CN105537500A

CN105537500A - Automatic assembling machine for phoenix-tailed chain

Info

Publication number: CN105537500A
Application number: CN201610109595.3A
Authority: CN
Inventors: 罗方乐; 罗方银
Original assignee: Haifeng Longxing Machinery Technology Co Ltd
Current assignee: Haifeng Longxing Machinery Technology Co Ltd
Priority date: 2016-02-26
Filing date: 2016-02-26
Publication date: 2016-05-04
Anticipated expiration: 2036-02-26
Also published as: CN105537500B

Abstract

The invention relates to an automatic assembling machine for a phoenix-tailed chain. The automatic assembling machine comprises a feeding mechanism for conveying raw materials, a stamping mechanism for stamping the raw materials into horizontal model sheets, a push mechanism, a rotating mechanism for rotating the model sheets to be horizontal or vertical, a stirring mechanism and a pulling mechanism for pulling the phoenix-tailed chain backwards. The rotating mechanism is provided with two first clamping grooves for clamping the vertical model sheets and two third clamping grooves for clamping the horizontal model sheets. The first clamping grooves and the third clamping grooves can rotate around the rotating center of the rotating mechanism. The push mechanism comprises a first push layer and a second push layer which are arranged in the vertical direction in a spaced mode, and the first push layer and the second push layer are used for pushing the horizontal model sheets, so that the horizontal model sheets and the vertical model sheets are connected in series and matched. The stirring mechanism is used for stirring the horizontal model sheets, and the pulling mechanism is used for pulling the phoenix-tailed chain backwards. The whole assembling process is fully automatic, the production efficiency of the phoenix-tailed chain is greatly improved, and labor cost is reduced.

Description

A kind of phoenix tail chain automatic assembling machine

Technical field

The present invention relates to a kind of phoenix tail chain automatic assembling machine

Background technology

On existing market, the assembly method of phoenix tail chain is mainly by manually directly assembling, along with the increase of market demand, the Production requirement of phoenix tail chain is also increased day by day, and existing manual assembly efficiency is low, easy damaged material in assembling process, also easily scratch hand, labor cost is high, causes a large amount of wastes of material.

Summary of the invention

For prior art Problems existing, the object of the present invention is to provide a kind of phoenix tail chain assembly machine, improve the production efficiency of phoenix tail chain greatly, reduce labor cost.

For prior art Problems existing, the present invention adopts following technical scheme:

A kind of phoenix tail chain automatic assembling machine, comprise the feed mechanism for transferring raw material, raw material is struck out the punching mechanism of horizontal model sheet, delivery device, for model sheet is rotated to be horizontal or vertical rotating mechanism, toggle mechanism and the pulling mechanism that phoenix tail chain is pulled back, described punching mechanism is positioned at the top of described feed mechanism, the side of described delivery device and described feed mechanism is affixed, the rear end of described rotating mechanism and described delivery device is affixed, the front of described rotating mechanism is provided with the clamping mechanism for correcting vertical model sheet and the displacement of limit levels model sheet vertical direction, described rotating mechanism has two the first draw-in grooves for clamping vertical model sheet and two the 3rd draw-in grooves for the horizontal model sheet of clamping, described first draw-in groove and the 3rd draw-in groove can rotate along the pivot of rotating mechanism, described delivery device comprises vertical direction spaced first and pushes layer and the second propelling movement layer, described first pushes layer and second pushes layer and horizontal model sheet is connected in series with vertical model sheet coordinate for pushing horizontal model sheet, horizontal model sheet after described toggle mechanism has been connected in series for rotary dial, described pulling mechanism is for pulling back the phoenix tail chain after serial connection.

Preferably, described feed mechanism comprises two for the synchronous wheel shaft of transferring raw material bar and the base for clamping raw strip, and wheel shaft is installed on one end of base, and raw strip is between two axles, and two axles Synchronous Transmission drives raw strip translation backward.

Preferably, described punching mechanism comprises the first pressing part and the second pressing part, and the first pressing part has the first drift raw material being carried out to punching, and the second pressing part has the second drift washed from from raw strip by model sheet.

Preferably, described clamping mechanism has two vertically spaced second draw-in grooves, and described second draw-in groove is respectively used to the horizontal model sheet of clamping, and described clamping mechanism is provided with the first push rod moved forward and backward for controlling the second draw-in groove.

Preferably, described toggle mechanism comprises for rotary dial horizontal model sheet sliding piece and the poke rod for controlling sliding piece rotation and left and right feeding.

Preferably, the angle that described horizontal model sheet is stirred by described swinging plate is 90 °.

Preferably, the left side of described delivery device is provided with for displacement on the right side of limit levels model sheet and can the limiting plate of automatic lifting.

Preferably, described pulling mechanism comprises for Fastener and the second push rod, and described Fastener comprises card-tight part for clamping phoenix tail chain and for controlling card-tight part clamping and unclamping the pull bar of phoenix tail chain, described second push rod is used for moving forward and backward of control card gripping members.

Preferably, described rotating mechanism comprises rotating shaft and the 3rd push rod, and described first draw-in groove is arranged on the front end of rotating shaft, and described 3rd push rod is for controlling the rotation of described rotating shaft.

Preferably, the right side of described feed mechanism is provided with and pushes the anxious induction installation stopped of layer for controlling the first push layer and second.

Compared to prior art, beneficial effect of the present invention is: replace artificial serial connection phoenix tail chain by providing a kind of phoenix tail chain automatic assembling machine, only raw strip need be inputted from input, through punching mechanism, punching press is carried out to raw strip and obtain required model sheet, then model sheet is delivered to rotary work station, be connected in series between model sheet with model sheet, finally the phoenix tail chain after being connected in series is exported and just can obtain phoenix tail chain finished product, whole process is full-automatic, substantially increase the production efficiency of phoenix tail chain, reduce labor cost, avoid in artificial concatenation process because careless manipulation causes damaging model sheet and scratching fingers, save a large amount of material costs, the waste of material is also greatly reduced simultaneously.

Accompanying drawing explanation

Fig. 1 is the installation diagram of a kind of phoenix tail chain of the present invention automatic assembling machine;

Fig. 2 is the installation diagram of a kind of phoenix tail chain of the present invention automatic assembling machine;

Fig. 3 is the structural representation of pulling mechanism in Fig. 1;

Fig. 4 is the structural representation of clamping mechanism in Fig. 1;

Fig. 5 is the partial enlarged drawing of A in Fig. 1;

Fig. 6 is the partial enlarged drawing of B in Fig. 2;

Fig. 7 is the structural representation of rotating shaft in Fig. 2;

Wherein, 1, raw strip; 11, horizontal model sheet; 12, vertical model sheet; 10, feed mechanism; 101, base; 102, wheel shaft; 20, punching mechanism; 201, the first drift; 202, the second drift; 30, delivery device; 301, first layer is pushed; 302, second layer is pushed; 40, clamping mechanism; 401, the first push rod; 402, the second draw-in groove; 50, toggle mechanism; 501, sliding piece; 502, poke rod; 60, limiting plate; 70, rotating mechanism; 701, the 3rd push rod; 702, rotating shaft; 703, the first draw-in groove; 704, the 3rd draw-in groove; 80, Fastener; 801, card-tight part; 802, pull bar; 803, the second push rod.90, induction installation.

Detailed description of the invention

Below, by reference to the accompanying drawings and detailed description of the invention, the present invention is described further:

In describing the invention, it will be appreciated that, term " is gone up ", " under ", " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end ", the orientation of the instruction such as " interior " or position relationship be based on orientation shown in the drawings or position relationship, only the present invention for convenience of description and simplified characterization, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as limitation of the present invention.

As Fig. 1, shown in Fig. 2 and Fig. 7, a kind of phoenix tail chain automatic assembling machine, comprise the feed mechanism 10 for transferring raw material, raw material is struck out the punching mechanism 20 of horizontal model sheet 11, delivery device 30, for model sheet is rotated to be horizontal or vertical rotating mechanism 70, toggle mechanism 50 and the pulling mechanism that phoenix tail chain is pulled back, described punching mechanism 20 is positioned at the top of described feed mechanism 10, described delivery device 30 is affixed with the side of described feed mechanism 10, described rotating mechanism 70 is affixed with the rear end of described delivery device 30, the front of described rotating mechanism 70 is provided with the clamping mechanism 40 for correcting vertical model sheet 12 and the displacement of limit levels model sheet 11 vertical direction, particularly, described clamping mechanism 40 has two vertically spaced second draw-in grooves 402, described second draw-in groove 402 is respectively used to the horizontal model sheet 11 of clamping, described rotating mechanism 70 has two the first draw-in grooves 703 for clamping vertical model sheet 12 and two the 3rd draw-in grooves 704 for the horizontal model sheet 11 of clamping, described first draw-in groove 703 and the 3rd draw-in groove 704 can rotate along the pivot of rotating mechanism 70, described delivery device 30 comprises vertical direction spaced first and pushes layer 301 and the second propelling movement layer 302, described first pushes layer 301 and second pushes layer 302 and horizontal model sheet 11 is connected in series with vertical model sheet 12 coordinate for pushing horizontal model sheet 11, horizontal model sheet 11 after described toggle mechanism 50 has been connected in series for rotary dial, described pulling mechanism is for pulling back the phoenix tail chain after serial connection.

Raw strip 1 is delivered to the below of punching mechanism 20 by feed mechanism 10, punching mechanism 20 pairs of raw strip 1 are carried out punching press and are obtained required model sheet, punching mechanism 20 carries out a punching press and obtains two horizontal model sheets 11, clamping mechanism 40 is corrected to advancing near the direction of vertical model sheet 12 vertical model sheet 12 and locates, two horizontal model sheets 11 drop respectively and push on layer 301 and the second propelling movement layer 302 at first of delivery device 30, first pushes layer 301 and second pushes two horizontal model sheet 11 synchronous transport are connected in series cooperation by layer 302 rotary work station to horizontal model sheet 11 and vertical model sheet 12, described first propelling movement layer 301 and the second propelling movement layer 302 can be conveyer belt, certainly, first pushes layer 301 and second pushes other structures that layer 302 also can be applicable transportation horizontal model sheet 11, two horizontal model sheets 11 are connected in two second draw-in grooves 402 respectively, two horizontal model sheets 11 are connected in series be connected in the first draw-in groove 703 two vertical model sheets 12 simultaneously, the mode of this serial connection as shown in Figure 5, two horizontal model sheets 11 are connected in series to left with two vertical model sheets 12, second draw-in groove 402 limits the displacement of horizontal model sheet 11 vertical direction, prevents horizontal model sheet 11 and vertical model sheet 12 from dropping in the process of serial connection, be connected in series rear described toggle mechanism 50 and forward certain angle has been stirred to two horizontal model sheets 11, preferably, this angle 90 °, now, two horizontal model sheets 11 aim at two the 3rd draw-in grooves 704 respectively, after having stirred, whole piece phoenix tail chain is pulled back a unit by described pulling mechanism, here it should be noted that, before whole device running, a phoenix tail chain preset by rotating mechanism 70 and pulling mechanism, ensure can directly be connected in series with vertical model sheet 12 when horizontal model sheet 11 is delivered to rotary work station, be connected in series rear pulling mechanism and directly whole piece phoenix tail chain can be pulled back a unit.Two horizontal model sheets 11 are under the effect of motive force, directly can be connected in the 3rd draw-in groove 704, simultaneously, two vertical model sheets 12 are drawn out rotating shaft 702, after pulling mechanism execution, clamping mechanism 40 returns original position automatically, rotating mechanism 70 drives the first draw-in groove 703 and the 3rd draw-in groove 704 to rotate, the anglec of rotation is 90 °, first draw-in groove 703 rotates to be horizontal direction by vertical direction, 3rd draw-in groove 704 transfers vertical direction to by horizontal direction, drive two horizontal model sheets 11 to rotate to be vertical direction by horizontal direction simultaneously and form above-mentioned vertical model sheet 12, arrive this, just complete a circulation, by above-mentioned circulation, automatically can generate required phoenix tail chain finished product, substantially increase the production efficiency of phoenix tail chain, reduce labor cost, reduce the damage to raw material and model sheet in manual operation process, save a large amount of material costs.

As shown in Figure 1, in order to control feeding speed and precision more accurately, described feed mechanism 10 comprises the two synchronous wheel shafts 102 for transferring raw material bar 1 and the base 101 for clamping raw strip 1, wheel shaft 102 is installed on one end of base 101, raw strip 1 is between two axles 102, two axles 102 Synchronous Transmission drives raw strip 1 translation backward, and this synchronous wheel shaft 102 can be driven by synchromesh gear.

Described punching mechanism 20 comprises the first pressing part and the second pressing part, first pressing part has the first drift 201 raw material being carried out to punching, second pressing part has the second drift 202 washed from from raw strip 1 by model sheet, first drift 201 and the punching press simultaneously of the second drift 202 directly obtain required horizontal model sheet 11, simple to operate, control accurately.

As shown in Figure 1 and Figure 4, described clamping mechanism 40 is also provided with the first push rod 401 moved forward and backward for controlling the second draw-in groove 402, preferably, this first push rod 401 is promoted to control by cylinder, first push rod 401 drives the second draw-in groove 402 to advance near the direction of vertical model sheet 12, corrects horizontal model sheet 11 and locates.

Described toggle mechanism 50 comprises for the sliding piece 501 of the horizontal model sheet 11 of rotary dial and the poke rod 502 for controlling sliding piece 501 rotation and left and right feeding, particularly, the angle that described horizontal model sheet 11 is stirred by described sliding piece 501 is 90 °, preferably, described poke rod 502 is promoted to control by cylinder, poke rod 502 drives sliding piece 501 to advance near the direction of horizontal model sheet 11, be advanced to desired location, sliding piece 501 is pushed ahead and is stirred horizontal model sheet 11 half-twist, after completing this operation, sliding piece 501 and poke rod 502 return to original position automatically.

As shown in Figure 6, preferably, the left side of described delivery device 30 is provided with for displacement on the right side of limit levels model sheet 11 and can the limiting plate 60 of automatic lifting, after horizontal model sheet 11 is stirred half-twist by toggle mechanism 50, limiting plate 60 is risen automatically by bottom, its overhead height is higher than the height of upper water flat-die matrix 11, above-mentioned clamping mechanism 40 can only the upper and lower displacement of limit levels model sheet 11, in the process of whole Automated assembly, horizontal model sheet 11 likely can offset to the right, whole assembly machine is caused to carry out next action, this limiting plate 60 can the lateral displacement of limit levels model sheet 11, improve the precision of assembling automatically, after horizontal model sheet 11 is connected in the 3rd draw-in groove 704, this limiting plate 60 can decline automatically.

As shown in figures 1 and 3, described pulling mechanism comprises Fastener 80 and the second push rod 803, described Fastener 80 comprises card-tight part 801 for clamping phoenix tail chain and for controlling the pull bar 802 that card-tight part 801 clamps and unclamps phoenix tail chain, described second push rod 803 moving forward and backward for control card gripping members 80.Above-mentioned limiting plate 60 horizontal model sheet 11 is carried out spacing after, described card-tight part 801 pairs of phoenix tail chains clamp, second push rod 803 drives Fastener 80 to promote a unit backward, overall phoenix tail chain is pulled back a unit by Fastener 80, after arriving relevant position, pull bar 802 automatically presses down and makes card-tight part 801 unclamp phoenix tail chain, and Fastener 80 and the second push rod 803 reset into origin-location again automatically.

Described rotating mechanism 70 comprises rotating shaft 702 and the 3rd push rod 701, described first draw-in groove 703 and the 3rd draw-in groove 704 are arranged on the front end of rotating shaft 702, described 3rd push rod 701 is for controlling the rotation of described rotating shaft 702, after phoenix tail chain is pulled back a unit by pulling mechanism, two horizontal model sheets 11 are connected in the 3rd draw-in groove 704 respectively under the effect of motive force, rotating shaft 702 drives the first draw-in groove 703 and the 3rd draw-in groove 704 half-twist under the effect of the 3rd push rod 701, now, first draw-in groove 703 rotates to be horizontal direction by vertical direction, 3rd draw-in groove 704 rotates to be vertical direction by horizontal direction, complete the switching of the first draw-in groove 703 and the 3rd draw-in groove 704.

In the process of whole generation phoenix tail chain, because clamping mechanism 40 exists certain deviation or other external force factors to vertical model sheet 12 location, to cause vertical model sheet 12 to be located not accurate, the horizontal model sheet 11 being delivered to rotary work station cannot be connected in series with vertical model sheet 12, cannot be connected in series with vertical model sheet 12 in order to avoid horizontal model sheet 11 and affect the production efficiency of whole phoenix tail chain, as shown in Figure 1, the right side of described feed mechanism 10 is provided with and pushes the anxious induction installation 90 stopped of layer 302 for controlling the first push layer 301 and second, when horizontal model sheet 11 is not connected in series with vertical model sheet 12, this induction installation 90 sends signal and the first propelling movement layer 301 and the second propelling movement layer 302 is stopped, vertical model sheet 12 is reorientated precisely, restart again, accelerate the process of producing phoenix tail chain, improve the production efficiency of phoenix tail chain.

In sum, the technical process of whole production phoenix tail chain is: can by steady for raw strip 1 by the mode of synchronous wheel shaft 102, be delivered to below punching mechanism 20 accurately, directly can carry out punching press to raw strip 1 by punching mechanism 20 and obtain desired level model sheet 11, by clamping mechanism 40, location is corrected to vertical model sheet 12, by bilevel first propelling movement layer 301 and the second propelling movement layer 302, horizontal model sheet 11 is pushed to rotary work station to be connected in series with vertical model sheet 12, by the displacement of the second draw-in groove 402 limit levels model sheet 11 vertical direction of clamping mechanism 40, by sliding piece 501, horizontal model sheet 11 is stirred forward 90 °, can the lateral displacement of limiting plate 60 limit levels model sheet 11 of automatic lifting by one, by pulling mechanism, phoenix tail chain is pulled back a unit, clamping mechanism 40 returns original position automatically, limiting plate 60 returns original position automatically, the first draw-in groove 703 is rotarily driven and the 3rd draw-in groove 704 half-twist completes a technique by rotating shaft 702.Cycling can generate required phoenix tail chain automatically.Raw material only just can need can be generated phoenix tail chain finished product from input input by whole process automatically, improves production efficiency, reduces labor cost.

To one skilled in the art, according to technical scheme described above and design, other various corresponding change and deformation can be made, and all these change and deformation all should belong within the protection domain of the claims in the present invention.

Claims

1. a phoenix tail chain automatic assembling machine, it is characterized in that: comprise the feed mechanism for transferring raw material, raw material is struck out the punching mechanism of horizontal model sheet, delivery device, for model sheet is rotated to be horizontal or vertical rotating mechanism, toggle mechanism and the pulling mechanism that phoenix tail chain is pulled back, described punching mechanism is positioned at the top of described feed mechanism, the side of described delivery device and described feed mechanism is affixed, the rear end of described rotating mechanism and described delivery device is affixed, the front of described rotating mechanism is provided with the clamping mechanism for correcting vertical model sheet and the displacement of limit levels model sheet vertical direction, described rotating mechanism has two the first draw-in grooves for clamping vertical model sheet and two the 3rd draw-in grooves for the horizontal model sheet of clamping, described first draw-in groove and the 3rd draw-in groove can rotate along the pivot of rotating mechanism, described delivery device comprises vertical direction spaced first and pushes layer and the second propelling movement layer, described first pushes layer and second pushes layer and horizontal model sheet is connected in series with vertical model sheet coordinate for pushing horizontal model sheet, horizontal model sheet after described toggle mechanism has been connected in series for rotary dial, described pulling mechanism is for pulling back the phoenix tail chain after serial connection.

2. phoenix tail chain automatic assembling machine according to claim 1, it is characterized in that: described feed mechanism comprises two for the synchronous wheel shaft of transferring raw material bar and the base for clamping raw strip, wheel shaft is installed on one end of base, raw strip is between two axles, and two axles Synchronous Transmission drives raw strip translation backward.

3. phoenix tail chain automatic assembling machine according to claim 1, it is characterized in that: described punching mechanism comprises the first pressing part and the second pressing part, first pressing part has the first drift raw material being carried out to punching, and the second pressing part has the second drift washed from from raw strip by model sheet.

4. phoenix tail chain automatic assembling machine according to claim 1, it is characterized in that: described clamping mechanism has two vertically spaced second draw-in grooves, described second draw-in groove is respectively used to the horizontal model sheet of clamping, and described clamping mechanism is provided with the first push rod moved forward and backward for controlling the second draw-in groove.

5. phoenix tail chain automatic assembling machine according to claim 1, is characterized in that: described toggle mechanism comprises for rotary dial horizontal model sheet sliding piece and the poke rod for controlling sliding piece rotation and left and right feeding.

6. phoenix tail chain automatic assembling machine according to claim 5, is characterized in that: the angle that described horizontal model sheet is stirred by described swinging plate is 90 °.

7. phoenix tail chain automatic assembling machine according to claim 6, is characterized in that: the left side of described delivery device is provided with for displacement on the right side of limit levels model sheet and can the limiting plate of automatic lifting.

8. phoenix tail chain automatic assembling machine according to claim 1, it is characterized in that: described pulling mechanism comprises Fastener and the second push rod, described Fastener comprises card-tight part for clamping phoenix tail chain and for controlling card-tight part clamping and unclamping the pull bar of phoenix tail chain, described second push rod is used for moving forward and backward of control card gripping members.

9. phoenix tail chain automatic assembling machine according to claim 1, is characterized in that: described rotating mechanism comprises rotating shaft and the 3rd push rod, and described first draw-in groove is arranged on the front end of rotating shaft, and described 3rd push rod is for controlling the rotation of described rotating shaft.

10. phoenix tail chain automatic assembling machine according to claim 1, is characterized in that: the right side of described feed mechanism is provided with and pushes the anxious induction installation stopped of layer for controlling the first push layer and second.