CN114789831A - Counting type subpackaging equipment for blocky alloy and working method - Google Patents

Abstract

The invention discloses a counting type subpackaging device for blocky alloys and a working method, which solve the problems that the online packaging of the blocky alloys cannot be realized in the prior art, single alloy blocks are heavy and can easily cause the damage of wrists of workers due to long-time packaging, and sharp burrs can easily scratch hands, have the beneficial effects of realizing the online packaging, being used in combination with an alloy block production line or a shearing machine, and being convenient for production organization and personnel arrangement, and have the following specific scheme: the utility model provides a cubic alloy counter equipment of subpackaging, includes horizontal feeding belt, and its one side sets up a plurality of rotatable baffles side by side, and horizontal feeding belt corresponds for the opposite side of baffle and sets up receiving mechanism, and receiving mechanism is equipped with the count system including connecing the storage bucket, connects the storage bucket top, connects the storage bucket side to set up the fixture who is used for the centre gripping braided bag, connects the storage bucket below to set up the conveyer belt, and fixture, baffle, count system all connect the controller.

Description

Counting type subpackaging equipment for blocky alloy and working method

Technical Field

The invention relates to the technical field of alloy manufacturing, in particular to counting type subpackaging equipment for blocky alloys and a working method.

Background

The statements in this section merely provide background information related to the present disclosure and may not necessarily constitute prior art.

In the production of alloys, it is necessary to pack the alloy into small packages. In particular to a single large alloy block, a shearing alloy block and the like, the single alloy block has large volume, the weight is 5-6 kg/block, the shape is irregular, the burrs are more, the sharp edges are sharp, and the packaging bag is easy to scratch when the small-package packaging is used. At present, the alloy blocks are mainly manually packaged, the alloy blocks are held by one hand, and the single alloy blocks are packaged for a long time, so that the wrist of a worker is easily damaged, and sharp burrs scratch the hand easily.

In addition, the production capacity of the alloy blocks and the shearing blocks is 30 tons, and the online packaging of the alloy blocks cannot be realized at the present stage. In order not to influence the production efficiency, after the alloy blocks are hoisted to a packaging area, the alloy blocks are manually packaged, the per-person packaging amount is only 2 tons per class, hoisting and unloading processes are added in the production process, the packaging efficiency is low, production organization is not facilitated, meanwhile, the alloy blocks are more in burrs and sharp, when the alloy blocks fall to the bottom of a packaging bag along the packaging bag in the packaging process, the packaging bag is easily scratched, the appearance and the packaging quality of the packaging bag are influenced, the packaging bag is more damaged, if the packaging bag is damaged, another packaging bag needs to be sleeved, and the packaging cost is increased.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a counting type subpackaging device for blocky alloys and a working method, and solves the problems that online packaging of alloy blocks cannot be realized, single alloy blocks are heavy and are packaged for a long time, the wrist of a worker is easily damaged, and sharp burrs scratch the hands easily.

In order to realize the purpose, the invention is realized by the following technical scheme:

the utility model provides a cubic alloy counter equipment of subpackaging, includes horizontal feeding belt, and its one side sets up a plurality of rotatable baffles side by side, and horizontal feeding belt corresponds for the opposite side of baffle and sets up receiving mechanism, and receiving mechanism is equipped with the count system including connecing the storage bucket, connects the storage bucket top, connects the storage bucket side to set up the fixture who is used for the centre gripping braided bag, connects the storage bucket below to set up the conveyer belt, and fixture, baffle, count system all connect the controller.

According to the counting type subpackage equipment for the blocky alloys, the transverse feeding belt is installed on the rack, the baffle is arranged along the length direction of the transverse feeding belt, the baffle is installed on one side of the rack, one end of the baffle is rotatably connected with the rack, and the free end of the baffle can rotate to the position above the transverse feeding belt.

As above, the counting type subpackaging equipment for the blocky alloys comprises a material receiving hopper, wherein two ends of the material receiving hopper are open, one end of the material receiving hopper is open and connected with the transverse feeding belt, and the other end of the material receiving hopper is open and connected with the top of the material receiving barrel so as to convey finished alloy blocks to the material receiving barrel.

As above, the counting type subpackaging equipment for the blocky alloys has the advantages that the material receiving barrel and the transverse feeding belt have a set height difference, and the arc-shaped baffle is arranged on one side, far away from the material receiving hopper, of the top of the material receiving barrel.

As above, a cubic alloy counter divides equipment of chartered, fixture includes actuating mechanism, and actuating mechanism's output is connected the arm lock, arm lock one end with connect the storage bucket to rotate and be connected, the fixed arc splint of the other end.

According to the counting type subpackaging equipment for the blocky alloys, the tail end of the transverse feeding belt is provided with the material receiving ton bag.

According to the counting type subpackaging equipment for the blocky alloys, the conveying direction of the conveying belt is the same as that of the transverse feeding belt, an automatic bag sewing machine is arranged at the position, close to the tail end, of the conveying belt, the tail end of the conveying belt is obliquely and upwards arranged, and an automatic ton bag loading system is arranged at the tail end of the conveying belt.

According to the counting type subpackaging equipment for the blocky alloys, the side plates on two sides of the material receiving hopper are in butt joint with the arc-shaped baffle.

The counting type subpackaging equipment for the blocky alloy further comprises a plurality of control buttons, each control button corresponds to one material receiving barrel, and the control buttons are in signal connection with the controller.

In a second aspect, the invention also discloses a working method of the blocky alloy counting type subpackaging equipment, which specifically comprises the following steps:

conveying the alloy block finished product along a transverse feeding belt, and pushing the alloy block finished product to a corresponding material receiving barrel by a corresponding baffle when the alloy block finished product reaches a specified position;

the counting system records the number of finished alloy block products passing through the receiving barrel, the clamping mechanism is loosened when the target number is reached, and the woven bag is conveyed to an automatic bag sewing machine through a conveying belt and falls into an automatic ton packaging system after being sewn;

the controller controls the action of the baffles, and after a new woven bag is sleeved under the material receiving barrel, the corresponding baffles participate in the work again;

alloy block finished products which are not pushed to the receiving hopper by the baffle fall into the receiving ton bag through the transverse feeding belt.

The beneficial effects of the invention are as follows:

according to the invention, the baffle is arranged on one side of the transverse feeding belt, the material receiving mechanism is correspondingly arranged on the other side of the transverse feeding belt, and the counting system is matched, so that finished alloy blocks can be distributed, the next step of conveying the belt when the number of alloys in the woven bag on each station reaches the set number is ensured, the counting type subpackaging of the finished alloy blocks is realized, the automation level is high, and meanwhile, the counting type subpackaging machine can be cooperatively used by combining with shearing machine equipment, so that the packaging efficiency of the finished alloy blocks is improved, and the labor intensity of workers is reduced.

The arc-shaped baffle can prevent the alloy block finished product on the transverse feeding belt from flying out of the receiving bucket directly through the receiving bucket due to too high speed after being pushed by the baffle.

The side plates on the two sides of the material receiving hopper are in butt joint with the arc-shaped baffle plate, so that alloy block finished products are prevented from flying out of the two sides of the material receiving barrel or flying out of a gap between the side plates of the material receiving hopper and the arc-shaped baffle plate. Fully ensuring that all the alloy blocks entering the receiving hopper finally fall into the woven bag after entering the receiving barrel.

Connect the material ton package to be used for collecting the alloy piece that has not got into and connect the storage bucket, prevent that the alloy piece finished product on the horizontal pay-off belt from being leaked out in order to continue to drop into the subcontracting equipment next time.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate exemplary embodiments of the invention and together with the description serve to explain the invention and not to limit the invention.

FIG. 1 is a schematic diagram of the overall structure of a counting-type subpackaging equipment for bulk alloy.

Fig. 2 is a schematic structural diagram of a pneumatic clamping mechanism in an embodiment of the invention.

In the figure: the spacing or dimensions between each other are exaggerated to show the location of the various parts, and the schematic is shown only schematically.

Wherein: 1. the automatic bag sewing machine comprises an alloy block finished product, 2 parts of a baffle, 3 parts of a receiving hopper, 4 parts of a transverse feeding belt, 5 parts of a counting system, 6 parts of a clamping mechanism, 6-1 parts of a cylinder, 6-2 parts of an arc-shaped clamping plate, 6-3 parts of a clamping arm, 7 parts of a woven bag, 8 parts of a conveying belt, 9 parts of an automatic bag sewing machine, 10 parts of ton bags, 11 parts of an arc-shaped baffle and 12 parts of a receiving barrel.

Detailed Description

It is to be understood that the following detailed description is exemplary and is intended to provide further explanation of the invention as claimed. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

As introduced in the background art, the method in the prior art realizes the online packaging of alloy blocks, the single alloy blocks are heavy and are easy to cause the damage of wrists of workers due to long-time packaging, and sharp burrs are easy to scratch the hands.

Example one

In a typical embodiment of the invention, referring to fig. 1-2, a counting type subpackaging device for bulk alloys comprises a transverse feeding belt 4, a plurality of rotatable baffles 2 are arranged on one side of the transverse feeding belt in parallel, and a material receiving mechanism is correspondingly arranged on the other side, opposite to the baffles 2, of the transverse feeding belt 4. The horizontal feeding belt 4 is installed on the rack and used for conveying alloy block finished products 1, the number of the baffles 2 is three along the length direction of the horizontal material conveying belt, the three baffles 2 are installed on one side of the rack, the right ends of the baffles 2 are rotatably connected with the rack through pin shafts, and the free ends of the baffles 2 can rotate to the position above the horizontal material conveying belt through a pneumatic control mechanism.

Specifically, one side of the baffle 2, far away from the transverse feeding belt, is connected with an air cylinder arranged on the rack, the air cylinder rod pushes the baffle to rotate, when the alloy block finished product 1 reaches the front side of the baffle 2, the baffle 2 is rotated to the upper side of the transverse feeding belt to push the alloy block finished product 1 to the material receiving mechanism, the baffle 2 is made of bright stainless steel to reduce resistance and ensure smooth material distribution, and the baffle is flexible and rapid in action and used for distributing the alloy block finished product 1 to the corresponding material receiving mechanism.

As shown in fig. 2, the receiving mechanism includes a receiving bucket 12 and a receiving bucket 3, the receiving bucket 12, the receiving bucket 3 and the baffle 2 are correspondingly arranged in quantity, one baffle 2 is a station, in this embodiment, three stations are provided, two ends of the receiving bucket 3 are opened, one end of the opening is communicated with the horizontal feeding belt, so as to receive the alloy block finished product 1 on the horizontal feeding belt 4 by the corresponding baffle 2, the other end of the opening is connected with the top of the receiving bucket 12 to send the alloy block finished product 1 to the receiving bucket, it can be understood that there is a height difference between the receiving bucket 12 and the horizontal feeding belt 4, the receiving bucket 3 is arranged in an inclined manner, but the height difference is not too large, otherwise, the alloy block finished product 1 is too fast, and woven bags are easily scratched when falling into the receiving bucket 12.

Because the finished alloy blocks entering the transverse feeding belt 4 are 5-6 kg/block, the purpose of the embodiment is to control the number of the finished alloy blocks entering the woven bag 7, therefore, a counting system 5 is arranged at the joint of the top of the material receiving barrel 12 and the material receiving hopper 3, the counting system 5 is used for recording the number of the finished alloy blocks 1 falling into the same woven bag 7, when the number reaches the target number, the counting system sends out a signal, after the controller receives the signal, the clamping mechanism 6 is controlled to release the woven bag 7, at the moment, the finished alloy block 1 in one woven bag 7 is completely loaded, and the counting system 5 is the prior art.

Specifically, two clamping mechanisms 6 for clamping the woven bag 7 are arranged on the side surface of the material receiving barrel 12, and the two clamping mechanisms 6 are symmetrically arranged relative to the material receiving barrel 12. The clamping mechanism 6 comprises a driving mechanism, the output end of the driving mechanism is connected with the clamping arms 6-3, one ends of the clamping arms 6-3 are hinged with the material receiving barrel, the hinged position is deviated to be close to the top of the material receiving barrel 12, the clamping arms 6-3 are longitudinally arranged, the arc-shaped clamping plates 6-2 are fixed at the bottom ends of the clamping arms, and the arc-shaped clamping plates 6-2 control the clamping arms 6-3 through the output end of the driving mechanism, so that the clamping arms 6-3 are tightly attached to the surface of the material receiving barrel, and the clamping of the bottom of the material receiving barrel by the two arc-shaped clamping plates 6-2 is realized. The woven bag 7 is sleeved at the bottom of the material receiving barrel, and the woven bag is clamped at the bottom of the material receiving barrel by the arc-shaped clamping plate 6-2.

It can be understood that the material receiving barrel 12 is a hollow cylinder, the shape of the outer arc surface of the material receiving barrel is matched with the shape of the clamping side of the arc-shaped clamping plate 6-2, so that the firmness of clamping the woven bag is ensured, and the woven bag 7 is prevented from falling off.

Connect one side that the storage bucket top was kept away from and is connect the hopper to set up cowl 11, cowl 11's setting prevents that alloy piece finished product 1 on the horizontal feeding belt 4 from being because speed is too fast after being promoted by baffle 2, and directly connects the storage bucket through connecing 3 departure of hopper, produces the potential safety hazard, and cowl 11's shape matches with the week side that connects storage bucket 12, also can integrated into one piece.

The side plates on the two sides of the material receiving hopper 3 are in butt joint with the arc-shaped baffle 11, so that the alloy block finished products 1 are prevented from flying out from the two sides of the material receiving barrel or flying out from a gap between the side plates of the material receiving hopper 3 and the arc-shaped baffle 11. Fully ensuring that all the alloy block finished products 1 entering the receiving hopper 3 finally fall into the woven bag 7 after entering the receiving barrel 12.

The driving mechanism of the embodiment is preferably an air cylinder 6-1, and the fixed end of the air cylinder 6-1 is fixed at the bottommost part of the receiving barrel, or can be fixed on the arc-shaped baffle plate.

It can be understood, this embodiment is three station altogether, in the during operation, earlier connect the storage bucket bottom at three braided bag 7 covers, and adopt clamping mechanism to press from both sides tightly, every connects to control button by an independent on the material station, control button and controller signal connection, fixture 6 simultaneously, baffle 2, the equal connection director of counting system 5, control button's opening uses braided bag 7 to overlap as the prerequisite, and do not overlap the station of braided bag 7, controller control baffle is reset state, the baffle that corresponds can not participate in work, only the station that is ready just gets into operating condition.

In order to prevent the alloy block finished products on the transverse feeding belt 4 from being leaked, a material receiving ton bag (not shown in the figure) is arranged at the tail end of the transverse feeding belt 4 and is used for collecting the alloy block finished products 1 which do not reach the material receiving barrel so as to be continuously put into the subpackaging equipment next time.

Connect storage bucket 12 below to set up conveyer belt 8, the distance between conveyer belt 8 and the storage bucket 12 should not be the overlength, it just is accurate that the bottom under the natural state just is in the conveyer belt top and does not receive the interference to press from both sides tight back natural state with braided bag 7, the direction of transfer of conveyer belt 8 is the same with horizontal pay-off belt 4, conveyer belt 8 is close to the terminal department and is equipped with automatic sack closer 9, after alloy piece finished product quantity is up to standard, clamping mechanism 6 loosens the braided bag, braided bag 7 falls on the conveyer belt, downwardly conveying, automatic sack closer 9 is used for packing into the braided bag of alloy piece and seals in the same step following conveyer belt removal in-process.

8 terminal slopes of conveyer belt upwards set up to 8 ends at the conveyer belt are equipped with automatic dress ton package system, and automatic dress ton package system is ton bag 10, and the braided bag 7 after sealing is conveyed the eminence by the conveyer belt, falls into automatic dress ton package system through displacement device, accomplishes the packaging process. The automated ton bag system and the slide show of the present embodiment are prior art.

Example two

A working method of a blocky alloy counting type subpackaging device specifically comprises the following steps:

the implementation can be used in cooperation with a shearing machine, the shearing machine conveys large alloy blocks to the initial end of a transverse feeding belt 4 after shearing the large alloy blocks into small alloy blocks of 5-6kg, and alloy block finished products 1 are conveyed along the transverse feeding belt and pushed into corresponding material receiving barrels 12 by corresponding baffles 2 when reaching the specified position;

the specific working mode is that, at first start corresponding control button after 7 braided bags by the staff cover, the tight braided bag of controller control fixture 6 clamp, when the alloy was carried before the corresponding baffle, controller control baffle 2 pushed away alloy piece finished product 1 to corresponding receiving bucket 12, 5 real-time supervision of counting system alloy piece finished product numbers, after the quantity reached, 5 signals of counting system loosened the braided bag for controller control fixture, the finished braided bag of dress alloy piece falls on the conveyer belt, fall into automatic ton package system after 8 conveying to automatic sack sewing machine 9 sack sewing through the conveyer belt, automatic ton package system is ton sack 10. Alloy block finished products which are not pushed to the receiving hopper by the baffle 2 fall into the receiving ton bag through the transverse feeding belt.

Three stations are independently controlled and counted in sequence, the three stations are assumed to be 1#, 2# and 3# stations respectively, alloy block finished products fall into a 1# material receiving barrel under the action of a baffle when reaching a 1# distribution position, a counter +1 is used, when a counting set value is reached, the 1# baffle automatically returns, a clamping device automatically loosens, and woven bags fall onto a conveying belt. If no woven bag is sleeved at the station # 1, the finished product reaches the station # 2, if no woven bag is sleeved at the station # 2, the finished product reaches the station # 3, and if a woven bag is sleeved, the control flow when the finished product reaches the corresponding position is the same as the control flow when the finished product reaches the position # 1. If the 3 stations are not ready, the alloy blocks move to the other end along the transverse direction to fall into a receiving ton bag.

The embodiment can realize online packaging, is combined with an alloy block production line or a shearing machine for use, is convenient for production organization and personnel arrangement, protects the packaging bag from being scratched and damaged, reduces the packaging cost and reduces the labor intensity of operators.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a cubic alloy counter divides equipment of subpackaging which characterized in that, including horizontal feeding belt, its one side sets up a plurality of rotatable baffles side by side, and horizontal feeding belt corresponds for the opposite side of baffle and sets up receiving mechanism, and receiving mechanism is including connecing the storage bucket, and the storage bucket top is equipped with the count system, connects the storage bucket side to set up the fixture that is used for the centre gripping braided bag, connects the storage bucket below to set up the conveyer belt, and fixture, baffle, count system all connect the controller.

2. The counting type subpackaging equipment for bulk alloys according to claim 1, wherein the transverse feeding belt is installed on a rack, the baffle is arranged along the length direction of the transverse feeding belt, the baffle is installed on one side of the rack, one end of the baffle is rotatably connected with the rack, and the free end of the baffle can rotate to a position above the transverse feeding belt.

3. The counting type subpackaging equipment for bulk alloys according to claim 1, wherein the material receiving mechanism further comprises a material receiving hopper, two ends of the material receiving hopper are open, one end of the material receiving hopper is connected with the transverse feeding belt, and the other end of the material receiving hopper is connected with the top of the material receiving barrel so as to send alloy block finished products to the material receiving barrel.

4. The counting type subpackaging equipment for bulk alloys according to claim 3, wherein the receiving bucket and the transverse feeding belt have a set height difference, and an arc-shaped baffle is arranged on one side of the top of the receiving bucket far away from the receiving bucket.

5. The counting type subpackaging equipment for bulk alloys according to claim 4, wherein the clamping mechanism comprises a driving mechanism, the output end of the driving mechanism is connected with a clamping arm, one end of the clamping arm is rotatably connected with the receiving bucket, and the other end of the clamping arm is fixed with an arc-shaped clamping plate.

6. The counting-type subpackaging equipment for bulk alloys according to claim 1, wherein a material receiving ton bag is arranged at the tail end of the transverse feeding belt.

7. A counting type subpackaging equipment for bulk alloys according to claim 1, wherein the conveying direction of the conveying belt is the same as that of the transverse feeding belt, an automatic bagging machine is arranged at the position, close to the tail end, of the conveying belt, the tail end of the conveying belt is arranged obliquely upwards, and an automatic ton bagging system is arranged at the tail end of the conveying belt.

8. The counting type subpackaging equipment for bulk alloys according to claim 4, wherein side plates on two sides of the receiving hopper are butted with the arc-shaped baffle plates.

9. The counting type subpackaging equipment for bulk alloys according to claim 1, further comprising a plurality of control buttons, each control button corresponds to one material receiving barrel, and the control buttons are in signal connection with the controller.

10. A working method of a counting-type subpackaging device for blocky alloys is characterized in that the counting-type subpackaging device for blocky alloys according to any one of claims 1 to 9 is adopted, and the counting-type subpackaging device for blocky alloys specifically comprises the following contents:

conveying the alloy block finished product along a transverse feeding belt, and pushing the alloy block finished product to a corresponding material receiving barrel by a corresponding baffle when the alloy block finished product reaches a specified position;

the counting system records the number of finished alloy block products passing through the receiving barrel, the clamping mechanism is loosened when the target number is reached, and the woven bag is conveyed to an automatic bag sewing machine through a conveying belt and falls into an automatic ton packaging system after being sewn;

the controller controls the action of the baffle plate, and after a new woven bag is sleeved under the material receiving barrel, the corresponding baffle plate participates in the work again;

alloy block finished products which are not pushed to the receiving hopper by the baffle fall into the receiving ton bag through the transverse feeding belt.

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