CN220616360U - Resistor ceramic matrix weighing and packing device - Google Patents

Abstract

The technical scheme of the utility model provides a resistor ceramic matrix weighing and packaging device, which comprises a conveyor belt and a queue weighing structure, wherein a surrounding baffle surrounding the outer periphery of the conveyor belt is arranged on the conveyor belt, a guide plate is arranged at one end of the conveyor belt, one end of the guide plate is close to one end of the conveyor belt, a blanking opening is formed between the other end of the guide plate and the side wall of the surrounding baffle, and the blanking opening is used for blanking; the queue weighing structure comprises a queue cylinder, a telescopic component, a connecting frame, a sealing plate and a weighing plate, wherein the queue cylinder is arranged right below the feed opening, and a gap is formed between the queue cylinder and the feed opening. According to the utility model, the resistor ceramic matrix is stacked in the queue weighing structure downwards through the blanking opening in a mode of forming the blanking opening between the enclosing shield and the conveyor belt, automatic weighing and blanking are performed, and packaging is performed by matching with the packing bag, so that the resistor ceramic matrix is automatically weighed and packaged in a packaging link, and the packaging efficiency is improved.

Description

Resistor ceramic matrix weighing and packing device

Technical Field

The utility model relates to the technical field of resistor ceramic matrix production, in particular to a resistor ceramic matrix weighing and packaging device.

Background

Resistive ceramics are ceramic materials with stable electrical properties, and are materials with certain resistance values, wherein a certain amount of resistive oxide is added into the materials. The resistor ceramic is mainly applied to the fields of electronics, instruments and meters, automatic control systems and the like, and is commonly used for manufacturing components such as resistors, potentiometers, thermistors, capacitors, inductors and the like. In the final stage of the production process, the resistor ceramic matrix needs to be weighed and packed.

The existing weighing and packing equipment, such as Chinese patent, is an automatic weighing and packing device with the issued publication number of CN 212354448U, and comprises a storage vat, a guide plate, a vibrating mechanism, a motor, a rotating roller, a lifting mechanism, an electronic scale and a controller, and is used for automatic weighing and packing of nuts.

In the production flow of the resistor ceramic matrix, the final weighing and packing are mostly performed manually, but other automatic weighing and packing such as nuts and the like are not suitable for the resistor ceramic matrix, so that the technical problem to be solved is how to automatically weigh and pack the resistor ceramic matrix in order to improve the production efficiency.

Disclosure of Invention

In view of the foregoing, it is necessary to provide a device for weighing and packaging a resistor ceramic matrix, which solves the technical problem of how to automatically weigh and package the resistor ceramic matrix in the prior art.

In order to achieve the technical purpose, the technical scheme of the utility model provides a resistor ceramic matrix weighing and packing device, which comprises:

the conveying belt is provided with a surrounding baffle which surrounds the outer periphery of the conveying belt, one end of the surrounding baffle is provided with a guide plate, one end of the guide plate is close to one end of the conveying belt, a blanking opening is formed between the other end of the guide plate and the side wall of the surrounding baffle, and the blanking opening is used for blanking;

the queue weighing structure comprises a queue cylinder, a telescopic assembly, a connecting frame, a sealing plate and a weighing plate, wherein the queue cylinder is arranged right below a feed opening, a gap is formed between the feed opening and the sealing plate, the sealing plate and the weighing plate are respectively arranged at the top end and the bottom end of the connecting frame, the connecting frame is arranged at the telescopic end of the telescopic assembly, the weighing plate and the sealing plate are respectively arranged at the bottom and the upper side of the queue cylinder, and the telescopic assembly is used for driving the sealing plate to be inserted and pulled out from the gap and driving the weighing plate to be moved away from the bottom of the queue cylinder and attached to the bottom of the queue cylinder when corresponding to the sealing plate.

Further, the device also comprises a base, and the conveyor belt and the telescopic assembly are both installed on the base.

Further, the packaging structure comprises a limiting frame, wherein the limiting frame is arranged at the top of the base and is positioned right below the queue cylinder, and the inner width of the limiting frame is equal to the inner width of the queue cylinder.

Further, the packing structure further comprises a conveying roller set, wherein the conveying roller set is arranged on the limiting frame and used for conveying the packing bags.

Further, two outer edges are arranged at the top of the packing bag.

Further, the conveying roller set comprises an L-shaped plate and rollers, a plurality of rollers are connected to the L-shaped plate in a rotating mode, and the outer edges are used for bypassing the top of the L-shaped plate and clamped between the rollers and the L-shaped plate for conveying.

Further, the telescopic assembly comprises a mounting frame and a hydraulic push rod, wherein the mounting frame is fixedly installed at the top of the base, and the hydraulic push rod is fixedly installed at the top of the mounting frame.

Further, the shape of the enclosure is U-shaped.

Further, the limiting frame comprises a bottom plate and limiting rods, wherein the bottom plate is fixedly arranged on the base, and the limiting rods are four in number and are symmetrically distributed in pairs.

Further, the weighing plate comprises a plate body and a weighing sensor, wherein the weighing sensor is connected with the bottom end of the connecting frame, and the plate body is arranged at the top of the weighing sensor.

Compared with the prior art, the utility model has the beneficial effects that: through the mode that forms the feed opening between enclosing fender and conveyer belt, stacks the resistance ceramic base member downwards in the queue weighing structure through the feed opening to carry out automatic weighing and unloading, and the cooperation is taken the bag and is packed, thereby in the packing link of resistance ceramic base member, automatic weighing packing promotes packing efficiency.

Drawings

FIG. 1 is a three-dimensional view of a resistor ceramic matrix weighing and packaging device according to an embodiment of the utility model;

FIG. 2 is a rear three-dimensional view of a resistive ceramic matrix weigh bagging apparatus according to an embodiment of the present utility model;

FIG. 3 is an elevation view of a resistive ceramic matrix weigh packaging apparatus according to an embodiment of the present utility model;

FIG. 4 is a front cross-sectional view of a resistive ceramic matrix weigh bagging apparatus according to an embodiment of the present utility model;

FIG. 5 is a front view of a bag according to an embodiment of the present utility model;

in the figure: 1. a conveyor belt; 101. a surrounding baffle; 102. a guide plate; 103. a feed opening;

2. a queue weighing structure; 21. a queue cylinder; 22. a telescoping assembly; 23. a connecting frame; 24. a sealing plate; 25. a weighing plate; 201. a gap; 221. a mounting frame; 222. a hydraulic push rod;

3. a packaging structure; 31. a limiting frame; 32. a conveying roller set; 311. a bottom plate; 312. a limit rod; 321. an L-shaped plate; 322. a roller;

4. a base;

5. packing bags; 501. and an outer edge.

Detailed Description

Preferred embodiments of the present utility model will now be described in detail with reference to the accompanying drawings, which form a part hereof, and together with the description serve to explain the principles of the utility model, and are not intended to limit the scope of the utility model.

As shown in fig. 1-5, the present utility model provides a resistor ceramic matrix weighing and packing device, which comprises a conveyor belt 1 and a queue weighing structure 2, wherein the resistor ceramic matrix is sequentially conveyed on the conveyor belt 1, for example, the resistor ceramic matrix is in a cuboid shape, transversely arranged and conveyed along the conveyor belt 1, and conveyed to the other end, and then is conveyed downwards into the queue weighing structure 2 for being arranged and weighed so as to facilitate subsequent packing. The conveyer belt 1 is provided with the circumference that surrounds conveyer belt 1 periphery keeps off 101, and the circumference keeps off 101 and is used for the shielding of side, prevents that resistance ceramic matrix from deviating from conveyer belt 1, the circumference keeps off 101 and is in the one end of conveyer belt 1 is provided with baffle 102, baffle 102's one end with the one end of conveyer belt 1 is pressed close, links up the unloading of conveyer belt 1, the other end with enclose and form feed opening 103 between the lateral wall of keeping off 101, the length and the width of feed opening 103 match with resistance ceramic matrix's length and width, feed opening 103 is used for the unloading, and when resistance ceramic matrix carried to conveyer belt 1 right-hand member, can push to baffle 102 on, baffle 102 downward sloping rightwards, then automatic rightwards whereabouts falls, and the right side wall that falls to circumference keeps off 101 then limits in feed opening 103 department, from feed opening 103 downwards, and follow-up resistance ceramic matrix then stacks in proper order on the preceding resistance ceramic matrix that falls. The queue weighing structure 2 comprises a queue cylinder 21, a telescopic component 22, a connecting frame 23, a sealing plate 24 and a weighing plate 25, wherein the queue cylinder 21 is arranged right below the blanking opening 103, the length and the width in the cylinder correspond to the length and the width of the resistor ceramic matrix in a long-strip cylindrical shape and are used for stacking the resistor ceramic matrix from top to bottom, a gap 201 is formed between the queue cylinder 21 and the blanking opening 103, and the gap 201 is used for blocking the subsequent resistor ceramic matrix when the sealing plate 24 is inserted. The sealing plate 24 and the weighing plate 25 are respectively arranged at the top end and the bottom end of the connecting frame 23, the connecting frame 23 is arranged at the telescopic end of the telescopic assembly 22, the weighing plate 25 and the sealing plate 24 are respectively arranged at the bottom and the side upper part of the queue cylinder 21, the telescopic assembly 22 is used for driving the sealing plate 24 to be inserted into and pulled out from the gap 201, and correspondingly, simultaneously driving the weighing plate 25 to be moved away from and attached to the bottom of the queue cylinder 21. When the telescopic assembly 22 pushes the sealing plate 24 to be inserted from the gap 201, the weighing plate 25 is pushed to be moved away from the bottom of the queue cylinder 21; conversely, when the telescopic assembly 22 pushes the sealing plate 24 to be pulled out from the gap 201, the weighing plate 25 is pushed to be attached to the bottom of the queue cylinder 21.

In this embodiment, the weighing and packaging device further comprises a base 4, the conveyor belt 1 and the telescopic assembly 22 are both installed on the base 4, and the bottom support of the conveyor belt 1 and the telescopic assembly 22 is performed through the base 4.

Further, in order to facilitate packaging, the weighing and packaging device further comprises a packaging structure 3 and a packaging bag 5, wherein the packaging structure 3 comprises a limiting frame 31, the limiting frame 31 is arranged at the top of the base 4 and is located right below the queue drum 21, and the inner width of the limiting frame 31 is equal to the inner width of the queue drum 21.

It can be understood that the limiting frame 31 is used for opening the bag 5 and making the opening of the bag right under the queue drum 21, and when the weighing plate 25 under the queue drum 21 is moved, the resistor ceramic matrix falls into the bag 5 in sequence for packing.

Further, for automatically conveying the packaging bags 5 for packaging, the packaging structure 3 further comprises a conveying roller set 32, and the conveying roller set 32 is arranged on the limiting frame 31 and is used for conveying the packaging bags 5.

Further, in order to facilitate the clamping and conveying of the bag 5 by the conveying roller set 32, two outer edges 501 are provided at the top of the bag 5, and the bag 5 can be positioned by clamping the two outer edges 501.

The conveying roller set 32 includes an L-shaped plate 321 and rollers 322, a plurality of rollers 322 are rotatably connected to the L-shaped plate 321, and the outer edge 501 is used for bypassing the top of the L-shaped plate 321 and clamping between the rollers 322 and the L-shaped plate 321 for conveying.

It can be understood that the L-shaped plate 321 is divided into a vertical plate and a horizontal plate, the roller 322 is arranged on the upper surface of the horizontal plate, a clamping gap is formed between the roller 322 and the vertical plate, the outer edge 501 is clamped into the gap, and the roller 322 rotates to convey the outer edge; the roller 322 is driven by a motor drive chain and a sprocket.

In this embodiment, in order to achieve the effect of telescopic control, the telescopic assembly 22 includes a mounting rack 221 and a hydraulic push rod 222, the mounting rack 221 is fixedly mounted at the top of the base 4, the hydraulic push rod 222 is fixedly mounted at the top of the mounting rack 221, wherein the connecting rack 23 is connected with the telescopic end of the hydraulic push rod 222, and the telescopic operation of the hydraulic push rod 222 can drive the mounting rack 221, the sealing plate 24 and the weighing plate 25 to synchronously move.

In this embodiment, the enclosure 101 is U-shaped, and is respectively blocked on the front, the back and the right side of the conveyor belt 1, where the right side is a blanking end.

In this embodiment, in order to limit stacking during packing, the limiting frame 31 includes a bottom plate 311 and limiting rods 312, the bottom plate 311 is fixedly mounted on the base 4, the number of the limiting rods 312 is four, and the limiting rods 312 are symmetrically distributed in pairs, and a limiting area is defined between the limiting rods 312 on two sides, so that the resistor ceramic substrates falling to the packing are stacked in sequence.

In this embodiment, for automatic control of packing, the weighing plate 25 includes a plate body and a weighing sensor, the weighing sensor is connected to the bottom end of the connecting frame 23, and the plate body is disposed on the top of the weighing sensor.

It will be appreciated that the weighing plate 25 and the telescopic assembly 22 are also controlled by a controller, which may be a PLC controller of the type FX3U-16MR-a, and may be simply controlled by conventional operation means in the art, which is not described in detail herein. When the weighing reaches the set weight, the hydraulic push rod 222 is started to push the sealing plate 24 to seal the top of the queue drum 21, the weighing plate 25 is moved away from the queue drum 21 to perform blanking and packaging, the blanking time is set back, the receiving weighing in the queue drum 21 is performed again, and the blanking and packaging are performed reciprocally.

The specific working procedure of the utility model is as follows: the resistor ceramic matrix is sequentially put on the conveyor belt 1 for conveying, sequentially reaches the guide plate 102 and slides to the discharging opening 103, enters the queue drum 21 from the discharging opening 103, is stacked from bottom to top, is weighed by the weighing plate 25, reaches a set range interval, starts the telescopic assembly 22, seals the sealing plate 24 at the bottom of the discharging opening 103, moves away the weighing plate 25, falls into the packing bag 5 below the resistor ceramic matrix stacked in the queue drum 21, is stacked and packed from bottom to top in the packing bag 5 under the limit of the limit frame 31, moves the packing bag 5 from the lower part of the queue drum 21 through the conveying roller group 32, simultaneously transfers the subsequent packing bag 5 to the position right below the queue drum 21, returns the sealing plate 24 and the weighing plate 25 to the original position through the telescopic assembly 22, and carries out next packing, and the automatic packing is carried out in a circulating and reciprocating mode according to the principle.

The entire workflow is completed and what is not described in detail in this specification is well known to those skilled in the art.

The present utility model is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present utility model are intended to be included in the scope of the present utility model.

Claims (10)

1. The utility model provides a resistance ceramic base member packing apparatus that weighs which characterized in that includes:

the conveying belt is provided with a surrounding baffle which surrounds the outer periphery of the conveying belt, one end of the surrounding baffle is provided with a guide plate, one end of the guide plate is close to one end of the conveying belt, a blanking opening is formed between the other end of the guide plate and the side wall of the surrounding baffle, and the blanking opening is used for blanking;

the queue weighing structure comprises a queue cylinder, a telescopic assembly, a connecting frame, a sealing plate and a weighing plate, wherein the queue cylinder is arranged right below a feed opening, a gap is formed between the feed opening and the sealing plate, the sealing plate and the weighing plate are respectively arranged at the top end and the bottom end of the connecting frame, the connecting frame is arranged at the telescopic end of the telescopic assembly, the weighing plate and the sealing plate are respectively arranged at the bottom and the upper side of the queue cylinder, and the telescopic assembly is used for driving the sealing plate to be inserted and pulled out from the gap and driving the weighing plate to be moved away from the bottom of the queue cylinder and attached to the bottom of the queue cylinder when corresponding to the sealing plate.

2. The resistive ceramic matrix weighing and packing apparatus of claim 1 further comprising a base, wherein the conveyor belt and the telescoping assembly are both mounted on the base.

3. The resistor ceramic matrix weighing and packing device according to claim 2, further comprising a packing structure and a packing bag, wherein the packing structure comprises a limiting frame, the limiting frame is arranged at the top of the base and is located right below the queue cylinder, and the inner width of the limiting frame is equal to the inner width of the queue cylinder.

4. The resistor ceramic matrix weighing and packing device according to claim 3, wherein the packing structure further comprises a conveying roller set, and the conveying roller set is arranged on the limiting frame and used for conveying the packing bags.

5. The resistor ceramic matrix weighing and packing device according to claim 4, wherein the top of the packing bag is provided with two outer edges.

6. The resistive ceramic matrix weighing and packing device according to claim 5, wherein the conveying roller set comprises an L-shaped plate and rollers, a plurality of rollers are rotatably connected to the L-shaped plate, and the outer edge is used for bypassing the top of the L-shaped plate and being clamped between the rollers and the L-shaped plate for conveying.

7. The resistive ceramic matrix weighing and packaging device of claim 6, wherein the telescoping assembly comprises a mounting bracket and a hydraulic ram, the mounting bracket is fixedly mounted on top of the base, and the hydraulic ram is fixedly mounted on top of the mounting bracket.

8. The resistive ceramic matrix weighing and packing apparatus of claim 7 wherein the enclosure is U-shaped in shape.

9. The resistor ceramic matrix weighing and packing device according to claim 8, wherein the limiting frame comprises a bottom plate and limiting rods, the bottom plate is fixedly mounted on the base, and the number of the limiting rods is four and symmetrically distributed in pairs.

10. The resistive ceramic matrix weighing and packing device according to claim 9, wherein the weighing plate comprises a plate body and a weighing sensor, the weighing sensor is connected with the bottom end of the connecting frame, and the plate body is arranged at the top of the weighing sensor.