle of the embodiment is as follows: when the bearing moves rightwards along the surface of the guide plate 12, the bearing enters the through groove 135 between the guide plate 12 and the current-limiting plate 13, at the moment, the rotating shaft 132 at the left end of the electric starting control motor 131 rotates, the rotating plate 133 rotates along with the rotating shaft 132, the push plate b3 on the outer surface of the rotating plate 133 swings around the rotating shaft 132, so that the push plate b3 pushes down the vertically rolling bearing, the bearing is conveyed in a lying state, the vertical bearing is prevented from being blocked in the through groove 135, when the push plate b3 pushes the bearing, the push rods b33 on two sides of the push plate b3 clamp the top of the bearing under the support of the limiting block b32, and the bearing is prevented from sliding and continuously rubbing against the push plate b3, so that the support is prevented from.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

Claims

1. The utility model provides a conveying equipment for bearing manufacturing, its structure is including carrying platform (1), control button (2), pan feeding mouth (3), base (4), control button (2) cooperation is installed in carrying platform (1) front side, pan feeding mouth (3) bottom is inlayed and is located and carry platform (1) top, base (4) upper surface passes through welded connection in carrying platform (1) bottom, its characterized in that:

carry platform (1) including unloading groove (11), baffle (12), current-limiting plate (13), conveyer belt (14), driving machine (15), unloading groove (11) inlays and locates and carry platform (1) upper inner wall, baffle (12) left end inlays and fixes in carrying platform (1) left side inner wall, current-limiting plate (13) left end is located baffle (12) right-hand member top, and current-limiting plate (13) inner wall on carrying platform (1) through welded connection, conveyer belt (14) are inside in carrying platform (1) through bolted connection, driving machine (15) inlay and fix in carrying platform (1) bottom, and driving machine (15) top is connected with conveyer belt (14) middle section.

2. The conveying apparatus for bearing manufacturing according to claim 1, wherein: guide plate (12) are including fixed plate (121), support spring (122), swash plate (123), support bar (124), fixed plate (121) and guide plate (12) bottom structure as an organic whole, support spring (122) bottom is inlayed in fixed plate (121) upper surface, swash plate (123) bottom and support spring (122) top weld mutually, support bar (124) are installed between swash plate (123) and fixed plate (121).

3. The conveying apparatus for bearing manufacturing according to claim 2, wherein: swash plate (123) are including support column (a1), guide block (a2), deflector roll (a3), inner wall about support column (a1) perpendicular embedded in swash plate (123), guide block (a2) bottom is through welded connection in support column (a1) top, and guide block (a2) and swash plate (123) upper surface structure as an organic whole, deflector roll (a3) are connected inside swash plate (123) through the activity block.

4. The conveying apparatus for bearing manufacturing according to claim 3, wherein: the deflector roll (a3) includes fixed block (a31), commentaries on classics piece (a32), pendulum piece (a33), fixed block (a31) and deflector roll (a3) are located the same axis, commentaries on classics piece (a32) nests in fixed block (a31) surface, pendulum piece (a33) is through running through the block in commentaries on classics piece (a32) surface.

5. The conveying apparatus for bearing manufacturing according to claim 1, wherein: the current-limiting plate (13) comprises a motor (131), a rotating shaft (132), a rotating plate (133), a positioning plate (134) and a through groove (135), the motor (131) is embedded in the right inner wall of the current-limiting plate (13), the rotating shaft (132) is installed at the left end of the motor (131), the rotating plate (133) is embedded at the left end of the rotating shaft (132), the top of the positioning plate (134) is connected to the inner wall of the current-limiting plate (13) through welding, the bottom of the positioning plate (134) and the rotating shaft (132) are located on the same axis, and the bottom of the current-limiting plate (13) is embedded in the through groove (135).

6. The conveying apparatus for bearing manufacturing according to claim 5, wherein: the rotating plate (133) comprises a rotating roller (b1), a bump (b2) and a push plate (b3), the rotating roller (b1) and the rotating plate (133) are located on the same axis and cling to the outer side of the rotating shaft (132), the bump (b2) is embedded in the front side of the rotating plate (133), and the push plate (b3) is connected to the outer surface of the rotating plate (133) through welding.

7. The conveying apparatus for bearing manufacturing according to claim 6, wherein: the push plate (b3) comprises a support rod (b31), a limit block (b32) and a push rod (b33), wherein the support rod (b31) is vertically embedded inside the push plate (b3), the limit block (b32) is embedded outside the support rod (b31), and the push rod (b33) is connected to the outer surface of the limit block (b32) through welding and penetrates through the surface of the push plate (b 3).