CN112223426A - Multi-angle cutting device is used in processing of instrument shell - Google Patents

Abstract

The invention discloses a multi-angle cutting device for processing an instrument shell, which comprises a cutting base and a cutting mechanism movably connected with the cutting base through a sliding rail, wherein the outer surface of the upper end of the cutting base is provided with a cutting table, the outer surface of the upper end of the cutting base is provided with a guide chute, a master control box is arranged at the position, close to one side, of the outer surface of the front end of the cutting base, and a cleaning door is hinged at the position, close to the other side, of the outer surface of the front end of the cutting; the cutting mechanism comprises two brake boxes, a sliding bin and a laser cutting head, wherein the sliding bin and the laser cutting head are arranged between the two brake boxes, a cutting track is arranged inside the sliding bin, a mounting seat used for mounting the laser cutting head is arranged outside the cutting track, and an ash removal spray head and a dust sensor are fixedly mounted outside the mounting seat; and an air storage tank is also arranged in the sliding bin. The invention can timely treat dust generated in the cutting process and can remind a user of timely treating waste materials.

Description

Multi-angle cutting device is used in processing of instrument shell

Technical Field

The invention relates to the field of cutting devices, in particular to a multi-angle cutting device for processing an instrument shell.

Background

The pressure gauge is a meter which takes an elastic element as a sensitive element and measures and indicates the pressure higher than the ambient pressure, is very commonly applied and almost extends to all the fields of industrial processes and scientific researches. The method is widely available in the fields of heating power pipe networks, oil and gas transmission, water and gas supply systems, vehicle maintenance plants and shops and the like. Especially in industrial process control and technical measurement process, because the elasticity sensing element of mechanical type manometer has characteristics such as very high mechanical strength and production convenience for mechanical type manometer obtains more and more extensive application for mechanical type manometer, the manometer shell is used for installing the manometer and protects the manometer, lets the manometer avoid the harm, and the manometer shell can use multi-angle cutting device to cut out the manometer shell on the raw materials in process of production.

Current multi-angle cutting device can produce the dust at the cutting in-process, causes environmental pollution easily to when cutting waste material gathering is too much, the user can't in time discover and handle, has brought certain influence for multi-angle cutting device's use, consequently, provides a multi-angle cutting device is used in instrument case processing.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: how to solve current multi-angle cutting device, can produce the dust in cutting process, cause environmental pollution easily to when cutting waste material gathering is too much, the user can't in time discover and handle, has brought the problem of certain influence for multi-angle cutting device's use, provides a multi-angle cutting device is used in instrument housing processing.

The cutting mechanism comprises a cutting base and the cutting mechanism, wherein the cutting mechanism is movably connected with the cutting base through a sliding rail, a cutting table with a material guide groove formed in the outer surface is arranged on the outer surface of the upper end of the cutting base, a master control box is arranged on the position, close to one side, of the outer surface of the front end of the cutting base, and a cleaning door is hinged to the position, close to the other side, of the outer surface of the front end of the cutting base;

the cutting mechanism comprises two brake boxes, a sliding bin and a laser cutting head, wherein the sliding bin and the laser cutting head are arranged between the two brake boxes, a cutting track is arranged inside the sliding bin, a mounting seat used for mounting the laser cutting head is arranged outside the cutting track, and an ash removal spray head and a dust sensor are fixedly mounted outside the mounting seat;

the inside of the sliding bin is also provided with an air storage tank, and the inside of the brake box is provided with a brake motor;

a receiving groove is formed in the cutting base, a waste material box is arranged in the receiving groove, a pressure sensor and a tray are arranged in the waste material box, and the tray is arranged at the top end of the pressure sensor;

the dust concentration monitoring system comprises a main control box, a dust sensor, a dust;

the data processing module is used for processing the received dust concentration information, the first pressure information and the second pressure information to generate gas injection information and ash removal information, the gas injection information and the ash removal information are sent to the master control module, and the master control module converts the gas injection information and the ash removal information into a gas injection instruction and an ash removal instruction method and sends the gas injection instruction and the ash removal instruction method to the instruction sending module;

the instruction sending module is used for sending the air injection instruction to the ash removal spray head and sending the ash removal instruction to the display terminal on the master control box.

Preferably, both ends of the tray are provided with auxiliary members.

Preferably, the auxiliary member includes an auxiliary pulley having a mounting groove and a rotation shaft coupled to an inside of the mounting groove.

Preferably, the bottom end of the inner part of the receiving groove is provided with a sliding seat for assisting discharging.

Preferably, a sliding groove is formed in the sliding seat, a sliding wheel is connected to a rotating shaft in the sliding groove, the number of the sliding seats is two, and the sliding seats are arranged in parallel.

Preferably, an air pipe used for communicating the ash cleaning spray head and the air storage tank is arranged between the ash cleaning spray head and the air storage tank.

Preferably, the specific processing procedure of the jet information is as follows:

the method comprises the following steps: extracting collected dust concentration information, marking the collected dust concentration information as Fg, and continuously collecting the dust concentration information Fg for x times, wherein x is more than or equal to 3;

step two: through division into Fg1+ Fg2 … … + Fgx ═ Fg_Andthe dust concentration and Fg were obtained_And；

step three: after passing through the formula Fg_And/x＝Fg_{are all made of}Obtaining the average value Fg of the dust concentration_{Are all made of}；

Step four: when Fg_{Are all made of}Generating air injection information when the concentration is greater than the preset concentration;

the gas injection information is converted into a gas injection instruction and then is sent to the ash cleaning spray head (12), and the ash cleaning spray head (12) operates to release gas in the gas storage tank (14) and spray the gas.

Preferably, the specific outbound process of the ash removal information is as follows:

the method comprises the following steps: proposing first pressure information and second pressure information, which are respectively high-level as Yj1 and Yj 2;

step two: calculating the sum of the first pressure information Yj1 and the second pressure information Yj2 to obtain a pressure sum Yj_And；

step three: by the formula Yj_And/2＝Yj_{are all made of}Obtaining the pressure mean value Yj_{Are all made of}；

Step four: when mean pressure value Yj_{Are all made of}When the pressure is higher than the preset pressure, A1 is used for generating ash cleaning information, when any one of the first pressure information Yj1 and the second pressure information Yj2 is higher than a preset pressure value A2, the ash cleaning information is generated, and when the pressure is higher than the preset pressure value A, A1 is less than the preset pressure value A;

the ash removal information is processed into an ash removal instruction and sent to a display terminal on the master control box, and the display terminal displays a word of 'please clean up waste materials in time'.

Compared with the prior art, the invention has the following advantages:

1. this multi-angle cutting device is used in instrument shell processing through having set up the dust concentration of dust sensing real-time supervision cutting process, when dust concentration was too high, control deashing shower nozzle operation promptly, and the operation of deashing shower nozzle is with the gaseous high-pressure gas blowout in the gas holder, with the dust towards the cutting bed, during the baffle box that passes through on the cutting bed fell into waste material box, this kind of setting can effectual reduction gathering the diffuse situation of sending dust in cutting process. The cutting state can be clearly checked by a user, so that the cutting adjustment is carried out, the device is more environment-friendly, and the dust pollution generated during the operation of the device is reduced;

2. simultaneously the waste material that the cutting process produced can fall into the tray in the waste material box through the baffle box on, can drive the tray and push down when the waste material is stored up, tray extrusion pressure sensor, handle through the pressure information that produces pressure sensor, generate tip information when the waste material is too much, the user can open the clearance door after seeing tip information and take out whole waste material box from the cutting base through the convenience of sliding seat and clear up, this kind of setting effectively avoids the waste material to store up the trouble situation of clearance that too much leads to and takes place, let the device be worth using widely more.

Drawings

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is an overall view of the cutting mechanism of the present invention;

FIG. 3 is an internal view of the cutting mechanism of the present invention;

FIG. 4 is an interior view of the cutting base of the present invention;

FIG. 5 is a block diagram of the general control box structure of the present invention.

In the figure: 1. cutting the base; 2. a cutting mechanism; 21. a sliding bin; 3. a slide rail; 4. cutting table; 5. a master control box; 6. cleaning the door; 7. a brake box; 8. braking the motor; 9. cutting the track; 10. a mounting seat; 11. a laser cutting head; 12. a soot cleaning nozzle; 13. a dust sensor; 14. a gas storage tank; 15. a receiving groove; 16. a waste material box; 17. a pressure sensor; 18. a tray; 19. a sliding seat.

Detailed Description

The following examples are given for the detailed implementation and specific operation of the present invention, but the scope of the present invention is not limited to the following examples.

As shown in fig. 1 to 5, the present embodiment provides a technical solution: a multi-angle cutting device for processing an instrument shell comprises a cutting base 1 and a cutting mechanism 2 movably connected with the cutting base 1 through a slide rail 3, wherein the outer surface of the upper end of the cutting base 1 is provided with a cutting table 4 with a guide chute on the outer surface, the position, close to one side, of the outer surface of the front end of the cutting base 1 is provided with a master control box 5, and the position, close to the other side, of the outer surface of the front end of the cutting base 1 is hinged with a cleaning door 6;

the cutting mechanism 2 adjusts the cutting position by sliding the slide rail 3 back and forth on the cutting base 1, the shell raw material of the pressure gauge to be cut is placed on the cutting table 4, the waste materials generated in the cutting process all fall into the guide chute, a user controls the operation of the whole device through the master control box 5, and the waste materials can be cleaned by opening the cleaning door 6;

the cutting mechanism 2 comprises two brake boxes 7, a sliding bin 21 and a laser cutting head 11 which are arranged between the two brake boxes 7, a cutting track 9 is arranged inside the sliding bin 21, a mounting seat 10 for mounting the laser cutting head 11 is arranged outside the cutting track 9, and an ash cleaning spray head 12 and a dust sensor 13 are fixedly mounted outside the mounting seat 10;

the inside of the sliding bin 21 is also provided with an air storage tank 14, and the inside of the brake box 7 is provided with a brake motor 8;

a brake motor 8 in the brake box 7 is used for driving the brake box 7 and a laser cutting head 11 to move back and forth and left and right, the laser cutting head 11 is used for carrying out multi-angle cutting treatment on the raw material of the shell of the pressure gauge, a dust sensor 13 can collect dust concentration information in real time in the cutting process, and an ash cleaning spray head 12 is used for spraying gas in a gas storage tank 14 when receiving an ash cleaning instruction to carry out ash cleaning operation;

a receiving groove 15 is formed in the cutting base 1, a waste material box 16 is arranged in the receiving groove 15, a pressure sensor 17 and a tray 18 are arranged in the waste material box 16, and the tray 18 is arranged at the top end of the pressure sensor 17;

the waste material box 16 in the receiving groove 15 is used for receiving waste materials, the waste materials can fall onto the tray 18 in the waste material box 16 through the guide groove, the tray 18 can be driven to press down when the waste materials are accumulated, the tray 18 extrudes the pressure sensor 17, the pressure information generated by the pressure sensor 17 is processed, prompt information is generated when the waste materials are excessive, a user can open the cleaning door 6 to conveniently draw out the whole waste material box 16 from the cutting base 1 through the sliding seat 19 to clean after seeing the prompt information, and the situation that the waste materials are accumulated excessively to cause cleaning trouble is effectively avoided through the arrangement;

a data receiving module, a data processing module, a master control module and an instruction sending module are arranged in the master control box 5, wherein the data receiving module is used for receiving the dust concentration information collected by the dust sensor 13 and the first pressure information and the second pressure information collected by the two pressure sensors 17 and sending the dust concentration information, the first pressure information and the second pressure information to the data processing module;

the data processing module is used for processing the received dust concentration information, the first pressure information and the second pressure information to generate gas injection information and ash removal information, the gas injection information and the ash removal information are sent to the master control module, and the master control module converts the gas injection information and the ash removal information into a gas injection instruction and an ash removal instruction method and sends the gas injection instruction and the ash removal instruction method to the instruction sending module;

the instruction sending module is used for sending the air injection instruction to the ash removal spray head 12 and sending the ash removal instruction to the display terminal on the master control box 5.

Both ends of the tray 18 are provided with auxiliary members.

The auxiliary part comprises an installation groove and an auxiliary pulley connected with the rotating shaft in the installation groove;

the auxiliary pulley can reduce the friction force between the tray 18 and the inner wall of the waste material box 16, and pressure data acquired by the friction force image pressure sensor 17 between the tray 18 and the inner wall of the waste material box 16 is avoided.

The inner bottom end of the receiving groove 15 is provided with a sliding seat 19 for assisting discharging.

A sliding groove is formed in the sliding seat 19, a sliding wheel is connected to a rotating shaft in the sliding groove, the number of the sliding seats 19 is two, and the sliding seats 19 are arranged in parallel;

the sliding wheel arranged in the sliding seat 19 can be used for more conveniently drawing out the cutting base 1 in the waste material box 16 for cleaning.

An air pipe used for communicating the ash cleaning spray head 12 and the air storage tank 14 is arranged between the ash cleaning spray head 12 and the air storage tank 14.

The specific processing procedure of the jet information is as follows:

the method comprises the following steps: extracting collected dust concentration information, marking the collected dust concentration information as Fg, and continuously collecting the dust concentration information Fg for x times, wherein x is more than or equal to 3;

step two: through division into Fg1+ Fg2 … … + Fgx ═ Fg_Andthe dust concentration and Fg were obtained_And；

step three: after passing through the formula Fg_And/x＝Fg_{are all made of}Obtaining the average value Fg of the dust concentration_{Are all made of}；

Step four: when Fg_{Are all made of}Generating air injection information when the concentration is greater than the preset concentration;

the gas injection information is converted into a gas injection command and then sent to the ash removal spray head 12, and the ash removal spray head 12 operates to release gas in the gas storage tank 14 and spray the gas.

The specific outbound process of the ash removal information is as follows:

the method comprises the following steps: proposing first pressure information and second pressure information, which are respectively high-level as Yj1 and Yj 2;

step two: calculating the sum of the first pressure information Yj1 and the second pressure information Yj2 to obtain a pressure sum Yj_And；

step three: by the formula Yj_And/2＝Yj_{are all made of}Obtaining the pressure mean value Yj_{Are all made of}；

Step four: when mean pressure value Yj_{Are all made of}When the pressure is higher than the preset pressure, A1 is used for generating ash cleaning information, when any one of the first pressure information Yj1 and the second pressure information Yj2 is higher than a preset pressure value A2, the ash cleaning information is generated, and when the pressure is higher than the preset pressure value A, A1 is less than the preset pressure value A;

the ash removal information is processed into an ash removal instruction and sent to a display terminal on the master control box 5, and the display terminal displays the character of 'please clean up waste materials in time'.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (8)

1. A multi-angle cutting device for processing an instrument shell comprises a cutting base (1) and a cutting mechanism (2) movably connected with the cutting base (1) through a sliding rail (3), wherein the outer surface of the upper end of the cutting base (1) is provided with a cutting table (4) with a material guide groove on the outer surface, a master control box (5) is arranged at the position, close to one side, of the outer surface of the front end of the cutting base (1), and a cleaning door (6) is hinged at the position, close to the other side, of the outer surface of the front end of the cutting base (1);

the cutting mechanism (2) comprises two brake boxes (7), a sliding bin (21) and a laser cutting head (11), wherein the sliding bin (21) and the laser cutting head (11) are arranged between the two brake boxes (7), a cutting track (9) is arranged inside the sliding bin (21), a mounting seat (10) for mounting the laser cutting head (11) is arranged outside the cutting track (9), and an ash cleaning spray head (12) and a dust sensor (13) are fixedly mounted outside the mounting seat (10);

an air storage tank (14) is further arranged inside the sliding bin (21), and a brake motor (8) is arranged inside the brake box (7);

a receiving groove (15) is formed in the cutting base (1), a waste material box (16) is arranged in the receiving groove (15), a pressure sensor (17) and a tray (18) are arranged in the waste material box (16), and the tray (18) is arranged at the top end of the pressure sensor (17);

the dust concentration monitoring system is characterized in that a data receiving module, a data processing module, a master control module and an instruction sending module are arranged inside the master control box (5), wherein the data receiving module is used for receiving dust concentration information collected by the dust sensor (13) and first pressure information and second pressure information collected by the two pressure sensors (17), and sending the dust concentration information, the first pressure information and the second pressure information to the data processing module;

the data processing module is used for processing the received dust concentration information, the first pressure information and the second pressure information to generate gas injection information and ash removal information, the gas injection information and the ash removal information are sent to the master control module, and the master control module converts the gas injection information and the ash removal information into a gas injection instruction and an ash removal instruction method and sends the gas injection instruction and the ash removal instruction method to the instruction sending module;

the instruction sending module is used for sending the air injection instruction to the ash removal spray head (12) and sending the ash removal instruction to the display terminal on the master control box (5).

2. The multi-angle cutting device for processing the meter casing as claimed in claim 1, wherein: auxiliary parts are arranged at two ends of the tray (18).

3. The multi-angle cutting device for processing the meter casing as claimed in claim 2, wherein: the auxiliary member comprises a mounting groove and an auxiliary pulley connected with the rotating shaft inside the mounting groove.

4. The multi-angle cutting device for processing the meter casing as claimed in claim 1, wherein: and a sliding seat (19) for assisting in discharging is arranged at the bottom end of the inner part of the receiving groove (15).

5. The multi-angle cutting device for processing the meter casing as claimed in claim 4, wherein: the sliding groove is formed in the sliding seat (19), the sliding wheels are connected to the rotating shaft in the sliding groove, the number of the sliding seats (19) is two, and the sliding seats (19) are arranged in parallel.

6. The multi-angle cutting device for processing the meter casing as claimed in claim 1, wherein: an air pipe used for communicating the dust cleaning spray head (12) with the air storage tank (14) is arranged between the dust cleaning spray head (12) and the air storage tank (14).

7. The multi-angle cutting device for processing the meter casing as claimed in claim 1, wherein: the specific processing process of the jet information is as follows:

the method comprises the following steps: extracting collected dust concentration information, marking the collected dust concentration information as Fg, and continuously collecting the dust concentration information Fg for x times, wherein x is more than or equal to 3;

step two: through division into Fg1+ Fg2 … … + Fgx ═ Fg_Andthe dust concentration and Fg were obtained_And；

step three: after passing through the formula Fg_And/x＝Fg_{are all made of}Obtaining the average value Fg of the dust concentration_{Are all made of}；

Step four: when Fg_{Are all made of}Generating air injection information when the concentration is greater than the preset concentration;

the gas injection information is converted into a gas injection instruction and then is sent to the ash cleaning spray head (12), and the ash cleaning spray head (12) operates to release gas in the gas storage tank (14) and spray the gas.

8. The multi-angle cutting device for processing the meter casing as claimed in claim 1, wherein: the specific outbound process of the ash removal information is as follows:

the method comprises the following steps: proposing first pressure information and second pressure information, which are respectively high-level as Yj1 and Yj 2;

step two: calculating the sum of the first pressure information Yj1 and the second pressure information Yj2 to obtain a pressure sum Yj_And；

step three: by the formula Yj_And/2＝Yj_{are all made of}Obtaining the pressure mean value Yj_{Are all made of}；

Step four: when mean pressure value Yj_{Are all made of}When the pressure is higher than the preset pressure, A1 is used for generating ash cleaning information, when any one of the first pressure information Yj1 and the second pressure information Yj2 is higher than a preset pressure value A2, the ash cleaning information is generated, and when the pressure is higher than the preset pressure value A, A1 is less than the preset pressure value A;

the ash removal information is processed into an ash removal instruction and sent to a display terminal on the master control box (5), and the display terminal displays the character of 'please clean up waste materials in time'.

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