CN217229323U - Metal bar feeding device - Google Patents

Abstract

The utility model discloses a metal bar material feeding unit, including the operation platform, be equipped with feeding mechanism on the operation platform, feeding mechanism includes the pay-off inclined rail, the seat correspondence is shelved to the pay-off inclined rail and bar copper, and the height that highly is higher than the bar copper and shelves the seat of pay-off inclined rail low-order end, the top of pay-off inclined rail is equipped with spacing inclined rail, be equipped with the locating piece that is located the bar copper and shelve the seat top on the spacing inclined rail, one side of operation platform is equipped with the follower, be equipped with the drive block of being connected with drive part's drive end on the operation platform, the high position of drive block is in between locating piece and the bar copper shelve the seat, the one end that the operation platform is close to processing equipment is equipped with travel switch. The raw materials are placed by taking and placing the raw materials one by one manually in the traditional way, the traditional automatic placing of a plurality of raw materials is improved, the labor intensity is greatly reduced, and the labor cost is also improved. One person can watch more than ten processing devices, and workers only need to fill the copper bars on each device according to the surplus of the copper bars.

Description

Metal bar feeding device

Technical Field

The utility model belongs to the technical field of water gauge accessory processing equipment, concretely relates to metal bar material feeding unit.

Background

In the prior art, a copper bar for processing water meter accessories is commonly used for manufacturing valve plugs, valve rods and other related accessories. The copper bars are placed beside the processing equipment and are conveyed on the feeding roller one by workers, and the operation mode needs the workers to continuously bend down to take the copper bars, so that the labor intensity is high.

The important point is that 10 copper bar processing devices are arranged in a workshop, one person needs to be arranged beside each processing device for manual operation, a worker needs to put a next copper bar in time after the last copper bar is processed, the production efficiency can be improved continuously, the operation is obtained after rough statistics, each worker needs to carry out one hundred times of copper bar taking and putting operation every day, the operation is very simple mechanical operation, the labor intensity is high, the labor cost is very high, the worker needs to pay attention to the processing condition of the device all the time, and then the next copper bar is timely supplemented.

Therefore, a feeding device for metal bars needs to be designed, so that the pulling strength of workers is reduced as much as possible, and meanwhile, the labor amount can be reduced, and the purpose of watching multiple devices by one person is achieved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the technical problem that the labor intensity is high and the labor amount is large, and the labor cost is high, and providing a metal bar feeding device.

In order to achieve the above purpose, the utility model discloses a technical scheme is:

a metal bar feeding device, which comprises an operation platform arranged beside a feeding hole of processing equipment,

the key point is that the operation platform is provided with at least two groups of mutually symmetrical feeding mechanisms,

the feeding mechanism comprises a feeding inclined rail for placing a copper bar, the low end of the feeding inclined rail corresponds to the copper bar placing seat arranged on the operation platform, the height of the low end of the feeding inclined rail is higher than that of the copper bar placing seat,

a limiting inclined rail which is parallel to and corresponds to the inclined surface of the feeding inclined rail is arranged above the feeding inclined rail, a positioning block which corresponds to the low-position end of the feeding inclined rail is arranged on the limiting inclined rail, the positioning block is positioned above the copper bar placing seat,

one side of the operation platform is provided with a driven wheel which is mutually corresponding to the copper bar placing seat and is used for conveying the copper bar,

the operation platform is provided with a driving block which is connected with the driving end of the driving part, the height position of the driving block is positioned between the positioning block and the copper bar placing seat,

and one end of the working platform, which is close to the processing equipment, is provided with a travel switch positioned above the driven wheel.

Preferably, the horizontal distance between the positioning block and the low end of the feeding inclined rail and the height distance between the positioning block and the copper bar placing seat are not smaller than the diameter of the copper bar.

Preferably, the operation platform is provided with a support for supporting the limiting inclined rail, and the limiting inclined rail is mutually fastened and connected with a longitudinal slotted hole formed in the support through a fastening bolt.

Preferably, the positioning block is mutually fastened and connected with a transverse slotted hole formed in the limit inclined rail through a fastening bolt.

Preferably, the driving part is a driving cylinder.

The utility model has the advantages that:

the raw materials are placed by taking and placing the raw materials manually one by one in the prior art, the traditional method is improved into the method of automatically placing a plurality of raw materials, the labor intensity is greatly reduced, and the labor cost is qualitatively improved.

The metal bar raw materials such as the copper bar are pushed to the driven wheel one by one through the driving block, and the relative position of the copper bar is detected through the travel switch, so that the conveying of the copper bar is automatically controlled, and the working efficiency is also sufficiently improved.

The traditional operation mode needs each processing equipment to be equipped with one worker, now ten processing equipment can be watched by one person, and the workers only need to fill up according to the surplus of the copper bars on each equipment.

Drawings

Fig. 1 is a schematic plan view of the structure of the present invention.

Fig. 2 is a schematic structural view of fig. 1 with the copper bar removed.

Fig. 3 is a right side view of the structure of the present invention.

Fig. 4 is a structural diagram of the change state of fig. 3.

Fig. 5 is a photograph of the present invention.

In the figure, 1, a working platform 2 and a copper bar;

3-a feeding mechanism 301-a feeding inclined rail 302-a limit inclined rail 303-a positioning block 304-a driven wheel 305-a bracket 306-a travel switch 307-a driving part 308-a driving block 309-a longitudinal long slot 310-a transverse long slot 311-a copper rod placing seat.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to fig. 1 to 5, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. 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 the attached drawings 1 to 5, the utility model relates to a metal bar feeding device, which comprises an operation platform 1 arranged beside a feed inlet of processing equipment,

the operation platform 1 is provided with at least two groups of mutually symmetrical feeding mechanisms 3,

the feeding mechanism 3 comprises a feeding inclined rail 301 for placing the copper rods 2, the copper rods 2 can be directly placed on the feeding inclined rail 301 and arranged in parallel, and are always in a state of waiting to roll under the action of an inclined angle, the low-position end of the feeding inclined rail 301 corresponds to a copper rod placing seat 311 arranged on the operation platform 1, the height of the low-position end of the feeding inclined rail 301 is higher than that of the copper rod placing seat 311, a step formed by the height difference is used for placing the most front copper rod, namely, the most front copper rod falls downwards at the height difference, and the purpose of selecting the copper rods one by one is further completed;

the upper part of the inclined feeding rail 301 is provided with a limiting inclined rail 302 which is parallel to and corresponds to the inclined plane of the inclined feeding rail 301, the copper rod 2 is positioned in a gap between the inclined feeding rail 301 and the limiting inclined rail 302, the gap can prevent the copper rod 2 from being overlapped up and down, the copper rod 2 is ensured to be placed in parallel, the limiting inclined rail 302 is provided with a positioning block 303 which corresponds to the lower end of the inclined feeding rail 301, the positioning block 303 is positioned above the copper rod placing seat 311, the positioning block 303 is used for blocking the copper rod 2 and preventing the copper rod 2 from continuously falling off, so that the moving route of the copper rod 2 is Z-shaped, and the purpose of pushing one by one is ensured by utilizing the moving route;

a driven wheel 304 which corresponds to the copper rod placing seat 311 and is used for conveying the copper rods 2 is arranged on one side of the operation platform 1, the driven wheel 304 horizontally corresponds to a feeding hole of the processing equipment, and the copper rods 2 pushed by one piece fall on the driven wheel 304 to horizontally enter the processing equipment;

the working platform 1 is provided with a driving block 308 which is connected with a driving end of a driving part 307, the height position of the driving block 308 is positioned between the positioning block 303 and the copper bar placing seat 311, and at the height, the driving block 308 and the copper bar 2 at the front end keep horizontal correspondence and can push the copper bars to the driven wheel 304 one by one; moreover, at the height, the top surface of the driving block 308 can lift the second copper rod 2, so that the copper rod cannot fall continuously in the pushing process, and after the first copper rod 2 is processed, the next copper rod 2 in the drawing is pushed;

a travel switch 306 positioned above the driven wheel 304 is arranged at one end, close to the processing equipment, of the working platform 1 and is used for detecting the relative position of the copper bar 2, namely when the copper bar is pushed onto the driven wheel 304, the travel switch is pressed under the action of the gravity of the copper bar 2, and then the action of a driving part is controlled through a controller; namely, when the travel switch is pressed, the copper rod 2 is in a processing state, the driving block 303 cannot push the next copper rod 2 to enter, and after the first copper rod 2 is completely processed and the travel switch loses pressure to reset, the driving block 303 can push the next copper rod 2 to enter, so that continuous operation is realized.

In order to ensure that one copper rod is pushed each time, the horizontal distance between the positioning block 303 and the low end of the feeding inclined rail 301 and the height distance between the positioning block 303 and the copper rod placing seat 311 are not less than the diameter of the copper rod 2. The copper rod 2 moves in a zigzag path so as to be pushed one by one.

In order to adjust the height of the inclined limit rail 302, a bracket 305 for supporting the inclined limit rail 302 is arranged on the work platform 1, and the inclined limit rail 302 is fastened and connected with a longitudinal slot 309 arranged on the bracket 305 through a fastening bolt. The limiting inclined rails 302 can realize height adjustment under the action of the longitudinal long slotted holes 309, so that the requirements of copper bars 2 with different diameters and specifications are met, and the copper bars 2 are guaranteed to be placed in parallel in a preset space.

In order to facilitate the limitation of copper bars with different diameters, the positioning block 303 is fastened and connected with a transverse slotted hole 310 formed in the limiting inclined rail 302 through a fastening bolt. The positioning block 303 can be displaced transversely under the action of the transverse long slot hole, so that the distance between the positioning block and the feeding inclined rail meets the diameter of the copper rod 2, and a plurality of copper rods are prevented from falling together.

Preferably, the driving part 307 is a driving cylinder.

The working principle is as follows:

the copper bars are placed in the feeding inclined rail and then are kept in parallel, the copper bar positioned at the forefront cannot fall down under the support of the driving block, when the driving block moves backwards, the copper bar positioned at the forefront naturally falls back, the driving block moves forwards, the copper bar positioned at the second root is lifted to prevent the copper bar from falling down together, and the first copper bar is pushed to fall down by the continuous forward movement of the driving block and falls on the driven wheel. Because the work platform corresponds with the feed inlet of processing equipment, when first bar copper fell on the follower, the foremost end of bar copper can directly get into the feed inlet, and processing equipment can directly process it this moment, need not manual intervention. When the copper rod falls down, the travel switch is pressed, and the driving part does not act when receiving signals.

After the first copper rod is processed, the travel switch loses pressure and resets, the driving part drives the driving block to move backwards firstly, the second copper rod conveniently falls on the copper rod placing seat 311, the driving block moves forwards again at the moment, the third copper rod is lifted, the second copper rod is prevented from falling together, the second copper rod is continuously pushed to the driven wheel, and the processing equipment processes the second copper rod and can be used for analogizing the process.

The utility model has the advantages that:

the raw materials are placed by taking and placing the raw materials manually one by one in the prior art, the traditional method is improved into the method of automatically placing a plurality of raw materials, the labor intensity is greatly reduced, and the labor cost is qualitatively improved.

The metal bar raw materials such as the copper bar are pushed to the driven wheel one by one through the driving block, and the relative position of the copper bar is detected through the travel switch, so that the conveying of the copper bar is automatically controlled, and the working efficiency is also sufficiently improved.

The traditional operation mode needs each processing equipment to be equipped with a workman, now can see ten many processing equipment for alone, the workman only need fill according to the surplus of bar copper on every equipment can, though the workman alone sees many processing equipment, intensity of labour increases to some extent, nevertheless need not constantly to pay attention to the processing progress, workman's mental state is alleviated, only need fill according to the raw materials volume of every equipment can.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention.

Claims (5)

1. A metal bar feeding device, which comprises an operation platform (1) arranged beside a feeding hole of processing equipment,

the method is characterized in that:

the operation platform (1) is at least provided with two groups of mutually symmetrical feeding mechanisms (3),

the feeding mechanism (3) comprises a feeding inclined rail (301) for placing the copper rod (2), the low end of the feeding inclined rail (301) corresponds to the copper rod placing seat (311) arranged on the operation platform (1), and the height of the low end of the feeding inclined rail (301) is higher than that of the copper rod placing seat (311),

a limiting inclined rail (302) which is parallel to and corresponds to the inclined surface of the feeding inclined rail (301) is arranged above the feeding inclined rail (301), a positioning block (303) which corresponds to the lower end of the feeding inclined rail (301) is arranged on the limiting inclined rail (302), the positioning block (303) is positioned above the copper bar placing seat (311),

one side of the operation platform (1) is provided with a driven wheel (304) which is mutually corresponding to the copper bar placing seat (311) and is used for conveying the copper bar (2),

a driving block (308) which is connected with a driving end of a driving part (307) is arranged on the operation platform (1), the height position of the driving block (308) is positioned between the positioning block (303) and the copper bar placing seat (311),

and one end of the working platform (1) close to the processing equipment is provided with a travel switch (306) positioned above the driven wheel (304).

2. The metal bar feeding device according to claim 1, wherein: the horizontal distance between the positioning block (303) and the low end of the feeding inclined rail (301) and the height distance between the positioning block (303) and the copper bar placing seat (311) are not smaller than the diameter of the copper bar (2).

3. The metal bar feeding device according to claim 1, wherein: the operation platform (1) is provided with a support (305) for supporting the limiting inclined rail (302), and the limiting inclined rail (302) is mutually fastened and connected with a longitudinal long slotted hole (309) formed in the support (305) through a fastening bolt.

4. The metal bar feeding device according to claim 1, wherein: the positioning block (303) is mutually fastened and connected with a transverse long slotted hole (310) formed in the limiting inclined rail (302) through a fastening bolt.

5. The metal bar feeding device according to claim 1, wherein: the driving part (307) is a driving cylinder.

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