CN213613770U - Special rotating working disc for multi-station nozzle swing core - Google Patents

Abstract

The utility model relates to a special rotating work disc of multistation nozzle pendulum core in environmental protection dust collecting equipment processing manufacturing field, including the base, install the support main part on the base, the support main part includes upper working portion and lower working portion, the lower working portion cooperation of support main part is provided with the rotating work disc, the rotating work disc cooperation is installed and is independently driven the mechanism; a plurality of groups of nozzle swing core fixing stations are arranged on the rotary working disc, and the nozzle swing core fixing stations are correspondingly provided with feeding mechanisms; a feeding mechanism and a discharging mechanism are also arranged on two sides of the rotary working disc in a matching way; the utility model discloses a simple structure, job stabilization is reliable, can be in batches carry out the material loading to the nozzle pendulum core at the in-process that uses, when improving work efficiency, reduces the risk factor.

Description

Special rotating working disc for multi-station nozzle swing core

Technical Field

The utility model relates to a rotating working disc in the processing and manufacturing field of environment-friendly dust removing equipment.

Background

In the existing stage, the environmental protection dust removing equipment refers to mechanical products, structures and systems which are manufactured and built by production units or building installation units and are used for controlling environmental pollution and improving environmental quality; also thought, environmental protection dust collecting equipment is the machining product of administering environmental pollution, need use the nozzle among the environmental protection dust collecting equipment and pendulum the core, when the nozzle pendulum core processing, the mode work that adopts artifical material loading is inconvenient, and is inefficient moreover, so adopt the mode of mechanical turntable to carry out the material loading, both fix a position accurately, work is also reliable, also can improve work efficiency reduce cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a this utility model simple structure, job stabilization is reliable, and the in-process that uses can be in batches put the core to the nozzle and carry out the material loading, when improving work efficiency, reduces the risk factor.

The purpose of the utility model is realized like this: a special rotary working disc for a multi-station nozzle swing core comprises a base, wherein a support main body is arranged on the base and comprises an upper working part and a lower working part, the lower working part of the support main body is provided with the rotary working disc in a matched manner, and the rotary working disc is provided with an independent driving mechanism in a matched manner; a plurality of groups of nozzle swing core fixing stations are arranged on the rotary working disc, and the nozzle swing core fixing stations are correspondingly provided with feeding mechanisms; and a feeding mechanism and a discharging mechanism are also arranged on the two sides of the rotary working disc in a matching manner.

The utility model discloses during operation, feed mechanism is on the nozzle pendulum core is carried nozzle pendulum core fixed station constantly, rotates the rotating disc in the working disc according to each station and rotates, and in this process, the nozzle pendulum core is laid the nozzle pendulum core place of convex fixed block, after putting nozzle pendulum core place, the rotating disc continues to rotate to next station and again places the nozzle pendulum core, carries out cycle work according to this; then punching is carried out, and after punching, the discharging mechanism pushes out the punched nozzle swinging core on the rotating disc through the discharging hole, so that punching and discharging of a part can be completed; the feeding mechanism can continuously feed materials by matching with the feeding mechanism, so that the cyclic reciprocating processing of the whole work is realized, and the working efficiency is improved.

The beneficial effects of the utility model reside in that, this utility model simple structure, job stabilization is reliable, and the in-process that uses can be in batches put the core to the nozzle and carry out the material loading, when improving work efficiency, reduces the risk factor.

As a further improvement of the utility model, the whole rotary working disk is reliable in rotation and high in working efficiency; one third of the whole rotary working disc is positioned at the upper working part, and two thirds of the whole rotary working disc is positioned at the lower working part; the whole eight-station working disc is arranged on the rotary working disc, and eight swinging core fixing stations of the dust removal nozzles are arranged.

As a further improvement of the utility model, the rotating disc positioned between the fixed disc and the positioning disc can rotate reliably and stably; the rotary working disc comprises a main shaft, bearings with seats, a fixed disc, a rotary disc and a positioning disc, wherein the bearings with the seats are arranged on two sides of the main shaft; the rotating disc is driven by the main shaft.

As a further improvement of the utility model, the utility model ensures high working efficiency and reliable use; eight notches are formed in the positioning disc and correspond to the eight nozzle swing core fixing stations; the eight nozzle swing core fixing stations are fixed on the rotating disc through bolts.

As a further improvement of the utility model, the nozzle swing core can be stably placed at the nozzle swing core fixing station and the reliable operation is ensured; the nozzle core swinging fixing station comprises a convex fixing block, the convex fixing block is fixed on the rotating disc through a bolt, a nozzle core swinging placing position is arranged at the top of the convex fixing block, each fixing disc is provided with a discharging hole corresponding to the nozzle core swinging placing position, and the discharging holes correspond to the discharging mechanisms.

Drawings

Fig. 1 is a perspective view of the present invention.

The device comprises a base 1, a support main body 2, a rotating disc 3, a main shaft 4, a feeding mechanism 5, a feeding mechanism 6, a discharging mechanism 7, a fixed disc 8, a rotating working disc 9, a nozzle swinging core fixing station 10, a convex fixing block 11, a nozzle swinging core placing position 12, a discharging hole 13 and a positioning disc 14.

Detailed Description

As shown in fig. 1, the object of the present invention is achieved by: a special rotary working disc for a multi-station nozzle swing core comprises a base 1, wherein a support main body 2 is installed on the base 1, the support main body 2 comprises an upper working part and a lower working part, a rotary working disc 9 is arranged on the lower working part of the support main body 2 in a matched mode, and an independent driving mechanism is installed on the rotary working disc 9 in a matched mode; a plurality of groups of nozzle swing core fixing stations 10 are arranged on the rotary working disc 9, and the nozzle swing core fixing stations 10 are correspondingly provided with feeding mechanisms 5; a feeding mechanism 6 and a discharging mechanism 7 are also arranged on two sides of the rotary working disc 9 in a matching way; one third of the whole rotary working disc 9 is positioned at the upper working part, and two thirds of the whole rotary working disc 9 is positioned at the lower working part; the whole rotary working disc 9 is an eight-station working disc, and eight dust removal nozzle swinging core fixing stations 10 are arranged; the rotary working disc 9 comprises a main shaft 4, bearings with seats, a fixed disc 8, a rotary disc 3 and a positioning disc 14, wherein the bearings with seats are arranged on two sides of the main shaft 4, the fixed disc 8 is arranged at the central position of the main shaft 4, the rotary disc 3 is arranged in a matched mode with the fixed disc 8, the positioning disc 14 is arranged in a matched mode with the rotary disc 3, and the rotary disc 3 is located between the fixed disc 8 and the positioning disc 14; the rotating disc 3 is driven by a main shaft 4; eight notches are formed in the positioning disc 14 and correspond to the eight nozzle swing core fixing stations 10; the eight nozzle swing core fixing stations 10 are fixed on the rotating disc 3 through bolts; the nozzle core swinging fixing station 10 comprises a convex fixing block 11, the convex fixing block 11 is fixed on the rotating disc 3 through a bolt, a nozzle core swinging placing part 12 is arranged at the top of the convex fixing block 11, each fixing disc 8 is provided with a discharge hole 13 corresponding to the nozzle core swinging placing part 12, and the discharge holes 13 correspond to the discharge mechanisms 7.

The utility model discloses during operation, feed mechanism 5 is on the continuous nozzle pendulum core of will swinging transports nozzle pendulum core to nozzle pendulum core fixed station 10, rotates the rotating disc 3 in the working disc 9 according to each station and rotates, and in this process, the nozzle pendulum core is laid to the nozzle pendulum core place 12 of convex fixed block 11, after putting nozzle pendulum core place 12, rotating disc 3 continues to rotate to next station and then places the nozzle pendulum core, carries out cycle work according to this; then punching is carried out, and after punching, the discharging mechanism 7 pushes out the nozzle swinging core punched on the rotating disc 3 through the discharging hole 13, so that punching and discharging of a part can be completed; the feeding mechanism 6 can continuously feed materials in cooperation with the feeding mechanism 5, so that the cyclic reciprocating processing of the whole work is realized, and the work efficiency is improved.

The present invention is not limited to the above embodiments, and based on the technical solutions disclosed in the present invention, those skilled in the art can make some replacements and transformations for some technical features without creative labor according to the disclosed technical contents, and these replacements and transformations are all within the protection scope of the present invention.

Claims (5)

1. The rotating working disc special for the multi-station nozzle core swinging is characterized by comprising a base, wherein a supporting main body is arranged on the base, the supporting main body comprises an upper working part and a lower working part, the lower working part of the supporting main body is provided with a rotating working disc in a matched manner, and the rotating working disc is provided with an independent driving mechanism in a matched manner; a plurality of groups of nozzle swing core fixing stations are arranged on the rotary working disc, and the nozzle swing core fixing stations are correspondingly provided with feeding mechanisms; and a feeding mechanism and a discharging mechanism are also arranged on the two sides of the rotary working disc in a matching manner.

2. The special rotary working disc for the multi-station nozzle swinging core according to claim 1, characterized in that: one third of the whole rotary working disc is positioned at the upper working part, and two thirds of the whole rotary working disc is positioned at the lower working part; the whole eight-station working disc is arranged on the rotary working disc, and eight nozzle swinging core fixing stations are arranged.

3. The special rotary working disc for the multi-station nozzle swinging core according to claim 1, characterized in that: the rotary working disc comprises a main shaft, bearings with seats, a fixed disc, a rotary disc and a positioning disc, wherein the bearings with the seats are arranged on two sides of the main shaft; the rotating disc is driven by the main shaft.

4. The special rotary working disc for the multi-station nozzle swinging core according to claim 3, characterized in that: eight notches are formed in the positioning disc and correspond to the eight nozzle swing core fixing stations; the eight nozzle swing core fixing stations are fixed on the rotating disc through bolts.

5. The special rotary working disc for the multi-station nozzle swinging core according to any one of claims 1, 2 or 4, characterized in that: the nozzle core swinging fixing station comprises a convex fixing block, the convex fixing block is fixed on the rotating disc through a bolt, a nozzle core swinging placing position is arranged at the top of the convex fixing block, each fixing disc is provided with a discharging hole corresponding to the nozzle core swinging placing position, and the discharging holes correspond to the discharging mechanisms.

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