CN210338431U - Automatic feeding frame - Google Patents

Abstract

The utility model belongs to the technical field of titanium bar packaging and conveying, and discloses an automatic feeding frame, which comprises a frame, wherein a feeding device is arranged inside the frame, a discharge end of the frame is fixedly connected with a connecting sleeve through a bolt, a guide sleeve is welded at the bottom end of the connecting sleeve, a titanium bar is slidably connected inside the guide sleeve, a material distributing box is arranged below the guide sleeve, two sides of the discharge end of the material distributing box are respectively provided with a material guiding device, a guide rail and a fixed plate are welded at the top end of the material distributing box, the guide rail is positioned at one side of the fixed plate, the utility model is provided with a continuous feeding structure, the structure of the continuous feeding structure is formed by combining the feeding device, the guide sleeve, the material distributing box and the material guiding device, the feeding device is connected with cutting equipment of the titanium bar, the cut titanium bar directly falls onto the feeding device for conveying, and then the titanium bar is sequenced through the guide, so that the titanium rod is in a single output guide state.

Description

Automatic feeding frame

Technical Field

The utility model belongs to the technical field of the titanium stick packing is carried, concretely relates to automatic feeding frame.

Background

The titanium rods on the market are titanium alloy rods, the titanium alloy rods need to be cut in batches according to different size requirements in the processing process of the titanium alloy rods, the cut titanium rods can be sold after being packaged in batches according to the same size, two transportation modes exist in the processing process of conveying the cut titanium rods to a packaging machine, one mode is manual transportation, the other mode is transmission belt transportation, the manual transportation efficiency is low, the cost is high, the problem that the titanium rods are placed in a disordered mode in the transmission belt transportation, effective packaging cannot be directly carried out, in addition, the packaging operation is carried out according to different factory requirements, the quantity of the titanium rod packaging is different in batches, the existing operation is carried out in an equivalent mode through manual operation, then the equivalent titanium rods are sequentially placed into the packaging machine for packaging, and the proportion occupied by manual operation is large in the process, the problems of low material distribution efficiency and high cost exist, and large artificial influence factors exist in the manual batching process, so that the phenomenon of batching errors easily occurs, and the phenomenon of uneven quantity of the titanium rods in the batches is caused.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic feeding frame to solve current titanium stick and can't form effective and continuous automatic pay-off when packing the operation, and when carrying out equivalent packing in batches, deposit the great problem of manual operation dependency.

In order to achieve the above object, the utility model provides a following technical scheme: an automatic feeding frame comprises a frame, wherein a feeding device is arranged inside the frame, a connecting sleeve is fixedly connected at the discharge end of the frame through a bolt, a material guide sleeve is welded at the bottom end of the connecting sleeve, a titanium rod is slidably connected inside the material guide sleeve, a material distribution box is arranged below the material guide sleeve, material guide devices are arranged on two sides of the discharge end of the material distribution box, a guide rail and a fixed plate are welded at the top end of the material distribution box, the guide rail is positioned on one side of the fixed plate and comprises a straight section and a downhill section, a titanium rod clamping seat, a linear motor and a limiting block are slidably connected on the guide rail, the linear motor is positioned between the titanium rod clamping seat and the limiting block, a guide block is arranged at the top end of the linear motor, a guide inclined surface is arranged on the outer wall of one side, close to the titanium rod clamping seat, of the guide, the draw-in groove is the arc structure, and the draw-in groove is located guide sleeve pipe export under, the welding has the spring between stopper and the fixed plate, linear electric motor and switch electric connection.

Preferably, the feeding device and the material guiding device are both composed of two feeding rollers and two feeding belts, and the two feeding rollers are sleeved with the feeding belts.

Preferably, the outer walls of two sides of the guide block and the titanium rod clamping seat are provided with connecting grooves, a connecting pin is clamped between every two adjacent connecting grooves and is of a U-shaped structure.

Preferably, the inside of the frame is rotatably connected with a material guide plate through a rotating shaft, and two ends of the material guide plate are respectively connected with the discharge end of the feeding device and the feed inlet of the material guide sleeve.

Preferably, the guide rod runs through on the one side inner wall of frame, the one end welding of guide rod has the frame limiting plate, and the cover is equipped with the position sleeve on the guide rod, the outer wall mounting position fastening bolt of one side of position sleeve, the frame limiting plate is located material feeding unit's top, run through on the outer wall of one side of guide sleeve and have spacing bolt, and the inside sliding connection of guide sleeve has the sleeve pipe limiting plate, the sleeve pipe limiting plate is located spacing bolt's one end.

Compared with the prior art, the utility model, following beneficial effect has:

(1) the utility model discloses continuous feeding structure has been set up, its structure is formed by material feeding unit, the guide sleeve pipe, divide workbin and guide device combination, material feeding unit is connected with the equipment that cuts of titanium stick, make the titanium stick after cutting off directly fall into material feeding unit and carry, then carry out the sequencing of titanium stick through the guide sleeve pipe, make the titanium stick form the state of leading and sending of single output, realize the branch material of titanium stick and carry at cooperation branch workbin, finally form through guide device and packagine machine and be connected again, thereby realize automatically that the titanium stick cuts the complete pay-off between and the packing, greatly reduce the cost of labor of pay-off process, and avoided traditional drive belt pay-off to appear in a jumble and need the problem of artifical branch material easily;

when the material guide sleeve is used, the connecting sleeves are matched with the material guide plate, so that the titanium rod can be smoothly guided into the material guide sleeve.

(2) The utility model discloses set up titanium stick cassette, guide block and stopper, when carrying out the titanium stick branch material, utilize the drive of linear electric motor and guide block to effectively order about the titanium stick cassette and move, thereby realize the removal of effective titanium stick, and can form the port of guide sleeve pipe and shelter from along with the continuous removal of guide block, thereby reach and divide the material effect, in addition one side of guide block still is furnished with and stopper and spring, in order to guarantee that the titanium stick cassette divides the material to move, the port of guide sleeve pipe can continuously guarantee to seal, in order to avoid appearing the problem that the titanium stick derives to lose;

in addition, connecting grooves are formed in the two ends of the titanium rod clamping seat and the two ends of the guide block, and the connecting pins are clamped between the two adjacent connecting grooves, so that the quick connection between the structures is realized, the random connection of a plurality of titanium rod clamping seats can be formed, the single quantity of the titanium rods during material distribution is effectively changed, and different packaging requirements are met.

(3) The utility model discloses set up sleeve pipe limiting plate and frame limiting plate, the regulation that utilizes two limiting plates can effectively change the inside guide space of guide sleeve pipe and frame to effectively be adapted to not unidimensional titanium stick pay-off.

Drawings

Fig. 1 is a side view of the present invention;

FIG. 2 is a top view of the material distributing box of the present invention;

FIG. 3 is an enlarged view of the point A of the present invention;

FIG. 4 is a side view of the titanium rod clamping base of the present invention;

FIG. 5 is a top view of the titanium rod clamping base of the present invention;

fig. 6 is a top view of the material guiding sleeve of the present invention;

fig. 7 is a top view of the frame of the present invention;

in the figure: 1-feeding roller, 2-frame, 3-feeding device, 4-feeding belt, 5-connecting sleeve, 6-guiding sleeve, 7-titanium rod, 8-guiding device, 9-guide rail, 10-titanium rod clamping seat, 11-linear motor, 12-limiting block, 13-distributing box, 14-fixing plate, 15-spring, 16-guiding block, 17-guiding plate, 18-clamping groove, 19-connecting groove, 20-connecting pin, 21-sleeve limiting plate, 22-limiting bolt, 23-guide rod, 24-positioning sleeve and 25-frame limiting plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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 a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides the following technical solutions: an automatic feeding frame comprises a frame 2, a feeding device 3 is installed inside the frame 2 and connected with a cutting device of a titanium rod 7 through the feeding device 3, so that the cut titanium rod 7 is directly guided into the feeding device 3 to realize automatic feeding of the whole feeding frame, a discharge end of the frame 2 is fixedly connected with a connecting sleeve 5 through a bolt, a material guide sleeve 6 is welded at the bottom end of the connecting sleeve 5, the titanium rod 7 is slidably connected inside the material guide sleeve 6, a material distribution box 13 is arranged below the material guide sleeve 6, material guide devices 8 are arranged on two sides of the discharge end of the material distribution box 13 and connected with a packaging device of the titanium rod 7 through the material guide devices 8, the titanium rods 7 after material distribution in batches are directly packaged to achieve the automatic blanking effect of the whole feeding frame, a guide rail 9 and a fixing plate 14 are welded at the top end of the material distribution box 13, the guide rail 9 is positioned on one side of the fixing plate 14, the guide rail 9 comprises a straight section and a downhill section, a titanium rod clamping seat 10, a linear motor 11 and a limiting block 12 are connected to the guide rail 9 in a sliding mode, the linear motor 11 is located between the titanium rod clamping seat 10 and the limiting block 12, a guide block 16 is installed at the top end of the linear motor 11, the linear motor 11 is a linear motor with the model number of 5RK90GN-C, the rated rotation speed is 1400rpm, the rated voltage is 220V, a guide inclined plane is formed in the outer wall of one side, close to the titanium rod clamping seat 10, of the guide block 16, a clamping groove 18 is formed in the top end of the titanium rod clamping seat 10, the clamping groove 18 is of an arc-shaped structure, the clamping groove 18 is located right below the outlet of the material guide sleeve 6, a spring 15 is welded between the limiting block.

In order to realize effective conveying of the titanium rod 7, in this embodiment, preferably, the feeding device 3 and the material guiding device 8 are formed by the feeding roller 1 and the feeding belt 4, the number of the feeding rollers 1 is two, the feeding belt 4 is sleeved on the two feeding rollers 1, the two feeding rollers 1 are respectively a driving feeding roller and a driven feeding roller, wherein the driving feeding roller is driven by a rotating motor, and the rotating motor is electrically connected with the power switch.

In order to facilitate the realization of the guide block 16 and the titanium rod clamping seat 10 and the quick assembly and disassembly between the adjacent titanium rod clamping seats 10, in this embodiment, preferably, the outer walls of the two sides of the guide block 16 and the titanium rod clamping seat 10 are both provided with connecting grooves 19, a connecting pin 20 is clamped between the two adjacent connecting grooves 19, and the connecting pin 20 is of a U-shaped structure.

In order to ensure that the titanium rod 7 can be effectively guided into the material guide sleeve 6, in this embodiment, preferably, the inside of the frame 2 is rotatably connected with a material guide plate 17 through a rotating shaft, and two ends of the material guide plate 17 are respectively connected with the discharge end of the feeding device 3 and the feed inlet of the material guide sleeve 6.

In order to facilitate the feeding operation of the titanium rods 7 with different sizes, in this embodiment, preferably, a guide rod 23 penetrates through the inner wall of one side of the rack 2, a rack limiting plate 25 is welded at one end of the guide rod 23, a positioning sleeve 24 is sleeved on the guide rod 23, a fastening bolt is installed on the outer wall of one side of the positioning sleeve 24, the rack limiting plate 25 is located above the feeding device 3, a limiting bolt 22 penetrates through the outer wall of one side of the material guide sleeve 6, a sleeve limiting plate 21 is slidably connected inside the material guide sleeve 6, and the sleeve limiting plate 21 is located at one end of the limiting bolt 22.

The utility model discloses a theory of operation and use flow: when the utility model is used, the feeding device 3 is connected with the cutting equipment of the titanium rod 7, so that the cut titanium rod 7 is directly guided into the feeding device 3, the feeding roller 1 is driven by the rotating motor to rotate, the feeding belt 4 is driven to convey, the titanium rod 7 is driven to move in the direction indicated by the arrow in fig. 1, the rack limiting plate 2 and the rack 52 play a role in protection and limitation in the moving process, the phenomenon that the titanium rod 7 is disordered in reversing during moving is avoided, the titanium rod 7 falls on the material guide plate 17 until the titanium rod moves to the position of the material guide plate 17, the titanium rod 7 is guided into the material guide sleeve 6 through the guide plate 17, the titanium rod 7 slides downwards in the material guide sleeve 6 until the titanium rod falls into the clamping groove 18 at the top end of the titanium rod clamping seat 10, and the titanium rod 7 is guided out and stored;

the number of the titanium rod clamping seats 10 is changed according to the specific packaging requirements, and the dismounting manner is simple, for example, when the number of the titanium rod clamping seats 10 is increased, one titanium rod clamping seat 10 is added on one side of the titanium rod clamping seat 10 at the forefront end, and then the connecting pin 20 is clamped into the connecting groove 19 on the adjacent titanium rod clamping seat 10, so as to ensure that the titanium rod clamping seats 10 can synchronously move;

after the titanium rod 7 is guided out, the linear motor 11 is started, the linear motor 11 moves along the arrow direction in fig. 1, so as to push the guide block 16 to approach the material guide sleeve 6, and push the titanium rod 7 which is not guided out back into the material guide sleeve 6 by the push of the guide inclined plane in the approach process, so as to prevent the titanium rod 7 from falling and losing due to the movement of the titanium rod clamping seat 10, meanwhile, the spring 15 in a compressed state rebounds to push the limit block 12 and the guide block 16 to move synchronously, when the spring 15 returns to the initial state, the limit block 12 is just positioned at the bottom end of the material guide sleeve 6, so as to ensure the sealing of the bottom end of the material guide sleeve 6 after the linear motor 11 continuously moves, when the linear motor 11 moves to the downward slope section of the guide rail 9, the positioning height of the whole titanium rod 7 is reduced, and at this time, two ends of the titanium rod 7 are limited by the material guide device 8, on the one hand, the, on the other hand, the titanium rod 7 is separated from the clamping groove 18 along with the descending of the height of the linear motor 11, so that the titanium rod 7 is effectively conveyed to the material guide device 8, and the material guide device 8 is connected with packaging equipment of the titanium rod 7, so that the packaging operation of the titanium rod 7 is realized;

in addition, the position of the rack limiting plate 25 corresponds to the position of the sleeve limiting plate 21 in the process, and the two limiting plates can be adjusted in the following manner: when the rack limiting plate 25 is adjusted, the fastening bolt on the positioning sleeve 24 is firstly unscrewed, so that the positioning sleeve 24 and the guide rod 23 can slide relatively, the rack limiting plate 25 can move, the fastening bolt is screwed after the movement is completed, the sleeve limiting plate 21 can be adjusted by rotating the limiting bolt 22, and the sleeve limiting plate 21 is driven to move directionally by the rotation of the limiting bolt 22, so that the adjustment operation is completed.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides an automatic feeding frame, includes frame (2), the internally mounted of frame (2) has material feeding unit (3), its characterized in that: the discharge end of the rack (2) is fixedly connected with a connecting sleeve (5) through a bolt, the bottom of the connecting sleeve (5) is welded with a material guide sleeve (6), the inside of the material guide sleeve (6) is connected with a titanium rod (7) in a sliding manner, a material distribution box (13) is arranged below the material guide sleeve (6), two sides of the discharge end of the material distribution box (13) are respectively provided with a material guide device (8), the top end of the material distribution box (13) is welded with a guide rail (9) and a fixing plate (14), the guide rail (9) is positioned on one side of the fixing plate (14), the guide rail (9) comprises a straight section and a downward slope section, the guide rail (9) is connected with a titanium rod clamping seat (10), a linear motor (11) and a limiting block (12) in a sliding manner, the linear motor (11) is positioned between the titanium rod clamping seat (10) and the limiting block (12), and the top end of the, the guide device is characterized in that a guide inclined plane is formed in the outer wall of one side, close to the titanium rod clamping seat (10), of the guide block (16), a clamping groove (18) is formed in the top end of the titanium rod clamping seat (10), the clamping groove (18) is of an arc-shaped structure and is located right below an outlet of the material guide sleeve (6), a spring (15) is welded between the limiting block (12) and the fixed plate (14), and the linear motor (11) is electrically connected with the power switch.

2. The automated feeding stand according to claim 1, wherein: the feeding device (3) and the material guiding device (8) are composed of two feeding rollers (1) and two feeding belts (4) together, and the two feeding rollers (1) are sleeved with the two feeding belts (4).

3. The automated feeding stand according to claim 1, wherein: connecting grooves (19) are formed in the outer walls of the two sides of the guide block (16) and the outer wall of the two sides of the titanium rod clamping seat (10), two adjacent connecting grooves (19) are clamped and connected with connecting pins (20), and the connecting pins (20) are of U-shaped structures.

4. The automated feeding stand according to claim 1, wherein: the inside of the rack (2) is rotatably connected with a material guide plate (17) through a rotating shaft, and two ends of the material guide plate (17) are respectively connected with the discharge end of the feeding device (3) and the feed inlet of the material guide sleeve (6).

5. The automated feeding stand according to claim 1, wherein: run through on the one side inner wall of frame (2) and have guide arm (23), the one end welding of guide arm (23) has frame limiting plate (25), and the cover is equipped with position sleeve (24) on guide arm (23), install a position fastening bolt on the one side outer wall of position sleeve (24), frame limiting plate (25) are located the top of material feeding unit (3), it has stop bolt (22) to run through on the one side outer wall of guide sleeve pipe (6), and the inside sliding connection of guide sleeve pipe (6) has sleeve pipe limiting plate (21), sleeve pipe limiting plate (21) are located the one end of stop bolt (22).

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