CN215159732U

CN215159732U - Improved generation divides heap mechanism

Info

Publication number: CN215159732U
Application number: CN202121250527.1U
Authority: CN
Inventors: 王振平; 陈冬林
Original assignee: Jiangsu Shengrui Machinery Manufacturing Co ltd
Current assignee: Jiangsu Shengrui Machinery Manufacturing Co ltd
Priority date: 2021-06-07
Filing date: 2021-06-07
Publication date: 2021-12-14
Anticipated expiration: 2031-06-07

Abstract

The utility model relates to an improved generation divides heap mechanism, include the delivery wheel, divide heap receiving plate, the second transport mechanism that set gradually along material direction of transfer, divide heap receiving plate one end fixed connection in the second transport mechanism, the other end is equipped with dodges the groove that matches with the delivery wheel, the delivery wheel is outer along pegging graft in dodging the inslot, divide heap receiving plate both sides fixedly connected with baffle, the distance between the baffle slightly is less than the material width, its characterized in that, divide heap receiving plate middle part be equipped with dodge groove parallel arrangement push away the groove, be located divide heap receiving plate below and be equipped with branch heap mechanism, divide heap mechanism to include third transport mechanism, fixedly connected with the telescopic machanism that vertical direction set up on the third transport mechanism, telescopic machanism telescopic end fixedly connected with push pedal; when the telescopic mechanism retracts to the right position, the top end of the push plate is positioned below the pile separating bearing plate; when the telescopic mechanism extends in place, the push plate is higher than the sub-stack bearing plate.

Description

Improved generation divides heap mechanism

Technical Field

The utility model discloses the technical field of health supplies equipment product output specifically is a modification type divides heap mechanism.

Background

The existing used stacking mechanism mainly comprises a first layer of conveyor belt for transversely conveying continuously produced sanitary products, a feeding wheel (the feeding wheel is usually two discs with the same size, a plurality of clamping grooves for storing the sanitary products are arranged on the discs along the circumference, the sanitary products are clamped and conveyed through the clamping grooves) for rotating and conveying the sanitary products to a next second layer of conveying device, a stacking push plate is arranged between the feeding wheel and the second layer of conveying device and divided into two sections which are hinged, one end of one section is fixedly connected with the second layer of conveying device, the other end of the section is close to the feeding wheel and used for bearing the sanitary products on the feeding wheel (the stacking push plate of the section is provided with an avoiding groove matched with the feeding wheel, can make the feeding wheel place health supplies vertical direction in the branch pushes up the push pedal on rethread excircle promotes health supplies and moves forward), be located the bottom of this end and install a cylinder, counter or the time-recorder when the feeding wheel, the cylinder stretches out and retracts again when reaching the setting value, the health supplies on the push pedal is piled in the branch like this, the health supplies that is transported by the feeding wheel when the push pedal is piled in the branch place the position can be higher than the health supplies height when not jacking up, so very obvious branch is piled.

As the existing stacking mechanism required by the production level is used for lifting ultrathin hygienic products or hygienic products with small material friction force, the effect of stacking and arranging the sheets cannot be finished by the jump sheet, or the products slide off quickly or are removed, and the using requirements of people cannot be well met.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide an improved generation divides heap mechanism, can be accurate divide the heap to the material, the jump piece scheduling problem can not appear.

The utility model discloses a following technical scheme realizes:

an improved pile dividing mechanism comprises a feeding wheel, a pile dividing bearing plate and a second conveying mechanism which are sequentially arranged along a material conveying direction, wherein one end of the pile dividing bearing plate is fixedly connected to the second conveying mechanism, the other end of the pile dividing bearing plate is provided with a avoiding groove matched with the feeding wheel, the outer edge of the feeding wheel is inserted into the avoiding groove, two sides of the pile dividing bearing plate are fixedly connected with baffle plates, the distance between the baffle plates is slightly smaller than the width of a material, the improved pile dividing mechanism is characterized in that a pushing groove arranged in parallel with the avoiding groove is arranged in the middle of the pile dividing bearing plate, a pile dividing mechanism is arranged below the pile dividing bearing plate and comprises a third conveying mechanism, a telescopic mechanism arranged in the vertical direction is fixedly connected onto the third conveying mechanism, and a push plate is fixedly connected to the telescopic end of the telescopic mechanism;

when the telescopic mechanism retracts to the right position, the top end of the push plate is positioned below the pile separating bearing plate;

when the telescopic mechanism extends out in place, the push plate is arranged higher than the sub-stack bearing plate;

and the push plate reciprocates along the push groove under the action of the third conveying mechanism.

Further, third transport mechanism includes the action wheel driven by third drive unit, from driving wheel, hold-in range, guide rail and sliding connection in the guide rail seat of guide rail, the hold-in range gyration is covered in the action wheel, from the driving wheel, guide rail seat sliding fixed connection is in the hold-in range, telescopic machanism fixed connection is on the guide rail seat.

Further, the telescopic mechanism is an air cylinder.

Further, the third driving unit is a stepping motor.

Further, the second transmission mechanism is a rotary transmission chain driven by a second driving device.

Further, the feeding wheel comprises a first rotary disc and a second rotary disc which are arranged side by side, the first rotary disc and the second rotary disc are coaxially arranged and are driven by a motor to rotate, and the first rotary disc and the second rotary disc are respectively inserted into the avoiding groove.

Furthermore, first slots are uniformly distributed on the outer edge of the first rotary disc, second slots are uniformly distributed on the outer edge of the second rotary disc, and the first slots and the second slots are in one-to-one correspondence to form switching notches for receiving materials.

The utility model has the advantages that;

the utility model discloses a step motor drives the hold-in range left and right sides and rotates, and is fast, and the shift position is accurate, drives the guide rail seat on the hold-in range simultaneously and moves about the guide rail, through cylinder control push pedal up-and-down motion, can avoid the push pedal to hinder the material whereabouts at reciprocal in-process, and the course of work divide into three stage: in a preparation state, the guide rail seat is positioned at the left side, the cylinder extends out, and the push plate is positioned above the sub-stack bearing plate; when the products are output to a certain amount, the stepping motor works the synchronous belt to drive the guide rail seat to move rightwards, and the push plate moves along the push groove to push the products to a third conveying mechanism on the right side on the pile dividing bearing plate; in a return state, the push plate firstly retracts and moves downwards through the air cylinder, the top end of the push plate is positioned below the pile separating and receiving plate, then the synchronous belt drives the guide rail seat to move leftwards, the air cylinder extends out of the push plate again to move upwards after the guide rail seat is in place, and the push plate returns to a preparation state and reciprocates circularly.

Drawings

Fig. 1 is a schematic diagram of the structure of the present invention in the ready state.

Fig. 2 is a schematic structural view of the utility model when in pushing in place.

Fig. 3 is a schematic structural diagram of the present invention in the return stroke.

Fig. 4 is a schematic view of the top view structure of the present invention.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 4, the utility model provides an improved stack separating mechanism, which comprises a feeding wheel 10, a stack separating bearing plate 20 and a second conveying mechanism 30, which are arranged in sequence along the material conveying direction; the feeding wheel 10 comprises a first rotating disc 101 and a second rotating disc 102 which are arranged side by side, the first rotating disc 101 and the second rotating disc 102 are coaxially arranged and are driven to rotate by a fourth driving unit, and the first rotating disc 101 and the second rotating disc 102 are respectively inserted into the avoiding groove 201.

One end of the sub-stack bearing plate 20 is fixedly connected with the second conveying mechanism 30, the other end is provided with an avoiding groove 201 matched with the feeding wheel 10, the outer edge of the feeding wheel 10 is inserted into the avoiding groove 201, the outer edge of the first rotating disc 101 is uniformly provided with first inserting grooves, second slots are uniformly distributed on the outer edge of the second turntable 102, the first slots and the second slots are in one-to-one correspondence to form adapter notches for receiving materials, the two sides of the pile dividing bearing plate 20 are fixedly connected with baffle plates, the distance between the baffle plates is slightly smaller than the width of the material, a push groove 202 arranged in parallel with the avoidance groove 201 is arranged in the middle of the separate pile bearing plate 20, a separate pile mechanism is arranged below the separate pile bearing plate 20, the stacking mechanism comprises a third conveying mechanism 301, a telescopic mechanism 302 arranged in the vertical direction is fixedly connected to the third conveying mechanism 301, and a push plate 303 is fixedly connected to the telescopic end of the telescopic mechanism 302; when the telescopic mechanism 302 retracts to the right position, the top end of the push plate 303 is positioned below the pile separating and receiving plate 20; when the telescopic mechanism 302 extends to the right position, the push plate 303 is arranged higher than the sub-stack bearing plate 20; the push plate 303 reciprocates along the push groove 202 by the third conveyance mechanism 301. Third transport mechanism 301 includes action wheel 3011, from driving wheel 3012, hold-in range 3013, guide rail 3014 and sliding connection in guide rail 3014's guide rail seat 3015 by the drive of third drive unit drive, hold-in range 3013 gyration is covered in action wheel 3011, from driving wheel 3012, guide rail seat 3015 slip fixed connection is on hold-in range 3013, telescopic machanism 302 fixed connection is on guide rail seat 3015, telescopic machanism 302 is the cylinder. The third driving unit is a stepping motor. The second conveying mechanism 20 is a rotary conveying chain driven by a second driving device.

To present branch heap mechanism, through promoting the branch heap and accept the product position when board improves the branch heap, to the product that has comparatively smooth surface, the utility model discloses avoided the jump piece completely, perhaps the obscure problem of branch heap, the utility model discloses a theory of operation, as follows:

as shown in fig. 1-2, when the pushing plate is in the preparation state, the third conveying mechanism 301 conveys the pushing plate to the feeding wheel 10, and when the feeding wheel transfers the products to the stacking receiving plate, and the products reach a certain amount, the third conveying mechanism 301 drives the pushing plate to push the products out rightward along the pushing groove 202, and pushes the products into the second conveying mechanism 20;

in the return stage of fig. 3, in order to prevent the push plate from directly returning to prevent the product from entering the sub-stack receiving plate, the retractable mechanism retracts to make the top of the push plate lower than the sub-stack receiving plate, the third conveying mechanism 301 rotates to drive the push plate to the feeding wheel 10, and then the retractable mechanism extends to make the push plate return to the preparation state.

It should be noted that the linkage between the "second conveying mechanism 20" and the "feeding wheel 10" and the "third conveying mechanism 301" and the "telescopic mechanism 302" may be implemented by using a control element (such as a motion control card, a programmable logic device, a computer, etc.), and is not limited herein.

Claims

1. An improved stack separating mechanism comprises a feeding wheel (10), a stack separating bearing plate (20) and a second conveying mechanism (30) which are sequentially arranged along a material conveying direction, wherein one end of the stack separating bearing plate (20) is fixedly connected to the second conveying mechanism (30), the other end of the stack separating bearing plate is provided with a avoiding groove (201) matched with the feeding wheel (10), the outer edge of the feeding wheel (10) is inserted into the avoiding groove (201), baffle plates are fixedly connected to two sides of the stack separating bearing plate (20), the distance between the baffle plates is slightly smaller than the width of a material, the improved stack separating mechanism is characterized in that a pushing groove (202) which is parallel to the avoiding groove (201) is arranged in the middle of the stack separating bearing plate (20), a stack separating mechanism is arranged below the stack separating bearing plate (20), the stack separating mechanism comprises a third conveying mechanism (301), and a telescopic mechanism (302) which is arranged in a vertical direction is fixedly connected to the third conveying mechanism (301), the telescopic end of the telescopic mechanism (302) is fixedly connected with a push plate (303);

when the telescopic mechanism (302) retracts to the right position, the top end of the push plate (303) is positioned below the pile separating and bearing plate (20);

when the telescopic mechanism (302) extends to the right position, the push plate (303) is arranged higher than the sub-stack bearing plate (20);

the push plate (303) reciprocates along the push groove (202) under the action of the third conveying mechanism (301).

2. An improved stacking mechanism as defined in claim 1, wherein: third transport mechanism (301) include by action wheel (3011) of third drive unit driven, from driving wheel (3012), hold-in range (3013), guide rail (3014) and sliding connection in guide rail (3014) guide rail seat (3015), hold-in range (3013) gyration is covered in action wheel (3011), from driving wheel (3012), guide rail seat (3015) sliding fixed connection is on hold-in range (3013), telescopic machanism (302) fixed connection is on guide rail seat (3015).

3. An improved stacking mechanism as claimed in any one of claims 1 or 2, wherein: the telescopic mechanism (302) is an air cylinder.

4. An improved stacking mechanism as defined in claim 2, wherein: the third driving unit is a stepping motor.

5. An improved stacking mechanism as defined in claim 1, wherein: the second conveying mechanism (30) is a rotary conveying chain driven by a second driving device.