CN113290258A

CN113290258A - Phoenix tail chain intelligence car flower machine

Info

Publication number: CN113290258A
Application number: CN202110644744.7A
Authority: CN
Inventors: 李钢
Original assignee: Individual
Current assignee: Wuhu Tingyou Electromechanical Technology Co ltd
Priority date: 2021-06-09
Filing date: 2021-06-09
Publication date: 2021-08-24
Anticipated expiration: 2041-06-09
Also published as: CN113290258B

Abstract

The invention relates to the technical field of embroidery machines, in particular to an intelligent embroidery machine of a phoenix tail chain, which comprises: a body; the feeding mechanism is arranged in the machine body and is positioned on one side of the machine body; the pattern turning and cutting mechanism is arranged in the machine body and is positioned in the middle of the machine body; the tensioning guide mechanism is arranged in the machine body, is positioned between the feeding mechanism and the pattern turning cutting mechanism and is used for tensioning and guiding the metal chain fed in the feeding mechanism; the discharging mechanism is arranged in the machine body, is positioned on one side of the turning cutting mechanism, which is far away from the tensioning guide mechanism, and is used for carrying out guide discharging operation on the processed metal chain; the phoenix tail chain intelligent pattern turning machine can automatically process phoenix tail chains, can collect waste materials in a centralized manner, keeps equipment clean, improves economic benefits, can limit and guide metal chains before and after processing, and improves processing precision.

Description

Phoenix tail chain intelligence car flower machine

Technical Field

The invention relates to the technical field of embroidery machines, in particular to an intelligent embroidery machine for a phoenix tail chain.

Background

At present, the jewelry has a plurality of belt-shaped noble metal decorating belt raw materials, patterns need to be cut on the surface of the decorating belt raw materials after the jewelry is produced so as to facilitate the subsequent fine processing, and the cutting work needs to be finished by a lathing machine.

Among the prior art, full automatic production can't be accomplished in the processing production of car flower machine, and current last unloading mechanism does not have accurate guide function man-hour for the metal chain produces the wastrel easily man-hour, and among the prior art, does not carry out the recovery unit who retrieves to the waste material man-hour, leads to polluting the processing environment, and can't carry out effectual recycle to the metal fillings, causes economic loss.

Therefore, it is necessary to design an intelligent phoenix tail chain embroidery machine to solve the above problems.

Disclosure of Invention

For solving above-mentioned technical problem, provide a phoenix tail chain intelligence car flower machine, this technical scheme has solved the processing production of car flower machine and can't accomplish full automatic production, and current last unloading mechanism does not have accurate guide function man-hour for the metal chain produces the wastrel easily man-hour, and among the prior art, does not carry out the recovery unit who retrieves to the waste material man-hour, leads to polluting the processing environment, and can't carry out effectual recycle to the metal fillings, causes economic loss scheduling problem.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

the utility model provides a phoenix tail chain intelligence car flower machine, includes:

a body;

the feeding mechanism is arranged in the machine body and positioned on one side of the machine body and is used for carrying out the feeding process of the unprocessed metal chain;

the pattern turning and cutting mechanism is arranged in the machine body, is positioned in the middle of the machine body and is used for turning the metal chain in the feeding mechanism;

the tensioning guide mechanism is arranged in the machine body, is positioned between the feeding mechanism and the pattern turning cutting mechanism and is used for tensioning and guiding the metal chain fed in the feeding mechanism;

the discharging mechanism is arranged in the machine body, is positioned on one side of the turning cutting mechanism, which is far away from the tensioning guide mechanism, and is used for carrying out guide discharging operation on the processed metal chain;

and the material receiving mechanism is arranged in the machine body, is positioned on one side of the machine body, which is far away from the material feeding mechanism, and is used for rolling the metal chain discharged in the material discharging mechanism.

As an optimal scheme of phoenix tail chain intelligence car flower machine, taut guiding mechanism is including first mounting bracket, the speed governing leading wheel, first rotary actuator and first lift drive subassembly, first mounting bracket sets up on the organism, the speed governing leading wheel is equipped with two, two speed governing leading wheels set gradually on first mounting bracket along vertical direction, the axis direction of speed governing leading wheel is perpendicular with metal chain transmission direction, the vertical top that sets up at first mounting bracket of first lift drive subassembly, the output of first lift drive subassembly is connected with the transmission of the speed governing leading wheel that is located the top, the speed governing leading wheel that is located the below is connected with the both sides lateral wall coupling of first mounting bracket, first rotary actuator horizontal installation is on one of them lateral wall of first mounting bracket, the output of first mounting bracket is connected with the one end transmission of the speed governing leading wheel that is located the below.

As an optimal selection scheme of phoenix tail chain intelligence car flower machine, first lift drive assembly is including first linear drive ware and crane, the vertical fixed mounting of first linear drive ware on the top of first mounting bracket, the setting that the crane can go up and down is in first mounting bracket, and the speed governing leading wheel hub that is located the top connects on the crane, offers on the both sides lateral wall of first mounting bracket and supplies the crane to go up and down gliding lift spacing groove.

As an optimal scheme of phoenix tail chain intelligence car flower machine, car flower cutting mechanism is including the loading board, the installation stand, second lift drive assembly, second rotary actuator and car flower wheel, the loading board level sets up on the organism, the vertical setting of installation stand is on the organism, the installation stand is located the side of loading board, the vertical fixed mounting of second lift drive assembly is on the top of installation stand, the vertical hub of car flower wheel is on the output of second lift drive assembly, the car flower wheel is located the loading board directly over, second rotary actuator horizontal installation is on the output of second lift drive assembly, the output and the car flower wheel transmission of second rotary actuator are connected.

As an optimal scheme of the phoenix tail chain intelligent pattern turning machine, guide plates are further arranged on two sides of the top end of the bearing plate, guide grooves for the metal chains to penetrate through are formed in the guide plates, and the length direction of the guide grooves is consistent with the machining direction of the metal chains.

As an optimal selection scheme of phoenix tail chain intelligence car flower machine, still including waste recovery mechanism, waste recovery mechanism sets up on the organism, and waste recovery mechanism's output sets up on the loading board.

As an optimal selection scheme of phoenix tail chain intelligence car flower machine, waste recycling mechanism is including the collecting box, inhale the material passageway and inhale the material mouth, the collecting box is installed on the organism, inhale the material passageway and set up the below at the loading board, it is equipped with two to inhale the material mouth, two are inhaled the material mouth and are set up respectively in the loading board along the both sides of metal chain direction of processing, inhale the one end and the inside intercommunication of collecting box of material passageway, inhale the other end and two of material passageway and inhale material mouth intercommunication, be equipped with the aspiration pump in the collecting box, the output of aspiration pump with inhale material passageway intercommunication.

As a preferred scheme of the phoenix tail chain intelligent pattern turning machine, the discharging mechanism comprises a second mounting frame, a horizontal guide rod and a mounting frame, the winding displacement wheel, horizontal reciprocating displacement subassembly and rotation driving subassembly, the second mounting bracket sets up on the organism, horizontal guide bar is equipped with two, two horizontal guide bar levels in proper order along vertical direction respectively and sets up on the second mounting bracket, the length direction of horizontal guide bar is perpendicular with metal chain direction of working, the mounting bracket can gliding setting on the second mounting bracket, the winding displacement wheel is equipped with two, two winding displacement wheels are along vertical direction coupling in proper order on the mounting bracket, horizontal reciprocating displacement unit mount is on the second mounting bracket inner wall, the output and the mounting bracket transmission of horizontal reciprocating displacement subassembly are connected, rotation driving subassembly horizontal installation is in one side of second mounting bracket, rotation driving subassembly's output is connected with one of them winding displacement wheel transmission.

As an optimal selection scheme of phoenix tail chain intelligence car flower machine, the horizontal reciprocating displacement subassembly is including third linear drive ware, elevator and hinge bar, the vertical fixed mounting of third linear drive ware in the inner wall below of second mounting bracket, the slip setting that the elevator can vertical lift on the inner wall of second mounting bracket, the one end of hinge bar is articulated with the lateral wall of elevator, the other end of hinge bar is articulated with the bottom of mounting bracket.

As an optimal selection scheme of phoenix tail chain intelligence car flower machine, the rotation driving subassembly is including the third rotary actuator, and the third rotary actuator level sets up on one side lateral wall of second mounting bracket, and the output of third rotary actuator and the tip fixed connection of one of them horizontal guide pole, the annular is equipped with on the horizontal guide pole of being connected with the third rotary actuator and is used for driving calandria pivoted joint sliding tray, and the cover is established be equipped with the transmission piece that matches with the joint sliding tray on the calandria wheel on the horizontal guide pole.

Compared with the prior art, the invention has the beneficial effects that:

according to the intelligent phoenix tail chain pattern turning machine, the processing operation of a phoenix tail chain can be automatically carried out, the feeding and winding functions can be automatically completed, waste materials can be collected in a centralized manner during pattern turning, equipment is kept clean, the production cost is reduced, the economic benefit is improved, the metal chain can be guided in a limiting manner before and after processing, the accuracy of processing, material receiving and discharging is improved, and the product quality is improved.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a front view of the present invention;

FIG. 4 is a top view of the present invention;

FIG. 5 is a perspective view of the tensioning guide mechanism of the present invention;

FIG. 6 is a schematic perspective view of the cutting mechanism of the present invention;

FIG. 7 is a schematic perspective view of the waste recycling mechanism of the present invention;

FIG. 8 is a schematic perspective view of the discharge mechanism of the present invention;

FIG. 9 is a side view of FIG. 8;

fig. 10 is a partial perspective view of the discharging mechanism.

The reference numbers in the figures are:

1-body; 2-a feeding mechanism; 3-turning a pattern cutting mechanism; 4-tensioning a guide mechanism; 5-a discharging mechanism; 6-a material receiving mechanism; 7-a first mounting frame; 8-speed regulating guide wheels; 9-a first rotary drive; 10-a first linear driver; 11-a lifting frame; 12-lifting limit groove; 13-a carrier plate; 14-mounting a stand column; 15-a second lifting drive assembly; 16-a second rotary drive; 17-turning a floral whorl; 18-a guide plate; 19-a guide groove; 20-a collection box; 21-a material sucking channel; 22-a material sucking port; 23-a second mounting frame; 24-a horizontal guide bar; 25-a mounting frame; 26-a wire arranging wheel; 27-a third linear drive; 28-a lifting block; 29-a hinged lever; 30-a third rotary drive; 31-clamping the sliding groove; 32-transmission block.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1-4, an intelligent phoenix tail chain flower turning machine comprises:

a machine body 1;

the feeding mechanism 2 is arranged in the machine body 1 and positioned on one side of the machine body 1 and is used for carrying out the feeding process of the unprocessed metal chain;

the pattern turning and cutting mechanism 3 is arranged in the machine body 1, is positioned in the middle of the machine body 1 and is used for turning metal chains in the feeding mechanism 2;

the tensioning guide mechanism 4 is arranged in the machine body 1, is positioned between the feeding mechanism 2 and the pattern cutting mechanism 3, and is used for tensioning and guiding the metal chain fed in the feeding mechanism 2;

the discharging mechanism 5 is arranged in the machine body 1, is positioned on one side of the turning cutting mechanism 3 away from the tensioning guide mechanism 4, and is used for conducting guiding discharging operation on the processed metal chain;

and the material receiving mechanism 6 is arranged in the machine body 1, is positioned on one side of the machine body 1, which is far away from the feeding mechanism 2, and is used for rolling the metal chain of the blanking in the material discharging mechanism 5.

When the equipment starts to work, the metal chain is fed into the equipment through the feeding mechanism 2, the metal chain is clamped and tensioned through the tensioning guide mechanism 4 and is guided, so that the metal chain is kept at a uniform feeding position all the time during processing, the processing precision is improved, after the guiding is finished, the metal chain fed is subjected to the turning processing operation through the turning cutting mechanism 3 to be processed into the phoenix tail chain, the phoenix tail chain after the processing is guided and arranged in a wire through the discharging mechanism 5 to be uniformly wound in the material receiving mechanism 6, the phoenix tail chain after the processing is wound through the material receiving mechanism 6, the full-automatic processing operation of the phoenix tail chain is further realized, the scraps of the turning are collected through the waste material recovery mechanism during the turning process, so that the scraps are conveniently subjected to centralized recovery and reprocessing treatment, the material utilization rate is improved, and the production cost is reduced, and is more environment-friendly.

The tensioning guide 4 shown with reference to figure 5 comprises a first mounting frame 7 and a timing guide wheel 8, first rotary actuator 9 and first lift drive assembly, first mounting bracket 7 sets up on organism 1, speed governing leading wheel 8 is equipped with two, two speed governing leading wheels 8 set gradually on first mounting bracket 7 along vertical direction, the axis direction of speed governing leading wheel 8 is perpendicular with metal chain transmission direction, the vertical top that sets up at first mounting bracket 7 of first lift drive assembly, first lift drive assembly's output is connected with the transmission of the speed governing leading wheel 8 that is located the top, the speed governing leading wheel 8 that is located the below is connected with the both sides lateral wall coupling of

first mounting bracket

7, 9 horizontal installation of first rotary actuator are on one of them lateral wall of first mounting bracket 7, the output of first mounting bracket 7 is connected with the one end transmission of the speed governing leading wheel 8 that is located the below. At taut guiding mechanism 4 during operation, the speed governing leading wheel 8 that is located the top through first lift drive assembly control rises, manual operation places the metal chain between two speed governing leading wheels 8, first lift drive assembly output is with the 8 descendants of speed governing leading wheel, make two speed governing leading wheels 8 press from both sides the metal chain tight, the speed governing leading wheel 8 that is located the below through first rotary actuator 9 control is rotatory, speed governing leading wheel 8 drives its tight metal chain of clamp and transports forward in step when rotatory, thereby the metal chain to the material loading in feed mechanism 2 leads spacing and transmission function, make the metal chain of material loading remain the material loading position throughout, and the machining precision is improved.

Referring to the first lifting driving assembly shown in fig. 5, the first lifting driving assembly comprises a first linear driver 10 and a lifting frame 11, the first linear driver 10 is vertically and fixedly installed at the top end of the first mounting frame 7, the lifting frame 11 can be lifted and lowered in the first mounting frame 7, the speed regulation guide wheel 8 located above is coupled to the lifting frame 11, and lifting limiting grooves 12 for the lifting frame 11 to slide up and down are formed in the side walls of the two sides of the first mounting frame 7. When the first lifting driving assembly works, the lifting frame 11 is driven to lift through the output of the first linear driver 10, the lifting limiting groove 12 plays a role in guiding and limiting the lifting of the lifting frame 11, and the lifting frame 11 drives the speed regulation guide wheel 8 arranged on the lifting frame 11 to synchronously lift.

Referring to fig. 6 shows car flower cutting mechanism 3 including loading board 13, installation stand 14, second lift drive assembly 15, second rotary drive ware 16 and car flower wheel 17, loading board 13 level sets up on organism 1, installation stand 14 is vertical to be set up on organism 1, installation stand 14 is located the side of loading board 13, the vertical fixed mounting in the top of installation stand 14 of second lift drive assembly 15, car flower wheel 17 vertical hub is on second lift drive assembly 15's output, car flower wheel 17 is located loading board 13 directly over, second rotary drive ware 16 horizontal installation is on second lift drive assembly 15's output, the output of second rotary drive ware 16 is connected with car flower wheel 17 transmission. At car flower cutting mechanism 3 during operation, treat the regional metal chain's of processing load function through loading board 13 realization, installation stand 14 is used for installing car flower cutting mechanism 3 on organism 1, second lift drive assembly 15 output drives motor car floral whorl 17 and descends to machining height, 16 output drives motor car floral whorl 17 of second rotary actuator rotate, the rotation of motor car floral whorl 17 matches with the input speed of metal chain, thereby be the metal chain that will be located the processing region at the metal chain feeding and carry out the car flower operation, make it become phoenix tail chain, and then accomplish phoenix tail chain's automatic processing function.

Referring to fig. 6, guide plates 18 are further provided on both sides of the top end of the carrier plate 13, guide grooves 19 for the metal chain to pass through are provided on the guide plates 18, and the length direction of the guide grooves 19 is the same as the processing direction of the metal chain. The two guide plates 18 are used for guiding and limiting the metal chain in the region to be processed, so that the metal chain is tightly attached to the surface of the bearing plate 13, the metal chain is prevented from deviating during processing, the processing precision of the metal chain is further improved, and the product quality is improved.

Referring to fig. 7, a waste recycling mechanism is further included, the waste recycling mechanism is arranged on the machine body 1, and an output end of the waste recycling mechanism is arranged on the bearing plate 13. When adding man-hour, car flower department can produce a large amount of sweeps, can retrieve the waste material through waste recycling mechanism to concentrate to retrieve the reprocessing to the waste material and handle, improve material utilization and rate, reduction in production cost, and environmental protection more.

Referring to the waste recovery mechanism shown in fig. 7 including collecting box 20, inhale material passageway 21 and inhale material mouth 22, collecting box 20 installs on organism 1, inhale material passageway 21 and set up the below at loading board 13, it is equipped with two to inhale material mouth 22, two are inhaled material mouth 22 and are set up respectively in loading board 13 along the both sides of metal chain direction of processing, inhale the inside intercommunication of one end and collecting box 20 of material passageway 21, inhale the other end and two of material passageway 21 and inhale material mouth 22 intercommunication, be equipped with the aspiration pump in the collecting box 20, the output of aspiration pump with inhale material passageway 21 intercommunication. When the waste recovery mechanism works, the suction port 22 is driven by the suction pump to suck and collect the sweeps on the bearing plate 13, and the sweeps are collected through the suction port 22 in the guide collecting box 20 of the suction channel 21, so that the collection function of the sweeps is completed.

Referring to fig. 8-10, the discharging mechanism 5 comprises a second mounting frame 23, a horizontal guide rod 24, a mounting frame 25, a wire arranging wheel 26, a horizontal reciprocating displacement component and a rotary driving component, second mounting bracket 23 sets up on organism 1, horizontal guide bar 24 is equipped with two, two horizontal guide bar 24 respectively along vertical direction level setting in proper order on second mounting bracket 23, horizontal guide bar 24's length direction is perpendicular with metal chain direction of processing, mounting bracket 25 can gliding setting on second mounting bracket 23, wire arrangement wheel 26 is equipped with two, two wire arrangement wheel 26 connect on mounting bracket 25 along vertical direction axle in proper order, horizontal reciprocating displacement unit mount is on second mounting bracket 23 inner wall, horizontal reciprocating displacement unit's output is connected with mounting bracket 25 transmission, rotary drive subassembly horizontal installation is in one side of second mounting bracket 23, rotary drive subassembly's output and one of them wire arrangement wheel 26 transmission are connected. At row 5 during operations of material mechanism, drive the horizontal reciprocating motion of length direction of mounting bracket 25 along horizontal guide bar 24 through the horizontal reciprocating displacement subassembly, it rotates to drive horizontal guide bar 24 through the rotary driving subassembly, horizontal guide bar 24 drives the volleyball wheel 26 that is connected with it transmission and rotates, and then will be located the phoenix tail chain between two volleyball wheels 26 and transmit, and carry out the winding displacement function to it, what make when receiving material phoenix tail chain can be comparatively accurate receives the material operation, can not produce situations such as confusion or lax, the precision of receiving the line has been improved.

The horizontal reciprocating displacement assembly shown in fig. 8-10 comprises a third linear actuator 27, a lifting block 28 and a hinge rod 29, wherein the third linear actuator 27 is vertically and fixedly installed below the inner wall of the second mounting frame 23, the lifting block 28 is slidably arranged on the inner wall of the second mounting frame 23 in a vertically lifting manner, one end of the hinge rod 29 is hinged to the side wall of the lifting block 28, and the other end of the hinge rod 29 is hinged to the bottom end of the mounting frame 25. When the horizontal reciprocating displacement assembly works, the lifting block 28 is driven to lift along the vertical direction through the output of the third linear driver 27, the lifting block 28 drives the hinged rod 29 hinged with the lifting block to rotate when lifting, the hinged rod 29 drives the mounting rack 25 hinged with the other end of the hinged rod to move along the length direction of the horizontal guide rod 24, and then the reciprocating displacement function of the mounting rack 25 is driven, so that the wire arranging function of the phoenix tail chain is completed.

Referring to fig. 8-10, the rotary driving assembly includes a third rotary driver 30, the third rotary driver 30 is horizontally disposed on a side wall of the second mounting frame 23, an output end of the third rotary driver 30 is fixedly connected to an end of one of the horizontal guide rods 24, a clamping sliding groove 31 for driving the rotation of the wire arranging wheel 26 is annularly disposed on the horizontal guide rod 24 connected to the third rotary driver 30, and a driving block 32 matched with the clamping sliding groove 31 is disposed on the wire arranging wheel 26 sleeved on the horizontal guide rod 24. At the rotation driving subassembly during operation, drive horizontal guide bar 24 through third rotary actuator 30 and rotate, horizontal guide bar 24 passes through the cooperation of joint sliding tray 31 and transmission piece 32, drives wire arranging wheel 26 and rotates, and wire arranging wheel 26 takes up the phoenix tail chain when rotating and transmits, and then has realized receiving the taut function of material.

The working principle of the invention is as follows:

when the equipment starts to work, the metal chain is fed into the equipment through the feeding mechanism 2, the tensioning guide mechanism 4 clamps and tensions the metal chain and guides the metal chain, so that the metal chain is always kept at a uniform feeding position during processing, the processing precision is improved, when the tensioning guide mechanism 4 works, the speed-adjusting guide wheel 8 positioned above is controlled to ascend through the first lifting drive assembly, the metal chain is placed between the two speed-adjusting guide wheels 8 through manual operation, the first lifting drive assembly outputs to descend the speed-adjusting guide wheels 8, so that the two speed-adjusting guide wheels 8 clamp the metal chain tightly, the speed-adjusting guide wheels 8 positioned below are controlled to rotate through the first rotary driver 9, the speed-adjusting guide wheels 8 drive the metal chain clamped by the speed-adjusting guide wheels 8 to synchronously convey forwards during rotation, and the functions of guiding, limiting and conveying are performed on the metal chain fed in the feeding mechanism 2, the metal chain of making the material loading keeps the material loading position all the time, improves the machining precision. When the first lifting driving assembly works, the lifting frame 11 is driven to lift through the output of the first linear driver 10, the lifting limiting groove 12 plays a role in guiding and limiting the lifting of the lifting frame 11, and the lifting frame 11 drives the speed regulation guide wheel 8 arranged on the lifting frame 11 to synchronously lift. After the guiding is completed, the turning cutting mechanism 3 performs turning processing operation on the metal chain of the feeding material to enable the metal chain to be processed into a phoenix tail chain, when the turning cutting mechanism 3 works, the bearing function of the metal chain of a region to be processed is realized through the bearing plate 13, the mounting upright post 14 is used for mounting the turning cutting mechanism 3 on the machine body 1, the second lifting driving assembly 15 outputs to drive the turning wheel 17 to descend to a processing height, the second rotary driver 16 outputs to drive the turning wheel 17 to rotate, the rotation of the turning wheel 17 is matched with the feeding speed of the metal chain, so that the metal chain in the processing region is subjected to turning operation in the feeding process of the metal chain, the metal chain is changed into the phoenix tail chain, and the automatic processing function of the tail chain is further completed. The two guide plates 18 are used for guiding and limiting the metal chain in the region to be processed, so that the metal chain is tightly attached to the surface of the bearing plate 13, the metal chain is prevented from deviating during processing, the processing precision of the metal chain is further improved, and the product quality is improved. The phoenix tail chain after will accomplishing processing through arranging material mechanism 5 again guides the winding displacement, make its even winding in receiving agencies 6, arrange 5 during operation of material mechanism, drive mounting bracket 25 along the horizontal reciprocating motion of the length direction of horizontal guide bar 24 through the horizontal reciprocating displacement subassembly, drive horizontal guide bar 24 through the rotation driving subassembly and rotate, horizontal guide bar 24 drives the wire arrangement wheel 26 that is connected with its transmission and rotates, and then will be located the phoenix tail chain between two wire arrangement wheels 26 and transmit, and carry out the winding displacement function to it, make when receiving the material phoenix tail chain can be comparatively accurate receive the material operation, can not produce situations such as confusion or lax, the precision of receiving the line has been improved. When the horizontal reciprocating displacement assembly works, the lifting block 28 is driven to lift along the vertical direction through the output of the third linear driver 27, the lifting block 28 drives the hinged rod 29 hinged with the lifting block to rotate when lifting, the hinged rod 29 drives the mounting rack 25 hinged with the other end of the hinged rod to move along the length direction of the horizontal guide rod 24, and then the reciprocating displacement function of the mounting rack 25 is driven, so that the wire arranging function of the phoenix tail chain is completed. At the rotation driving subassembly during operation, drive horizontal guide bar 24 through third rotary actuator 30 and rotate, horizontal guide bar 24 passes through the cooperation of joint sliding tray 31 and transmission piece 32, drives wire arranging wheel 26 and rotates, and wire arranging wheel 26 takes up the phoenix tail chain when rotating and transmits, and then has realized receiving the taut function of material. Receiving agencies 6 rolls the phoenix tail chain after accomplishing the processing, and then realizes the full automatic processing operation of processing of phoenix tail chain, at car flower in-process, collects the piece of car flower through garbage collection mechanism to concentrate the recovery reprocessing processing to the waste material, improve material utilization ratio, reduction in production cost, and environmental protection more. When adding man-hour, car flower department can produce a large amount of sweeps, can retrieve the waste material through waste recycling mechanism to concentrate to retrieve the reprocessing to the waste material and handle, improve material utilization and rate, reduction in production cost, and environmental protection more. When the waste recovery mechanism works, the suction port 22 is driven by the suction pump to suck and collect the sweeps on the bearing plate 13, and the sweeps are collected through the suction port 22 in the guide collecting box 20 of the suction channel 21, so that the collection function of the sweeps is completed. According to the intelligent phoenix tail chain pattern turning machine, the processing operation of a phoenix tail chain can be automatically carried out, the feeding and winding functions can be automatically completed, waste materials can be collected in a centralized manner during pattern turning, equipment is kept clean, the production cost is reduced, the economic benefit is improved, the metal chain can be guided in a limiting manner before and after processing, the accuracy of processing, material receiving and discharging is improved, and the product quality is improved.

Claims

1. The utility model provides a phoenix tail chain intelligence car flower machine which characterized in that includes:

a body (1);

the feeding mechanism (2) is arranged in the machine body (1), is positioned on one side of the machine body (1) and is used for feeding the unprocessed metal chain;

the pattern turning and cutting mechanism (3) is arranged in the machine body (1), is positioned in the middle of the machine body (1), and is used for turning a metal chain in the feeding mechanism (2);

the tensioning guide mechanism (4) is arranged in the machine body (1), is positioned between the feeding mechanism (2) and the pattern cutting mechanism (3), and is used for tensioning and guiding a metal chain fed in the feeding mechanism (2);

the discharging mechanism (5) is arranged in the machine body (1), is positioned on one side of the turning cutting mechanism (3) far away from the tensioning guide mechanism (4), and is used for conducting guiding discharging operation on the processed metal chain;

and the material receiving mechanism (6) is arranged in the machine body (1), is positioned on one side of the machine body (1) far away from the feeding mechanism (2), and is used for rolling the metal chain of the blanking in the material discharging mechanism (5).

2. The phoenix tail chain intelligent pattern turning machine as claimed in claim 1, wherein the tensioning guide mechanism (4) comprises a first mounting frame (7), two speed regulation guide wheels (8), a first rotary driver (9) and a first lifting driving component, the first mounting frame (7) is arranged on the machine body (1), the two speed regulation guide wheels (8) are sequentially arranged on the first mounting frame (7) along the vertical direction, the axial direction of the speed regulation guide wheels (8) is perpendicular to the metal chain transmission direction, the first lifting driving component is vertically arranged at the top end of the first mounting frame (7), the output end of the first lifting driving component is in transmission connection with the speed regulation guide wheels (8) positioned above, the speed regulation guide wheels (8) positioned below are in shaft connection with the side walls on two sides of the first mounting frame (7), the first rotary driver (9) is horizontally arranged on one side wall of the first mounting frame (7), the output end of the first mounting frame (7) is in transmission connection with one end of a speed regulation guide wheel (8) positioned below.

3. The phoenix tail chain intelligent flower turning machine according to claim 2, characterized in that, first lift drive assembly is including first linear actuator (10) and crane (11), the vertical fixed mounting of first linear actuator (10) is on the top of first mounting bracket (7), the setting that crane (11) can go up and down is in first mounting bracket (7), the speed governing leading wheel (8) that is located the top is the coupling on crane (11), offer on the both sides lateral wall of first mounting bracket (7) and supply crane (11) to go up and down gliding lift spacing groove (12).

4. The intelligent phoenix tail chain flower turning machine according to claim 1, wherein the flower turning cutting mechanism (3) comprises a bearing plate (13) and a mounting upright post (14), second lift drive assembly (15), second rotary actuator (16) and car flower wheel (17), loading board (13) level sets up on organism (1), the vertical setting of installation stand (14) is on organism (1), installation stand (14) are located the side of loading board (13), the vertical fixed mounting in the top of installation stand (14) of second lift drive assembly (15), vertical hub joint is on the output of second lift drive assembly (15) in car flower wheel (17), car flower wheel (17) are located loading board (13) directly over, second rotary actuator (16) horizontal installation is on the output of second lift drive assembly (15), the output and the transmission of car flower wheel (17) of second rotary actuator (16) are connected.

5. The intelligent phoenix tail chain pattern turning machine according to claim 4, characterized in that guide plates (18) are further arranged on two sides of the top end of the bearing plate (13), guide grooves (19) for metal chains to pass through are formed in the guide plates (18), and the length direction of the guide grooves (19) is consistent with the processing direction of the metal chains.

6. The intelligent phoenix tail chain embroidery machine as claimed in claim 4, further comprising a waste recovery mechanism, wherein the waste recovery mechanism is arranged on the machine body (1), and an output end of the waste recovery mechanism is arranged on the bearing plate (13).

7. The phoenix tail chain intelligent flower turning machine according to claim 6, characterized in that, the waste recovery mechanism includes collecting box (20), inhale material passageway (21) and inhale material mouth (22), collecting box (20) are installed on organism (1), inhale material passageway (21) and set up the below of loading board (13), inhale material mouth (22) and be equipped with two, two inhale material mouth (22) set up respectively in loading board (13) along the both sides of metal chain direction of processing, inhale the one end of material passageway (21) and the inside intercommunication of collecting box (20), inhale the other end and two of material passageway (21) and inhale material mouth (22) and communicate, be equipped with the aspiration pump in collecting box (20), the output of aspiration pump and inhale material passageway (21) and communicate.

8. The phoenix tail chain intelligent threading machine according to claim 1, wherein the material discharging mechanism (5) comprises a second mounting frame (23), two horizontal guide rods (24), a mounting frame (25), a wire arranging wheel (26), a horizontal reciprocating displacement component and a rotary driving component, the second mounting frame (23) is arranged on the machine body (1), the two horizontal guide rods (24) are respectively and sequentially and horizontally arranged on the second mounting frame (23) along the vertical direction, the length direction of the horizontal guide rods (24) is perpendicular to the metal chain processing direction, the mounting frame (25) can be slidably arranged on the second mounting frame (23), the two wire arranging wheels (26) are respectively and sequentially coupled on the mounting frame (25) along the vertical direction, the horizontal reciprocating displacement component is arranged on the inner wall of the second mounting frame (23), the output end of the horizontal reciprocating displacement component is in transmission connection with the mounting rack (25), the rotary driving component is horizontally mounted on one side of the second mounting rack (23), and the output end of the rotary driving component is in transmission connection with one of the wire arranging wheels (26).

9. The phoenix tail chain intelligent flower turning machine according to claim 8, characterized in that the horizontal reciprocating displacement component comprises a third linear driver (27), a lifting block (28) and a hinged rod (29), the third linear driver (27) is vertically and fixedly installed below the inner wall of the second mounting frame (23), the lifting block (28) can be vertically and vertically arranged on the inner wall of the second mounting frame (23) in a sliding manner, one end of the hinged rod (29) is hinged with the side wall of the lifting block (28), and the other end of the hinged rod (29) is hinged with the bottom end of the mounting frame (25).

10. The phoenix tail chain intelligent flower turning machine according to claim 8, characterized in that the rotary driving assembly comprises a third rotary driver (30), the third rotary driver (30) is horizontally arranged on one side wall of the second mounting frame (23), the output end of the third rotary driver (30) is fixedly connected with the end of one of the horizontal guide rods (24), a clamping sliding groove (31) for driving the wire arranging wheel (26) to rotate is annularly arranged on the horizontal guide rod (24) connected with the third rotary driver (30), and a driving block (32) matched with the clamping sliding groove (31) is arranged on the wire arranging wheel (26) sleeved on the horizontal guide rod (24).