CN217920190U - Curved conveying mechanism advances - Google Patents

Abstract

The utility model provides a curved conveying mechanism advances, it blocks the subassembly including advancing curved slide rail, point and gluing pressurize module, advancing curved shift fork module, first subassembly and the second that blocks. The glue dispensing pressure maintaining module is connected to the bent sliding rail in a sliding mode, the second blocking assembly is located at the front end of the first blocking assembly, the second blocking assembly is used for blocking the glue dispensing pressure maintaining modules, and the first blocking assembly is used for blocking the glue dispensing pressure maintaining modules released by the first blocking assembly. The bending shifting fork module comprises a bending cylinder and a first movable block assembly connected to the output end of the bending cylinder, the bending cylinder drives the first movable block assembly to slide, and the glue dispensing pressure maintaining module is used for pushing a set quantity of glue dispensing pressure maintaining modules to a position between the second blocking assembly and the first blocking assembly. The utility model discloses a curved conveying mechanism of advancing can deposit a plurality of glue pressurize modules of gluing on advancing curved slide rail, then will glue the pressurize module by advancing curved shift fork module one by one and carry to moving the slide rail and carry, and the work rhythm is stable, can carry out the efficient between the station section of difference and carry.

Description

Curved conveying mechanism advances

Technical Field

The utility model relates to a wire rod processing equipment field, in particular to advance curved conveying mechanism.

Background

With the development of science and technology, electronic products are more and more in daily life, wherein wires are products obtained by various electronic products. The wire rod generally can set up the tool module on the assembly line in manufacturing process, carries on placing the tool module with the wire rod again, and the assembly line has the station section of a lot of differences, and the transport operation mode of different station sections differs with carrying the rhythm, carries different station sections that can not be fine among the prior art and links up, and transport efficiency is low.

Therefore, it is necessary to provide a feeding and bending conveying mechanism to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a curved conveying mechanism advances to solve the problem that can not be fine carry the linkage, conveying efficiency is low with different station sections among the prior art.

In order to solve the technical problem, the utility model adopts the technical scheme that: a feeding and bending conveying mechanism comprises a feeding and bending slide rail, a dispensing and pressure maintaining module, a feeding and bending shifting fork module, a first blocking assembly and a second blocking assembly, wherein the dispensing and pressure maintaining module is used for fixing a wire and an interface so as to facilitate dispensing of a dispensing mechanism and pressure maintaining and shaping of the dispensed wire and the interface;

the dispensing pressure maintaining module is slidably connected to the bending inlet slide rail, the first blocking assembly and the second blocking assembly are both positioned on one side of the bending inlet slide rail, the second blocking assembly is positioned at the front end of the first blocking assembly along the conveying direction of the bending inlet slide rail, the second blocking assembly is used for blocking a plurality of dispensing pressure maintaining modules, and the first blocking assembly is used for blocking the dispensing pressure maintaining module released by the first blocking assembly;

advance curved shift fork module including advancing curved cylinder and connecting advance the first movable block subassembly of the output of curved cylinder, the activity of first movable block subassembly sets up the second blocks one side of subassembly, advance curved cylinder drive first movable block subassembly slides to be used for the propelling movement to set for quantity the some glue pressurize module extremely the second blocks the subassembly with first blocks between the subassembly.

The utility model discloses in, first movable block subassembly includes dog, fixed block and spring, be provided with the holding tank on the fixed block, the one end of dog is rotated through the pivot and is connected in the holding tank, the other end with set up between the inner wall of holding tank the spring, the dog is kept away from the outer terminal surface of pivot and is glued the gliding propelling movement face of pressurize module for being used for promoting the point, keeping away from of dog holding tank one side is the shrink inclined plane, the shrink inclined plane is kept away from the one end of propelling movement face is closer to than the other end the holding tank, the shrink inclined plane is kept away from the one end of propelling movement face with the slip orbit dislocation of pressurize module is glued to the point.

The inner walls of the stop block and the accommodating groove are provided with fixing holes for positioning and connecting the springs.

In addition, advance curved slide rail setting on advancing curved base, advance fixed second movable block subassembly that is provided with on the curved base, the structure of second movable block subassembly with first movable block subassembly is unanimous, second movable block subassembly is located the second blocks the subassembly and keeps away from the first one end that blocks the subassembly, the propelling movement face of second movable block subassembly is located and is close to the second blocks one side of subassembly, and is a plurality of the restriction of pressurize module is glued to the point the second movable block subassembly with the second blocks between the subassembly.

Furthermore, the first movable block assembly is connected with the bending cylinder through a connecting plate, a reinforcing slide rail is further arranged on the bending base, and the connecting plate is connected with the reinforcing slide rail in a sliding mode.

In the utility model, the feeding and bending conveying mechanism further comprises a feeding slide rail and a feeding module, the feeding slide rail is positioned at one end of the feeding and bending slide rail, which is far away from the transfer rotary module, the feeding slide rail and the feeding and bending slide rail are positioned at different height positions, and the feeding module is positioned between the feeding and bending slide rail and the feeding slide rail;

the feeding module comprises an elevating mechanism, an elevating slide rail and a pushing module, the elevating slide rail is connected with an elevating part of the elevating mechanism, the elevating slide rail is connected with the curved slide rail in a butt joint mode or connected with the curved slide rail in a butt joint mode through elevating, the pushing module is arranged on one side of the second movable block component, the elevating mechanism is far away from the elevating slide rail, and the pushing module is used for pushing the glue dispensing pressure maintaining module on the elevating slide rail to the second movable block component and the second blocking component.

Furthermore, the propelling movement module includes propelling movement cylinder and third movable block subassembly, the third movable block subassembly with the output of propelling movement cylinder is connected, the structure of third movable block subassembly with first movable block subassembly is unanimous, the propelling movement face of third movable block subassembly is located and is close to one side of lift slide rail.

The utility model discloses in, first subassembly that blocks includes the base pole and connects the screw that blocks of base pole one side, block the screw and be used for blockking the pressurize module is glued to the point, block the feed direction of screw with the extending direction of advancing curved slide rail is unanimous.

The utility model discloses in, pressurize module bottom is provided with the transmission piece to the point, the below of material loading slide rail all is provided with belt assembly, belt assembly with the transmission of transmission piece is connected.

The utility model discloses in, the bottom of pressurize module is glued to the point is connected with the groove of accomodating that is used for accomodating the wire rod.

The utility model discloses compare in prior art, its beneficial effect does: the utility model discloses a curved conveying mechanism of advancing can deposit a plurality of glue pressurize modules of gluing on advancing curved slide rail, then will glue the pressurize module by advancing curved shift fork module one by one and carry to moving the slide rail and carry, and the work rhythm is stable, can carry out the efficient between the station section of difference and carry.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments are briefly introduced below, and the drawings in the following description are only corresponding drawings of some embodiments of the present invention.

Fig. 1 is a schematic structural view of the application of the curved feeding mechanism to the rotary conveying mechanism of the carrier according to the present invention.

Fig. 2 is a schematic structural view of the conveying of the dispensing pressure maintaining module on the feeding slide rail and the bending slide rail.

Fig. 3 is a schematic structural view of the feeding module.

Fig. 4 is a schematic view of a matching structure of the bending fork module and the bending slide rail.

Fig. 5 is a schematic structural view of the fork module for forward bending.

Fig. 6 is an enlarged view of a portion of the structure at X in fig. 5.

Fig. 7 is a schematic structural view of the transfer rotating module.

Fig. 8 is a partial structural schematic view of the transfer rotating module.

Fig. 9 is a partial structural schematic view of the first barrier assembly.

Fig. 10 is a schematic structural view of the dispensing pressure maintaining module.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by the skilled in the art without creative work belong to the protection scope of the present invention.

In the present invention, the directional terms, such as "up", "down", "front", "back", "left", "right", "inner", "outer", "side", "top" and "bottom", refer to the orientation of the drawings, and the directional terms are used for illustration and understanding, but not for limiting the present invention.

The terms "first," "second," and the like in the terms of the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance, nor should they be construed as limiting in any way.

In the present application, unless otherwise explicitly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly, e.g., the connection may be a detachable connection, or a connection of a unitary construction; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Some wire rod processing lines among the prior art have a lot of station sections of difference, and the transport operation mode and the transport rhythm of different station sections differ, carry the link up with different station sections that can not be fine among the prior art, and conveying efficiency is low.

In addition, the mill can make many segmentation assembly lines with whole assembly line, then sets up transfer mechanism and carry semi-manufactured goods between the segmentation assembly line of difference, and owing to set up the ball, consequently hardly carries out the transfer to the tool module, generally takes out the product and carries on the transfer, need take off the wire rod and reassemble to the tool module on, inefficiency.

The following is the preferred embodiment of the present invention to provide a feeding and bending conveying mechanism capable of solving the above technical problems.

Referring to fig. 1, fig. 1 is a schematic structural view illustrating the application of the bending conveying mechanism to the rotary conveying mechanism of the carrier according to the present invention.

In the drawings, elements having similar structures are denoted by the same reference numerals.

The utility model provides a curved conveying mechanism advances, it uses on the rotatory conveying mechanism of carrier, advances curved conveying mechanism and including advancing curved slide rail 11 and slide the point that sets up on advancing curved slide rail 11 and glue pressurize module 12. The carrier rotary conveying mechanism further comprises an out-bending slide rail 14 and a transfer rotary module 13. The dispensing pressure maintaining module 12 is used for fixing the wire rod and the interface so that the dispensing mechanism can dispense the adhesive and is used for maintaining the pressure and shaping the wire rod and the interface after dispensing.

The dispensing pressure maintaining module 12 is slidably connected to the bending-in slide rail 11 or the bending-out slide rail 14, and the conveying directions of the bending-in slide rail 11 and the bending-out slide rail 14 are different, for example, the conveying directions of the bending-in slide rail 11 and the bending-out slide rail 14 in this embodiment are parallel and opposite. The transferring and rotating module 13 is located between the bending inlet slide rail 11 and the bending outlet slide rail 14, and is used for conveying the dispensing pressure maintaining module 12 on the bending inlet slide rail 11 to the bending outlet slide rail 14, so that the dispensing pressure maintaining module 12 is transferred between different section production lines.

Referring to fig. 7, the transferring and rotating module 13 in the present embodiment includes a rotating driving member 132, a rotating plate 133, a transferring and sliding rail 134, and a transferring and positioning assembly 135. The rotary drive 132 in this embodiment is a rotary cylinder. The rotary drive 132 in this embodiment is slidably disposed on the frame base 131.

One end of the rotating plate 133 is connected to the output end of the rotating driving member 132 to obtain a rotating driving force, the other end is connected to the transferring slide rail 134, the rotating plate 133 rotates to make the transferring slide rail 134 abut against the bending-in slide rail 11 or the bending-out slide rail 14, the transferring slide rail 134 receives the dispensing pressure maintaining module 12 on the bending-in slide rail 11, and after the rotating transportation of the rotating plate 133, the transferring slide rail 134 can convey the dispensing pressure maintaining module 12 to the bending-out slide rail 14. The transferring and positioning assembly 135 is disposed on the rotating plate 133, and is used for positioning the dispensing and pressure maintaining module 12 on the transferring and sliding rail 134.

In this embodiment, the feeding and bending conveying mechanism further includes a feeding and bending shift fork module 16, a first blocking component 17 and a second blocking component 18, the first blocking component 17 and the second blocking component 18 are both located on one side of the feeding and bending slide rail 11, in the conveying direction of the feeding and bending slide rail 11, the second blocking component 18 is located at the front end of the first blocking component 17, the second blocking component 18 is used for blocking the plurality of dispensing and pressure maintaining modules 12, and the first blocking component 17 is used for blocking the dispensing and pressure maintaining module 12 released by the first blocking component.

The second stopping assembly 18 in this embodiment includes a stopping cylinder and a stopping rod connected to an output end of the stopping cylinder, the stopping rod stops the dispensing pressure maintaining modules 12, and when the stopping rod retracts to no longer stop the dispensing pressure maintaining modules 12, the curved shifting fork module 16 pushes one dispensing pressure maintaining module 12 to slide to the transfer slide rail 134 each time.

Referring to fig. 4 and 5, the bending-in shifting fork module 16 includes a bending-in cylinder 161 and a first movable block component 163 connected to an output end of the bending-in cylinder 161, the first movable block component 163 is movably disposed at one side of the second blocking component 18, the bending-in cylinder 161 drives the first movable block component 163 to slide, so as to push a set number of dispensing pressure maintaining modules 12 to a position between the second blocking component 18 and the first blocking component 17, and when the transferring slide rail 134 is abutted to the bending-in slide rail 11, the transferring slide rail 134 is located between the second blocking component 18 and the first blocking component 17, so that the bending-in shifting fork module 16 can push the dispensing pressure maintaining modules 12 to the transferring slide rail 134.

Referring to fig. 6, the first movable block assembly 163 includes a stopper 1632, a fixed block 1631 and a spring. Be provided with holding tank 16311 on the fixed block 1631, the one end of dog 1632 rotates through pivot 1633 and connects in holding tank 16311, set up the spring between the inner wall of the other end and holding tank 16311 (the spring is blocked not shown in fig. 6), the outer terminal surface that pivot 1633 was kept away from to dog 1632 is for being used for promoting the gliding propelling movement face 16321 of pressurize module 12 that glues, holding tank 16311 one side of keeping away from of dog 1632 is shrink inclined plane 16322, the one end that push plane 16321 was kept away from to shrink inclined plane 16322 is closer to holding tank 16311 than the other end, shrink inclined plane 16322 keeps away from the one end of propelling movement face 16321 and the slip orbit dislocation of pressurize module 12 that glues. When the first movable block component 163 extends out, the dispensing pressure maintaining module 12 can be pushed to slide through the pushing surface 16321, and when the first movable block component 163 retracts, the dispensing pressure maintaining module 12 at the front end of the conveying direction of the curved sliding rail 11 is extruded with the retraction inclined surface 16322, so that the stopper 1632 is accommodated in the accommodating groove 16311, and the barrier-free idle retraction is realized.

Wherein, the inner walls of the stopper 1632 and the accommodating groove 16311 are provided with fixing holes for positioning and connecting the springs, so as to ensure the connection stability.

Referring to fig. 4 and 5, the curved slide rail 11 in this embodiment is disposed on the curved base 111, a second movable block assembly 165 is fixedly disposed on the curved base 111, and the structure of the second movable block assembly 165 is the same as that of the first movable block assembly 163. The second movable block assembly 165 is located at one end of the second blocking assembly 18 far away from the first blocking assembly 17, the pushing surface of the second movable block assembly 165 is located at one side close to the second blocking assembly 18, and the plurality of dispensing pressure maintaining modules 12 are limited between the second movable block assembly 165 and the second blocking assembly 18. When the first movable block component 163 retracts, the second movable block component 165 can block the dispensing and pressure maintaining module 12, so that the dispensing and pressure maintaining module 12 is not driven by the first movable block component 163 to retract.

The first movable block assembly 163 is connected to the bending cylinder 161 through a connecting plate 162, a reinforcing slide rail 164 is further disposed on the bending base 111, and the connecting plate 162 is slidably connected to the reinforcing slide rail 164. The stability of the first movable block assembly 163 driven linearly is improved.

Referring to fig. 2 and fig. 3, the bending conveying mechanism in this embodiment further includes a feeding slide rail 19 and a feeding module 15, and the feeding slide rail 19 is located at one end of the bending slide rail 11 away from the transferring and rotating module 13. Because different production lines have different operations and different conveying heights, the feeding slide rail 19 and the bending slide rail 11 are located at different height positions in this embodiment, the feeding module 15 is located between the bending slide rail 11 and the feeding slide rail 19, and the dispensing and pressure maintaining module 12 can be conveyed between the slide rails with different heights through the feeding module 15.

Referring to fig. 3, the feeding module 15 includes a lifting mechanism 151, a lifting slide rail 152, and a pushing module, the lifting slide rail 152 is connected to a lifting portion of the lifting mechanism 151, the lifting slide rail 152 is butted with the curved slide rail 11 or the curved slide rail 14 by lifting, the pushing module is disposed on a side of the lifting mechanism 151 away from the second movable block assembly 165, and the pushing module is configured to push the dispensing pressure maintaining module 12 on the lifting slide rail 152 to a position between the second movable block assembly 165 and the second blocking assembly 18.

The pushing module comprises a pushing cylinder 1531 and a third movable block assembly 1532, the third movable block assembly 1532 is connected to the output end of the pushing cylinder 1531, the structure of the third movable block assembly 1532 is consistent with that of the first movable block assembly 163, and the pushing surface of the third movable block assembly 1532 is located on one side close to the lifting slide rail 152.

In this embodiment, the first blocking assembly 17 is fixedly disposed on one side of the bending slide rail 11, the rotary driving member 132 is slidably disposed between the bending slide rail 11 and the bending slide rail 14, and the rotary driving member 132 is connected to the sliding driving member 137. When the glue dispensing pressure maintaining module 12 is received by the transferring slide rail 134, the sliding driving member 137 drives the transferring rotary module 13 to move in a direction away from the curved slide rail 11, so as to prevent the glue dispensing pressure maintaining module 12 from interfering with the first blocking member 17 during the rotation process.

It will be appreciated that the sliding drive 137 may be an existing drive mechanism such as a lead screw assembly or a belt assembly that is capable of driving linear movement. The sliding drive 137 in this embodiment is a belt assembly.

Referring to fig. 9, in the present embodiment, the first blocking assembly 17 includes a base rod 171 and a blocking screw 172 connected to one side of the base rod 171, the blocking screw 172 is used for blocking the dispensing pressure maintaining module 12, and a feeding direction of the blocking screw 172 is consistent with an extending direction of the curved slide rail 11, so as to adjust a position of the blocking screw 172 after blocking the dispensing pressure maintaining module 12.

Referring to fig. 1 and 10, the bottom of the dispensing and pressure maintaining module 12 is provided with a transmission block 122, belt assemblies are disposed below the feeding slide rail 19 and the bending slide rail 14, for example, the belt assembly on the bending slide rail 14 is disposed on the fixing base 142, and a belt of the belt assembly on the bending slide rail 14 is in transmission connection with the belt pulley 141. The belt assembly is drivingly connected to the drive block 122. The transmission block 122 and the belt of the belt assembly are provided with teeth portions which are in transmission fit with each other. One side of the dispensing pressure maintaining module 12 is provided with a slide block slidably connected with the bending inlet slide rail 11, the bending outlet slide rail 14 and the feeding slide rail 19.

Of course, a mechanism similar to the pushing module may be disposed at the bending sliding rail 14 to push the dispensing pressure maintaining module 12 on the transferring sliding rail 134 to the bending sliding rail 14. Or the belt assembly on the out-bending slide rail 14 directly contacts the dispensing pressure maintaining module 12 on the transferring slide rail 134 to drive the sliding.

The bottom of some glue pressurize module 12 is connected with the groove 121 of accomodating that is used for accomodating the wire rod, and the interface of wire rod one end is fixed in order to carry out some glue, and other unnecessary wire rods are placed in accomodating the groove 121.

Referring to fig. 7 and 8, in the present embodiment, the transferring and positioning assembly 135 includes a positioning cylinder 1351, a positioning block 1353, and a positioning rod 1352. The location cylinder 1351 and the orientation block 1353 are fixedly arranged on the rotating plate 133, the location rod 1352 is connected with an output end of the location cylinder 1351, the location rod 1352 slides to penetrate through the orientation block 1353, a location hole is formed in one side of the dispensing and pressure maintaining module 12, the location rod 1352 is inserted into the location hole through sliding, and therefore the structural stability of the location rod 1352 after sliding and inserting is very strong.

It can be understood that the positioning rod 1352 can also directly press the surface of the dispensing pressure maintaining module 12, so as to fix the position of the dispensing pressure maintaining module 12.

Optionally, move and carry locating component and can include two location cylinders 1351 and two locating levers 1352, a locating lever 1352 is all connected to the output of every location cylinder 1351, and two flexible directions of location cylinders 1351 are crisscross with the slip direction of some glue pressurize module 12, and two locating levers 1352 are the location contact respectively in some glue pressurize module 12's both sides. In the case where two positioning rods 1352 are provided, the first blocking member 17 can be omitted.

The shifting positioning assembly 135 further comprises a positioning block 1354, the positioning block 1354 is arranged on the orientation block 1353, a bump is arranged on one side of the dispensing and pressure maintaining module 12, and the positioning block 1354 is positioned in surface contact with the top surface of the bump. The sliding stability of the adhesive dispensing pressure maintaining module 12 in conveying between different sliding rails is improved.

Referring to fig. 8, the transferring and rotating module 13 further includes a connecting frame 1355, and the positioning cylinder 1351 and the positioning block 1354 are adjustably connected to the connecting frame 1355. The positioning cylinder 1351, the positioning rod 1352, the positioning block 1354 and the like can be integrally disassembled and replaced through the disassembling and assembling connecting frame 1355.

Specifically, the positioning cylinder 1351 is connected with the connecting frame 1355 through the mounting plate 1356, the mounting plate 1356 is provided with a long hole, and the connecting frame 1355 is provided with a threaded hole opposite to the long hole, so that the position of the positioning cylinder can be conveniently adjusted when the positioning cylinder is mounted.

The connecting frame 1355 is fixedly provided with a mounting block 1357, the orientation block 1353 is slidably arranged between the two mounting blocks 1357, and each mounting block 1357 is threadedly connected with an adjusting screw which penetrates through the mounting block 1357 to be in contact with the orientation block 1353, so that the position of the orientation block 1353 can be adjusted by screwing the adjusting screw.

Referring to fig. 8, in this embodiment, a first limiting component and a second limiting component are fixedly connected to the rotary driving member 132 (for example, the left end of the limiting frame 1361 in fig. 8 is connected to the first limiting component, and the right end is connected to the second limiting component), a first limiting block and a second limiting block 1331 are detachably connected to two sides of the rotary plate 133, when the first limiting block contacts with the first limiting component, the transferring slide rail 134 is in butt joint with the curve entering slide rail 11, and when the second limiting block 1331 contacts with the second limiting component, the transferring slide rail 134 is in butt joint with the curve exiting slide rail 14. The rotating plate 133 can be ensured to stably rotate to a set position, and stable butt joint of different sliding rails is realized.

Wherein, first spacing subassembly and the spacing subassembly of second all set up on spacing frame 1361, and first spacing subassembly and the spacing subassembly of second all include spacing cylinder 1362 and spacing screw 1363 that set up on spacing frame 1361, and the drive power of spacing cylinder 1362 is less than the drive power of rotary driving piece 132. When the rotating plate 133 rotates to be close to the curved inlet slide rail 11 or the curved outlet slide rail 14, the rotating plate 133 can contact with the telescopic end of the limiting cylinder 1362 to form the deceleration of the rotating action, so that the transfer slide rail 134 can be in butt joint with the curved inlet slide rail 11 or the curved outlet slide rail 14 gently, and the mechanism can work more durably and stably.

When the carrier rotary conveying mechanism of this embodiment operates, the dispensing pressure maintaining module 12 is first conveyed on the feeding slide rail 19 in a direction close to the feeding module 15, the lifting slide rail 152 is controlled to be lifted to be in butt joint with the feeding slide rail 19, and receives the dispensing pressure maintaining module 12, then the lifting slide rail 152 is controlled to be lifted to be in butt joint with the curved slide rail 11, and then the pushing module can push the dispensing pressure maintaining module 12 on the lifting slide rail 152 to a position between the second movable block assembly 165 and the second blocking assembly 18.

Next, the rotating plate 133 rotates to make the transferring slide rail 134 abut against the bending slide rail 11, so that when the blocking rod of the second blocking assembly 18 retracts and no longer blocks the dispensing pressure maintaining module 12, the bending fork module 16 pushes one dispensing pressure maintaining module 12 to slide onto the transferring slide rail 134 at a time. Meanwhile, the positioning rod 1352 of the transfer positioning assembly 135 is driven to slide and is inserted into the positioning hole of the dispensing pressure maintaining module 12.

Then, the rotating plate 133 rotates with the dispensing pressure maintaining module 12, and the transferring slide rail 134 is abutted with the bending slide rail 14, and the dispensing pressure maintaining module 12 on the transferring slide rail 134 is transported to the bending slide rail 14 by the corresponding belt mechanism or the pushing mechanism.

The above transportation operation is performed in a circulating manner, and when the bending fork module 16 pushes one dispensing pressure maintaining module 12 to slide onto the transfer slide rail 134 each time, the feeding module 15 pushes one dispensing pressure maintaining module 12 to slide between the second movable block assembly 165 and the second blocking assembly 18.

Thus, the process of transferring the dispensing pressure maintaining module 12 in the carrier rotary conveying mechanism of the preferred embodiment is completed.

The carrier rotary conveying mechanism of the preferred embodiment is provided with the transfer rotating module, the rotating plate rotates to realize butt joint of the rotating plate and the bending inlet sliding rail or the bending outlet sliding rail, and then the glue dispensing pressure maintaining module on the bending inlet sliding rail and the product are conveyed to the bending outlet sliding rail together, so that the transfer conveying is stable and the efficiency is high.

In addition, the bending conveying mechanism is provided with the bending shifting fork module, so that a plurality of glue dispensing pressure maintaining modules can be stored on the bending sliding rail, the glue dispensing pressure maintaining modules are conveyed to the shifting sliding rail one by one, and the feeding sliding rail and the shifting rotating module can be efficiently conveyed in stable working rhythm.

In summary, although the present invention has been described with reference to the preferred embodiments, the above-described preferred embodiments are not intended to limit the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, so that the scope of the present invention shall be determined by the scope of the appended claims.

Claims (10)

1. A feeding and bending conveying mechanism is characterized by comprising a feeding and bending slide rail, a dispensing and pressure maintaining module, a feeding and bending shifting fork module, a first blocking assembly and a second blocking assembly, wherein the dispensing and pressure maintaining module is used for fixing a wire and an interface so as to facilitate dispensing of a dispensing mechanism and pressure maintaining and shaping of the wire and the interface after dispensing;

the dispensing pressure maintaining module is slidably connected to the bending slide rail, the first blocking assembly and the second blocking assembly are both positioned on one side of the bending slide rail, the second blocking assembly is positioned at the front end of the first blocking assembly along the conveying direction of the bending slide rail, the second blocking assembly is used for blocking a plurality of dispensing pressure maintaining modules, and the first blocking assembly is used for blocking the dispensing pressure maintaining module released by the first blocking assembly;

advance curved shift fork module including advancing curved cylinder and connecting advance the first movable block subassembly of the output of curved cylinder, the activity of first movable block subassembly sets up the second blocks one side of subassembly, advance curved cylinder drive first movable block subassembly slides to be used for the propelling movement to set for quantity the some glue pressurize module extremely the second blocks the subassembly with first blocks between the subassembly.

2. The feeding and bending conveying mechanism according to claim 1, wherein the first movable block assembly comprises a stopper, a fixed block and a spring, a receiving groove is formed in the fixed block, one end of the stopper is rotatably connected in the receiving groove through a rotating shaft, the spring is arranged between the other end of the stopper and an inner wall of the receiving groove, an outer end face of the stopper, which is far away from the rotating shaft, is a pushing face for pushing the dispensing and pressure-maintaining module to slide, one side of the stopper, which is far away from the receiving groove, is a contracting inclined face, one end of the contracting inclined face, which is far away from the pushing face, is closer to the receiving groove than the other end of the contracting inclined face, and one end of the contracting inclined face, which is far away from the pushing face, is misaligned with a sliding track of the dispensing and pressure-maintaining module.

3. A feeding and bending conveying mechanism according to claim 2, wherein the stop block and the inner wall of the accommodating groove are provided with fixing holes for positioning and connecting the spring.

4. The feeding and bending conveying mechanism according to claim 2, wherein the feeding and bending slide rail is arranged on a feeding and bending base, a second movable block assembly is fixedly arranged on the feeding and bending base, the structure of the second movable block assembly is consistent with that of the first movable block assembly, the second movable block assembly is located at one end, away from the first blocking assembly, of the second blocking assembly, the pushing surface of the second movable block assembly is located at one side close to the second blocking assembly, and the plurality of dispensing and pressure maintaining modules are limited between the second movable block assembly and the second blocking assembly.

5. The feeding and bending conveying mechanism according to claim 4, wherein the first movable block assembly is connected with the feeding and bending cylinder through a connecting plate, the feeding and bending base is further provided with a reinforcing slide rail, and the connecting plate is in sliding connection with the reinforcing slide rail.

6. The feeding and bending conveying mechanism according to claim 4, further comprising a feeding slide rail and a feeding module, wherein the feeding slide rail is located at one end of the feeding and bending slide rail, the feeding slide rail and the feeding and bending slide rail are located at different height positions, and the feeding module is located between the feeding and bending slide rail and the feeding slide rail;

the feeding module comprises an elevating mechanism, an elevating slide rail and a pushing module, the elevating slide rail is connected with an elevating part of the elevating mechanism, the elevating slide rail is in butt joint with the curved slide rail, the pushing module is arranged on one side of the second movable block component, the elevating mechanism is far away from one side of the second movable block component, and the pushing module is used for pushing the glue dispensing pressure maintaining module on the elevating slide rail to the second movable block component and the second blocking component.

7. The feeding bending conveying mechanism according to claim 6, wherein the pushing module comprises a pushing cylinder and a third movable block assembly, the third movable block assembly is connected with an output end of the pushing cylinder, the structure of the third movable block assembly is consistent with that of the first movable block assembly, and a pushing surface of the third movable block assembly is located on one side close to the lifting slide rail.

8. The feeding bending conveying mechanism according to claim 1, wherein the first blocking assembly comprises a base rod and a blocking screw connected to one side of the base rod, the blocking screw is used for blocking the dispensing and pressure maintaining module, and a feeding direction of the blocking screw is consistent with an extending direction of the feeding bending slide rail.

9. The bending conveying mechanism according to claim 6, wherein a driving block is arranged at the bottom of the dispensing and pressure maintaining module, a belt assembly is arranged below the loading slide rail, and the belt assembly is in driving connection with the driving block.

10. The feeding and bending conveying mechanism according to claim 1, wherein a receiving slot for receiving the wire is connected to a bottom end of the dispensing and pressure maintaining module.

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