CN203581950U - Vibration disc spring line sorting mechanism - Google Patents

Abstract

The utility model provides a vibration disc spring line sorting mechanism, which comprises a first vibration mechanism, a second vibration mechanism and a beating scattering mechanism, wherein the first vibration mechanism comprises a first cavity and a first vibration motor, the first cavity is provided with an opening at the top end, the first vibration motor is arranged at the bottom of the first cavity, a first conveying passage arranged along the cavity wall of the first cavity is arranged in the first cavity, the second vibration mechanism comprises a second cavity and a second vibration motor, the second cavity is provided with an opening at the top end, the second vibration motor is arranged at the bottom of the second cavity, a second conveying passage arranged along the cavity wall of the second cavity is arranged in the second cavity, and the beating scattering mechanism is arranged between the first vibration mechanism and the second vibration mechanism and comprises a sealed third cavity and a stirring device arranged in the third cavity. The vibration disc spring line sorting mechanism disclosed by the utility model has the advantages that a great number of knotted springs are firstly separated and quantificationally output, the single line output is carried out after the individual separation, and the spring line sorting efficiency is improved.

Description

A kind of vibrating disk spring array mechanism

Technical field

The utility model relates to a kind of permutation equipment, is specifically related to a kind of vibrating disk spring array mechanism.

Background technology

The spring array mechanism of transmission is exactly directly the spring of packing to be put into vibrating disk, in vibrations process, make spring permutation output, if but large quantities of spring is while pouring vibrating disk into, can cannot realize spring separation by fast speed because knotting is serious or activity space is too little, causes inefficiency simultaneously.

Utility model content

For solving the problems of the technologies described above, the purpose of this utility model is to provide a kind of vibrating disk spring array mechanism, and the separation of spring and permutation are separately carried out, and realizes the quick permutation output of spring.

For achieving the above object, the technical solution of the utility model is as follows: a kind of vibrating disk spring array mechanism, and separation and permutation for spring, comprising:

The first vibrating mechanism, quantitative conveying for spring, the first cavity and the first vibrating motor that is arranged at described the first cavity bottom that comprise top end opening, in described the first cavity, be provided with the first transfer passage arranging along the chamber wall of described the first cavity, top is provided with the first outlet, and the exit end of described the first transfer passage is communicated with described the first outlet;

The second vibrating mechanism, permutation output for spring, the second cavity and the second vibrating motor that is arranged at described the second cavity bottom that comprise top end opening, in described the second cavity, be provided with the second transfer passage arranging along the chamber wall of described the second cavity, top is provided with the second outlet, and the exit end of described the second transfer passage is communicated with described the second outlet;

Break up mechanism, be located between described the first vibrating mechanism and the second vibrating mechanism, for the separation of spring, comprise the 3rd cavity of sealing and be arranged at the mixing device in described the 3rd cavity, the entrance of described the 3rd cavity is communicated with described the first outlet, and the top of described the second cavity is located in outlet.

Preferably, described mixing device comprises is located at the motor of described the 3rd cavity bottom and the flabellum being in transmission connection with described electric machine main shaft, and described flabellum is for fanning to the inwall of the 3rd cavity by the spring of knotting and making it spring separation.

Preferably, described the first transfer passage along the chamber wall of described the first cavity from bottom to top be helix line setting; Described the second transfer passage along the chamber wall of described the second cavity from bottom to top be helix line setting.

Preferably, the width of described the first transfer passage is more than or equal to the spring diameter of twice, is less than or equal to the spring diameter of four times.

Preferably, the width of described the second transfer passage and the diameter of spring match.

Preferably, between described the first cavity and the second cavity, be also provided with spring pumpback device, described spring pumpback device comprises pumpback passage and the air valve being communicated with the second cavity with described the first cavity, the entrance of described pumpback passage is located at the bottom of described the second cavity, the outlet of described pumpback passage is arranged at the top of described the first cavity and is communicated with the feeding port of described the first cavity, the corresponding described entrance setting of described air valve.

Adopt the beneficial effect of above technical scheme to be: vibrating disk spring array mechanism comprises San Ge mechanism, the first vibrating mechanism is for also quantitatively exporting to the spring initial gross separation of packing and break up mechanism, break up mechanism for the spring of knotting is on a small quantity broken up as single spring and exported the second vibrating mechanism to, the second shakeout machine exports supply equipment assembling by single spring again permutation, San Ge mechanism cooperatively interacts, can be fast and effectively by the serious spring of large quantities of knottings separated and permutation again rapidly, there is very high work efficiency.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the utility model embodiment technology, to the accompanying drawing of required use in embodiment technical description be briefly described below, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the structural representation of a kind of vibrating disk spring of the utility model array mechanism;

The represented corresponding component title of numeral in figure:

1, the first cavity 11, first outlet the 12, first transfer passage 2, break up mechanism 21, step surface 3, the second cavity 31, the second transfer passage 32, the second outlet 4, pumpback passage.

The specific embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, rather than whole embodiment.Embodiment based in the utility model, those of ordinary skills are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

As shown in Figure 1, a kind of vibrating disk spring array mechanism, for separation and the permutation of spring, comprises the first vibrating mechanism, the second vibrating mechanism and breaks up mechanism.

The first vibrating mechanism comprises the first cavity 1 of top end opening and is arranged at first vibrating motor (not marking in figure) of the first cavity 1 bottom, in the first cavity 1, be provided with the first transfer passage 12 arranging along the chamber wall of the first cavity 1, the first transfer passage 12 along the chamber wall of the first cavity 1 from bottom to top be helix line setting, be convenient to the preliminary permutation of spring.The exit end that is provided with the first outlet 11, the first transfer passages 12 on the top of the first cavity 1 is communicated with the first outlet 11, through the spring of preliminary permutation, through the first transfer passage 12, exports.The wider width of the first transfer passage 12, can hold plural spring carries simultaneously side by side, the scheme of the present embodiment comparative optimization is the spring diameter that its width is more than or equal to twice, be less than or equal to the spring diameter of four times, such the first vibrating mechanism can be exported 2-4 spring at every turn, has realized the object of quantitative output.

The second vibrating mechanism comprises the second cavity 3 of top end opening and is arranged at second vibrating motor (not marking in figure) of the second cavity 3 bottoms, in the second cavity 3, be provided with the second transfer passage 31, the second transfer passages 31 of arranging along the chamber wall of the second cavity 3 along the chamber wall of the second cavity 3 from bottom to top be helix line setting.The exit end that the top of the second cavity 3 is provided with the second outlet 32, the second transfer passages 31 is communicated with the second outlet 32, through the spring of secondary permutation, through the second transfer passage 31, exports.The width of the second transfer passage 31 is narrower, can only allow a spring to carry, and the bottom that unnecessary spring can fall into the second cavity again re-starts permutation or recovery, has realized the object of the single permutation output of spring.

Breaing up mechanism is located between the first vibrating mechanism and the second vibrating mechanism, comprise the 3rd cavity of sealing and be arranged at the mixing device (not marking in figure) in the 3rd cavity, the entrance of the 3rd cavity is communicated with the first outlet 11, and the top of the second cavity 3 is located in the outlet of the 3rd cavity; Mixing device comprises is located at the motor of the 3rd cavity bottom and the flabellum being in transmission connection with electric machine main shaft, and flabellum is for fanning to the inwall of the 3rd cavity by the spring of knotting and making it spring separation; The 3rd outlet of cavity and the profile of spring match, and once can only allow a spring output, have so just guaranteed the lining-up machine output of the single spring of the second vibrating mechanism.

Between the first cavity and the second cavity, be also provided with spring pumpback device, spring pumpback device comprises pumpback passage 4 and the air valve being communicated with the second cavity 3 with the first cavity 1, the entrance of pumpback passage is located at the bottom of the second cavity 3, the outlet of pumpback passage is arranged at the top of the first cavity 1 and is communicated with the feeding port of the first cavity 1, the corresponding entrance setting of air valve.Spring in the second cavity 3 does not enter the second transfer passage 31 in time while exporting, spring can fall into the entrance of pumpback passage 4, air valve blows out the spring of the entrance of pumpback passage to the first cavity 1 and re-starts quantitative output simultaneously, so neither can cause in the bottom of the second cavity 3 spring to pile up, also omitted labor cleaning's trouble, for enterprise provides cost savings.

Adopt the beneficial effect of above technical scheme to be: vibrating disk spring array mechanism comprises San Ge mechanism, the first vibrating mechanism is for also quantitatively exporting to the spring initial gross separation of packing and break up mechanism, break up mechanism for the spring of knotting is on a small quantity broken up as single spring and exported the second vibrating mechanism to, the second shakeout machine exports supply equipment assembling by single spring again permutation, San Ge mechanism cooperatively interacts, can be fast and effectively by the serious spring of large quantities of knottings separated and permutation again rapidly, there is very high work efficiency.

Above-mentioned explanation to the disclosed embodiments, makes professional and technical personnel in the field can realize or use the utility model.To the multiple modification of these embodiment, will be apparent for those skilled in the art, General Principle as defined herein can, in the situation that not departing from spirit or scope of the present utility model, realize in other embodiments.Therefore, the utility model will can not be restricted to these embodiment shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (6)

1. a vibrating disk spring array mechanism, separation and permutation for spring, is characterized in that, comprises

The first vibrating mechanism, quantitative conveying for spring, the first cavity and the first vibrating motor that is arranged at described the first cavity bottom that comprise top end opening, in described the first cavity, be provided with the first transfer passage arranging along the chamber wall of described the first cavity, top is provided with the first outlet, and the exit end of described the first transfer passage is communicated with described the first outlet;

The second vibrating mechanism, permutation output for spring, the second cavity and the second vibrating motor that is arranged at described the second cavity bottom that comprise top end opening, in described the second cavity, be provided with the second transfer passage arranging along the chamber wall of described the second cavity, top is provided with the second outlet, and the exit end of described the second transfer passage is communicated with described the second outlet;

Break up mechanism, be located between described the first vibrating mechanism and the second vibrating mechanism, for the separation of spring, comprise the 3rd cavity of sealing and be arranged at the mixing device in described the 3rd cavity, the entrance of described the 3rd cavity is communicated with described the first outlet, and the top of described the second cavity is located in outlet.

2. vibrating disk spring array mechanism according to claim 1, it is characterized in that, described mixing device comprises is located at the motor of described the 3rd cavity bottom and the flabellum being in transmission connection with described electric machine main shaft, and described flabellum is for fanning to the inwall of the 3rd cavity by the spring of knotting and making it spring separation.

3. vibrating disk spring array mechanism according to claim 2, is characterized in that, described the first transfer passage along the chamber wall of described the first cavity from bottom to top be helix line setting; Described the second transfer passage along the chamber wall of described the second cavity from bottom to top be helix line setting.

4. vibrating disk spring array mechanism according to claim 3, is characterized in that, the width of described the first transfer passage is more than or equal to the spring diameter of twice, is less than or equal to the spring diameter of four times.

5. vibrating disk spring array mechanism according to claim 4, is characterized in that, the width of described the second transfer passage and the diameter of spring match.

6. vibrating disk spring array mechanism according to claim 5, it is characterized in that, between described the first cavity and the second cavity, be also provided with spring pumpback device, described spring pumpback device comprises pumpback passage and the air valve being communicated with the second cavity with described the first cavity, the entrance of described pumpback passage is located at the bottom of described the second cavity, the outlet of described pumpback passage is arranged at the top of described the first cavity and is communicated with the feeding port of described the first cavity, the corresponding described entrance setting of described air valve.

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