CN215966623U - Cutting equipment for ball-milling cast iron with dust collection function - Google Patents

Abstract

The utility model discloses a cutting device with dust collecting function for ball-milling cast iron, which comprises a frame body and a cutting device, and also comprises: the dust collecting and accommodating assembly is arranged on the frame body and is used for collecting and processing dust generated by the cutting device during working in a centralized manner; the scrap collecting assembly is arranged on the frame body and is used for collecting metal scraps generated by the cutting device during operation in a centralized manner; the device comprises a frame body, a dust collecting assembly and a scrap collecting assembly, wherein the frame body is provided with a dust collecting hole, the scrap collecting assembly is arranged on the frame body, the dust collecting assembly is arranged on the frame body, the scrap collecting assembly is arranged on the frame body, the dust collecting assembly is connected with the scrap collecting assembly, and the scrap collecting assembly is arranged on the frame body.

Description

Cutting equipment for ball-milling cast iron with dust collection function

Technical Field

The utility model relates to the field of cast iron processing, in particular to a cutting device for ball-milling cast iron with a dust collecting function.

Background

The nodular cast iron is a high-strength cast iron material developed in the 20 th century and the fifties, the comprehensive performance of the nodular cast iron material is close to that of steel, and the nodular cast iron material has been successfully used for casting parts which are complex in stress and high in requirements on strength, toughness and wear resistance based on the excellent performance of the nodular cast iron material. Ductile iron has rapidly evolved to a very widely used cast iron material second only to gray cast iron. The 'steel is replaced by iron', the 'steel is mainly nodular cast iron', the nodular cast iron is generally required to be cut into nodular cast iron raw materials with different lengths in the production process of the nodular cast iron, the nodular cast iron is very easy to generate a large amount of dust and metal fragments in the cutting process, if the dust and the metal fragments are timely treated, the dust and the metal fragments can affect human health and the working environment of people, the existing cutting equipment for the nodular cast iron does not have the function of dust accumulation, and the dust and the metal fragments generated in the cutting process cannot be effectively classified and collected.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide cutting equipment for nodular cast iron with a dust collecting function, and aims to solve the problems that the cutting equipment for nodular cast iron in the prior art does not have the function of dust accumulation and cannot effectively classify and collect dust and metal fragments generated during cutting, so that the dust accumulation and the metal fragments are inconvenient to carry out subsequent treatment.

In order to achieve the purpose, the utility model provides the following technical scheme:

the utility model provides a cutting equipment for ball-milling cast iron with collection dirt function, includes support body and cutting device, still includes:

the dust collecting and accommodating assembly is arranged on the frame body and is used for collecting and processing dust generated by the cutting device during working in a centralized manner;

the scrap collecting assembly is arranged on the frame body and is used for collecting metal scraps generated by the cutting device during operation in a centralized manner;

the driving mechanism is arranged on the frame body and is respectively connected with the dust collecting and accommodating component and the scrap collecting component, and the driving mechanism is used for driving the dust collecting and accommodating component to reciprocate left and right to automatically clean the dust collecting and accommodating component and simultaneously driving the scrap collecting component to vibrate up and down in a reciprocating manner to accelerate the collection efficiency of metal scraps;

in one alternative: laying dust storage assembly is including carrying out air inlet subassembly and No. two filter screens of supplying air, be provided with the material collecting port on the support body, be provided with the laying dust chamber in the support body just be provided with the fixed support body of detachable on the inside wall in laying dust chamber, be provided with a plurality of clean brushes on the fixed support body, No. two filter screen slidable mounting just on the inboard in laying dust chamber be provided with No. two springs between No. two filter screen tip and the laying dust chamber lateral wall, No. two filter screen lateral walls are connected with actuating mechanism and another lateral wall of No. two filter screens contacts with a plurality of clean brushes, a tip of air inlet subassembly is installed on the support body and another tip of air inlet subassembly is connected with the laying dust chamber.

In one alternative: the air inlet assembly comprises an air feeder and a dust collection cover, a side baffle is arranged on the side wall of the frame body, the dust collection cover is installed on the side baffle, a first filter screen is arranged on the dust collection cover, the air feeder is installed on the frame body, one end of the air feeder is connected with one end of the dust collection cover, and the other end of the air feeder is connected with the dust collection cavity.

In one alternative: the scrap collecting assembly comprises a scrap collecting box and a partition plate, the scrap collecting box is installed on the frame body, the partition plate is installed on the inner side wall of the frame body in a sliding mode and provided with a plurality of springs between the side wall of the partition plate and the side wall of the frame body, one end portion of the partition plate is connected with the scrap collecting box, and one side wall of the partition plate is connected with the driving mechanism.

In one alternative: actuating mechanism includes two-way motor, two-way motor installs on the inside wall of support body, be provided with a connecting block just on the lateral wall of baffle a lateral wall of connecting block is the wave setting, is provided with No. two connecting blocks just on two-way motor's an output shaft a lateral wall of No. two connecting blocks and the wave lateral wall meshing contact of a connecting block, be provided with fixed connection's fixed plate with it on No. two lateral walls of filter screen, be provided with the cam just on another output of two-way motor the cam lateral wall contacts with the fixed plate lateral wall.

In one alternative: the dust collecting chamber is internally provided with a dust collecting drawer which is connected with the dust collecting chamber in a sliding manner, the cutting device is arranged on the side wall of the frame body, and a base used for fixing the whole device is arranged on the side wall of the frame body.

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

in the utility model, the dust collecting and accommodating component and the scrap collecting component are arranged, when the whole device works, the cutting device starts to cut the nodular cast iron on the frame body, at this time, the dust collecting component starts to work and collects and filters dust generated when the cutting device works, the filtered air is discharged again, meanwhile, metal scraps generated during cutting of the cutting device fall onto the scrap collecting assembly, the dust collecting assembly is driven to reciprocate left and right when the driving mechanism starts to work so as to carry out self-cleaning, simultaneously actuating mechanism will drive the piece and collect the subassembly and carry out reciprocating vibration from top to bottom in the time of work and accelerate the piece and collect the subassembly and to metal clastic collection efficiency, in the time of whole device work, can carry out effectual categorised collection with the metal clastic and the dust that produce during the cutting, make follow-up processing more convenient.

Drawings

Fig. 1 is an overall schematic view of an embodiment of the present invention.

Fig. 2 is an enlarged schematic view at a in one embodiment of the present invention.

Fig. 3 is a schematic structural view of a fixing frame according to an embodiment of the present invention.

Notations for reference numerals: the dust collecting device comprises a base 1, a frame body 2, a cutting device 3, a material collecting opening 4, a partition plate 5, a first spring 6, a dust collecting cover 7, a first filter screen 8, a blower 9, a dust collecting cavity 10, a dust collecting drawer 11, a debris collecting box 12, a fixed frame body 13, a cleaning brush 14, a second filter screen 15, a fixed plate 16, a cam 17, a first connecting block 18, a two-way motor 20, a second spring 21, a side baffle 22 and a second connecting block 23.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments; in the drawings or the description, the same reference numerals are used for similar or identical parts, and the shape, thickness or height of each part may be enlarged or reduced in practical use. The examples are given solely for the purpose of illustration and are not intended to limit the scope of the utility model. Any obvious modifications or variations can be made to the present invention without departing from the spirit or scope of the present invention.

In one embodiment, as shown in fig. 1, the cutting device includes a frame body 2 and a cutting device 3, and further includes:

the dust collecting and accommodating assembly is arranged on the frame body 2 and is used for collecting and processing dust generated by the cutting device 3 during working in a centralized manner;

the scrap collecting assembly is arranged on the frame body 2 and is used for collecting metal scraps generated when the cutting device 3 works in a centralized manner;

the driving mechanism is arranged on the frame body 2 and is respectively connected with the dust collecting and accommodating component and the scrap collecting component, and the driving mechanism is used for driving the dust collecting and accommodating component to reciprocate left and right to automatically clean the dust collecting and accommodating component and simultaneously driving the scrap collecting component to vibrate up and down in a reciprocating manner to accelerate the collection efficiency of metal scraps;

when the whole device works, the cutting device 3 starts to cut the ball-milling cast iron on the frame body 2, at this time, the dust accumulation assembly starts to work, dust generated when the cutting device 3 works is collected and filtered, air after filtering is discharged, metal debris generated when the cutting device 3 cuts falls onto the debris collection assembly, at this time, the driving mechanism starts to work, the dust accumulation containing assembly is driven to reciprocate left and right to enable the dust accumulation containing assembly to be self-cleaned when the driving mechanism starts to work, the debris collection assembly is driven to vibrate up and down in a reciprocating mode when the driving mechanism works to accelerate the collection efficiency of the debris collection assembly for the metal debris, when the whole device works, the metal debris and the dust generated during cutting can be effectively classified and collected, the subsequent treatment is more convenient and fast, and as an embodiment, the left, right, up and down positions of all components shown in the attached drawings are only one arrangement mode, and the specific positions are set according to specific requirements;

in one embodiment, as shown in fig. 1-2, the dust collecting storage assembly includes an air inlet assembly and a second filter screen 15 for supplying air, the frame body 2 is provided with a material collecting port 4, the frame body 2 is provided with a dust collecting chamber 10, a detachable fixing frame body 13 is arranged on the inner side wall of the dust collecting chamber 10, the fixing frame body 13 is provided with a plurality of cleaning brushes 14, the second filter screen 15 is slidably mounted on the inner side of the dust collecting chamber 10, a second spring 21 is arranged between the end portion of the second filter screen 15 and the side wall of the dust collecting chamber 10, one side wall of the second filter screen 15 is connected with a driving mechanism, the other side wall of the second filter screen 15 is in contact with the plurality of cleaning brushes 14, one end portion of the air inlet assembly is mounted on the frame body 2, the other end portion of the air inlet assembly is connected with the dust collecting chamber 10, when the cutting device 3 starts to work, the air inlet assembly starts to work and feeds dust generated when the cutting device 3 works into the dust collecting chamber 10, the second filter screen 15 filters air sent into the dust accumulation cavity 10, dust after filtering is left in the dust accumulation cavity 10, meanwhile, when the driving mechanism starts to work, the second filter screen 15 is driven to slide on the side wall of the dust accumulation cavity 10 in a reciprocating mode, and at the moment, the dust on the side wall of the second filter screen 15 is cleaned by the cleaning brushes 14 on the fixed frame body 13, so that the dust accumulation on the second filter screen 15 is prevented from affecting the filtering effect of the second filter screen 15;

in one embodiment, as shown in fig. 1, the air intake assembly includes a blower 9 and a dust collection cover 7, a side baffle 22 is disposed on a side wall of the frame body 2, the dust collection cover 7 is mounted on the side baffle 22, a first filter screen 8 is disposed on the dust collection cover 7, the blower 9 is mounted on the frame body 2, one end of the blower 9 is connected with one end of the dust collection cover 7, and the other end of the blower 9 is connected with the dust deposition chamber 10, when the blower 9 starts to work, dust generated during the operation of the cutting device 3 is sent into the dust deposition chamber 10 for filtering, and part of splashed metal debris is blocked by the first filter screen 8 and falls onto the debris collection assembly;

in one embodiment, as shown in fig. 1-2, the debris collection assembly comprises a debris collection box 12 and a partition plate 5, the debris collection box 12 is mounted on the frame body 2, the partition plate 5 is slidably mounted on the inner side wall of the frame body 2, a plurality of springs 6 are arranged between the side wall of the partition plate 5 and the side wall of the frame body 2, one end of the partition plate 5 is connected with the debris collection box 12, one side wall of the partition plate 5 is connected with a driving mechanism, when the cutting device 3 starts to work, generated debris falls onto the partition plate 5 from the material collection port 4, and when the driving mechanism works, the partition plate 5 is driven to vibrate up and down on the inner side wall of the frame body 2, so that metal debris falling onto the partition plate 5 can rapidly fall into the debris collection box 12 for collection;

in one embodiment, as shown in fig. 1-2, the driving mechanism includes a bi-directional motor 20, the bi-directional motor 20 is installed on the inner sidewall of the frame body 2, a first connecting block 18 is disposed on a sidewall of the partition plate 5 and a sidewall of the first connecting block 18 is disposed in a wave shape, a second connecting block 23 is disposed on an output shaft of the bi-directional motor 20 and a sidewall of the second connecting block 23 is in meshing contact with the wave-shaped sidewall of the first connecting block 18, a fixing plate 16 is disposed on a sidewall of the second filter screen 15 and is fixedly connected to the first filter screen, a cam 17 is disposed on the other output end of the bi-directional motor 20 and a sidewall of the cam 17 is in contact with a sidewall of the fixing plate 16, when the bi-directional motor 20 starts to operate, the second connecting block 23 is driven to rotate, the first connecting block 18 in contact with the second connecting block 23 drives the partition plate 5 to vibrate up and down on the inner sidewall of the frame body 2, meanwhile, when the bidirectional motor 20 works, the cam 17 is driven to rotate, and when the cam 17 rotates, the second filter screen 15 is driven to slide on the inner side wall of the frame body 2 in a reciprocating manner by the fixing plate 16 in contact with the cam;

in one embodiment, as shown in fig. 1, a dust collection drawer 11 slidably connected with the dust collection chamber 10 is arranged in the dust collection chamber, the cutting device 3 is arranged on a side wall of the frame body 2, and a base 1 for fixing the whole device is arranged on the side wall of the frame body 2, when the whole device works, the whole device is firstly placed through the base 1, dust collected by the dust collection assembly falls into the dust collection drawer 11, and the dust collection drawer 11 can be taken out of the dust collection chamber 10 for cleaning;

the above description is only for the specific embodiments of the present disclosure, but the scope of the present disclosure is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present disclosure, and all the changes or substitutions should be covered within the scope of the present disclosure. Therefore, the protection scope of the present disclosure shall be subject to the protection scope of the claims.

Claims (6)

1. The utility model provides a cutting equipment for ball-milling cast iron with collection dirt function, includes support body and cutting device, its characterized in that still includes:

the dust collecting and accommodating assembly is arranged on the frame body and is used for collecting and processing dust generated by the cutting device during working in a centralized manner;

the scrap collecting assembly is arranged on the frame body and is used for collecting metal scraps generated by the cutting device during operation in a centralized manner;

the driving mechanism is arranged on the frame body and is respectively connected with the accumulated dust storage assembly and the debris collection assembly, and the driving mechanism is used for driving the accumulated dust storage assembly to reciprocate left and right to enable the accumulated dust storage assembly to carry out self-cleaning and simultaneously is used for driving the debris collection assembly to carry out up-and-down reciprocating vibration to accelerate the collection efficiency of the metal debris.

2. The cutting equipment with the dust collecting function for the ball-milling cast iron of claim 1, characterized in that, the laying dust collecting assembly comprises an air inlet assembly and a second filter screen, wherein the air inlet assembly is used for supplying air, a material collecting port is arranged on the frame body, a dust collecting cavity is arranged in the frame body, a detachable fixing frame body is arranged on the inner side wall of the dust collecting cavity, a plurality of cleaning brushes are arranged on the fixing frame body, the second filter screen is slidably arranged on the inner side of the dust collecting cavity, a second spring is arranged between the end part of the second filter screen and the side wall of the dust collecting cavity, one side wall of the second filter screen is connected with a driving mechanism, the other side wall of the second filter screen is in contact with the cleaning brushes, one end part of the air inlet assembly is arranged on the frame body, and the other end part of the air inlet assembly is connected with the dust collecting cavity.

3. The cutting equipment with the dust collecting function for the ball-milling cast iron as claimed in claim 2, wherein the air intake assembly comprises an air blower and a dust collection cover, a side baffle is arranged on the side wall of the frame body, the dust collection cover is mounted on the side baffle, a first filter screen is arranged on the dust collection cover, the air blower is mounted on the frame body, one end of the air blower is connected with one end of the dust collection cover, and the other end of the air blower is connected with the dust deposition chamber.

4. The cutting apparatus for nodular cast iron having dust collecting function of claim 2, wherein the debris collecting assembly comprises a debris collecting box and a partition plate, the debris collecting box is installed on the frame body, the partition plate is slidably installed on the inner side wall of the frame body, a plurality of springs are arranged between the side wall of the partition plate and the side wall of the frame body, one end of the partition plate is connected with the debris collecting box, and one side wall of the partition plate is connected with the driving mechanism.

5. The cutting equipment with the dust collecting function for ball-milling cast iron according to claim 4, wherein the driving mechanism comprises a bidirectional motor, the bidirectional motor is installed on the inner side wall of the frame body, a first connecting block is arranged on one side wall of the partition plate, one side wall of the first connecting block is in a wave shape, a second connecting block is arranged on an output shaft of the bidirectional motor, one side wall of the second connecting block is in meshing contact with the wave-shaped side wall of the first connecting block, a fixing plate fixedly connected with the second connecting block is arranged on one side wall of the second filter screen, a cam is arranged on the other output end of the bidirectional motor, and the cam side wall is in contact with the side wall of the fixing plate.

6. The cutting apparatus for nodular cast iron with dust collecting function of claim 3, wherein the dust collecting chamber is provided with a dust collecting drawer connected with the dust collecting chamber in a sliding manner, the cutting device is arranged on the side wall of the frame body, and the side wall of the frame body is provided with a base for fixing the whole apparatus.

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