CN204124804U - Spherical connecting bar feed mechanism - Google Patents

Abstract

The utility model relates to machining equipment field, especially a kind of spherical connecting bar feed mechanism, it comprises hopper and is fixed on the frame plate of hopper discharging opening both sides, frame plate is established and is spacedly provided with some longitudinal chutes, what interlock successively in adjacent longitudinal chute is provided with push pedal and baffle plate, be provided with chute feeder on the top of the frame plate of the opposite side relative to hopper, be provided with pusher in the side of chute feeder; Near hopper side on frame plate is push pedal, and described push pedal is fixed on frame plate, and each baffle plate top raises to chute feeder side gradually by near hopper side, and the end face of baffle plate and push pedal is inclined-plane, and inclined-plane is all towards chute feeder side; Each push pedal connects this spherical connecting bar feed mechanism by reciprocating power mechanism, and this mechanism, by the setting of push pedal and baffle plate, achieves spherical connecting bar and delivers to assigned address step by step, and due to feeding step by step, the motion amplitude of spherical connecting bar can be made to reduce, reduce the possibility damaged, improve in-use performance.

Description

Spherical connecting bar feed mechanism

Technical field

The utility model relates to machining equipment field, especially a kind of spherical connecting bar feed mechanism.

Background technology

In the processing enterprise of the spherical connecting bar of existing piston, processing the material loading of spherical connecting bar is mostly pass through artificial loading, artificial loading is utilized to realize handling with care, the sphere of spherical connecting bar is avoided comparatively fierce collision to occur in feeding process and causes damage, but because artificial loading speed is relatively slow, can work efficiency be affected; And part also adopts vibrating disc to carry out material loading, in vibrations process, cause unavoidably between spherical connecting bar and produce comparatively strong collision, thus the fraction defect of spherical connecting bar is increased greatly, add production cost.

Utility model content

The purpose of this utility model is deficiency in order to solve above-mentioned technology and provides a kind of loading efficiency high, and can avoid the spherical connecting bar feed mechanism that fierce collision occurs between spherical connecting bar.

In order to achieve the above object, spherical connecting bar feed mechanism designed by the utility model, it comprises hopper and is fixed on the frame plate of hopper discharging opening both sides, frame plate is established and is spacedly provided with some longitudinal chutes, what interlock successively in adjacent longitudinal chute is provided with push pedal and baffle plate, be provided with chute feeder on the top of the frame plate of the opposite side relative to hopper, be provided with pusher in the side of chute feeder; Near hopper side on frame plate is push pedal, and described push pedal is fixed on frame plate, and each baffle plate top raises to chute feeder side gradually by near hopper side, and the end face of baffle plate and push pedal is inclined-plane, and inclined-plane is all towards chute feeder side; Each push pedal is connected by reciprocating power mechanism, and when push pedal moves to vertex, the lower side of push pedal end face is than being positioned at the higher side of this push pedal near the adjacent baffle plate end face of chute feeder side; When push pedal near hopper discharging opening is positioned at extreme lower position, the higher side of push pedal end face is lower than the position of the discharging opening of hopper; When push pedal near chute feeder is positioned at extreme higher position, the lower side of push pedal end face is higher than the side of chute feeder.

Technique scheme, in production and application process, when push pedal is moved downward to extreme lower position, have in the space above push pedal that spherical connecting bar falls into the first order in hopper, in push pedal uphill process, push pedal can only support a spherical connecting bar, multiple spherical connecting bars of top can slip in hopper at lower position, and this spherical connecting bar contacted with push pedal is raised up to the end face of baffle plate, and along the locus of inclined-plane landing above baffle plate of baffle plate and push pedal end face, and utilize the inclined-plane above baffle plate to support, when push pedal is again downward, spherical connecting bar meeting landing on baffle plate is in the superjacent air space of second stage push pedal, then said process is repeated, and spherical connecting bar is delivered in chute feeder the most at last, finally by pusher, spherical connecting bar is pushed into assigned address, namely the material loading of spherical connecting bar is completed.This structure is simple, simple and convenient in operating process, and comparatively fierce collision can not occur in spherical connecting bar feeding process, guarantees the quality of spherical connecting bar; This mechanism's loading efficiency is high in addition, and can select baffle plate and the push pedal of varying number and differing heights difference according to the distance of hopper and spherical connecting bar assigned address, Applicable scope is wider.

The width of the discharging opening of described hopper is the length of spherical connecting bar, and the distance between two frame plates is the length of spherical connecting bar, and the spacing between adjacent baffle plate is the width of spherical connecting bar.This structure can make each fill process only allow a spherical connecting bar laterally to enter the space above push pedal from the discharging opening of hopper, avoid the irregular charging of spherical connecting bar and cause damage or affect normal material loading, improve in-use performance and the stability of equipment, but also the independence of spherical connecting bar material loading can be improved.

The diff-H of the end face between adjacent baffle plate is identical; The diff-H of the end face between adjacent push pedal is identical.This structure can make the stroke of push pedal identical, thus ensure that the conformability of push pedal campaign, and stability is better, and drives whole push pedal campaign to lay the groundwork for use reciprocating power mechanism, improves the in-use performance of equipment.

All push pedals are integrated mechanism, and connected by a reciprocating power mechanism, this structure can make the motion of push pedal more stable, avoids between each push pedal, velocity variations occurring and causing the interference between material loading, also can reduce the saving of electric energy in the cost of equipment and use procedure simultaneously.

Described reciprocating power mechanism comprises electrical motor, retarder and eccentric wheel, and electrical motor is in transmission connection by retarder and eccentric wheel, is provided with output shaft at eccentric side, and top and the horizontal concrete chute be arranged in push pedal of output shaft are connected; When eccentric wheel rotates, push pedal pumps.This structure can realize push pedal fast speed crank motion, improves the reciprocal performance of equipment.

Described pusher is a cylinder, and cylinder is arranged on one end of chute feeder, and the telescopic end of cylinder is arranged in chute feeder.The adjustment of the air pressure in cylinder can be utilized to realize the adjustment of the thrust of cylinder, avoid thrust excessive and the damage of the spherical connecting bar caused.

The spherical connecting bar feed mechanism that the utility model obtains, by the setting of push pedal and baffle plate, achieves spherical connecting bar and delivers to assigned address step by step, and due to feeding step by step, the motion amplitude of spherical connecting bar can be made to reduce, reduce the possibility damaged, improve in-use performance.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is structure cutaway view of the present utility model.

Detailed description of the invention

Below by embodiment, the utility model will be further described by reference to the accompanying drawings.

Embodiment 1:

As shown in Figure 1 and Figure 2, the spherical connecting bar feed mechanism that the present embodiment describes, it comprises hopper 1 and is fixed on the frame plate 2 of hopper 1 discharging opening 4 both sides, frame plate 2 is established and is spacedly provided with six longitudinal chutes 3, what interlock successively in adjacent longitudinal chute 3 is provided with push pedal 6 and baffle plate 5, be provided with chute feeder 8 on the top of the frame plate 2 of the opposite side relative to hopper 1, be provided with pusher 9 in the side of chute feeder 8; Described pusher 9 is a cylinder, and cylinder is arranged on one end of chute feeder 8, and the telescopic end of cylinder is arranged in chute feeder 8; Near hopper 1 side on frame plate 2 is push pedal 6, described push pedal 6 is fixed on frame plate 2, and each baffle plate 5 top raises to chute feeder 8 side gradually by near hopper 1 side, the end face of baffle plate 5 and push pedal 6 is inclined-plane, and inclined-plane is all towards chute feeder 8 side; Each push pedal 6 is connected by reciprocating power mechanism 7, and when push pedal 6 moves to vertex, the lower side of push pedal 6 end face is than being positioned at the higher side of this push pedal 6 near adjacent baffle plate 5 end face of chute feeder 8 side; When push pedal 6 near hopper 1 discharging opening 4 is positioned at extreme lower position, the higher side of push pedal 6 end face is lower than the position of the discharging opening 4 of hopper 1; When push pedal 6 near chute feeder 8 is positioned at extreme higher position, the lower side of push pedal 6 end face is higher than the side of chute feeder 8.The width of the discharging opening 4 of described hopper 1 is the length of spherical connecting bar, and the distance between two frame plates 2 is the length of spherical connecting bar, and the spacing between adjacent baffle plate 5 is the width of spherical connecting bar.The diff-H of the end face between adjacent baffle plate 5 is identical; The diff-H of the end face between adjacent push pedal 6 is identical, and all push pedals 6 are integrated mechanism, and is connected by a reciprocating power mechanism 7; Described reciprocating power mechanism 7 comprises electrical motor 10, retarder 11 and eccentric wheel 12, electrical motor 10 is in transmission connection by retarder 11 and eccentric wheel 12, be provided with output shaft 13 at the side of eccentric wheel 12, top and the horizontal concrete chute 14 be arranged in push pedal 6 of output shaft 13 are connected; When eccentric wheel 12 rotates, push pedal 6 pumps.

Claims (6)

1. a spherical connecting bar feed mechanism, it is characterized in that: it comprises hopper and is fixed on the frame plate of hopper discharging opening both sides, frame plate is established and is spacedly provided with some longitudinal chutes, what interlock successively in adjacent longitudinal chute is provided with push pedal and baffle plate, be provided with chute feeder on the top of the frame plate of the opposite side relative to hopper, be provided with pusher in the side of chute feeder; Near hopper side on frame plate is push pedal, and described push pedal is fixed on frame plate, and each baffle plate top raises to chute feeder side gradually by near hopper side, and the end face of baffle plate and push pedal is inclined-plane, and inclined-plane is all towards chute feeder side; Each push pedal is connected by reciprocating power mechanism, and when push pedal moves to vertex, the lower side of push pedal end face is than being positioned at the higher side of this push pedal near the adjacent baffle plate end face of chute feeder side; When push pedal near hopper discharging opening is positioned at extreme lower position, the higher side of push pedal end face is lower than the position of the discharging opening of hopper; When push pedal near chute feeder is positioned at extreme higher position, the lower side of push pedal end face is higher than the side of chute feeder.

2. a kind of spherical connecting bar feed mechanism according to claim 1, it is characterized in that: the width of the discharging opening of described hopper is the length of spherical connecting bar, distance between two frame plates is the length of spherical connecting bar, and the spacing between adjacent baffle plate is the width of spherical connecting bar.

3. a kind of spherical connecting bar feed mechanism according to claim 1 and 2, is characterized in that: the diff-H of the end face between adjacent baffle plate is identical; The diff-H of the end face between adjacent push pedal is identical.

4. a kind of spherical connecting bar feed mechanism according to claim 3, is characterized in that: all push pedals are integrated mechanism, and is connected by a reciprocating power mechanism.

5. a kind of spherical connecting bar feed mechanism according to claim 1, it is characterized in that: described reciprocating power mechanism comprises electrical motor, retarder and eccentric wheel, electrical motor is in transmission connection by retarder and eccentric wheel, be provided with output shaft at eccentric side, top and the horizontal concrete chute be arranged in push pedal of output shaft are connected; When eccentric wheel rotates, push pedal pumps.

6. a kind of spherical connecting bar feed mechanism according to claim 1, is characterized in that: described pusher is a cylinder, and cylinder is arranged on one end of chute feeder, and the telescopic end of cylinder is arranged in chute feeder.