CN206734747U - Steel ball packing machine with anticollision abrasionproof function - Google Patents

Abstract

The utility model discloses a kind of steel ball packing machine with anticollision abrasionproof function, including steel ball conveyer belt, steel ball hopper, packing box conveyer belt；Steel ball transmission belt surface is provided with transmission tooth；Along direction of transfer, transmit the first deep-slotted chip breaker that tooth front end face is provided with depression, transmit the second deep-slotted chip breaker that tooth rear end face is provided with depression, transmission crest top land is provided with roller, first deep-slotted chip breaker, the radian of the second deep-slotted chip breaker are adapted to the radian of steel ball surface, and adjacent transmission tooth is spliced to form hemispherical groove by the first deep-slotted chip breaker and the second deep-slotted chip breaker；Steel ball hopper bottom is provided with the lower ball mouth equal with steel ball size；Close to steel ball feed hopper bottom, steel ball hopper transmits towards steel ball and is provided with ball mouth in the side wall of end of tape, and ball mouth connects with lower ball mouth.The beneficial effects of the utility model are：It is capable of the surface quality of effective guarantee steel ball, there is good cushioning effect, automaticity is high, and manual labor amount is few.

Description

Steel ball packing machine with anticollision abrasionproof function

Technical field

The utility model belongs to steel ball manufacturing technology field, and in particular to a kind of steel ball packaging with anticollision abrasionproof function Machine.

Background technology

Steel ball is divided into grinding steel ball, forged steel ball, steel ball casting according to production and processing technology, and steel ball is important basis zero Part, especially accurate industrial ball play great function in the national economic development.

Steel ball processing is needed by cold-heading, photosphere, buffing, heat treatment, hard grind, surface Hardening Treatment, precise finiss, clear Wash, visual examination, rust prevention packaging, finished product steel ball examine storage etc. multiple working procedure, steel ball is on precision lapping machine through the long period Grinding, the precision of steel ball and surface rationally corrected, and has been now finished product steel ball, finished product steel ball cleaning, outward appearance, oiling and Packaging belongs to postprocessing working procedures, most important to the quality of finished product.

Existing steel ball packing machine tumbles by steel ball along slope, collides between steel ball, occurs between steel ball and slope Friction, damage steel ball surface is easy to, influences the surface quality of steel ball.

Utility model content

To solve the problems, such as that existing steel ball packing machine is easily damaged steel ball surface, the purpose of this utility model is to provide one Steel ball packing machine of the kind with anticollision abrasionproof function.

The utility model is achieved through the following technical solutions：Steel ball packing machine with anticollision abrasionproof function, bag The steel ball hopper for include steel ball conveyer belt, being located above steel ball conveyer belt and the packing box being located at below steel ball transmission end of tape Conveyer belt；Above-mentioned steel ball transmission belt surface is provided with compact arranged transmission tooth；Along direction of transfer, above-mentioned transmission tooth front end face is provided with First deep-slotted chip breaker of depression, above-mentioned transmission tooth rear end face are provided with the second deep-slotted chip breaker of depression, and above-mentioned transmission crest top land is provided with roller, Above-mentioned first deep-slotted chip breaker, the radian of above-mentioned second deep-slotted chip breaker are adapted to the radian of steel ball surface, and adjacent transmission tooth passes through first Deep-slotted chip breaker and the second deep-slotted chip breaker are spliced to form hemispherical groove；Above-mentioned steel ball hopper bottom is provided with equal with above-mentioned steel ball size Lower ball mouth；Close to above-mentioned steel ball feed hopper bottom, above-mentioned steel ball hopper transmits towards steel ball and is provided with ball mouth in the side wall of end of tape, Above-mentioned ball mouth connects with above-mentioned lower ball mouth.

Preferably, above-mentioned first arc rooved face is provided with the first buffer board of arc, above-mentioned first buffering to the utility model Connected between plate and above-mentioned first deep-slotted chip breaker by spring, radian and the above-mentioned steel ball surface of above-mentioned first buffer board inner surface Radian is adapted to；Above-mentioned second arc rooved face is provided with the second buffer board of arc, above-mentioned second buffer board and above-mentioned second arc Connected between groove by spring, the radian of above-mentioned second buffer board inner surface is adapted to the radian of above-mentioned steel ball surface.

Preferably, below above-mentioned steel ball transmission end of tape, above-mentioned packing box conveyer belt both sides are provided with red the utility model Outside line inductor.

Preferably, below above-mentioned infrared inductor, the side of above-mentioned packing box conveyer belt is provided with water to the utility model Flat push pedal.

Preferably, above-mentioned push pedal is connected the utility model with electrohydraulic cylinder.

The utility model preferably, is additionally provided with central controller, the driver motor of above-mentioned steel ball conveyer belt, above-mentioned packaging The driver motor of box conveyer belt, above-mentioned infrared inductor, above-mentioned electrohydraulic cylinder pass through with above-mentioned central controller respectively Electric signal connects.

Transmission tooth positioned at steel ball conveyer belt top is spliced to form half by the first deep-slotted chip breaker, the second deep-slotted chip breaker between each other Ball recess, in steel ball conveyer belt transmission process, when hemispherical groove is moved to immediately below steel ball hopper, in steel ball hopper A steel ball fallen into by lower ball mouth in hemispherical groove, this steel ball band is gone out steel ball by hemispherical groove by ball mouth Hopper.

When roller is moved to immediately below steel ball hopper, roller holds up the steel ball in steel ball hopper, roller and steel ball it Between rolling friction occurs, frictional force is minimum, thus roller will not damage steel ball surface.

The first buffer board is provided with first deep-slotted chip breaker, the second buffer board is provided with the second deep-slotted chip breaker, when steel ball is from steel ball material When falling under in bucket in hemispherical groove, the first buffer board, the second buffer board play cushioning effect to steel ball, thus effectively protect Steel ball surface is protected.

Infrared inductor is used to sense packing box, is passed when packing box is moved to steel ball in the transmission of packing box conveyer belt When sending below end of tape, infrared inductor stops to central controller transmission signal, central controller controls packing box conveyer belt Only it is driven, is easy to steel ball being fitted into packing box.At the end of the packaging time, central controller controls push pedal is by packing box from bag Released on mounted box conveyer belt, be then again started up the motion of packing box conveyer belt, next packing box is transported to steel ball conveyer belt Below end.

The utility model can at least reach less than one beneficial effect：

1. steel ball can be sent to packaging place one by one successively, overcome Traditional Packing machine and disposably largely discharge Steel ball, cause mutually to collide the shortcomings that being damaged during steel ball drop, be capable of the surface quality of effective guarantee steel ball；

2. steel ball conveyer belt has good cushioning effect, prevent steel ball collides in dropping process from damaging surface；

3. automaticity is high, manual labor amount is few.

Brief description of the drawings

Fig. 1 is front view of the present utility model.

Fig. 2 is the top view of the utility model packing box conveyer belt.

Fig. 3 is the right view of the utility model steel ball hopper.

Each sequence number and its corresponding title are as follows in accompanying drawing：

Steel ball conveyer belt 1, steel ball hopper 2, packing box conveyer belt 3, transmission tooth 4, the first deep-slotted chip breaker 5, the second deep-slotted chip breaker 6, Steel ball 7, roller 8, lower ball mouth 9, ball mouth 10, the first buffer board 11, the second buffer board 12, infrared inductor 13, push pedal 14, Packing box 15.

Embodiment

Explanation is further explained to the utility model below in conjunction with the accompanying drawings.

As shown in Figure 1 to Figure 3, the utility model includes steel ball conveyer belt 1, is located at the steel ball material of the top of steel ball conveyer belt 1 Bucket 2 and the packing box conveyer belt 3 being located at below the end of steel ball conveyer belt 1.

Embodiment 1

As shown in Figure 1 to Figure 3, the surface of steel ball conveyer belt 1 is provided with compact arranged transmission tooth 4；Along direction of transfer, tooth is transmitted 4 front end faces are provided with the first deep-slotted chip breaker 5 of depression, and transmission tooth 4 rear end face is provided with the second deep-slotted chip breaker 6 of depression, and the transmission top surface of tooth 4 is set There is roller 8, the radian of the first deep-slotted chip breaker 5, the radian of the second deep-slotted chip breaker 6 with the surface of steel ball 7 is adapted to, and adjacent transmission tooth 4 passes through First deep-slotted chip breaker 5 and the second deep-slotted chip breaker 6 are spliced to form hemispherical groove；The bottom surface of steel ball hopper 2 is provided with equal with the diameter of steel ball 7 Lower ball mouth 9；Close to the bottom of steel ball hopper 2, steel ball hopper 2 goes out towards ball mouth 10 is provided with the side wall of the end of steel ball conveyer belt 1 Ball mouth 10 connects with lower ball mouth 9.

The surface of first deep-slotted chip breaker 5 is provided with the first buffer board 11 of arc, leads between the first buffer board 11 and the first deep-slotted chip breaker 5 Spring connection is crossed, the radian of the inner surface of the first buffer board 11 is adapted to the radian on the surface of steel ball 7；The surface of second deep-slotted chip breaker 6 is provided with Second buffer board 12 of arc, is connected between the second buffer board 12 and the second deep-slotted chip breaker 6 by spring, table in the second buffer board 12 The radian in face is adapted to the radian on the surface of steel ball 7.

Below the end of steel ball conveyer belt 1, the both sides of packing box conveyer belt 3 are provided with infrared inductor 13.

Below infrared inductor 13, the side of packing box conveyer belt 3 is provided with horizontal push pedal 14.

Push pedal 14 is connected with electrohydraulic cylinder.

It is additionally provided with central controller, it is the driver motor of steel ball conveyer belt 1, the driver motor of packing box conveyer belt 3, red Outside line inductor 13, electrohydraulic cylinder are connected with central controller by electric signal respectively.

Embodiment 2

As shown in Figure 1 to Figure 3, the surface of steel ball conveyer belt 1 is provided with compact arranged transmission tooth 4；Along direction of transfer, tooth is transmitted 4 front end faces are provided with the first deep-slotted chip breaker 5 of depression, and transmission tooth 4 rear end face is provided with the second deep-slotted chip breaker 6 of depression, and the transmission top surface of tooth 4 is set There is roller 8, the radian of the first deep-slotted chip breaker 5, the radian of the second deep-slotted chip breaker 6 with the surface of steel ball 7 is adapted to, and adjacent transmission tooth 4 passes through First deep-slotted chip breaker 5 and the second deep-slotted chip breaker 6 are spliced to form hemispherical groove；The bottom surface of steel ball hopper 2 is provided with equal with the diameter of steel ball 7 Lower ball mouth 9；Close to the bottom of steel ball hopper 2, steel ball hopper 2 goes out towards ball mouth 10 is provided with the side wall of the end of steel ball conveyer belt 1 Ball mouth 10 connects with lower ball mouth 9.

The surface of first deep-slotted chip breaker 5 is provided with the first buffer board 11 of arc, leads between the first buffer board 11 and the first deep-slotted chip breaker 5 Spring connection is crossed, the radian of the inner surface of the first buffer board 11 is adapted to the radian on the surface of steel ball 7；The surface of second deep-slotted chip breaker 6 is provided with Second buffer board 12 of arc, is connected between the second buffer board 12 and the second deep-slotted chip breaker 6 by spring, table in the second buffer board 12 The radian in face is adapted to the radian on the surface of steel ball 7.

Below the end of steel ball conveyer belt 1, the both sides of packing box conveyer belt 3 are provided with infrared inductor 13.

Below infrared inductor 13, the side of packing box conveyer belt 3 is provided with horizontal push pedal 14.

Push pedal 14 is connected with electrohydraulic cylinder.

Embodiment 3

As shown in Figure 1 to Figure 3, the surface of steel ball conveyer belt 1 is provided with compact arranged transmission tooth 4；Along direction of transfer, tooth is transmitted 4 front end faces are provided with the first deep-slotted chip breaker 5 of depression, and transmission tooth 4 rear end face is provided with the second deep-slotted chip breaker 6 of depression, and the transmission top surface of tooth 4 is set There is roller 8, the radian of the first deep-slotted chip breaker 5, the radian of the second deep-slotted chip breaker 6 with the surface of steel ball 7 is adapted to, and adjacent transmission tooth 4 passes through First deep-slotted chip breaker 5 and the second deep-slotted chip breaker 6 are spliced to form hemispherical groove；The bottom surface of steel ball hopper 2 is provided with equal with the diameter of steel ball 7 Lower ball mouth 9；Close to the bottom of steel ball hopper 2, steel ball hopper 2 goes out towards ball mouth 10 is provided with the side wall of the end of steel ball conveyer belt 1 Ball mouth 10 connects with lower ball mouth 9.

The surface of first deep-slotted chip breaker 5 is provided with the first buffer board 11 of arc, leads between the first buffer board 11 and the first deep-slotted chip breaker 5 Spring connection is crossed, the radian of the inner surface of the first buffer board 11 is adapted to the radian on the surface of steel ball 7；The surface of second deep-slotted chip breaker 6 is provided with Second buffer board 12 of arc, is connected between the second buffer board 12 and the second deep-slotted chip breaker 6 by spring, table in the second buffer board 12 The radian in face is adapted to the radian on the surface of steel ball 7.

Below the end of steel ball conveyer belt 1, the both sides of packing box conveyer belt 3 are provided with infrared inductor 13.

Below infrared inductor 13, the side of packing box conveyer belt 3 is provided with horizontal push pedal 14.

Embodiment 4

As shown in Figure 1 to Figure 3, the surface of steel ball conveyer belt 1 is provided with compact arranged transmission tooth 4；Along direction of transfer, tooth is transmitted 4 front end faces are provided with the first deep-slotted chip breaker 5 of depression, and transmission tooth 4 rear end face is provided with the second deep-slotted chip breaker 6 of depression, and the transmission top surface of tooth 4 is set There is roller 8, the radian of the first deep-slotted chip breaker 5, the radian of the second deep-slotted chip breaker 6 with the surface of steel ball 7 is adapted to, and adjacent transmission tooth 4 passes through First deep-slotted chip breaker 5 and the second deep-slotted chip breaker 6 are spliced to form hemispherical groove；The bottom surface of steel ball hopper 2 is provided with equal with the diameter of steel ball 7 Lower ball mouth 9；Close to the bottom of steel ball hopper 2, steel ball hopper 2 goes out towards ball mouth 10 is provided with the side wall of the end of steel ball conveyer belt 1 Ball mouth 10 connects with lower ball mouth 9.

The surface of first deep-slotted chip breaker 5 is provided with the first buffer board 11 of arc, leads between the first buffer board 11 and the first deep-slotted chip breaker 5 Spring connection is crossed, the radian of the inner surface of the first buffer board 11 is adapted to the radian on the surface of steel ball 7；The surface of second deep-slotted chip breaker 6 is provided with Second buffer board 12 of arc, is connected between the second buffer board 12 and the second deep-slotted chip breaker 6 by spring, table in the second buffer board 12 The radian in face is adapted to the radian on the surface of steel ball 7.

Below the end of steel ball conveyer belt 1, the both sides of packing box conveyer belt 3 are provided with infrared inductor 13.

Embodiment 5

As shown in figures 1 and 3, the surface of steel ball conveyer belt 1 is provided with compact arranged transmission tooth 4；Along direction of transfer, tooth is transmitted 4 front end faces are provided with the first deep-slotted chip breaker 5 of depression, and transmission tooth 4 rear end face is provided with the second deep-slotted chip breaker 6 of depression, and the transmission top surface of tooth 4 is set There is roller 8, the radian of the first deep-slotted chip breaker 5, the radian of the second deep-slotted chip breaker 6 with the surface of steel ball 7 is adapted to, and adjacent transmission tooth 4 passes through First deep-slotted chip breaker 5 and the second deep-slotted chip breaker 6 are spliced to form hemispherical groove；The bottom surface of steel ball hopper 2 is provided with equal with the diameter of steel ball 7 Lower ball mouth 9；Close to the bottom of steel ball hopper 2, steel ball hopper 2 goes out towards ball mouth 10 is provided with the side wall of the end of steel ball conveyer belt 1 Ball mouth 10 connects with lower ball mouth 9.

The surface of first deep-slotted chip breaker 5 is provided with the first buffer board 11 of arc, leads between the first buffer board 11 and the first deep-slotted chip breaker 5 Spring connection is crossed, the radian of the inner surface of the first buffer board 11 is adapted to the radian on the surface of steel ball 7；The surface of second deep-slotted chip breaker 6 is provided with Second buffer board 12 of arc, is connected between the second buffer board 12 and the second deep-slotted chip breaker 6 by spring, table in the second buffer board 12 The radian in face is adapted to the radian on the surface of steel ball 7.

Embodiment 6

As shown in figures 1 and 3, the surface of steel ball conveyer belt 1 is provided with compact arranged transmission tooth 4；Along direction of transfer, tooth is transmitted 4 front end faces are provided with the first deep-slotted chip breaker 5 of depression, and transmission tooth 4 rear end face is provided with the second deep-slotted chip breaker 6 of depression, and the transmission top surface of tooth 4 is set There is roller 8, the radian of the first deep-slotted chip breaker 5, the radian of the second deep-slotted chip breaker 6 with the surface of steel ball 7 is adapted to, and adjacent transmission tooth 4 passes through First deep-slotted chip breaker 5 and the second deep-slotted chip breaker 6 are spliced to form hemispherical groove；The bottom surface of steel ball hopper 2 is provided with equal with the diameter of steel ball 7 Lower ball mouth 9；Close to the bottom of steel ball hopper 2, steel ball hopper 2 goes out towards ball mouth 10 is provided with the side wall of the end of steel ball conveyer belt 1 Ball mouth 10 connects with lower ball mouth 9.

By taking embodiment 1 as an example, the specific operation principle of the utility model is：

Transmission tooth 4 positioned at the top of steel ball conveyer belt 1 splices shape by the first deep-slotted chip breaker 5, the second deep-slotted chip breaker 6 between each other Into hemispherical groove, in the transmission process of steel ball conveyer belt 1, when hemispherical groove is moved to steel ball 2 underface of hopper, steel ball A steel ball 7 in hopper 2 is fallen into hemispherical groove by lower ball mouth 9, hemispherical groove by ball mouth 10 by this Steel ball 7 takes steel ball hopper 2 out of.

When roller 8 is moved to steel ball 2 underface of hopper, roller 8 holds up the steel ball 7 in steel ball hopper 2, roller 8 with Rolling friction occurs between steel ball 7, frictional force is minimum, thus roller 8 will not damage the surface of steel ball 7.

The first buffer board 11 is provided with first deep-slotted chip breaker 5, the second buffer board 12 is provided with the second deep-slotted chip breaker 6, when steel ball 7 from When falling under in steel ball hopper 2 in hemispherical groove, the first buffer board 11, the second buffer board 12 play cushioning effect to steel ball 7, Thus it is effectively protected the surface of steel ball 7.

Infrared inductor 13 is used to sense packing box 15, is moved when under transmission of the packing box 15 in packing box conveyer belt 3 When below to the end of steel ball conveyer belt 1, infrared inductor 13 is packed to central controller transmission signal, central controller controls Box conveyer belt 3 stops transmission, is easy to steel ball 7 being fitted into packing box 15.At the end of the packaging time, central controller controls push away Plate 14 releases packing box 15 from packing box conveyer belt 3, is then again started up packing box conveyer belt 3 and moves, by next bag Mounted box 15 is transported to below the end of steel ball conveyer belt 1.

Above-described embodiment is preferred embodiment of the present utility model, is not the limit to technical solutions of the utility model System, on the premise of the spirit and scope of the utility model is not departed from, the utility model also has various changes and modifications, these changes Change and improve and be regarded as falling into claimed the scope of the utility model.

Claims (6)

1. the steel ball packing machine with anticollision abrasionproof function, it is characterised in that：Including steel ball conveyer belt（1）, be located at steel ball transmission Band（1）The steel ball hopper of top（2）And it is located at steel ball conveyer belt（1）Packing box conveyer belt below end（3）；

The steel ball conveyer belt（1）Surface is provided with compact arranged transmission tooth（4）；

Along direction of transfer, the transmission tooth（4）Front end face is provided with the first deep-slotted chip breaker of depression（5）, the transmission tooth（4）Rear end face The second deep-slotted chip breaker provided with depression（6）, the transmission tooth（4）Top surface is provided with roller（8）, first deep-slotted chip breaker（5）, described Two deep-slotted chip breakers（6）Radian and steel ball（7）The radian adaptation on surface, adjacent transmission tooth（4）Pass through the first deep-slotted chip breaker（5）With Two deep-slotted chip breakers（6）It is spliced to form hemispherical groove；

The steel ball hopper（2）Bottom surface is provided with and the steel ball（7）The equal lower ball mouth of diameter（9）；

Close to the steel ball hopper（2）Bottom, the steel ball hopper（2）Towards steel ball conveyer belt（1）It is provided with the side wall of end Ball mouth（10）, the ball mouth（10）With the lower ball mouth（9）Connection.

2. the steel ball packing machine according to claim 1 with anticollision abrasionproof function, it is characterised in that：First arc Groove（5）Surface is provided with the first buffer board of arc（11）, first buffer board（11）With first deep-slotted chip breaker（5）Between lead to Cross spring connection, first buffer board（11）The radian of inner surface and the steel ball（7）The radian adaptation on surface；

Second deep-slotted chip breaker（6）Surface is provided with the second buffer board of arc（12）, second buffer board（12）With described Two deep-slotted chip breakers（6）Between connected by spring, second buffer board（12）The radian of inner surface and the steel ball（7）Surface Radian is adapted to.

3. the steel ball packing machine according to claim 2 with anticollision abrasionproof function, it is characterised in that：Passed in the steel ball Send band（1）Below end, the packing box conveyer belt（3）Both sides are provided with infrared inductor（13）.

4. the steel ball packing machine according to claim 3 with anticollision abrasionproof function, it is characterised in that：In the infrared ray Inductor（13）Lower section, the packing box conveyer belt（3）Side be provided with horizontal push pedal（14）.

5. the steel ball packing machine according to claim 4 with anticollision abrasionproof function, it is characterised in that：The push pedal（14） It is connected with electrohydraulic cylinder.

6. the steel ball packing machine according to claim 5 with anticollision abrasionproof function, it is characterised in that：It is additionally provided with central control Device processed, the steel ball conveyer belt（1）Driver motor, the packing box conveyer belt（3）Driver motor, the infrared ray Inductor（13）, the electrohydraulic cylinder is connected with the central controller by electric signal respectively.