CN213622068U - A lane change conveying mechanism for filter core processing lines - Google Patents

Abstract

The utility model discloses a lane-changing conveying mechanism for a filter element processing production line, which is arranged between the discharge end of a first conveying belt mechanism and the feed end of a second conveying belt mechanism, and comprises a discharge chute part, a mounting seat, a guide driving part and a guide chute part, wherein the discharge chute part is arranged below the discharge end of the first conveying belt mechanism, and the feed end of the discharge chute part extends out of the discharge end of the first conveying belt mechanism; the mounting seat is installed on the feeding end of the second conveying belt mechanism, the guide driving piece is installed on the top of the mounting seat, the telescopic rod of the guide driving piece is arranged towards the discharging end of the first conveying belt mechanism, the guide groove piece is arranged on the telescopic rod, and the feeding end of the guide groove piece can stretch out and move to the position above the feeding end of the discharge groove piece along with the telescopic rod of the guide driving piece. Lane-changing conveying mechanism can avoid filter core base to pile up effectively.

Description

A lane change conveying mechanism for filter core processing lines

Technical Field

The utility model belongs to the technical field of filter core processing lines technique and specifically relates to a lane change conveying mechanism for filter core processing lines is related to.

Background

In the existing filter element processing production line, the conveying of the filter element base which is one of main processing elements is an important link, and whether the conveying of the filter element base is convenient or not directly influences the processing efficiency of the filter element processing production line. However, in the process of conveying the filter element base, the filter element base is usually conveyed from one conveying belt mechanism to the next conveying belt mechanism, and the conveying speeds of the conveying belts of the two groups of conveying belt mechanisms are different, so that when the filter element base is uninterruptedly conveyed from one conveying belt mechanism to the next conveying belt mechanism, the filter element base is easily stacked on the next conveying belt mechanism, and subsequent processing is affected.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a lane change conveying mechanism for filter core processing lines, this lane change conveying mechanism set up between two sets of conveyer belt mechanisms, can carry the filter core base to last conveyer belt mechanism in proper order to avoid the filter core base to pile up effectively.

In order to achieve the above object, the utility model provides a following technical scheme:

a lane-changing conveying mechanism for a filter element processing production line is installed between a discharge end of a first conveying belt mechanism and a feed end of a second conveying belt mechanism, the discharge end of the first conveying belt mechanism is arranged above the feed end of the second conveying belt mechanism, the lane-changing conveying mechanism comprises a discharge chute part, a mounting seat, a guide driving part and a guide chute part, the discharge chute part is arranged below the discharge end of the first conveying belt mechanism, and the feed end of the discharge chute part extends out of the discharge end of the first conveying belt mechanism, so that conveyed materials can fall into the discharge chute part from the first conveying belt mechanism and are output along the discharge chute part; the mounting seat is mounted on the feeding end of the second conveying belt mechanism, the guide driving piece is mounted on the top of the mounting seat, the telescopic rod of the guide driving piece is arranged towards the discharging end of the first conveying belt mechanism, the guide chute piece is arranged on the telescopic rod, and the feeding end of the guide chute piece can stretch out and move to the position above the feeding end of the discharging chute piece along with the telescopic rod of the guide driving piece, so that conveyed materials can be conveyed into the guide chute piece from the discharging end of the first conveying belt mechanism and output to the feeding end of the second conveying belt mechanism along the guide chute piece.

As a further technical solution of the utility model: the feeding end of the material guide groove part is provided with a feeding port corresponding to the discharging end of the first conveying belt mechanism, and the bottom of the material guide groove part is provided with a discharging port corresponding to the feeding end of the second conveying belt mechanism.

As a further technical solution of the utility model: the material guide groove piece is internally and vertically provided with a material baffle plate, and a limiting opening is formed between the material baffle plate and the bottom surface of the material guide groove piece and used for separating stacked raw materials.

As a further technical solution of the utility model: the discharge end of the first conveying belt mechanism is provided with an induction part towards the feeding port of the material guide groove part.

As a further technical solution of the utility model: the striker plate is an arc elastic plate.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model provides a lane change conveying mechanism for filter core processing lines installs between the discharge end of first conveyer belt mechanism and the pan feeding end of second conveyer belt mechanism, through cooperation between discharge chute spare, mount pad, guide driving piece and the guide chute spare, can hold the pan feeding of filter core base from the discharge end of first conveyer belt mechanism transport to second conveyer belt mechanism in proper order to can avoid the filter core base to pile up effectively.

Drawings

Fig. 1 is a schematic diagram of a lane-changing conveying mechanism for a filter element processing production line.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings. It should be understood that the description herein is only for purposes of illustration and explanation, and is not intended to limit the scope of the present disclosure.

Referring to fig. 1, a lane-changing conveying mechanism for a filter element processing production line is installed between a discharge end of a first conveying belt mechanism 101 and a feed end of a second conveying belt mechanism 102, the discharge end of the first conveying belt mechanism 101 is arranged above the feed end of the second conveying belt mechanism 102, the lane-changing conveying mechanism comprises a discharge chute member 11, an installation seat 12, a guide driving member 13 and a guide chute member 14, the discharge chute member 11 is arranged below the discharge end of the first conveying belt mechanism 101, and the feed end of the discharge chute member 11 extends out of the discharge end of the first conveying belt mechanism 101, so that conveyed materials can fall into the discharge chute member 11 from the first conveying belt mechanism 101 and are output along the discharge chute member 11; the mounting base 12 is mounted on the feeding end of the second conveying belt mechanism 102, the guide driving member 13 is mounted on the top of the mounting base 12, the telescopic rod of the guide driving member 13 is arranged towards the discharging end of the first conveying belt mechanism 101, the guide chute member 14 is arranged on the telescopic rod, the feeding end of the guide chute member 14 can extend and move to the position above the feeding end of the discharge chute member 11 along with the telescopic rod of the guide driving member 13, the feeding end of the guide chute member 14 is provided with a feeding port 141 corresponding to the discharging end of the first conveying belt mechanism 101, and the bottom of the guide chute member 14 is provided with a discharging port 142 corresponding to the feeding end of the second conveying belt mechanism 102, so that the conveyed materials can be conveyed into the guide chute member 14 from the discharging end of the first conveying belt mechanism 101 and output to the feeding end of the second conveying belt mechanism 102 along the guide chute member 14.

Furthermore, a material baffle plate 143 is vertically arranged in the material guide groove member 14, and a limit opening 144 through which only one conveyed raw material passes is formed between the material baffle plate 143 and the bottom surface of the material guide groove member 14, so that the stacked raw materials are separated.

Further, the discharging end of the first conveying belt mechanism 101 is provided with a sensing part 103 towards the feeding port 141 of the material guiding groove member 14, stacked raw materials on the material guiding groove member 14 are sensed through the sensing part 103, when the raw materials are stacked, the sensing part 103 transmits a signal to the material guiding driving member 13 to retract the telescopic rod of the material guiding driving member 13, so that the raw materials output by the discharging end of the first conveying belt mechanism 101 fall into the material discharging groove member 11 and are output along the material discharging groove member 11, and the stacked raw materials on the material guiding groove member 14 can be separated when passing through the limiting port 144.

Further, the material blocking plate 143 is an arc-shaped elastic plate, preferably made of rubber, which can prevent the stacked raw materials from being damaged when the stacked raw materials are separated.

To sum up, the utility model relates to a lane change conveying mechanism for filter core processing lines installs between the discharge end of first conveyer belt mechanism 101 and the pan feeding end of second conveyer belt mechanism 102, through cooperation between discharge chute spare 11, mount pad 12, guide driving piece 13 and the guide chute spare 14, can hold the filter core base from the discharge end of first conveyer belt mechanism 101 to the pan feeding of second conveyer belt mechanism 102 in proper order to can avoid the filter core base to pile up effectively.

As long as the idea created by the present invention is not violated, various different embodiments of the present invention can be arbitrarily combined, and all the embodiments should be regarded as the content disclosed by the present invention; the utility model discloses an in the technical conception scope, carry out multiple simple variant and different embodiments to technical scheme and go on not violating the utility model discloses the arbitrary combination of the thought of creation all should be within the protection scope.

Claims (5)

1. The utility model provides a lane-changing conveying mechanism for filter core processing production line, installs between the discharge end of first conveyer belt mechanism (101) and the pan feeding end of second conveyer belt mechanism (102), the pan feeding end top of second conveyer belt mechanism (102) is located to the discharge end of first conveyer belt mechanism (101), its characterized in that: the lane changing conveying mechanism comprises a discharging chute piece (11), a mounting seat (12), a guide driving piece (13) and a guide chute piece (14), wherein the discharging chute piece (11) is arranged below the discharging end of the first conveying belt mechanism (101), and the feeding end of the discharging chute piece (11) extends out of the discharging end of the first conveying belt mechanism (101), so that conveyed materials can fall into the discharging chute piece (11) from the first conveying belt mechanism (101) and are output along the discharging chute piece (11); the mounting seat (12) is mounted on the feeding end of the second conveying belt mechanism (102), the guide driving piece (13) is mounted on the top of the mounting seat (12), the telescopic rod of the guide driving piece (13) is arranged towards the discharging end of the first conveying belt mechanism (101), the guide chute piece (14) is arranged on the telescopic rod, the feeding end of the guide chute piece (14) can stretch out and move to the position above the feeding end of the discharging chute piece (11) along with the telescopic rod of the guide driving piece (13), so that conveyed materials can be conveyed into the guide chute piece (14) from the discharging end of the first conveying belt mechanism (101), and are output to the feeding end of the second conveying belt mechanism (102) along the guide chute piece (14).

2. The lane-change conveying mechanism according to claim 1, wherein: the feeding end of the material guiding groove part (14) is provided with a feeding port (141) corresponding to the discharging end of the first conveying belt mechanism (101), and the bottom of the material guiding groove part (14) is provided with a discharging port (142) corresponding to the feeding end of the second conveying belt mechanism (102).

3. The lane-change conveying mechanism according to claim 1, wherein: a material baffle plate (143) is vertically arranged in the material guide groove piece (14), and a limiting opening (144) is formed between the material baffle plate (143) and the bottom surface of the material guide groove piece (14) and used for separating stacked raw materials.

4. The lane-change conveying mechanism according to claim 2, wherein: the discharge end of the first conveying belt mechanism (101) is provided with an induction part (103) towards the feeding port (141) of the material guide groove part (14).

5. The lane-change conveying mechanism according to claim 3, wherein: the material baffle plate (143) is an arc-shaped elastic plate.

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