CN116960619A - Integrated workshop management control device and control method - Google Patents

Abstract

The invention discloses an integrated workshop management control device and a control method, and relates to the technical field of management control. According to the invention, through the arrangement of the signal receiving device, the cross loop bar forms the reinforcement rib protection at the outer wall of the antenna main body, so that the structural rigidity and stability of the antenna main body are increased, and the problem that signals received by the antenna main body become fuzzy or unstable due to collision of foreign objects on the antenna main body is avoided.

Description

Integrated workshop management control device and control method

Technical Field

The invention relates to the technical field of management control, in particular to an integrated workshop management control device and a control method.

Background

The workshop is a basic unit of enterprise internal organization production, along with the continuous development of informatization, the competition of manufacturing industry is also more and more vigorous, and the workshop production can be scientifically and effectively managed by using the integrated workshop management and control device, so that the production cost is greatly reduced.

Patent publication number CN209606796U discloses an integrated workshop management control device, including casing, mesa, access door and circuit board, the support column is all installed at the both ends of mesa bottom both sides, and the universal wheel is all installed to the bottom of support column, the top of mesa is fixed with the casing, and the top of casing one side is provided with liquid crystal display, the bottom of casing one side is provided with control panel, the top of casing is fixed with signal enhancement mechanism, one side that is close to the access door inside the cavity evenly is provided with the spout with slider assorted, radiator fan is all installed on the access door. According to the wireless signal receiving and transmitting device, the shell, the circuit board, the central processing module and the wireless signal receiving and transmitting module are arranged, so that the background terminal sends a signal instruction to the wireless signal receiving and transmitting module, the wireless signal receiving and transmitting module transmits a signal to the central processing module, and the central processing module control device performs relevant management control operation to realize remote control.

However, the above-described plant management control device has the following problems: in the using process of the receiving antenna of the workshop management control device, the receiving antenna is easy to be impacted and bent due to the low strength of the receiving antenna, after the antenna is impacted and bent, the direction and the performance of the receiving antenna can be affected, so that the signals received by the antenna become fuzzy or unstable to influence the use, and therefore, the integrated workshop management control device and the control method are provided.

Disclosure of Invention

The invention aims to provide an integrated workshop management control device and a control method, which are used for solving the problems that in the use process of a receiving antenna of the workshop management control device, the receiving antenna is easy to be impacted and bent by external factors, and after the antenna is impacted and bent, the direction performance of the antenna is affected, so that a signal received by the antenna becomes fuzzy or unstable.

In order to solve the technical problems, the invention provides the following technical scheme: the integrated workshop management control device comprises a processing table, a management control device main body, a signal receiving device, a protection device, an error touch prevention device and an accumulation prevention device, wherein the management control device main body is fixed at the top of the processing table;

the signal receiving device comprises three antenna bodies, a plurality of cross loop bars, L-shaped rods and telescopic rods, wherein the three antenna bodies are uniformly and equidistantly rotated and installed at the top of the management control device body, the three antenna bodies are driven by a motor and are embedded and fixed at the top of the management control device body, the three antenna bodies are connected through belt transmission, the telescopic rods are fixed at the bottom of a collecting plate of the antenna bodies, one end of each L-shaped rod is fixed at the outer wall of the telescopic end of each telescopic rod, the plurality of cross loop bars are sleeved and slidably installed at the outer wall of each antenna body, the cross loop bars are fixed at the outer wall of each L-shaped rod, and reinforcing ribs are formed at the outer wall of each antenna body to protect the corresponding cross loop bars, so that the structural rigidity and stability of the antenna bodies are improved, and the problem that signals received by the antenna bodies become fuzzy or unstable due to the fact that the antenna bodies are collided and bent by foreign objects is avoided.

According to the technical scheme, the signal receiving device further comprises a supporting rod, a fixed disc and a hemispherical block, the supporting rod is fixed at the top of the management control device main body, the fixed disc is fixed at the top of the supporting rod, the hemispherical block is fixed at the top edge of the fixed disc, the bottom of the telescopic end of the telescopic rod is in a semi-arc arrangement, the hemispherical block is located on the motion track of the semi-arc part of the telescopic rod, meanwhile, the hemispherical block pushes the telescopic end of the telescopic rod to move upwards, the telescopic end of the telescopic rod pushes the L-shaped rod to drive the cross loop rod to scrape the surface of the antenna main body, so that dust can cover the surface of the antenna main body, and the sensitivity of the antenna main body is reduced.

According to the technical proposal, the protection device comprises a pressing bag plate, two U-shaped pipes, two plugs, two U-shaped push rods, two vent protection plates and two baffle plates, wherein the pressing bag plate is fixed on the front surface of the bottom of the processing table, one end of each U-shaped pipe is fixed on the left side and the right side of the top of the pressing bag plate, the U-shaped pipe is communicated with the inside of the pressing bag plate, the two plugs are respectively and slidably arranged in the other ends of the two U-shaped pipes, the two U-shaped push rods are respectively fixed at the bottom of one side of the two plugs away from each other, the two baffle plates are respectively fixed between the front surface and the back surface of the two U-shaped push rods, the two vent protection plates are respectively fixed on the front surface and the back surface of the top of the main body of the management control device, and the opening has all been seted up to the top outer wall front and the back of opening guard plate, two the baffle is located the opening department of opening guard plate, opening guard plate and baffle form the protection in antenna main part front and back orientation to avoided antenna main part front and back to have the foreign object to pound to the antenna main part, lead to the impaired problem of antenna main part, when the staff steps on pressing the bag board, the air in pressing the bag board is pressed into the U-shaped pipe, the gas in the U-shaped pipe promotes the cock stem and drives U-shaped push rod and move down, the U-shaped push rod drives baffle downwardly moving, the baffle staggers with the opening of opening guard plate, the opening guard plate no longer shelters from the antenna main part, thereby avoided opening guard plate to influence antenna main part signal transmission's problem.

According to the technical scheme, protector still includes pelt board, L shape connecting rod, a plurality of rubber strip, the pelt board is fixed and is close to one side at the management controlling means main part center at the baffle, L shape connecting rod is fixed at the top of baffle, a plurality of the rubber strip is even equidistant to be fixed in the outer wall department of L shape connecting rod, and the rubber strip contacts with the outer wall of pelt board, and the baffle drives the pelt board and rubs with the rubber strip simultaneously, and rubber strip department produces static and adsorbs the dust in the air around the antenna main part or the dust scraped off on antenna main part surface to reduced the dust secondary and attached to the volume on antenna main part surface.

According to the technical scheme, prevent that mistake touch device includes the transparent plate, the transparent plate is fixed in the bottom of two plugs, and the transparent plate is located the control button front of management controlling means main part, and the transparent plate forms at the control button department of management controlling means main part and shelters from to avoided the staff to appear the problem of mistake touch operation, avoided the dust that antenna main part department falls to cover in the control button department of management controlling means main part simultaneously, the dust can cause the problem of influence to the use of the control button of management controlling means main part.

According to the technical scheme, prevent mistake touch device still includes a plurality of cylinder, U-shaped pole, striking pole, a plurality of the cylinder is even equally spaced and is fixed in the left side and the right side of transparent plate, U-shaped pole slidable mounting is at the inner wall top of processing platform, and is equipped with the spring between the outer wall of U-shaped pole and processing platform, the striking pole is fixed in the front of U-shaped pole, the U-shaped pole is located the motion track of cylinder, and the transparent plate drives the cylinder and moves down simultaneously, and the cylinder promotes U-shaped pole and drives the striking pole and strike the transparent plate, and the transparent plate takes place to vibrate, and the transparent plate trembles off the dust that adheres to its surface to reduced the frequency that follow-up staff maintained the transparent plate.

According to the technical scheme, prevent piling up device includes U-shaped swing board, two elasticity sand grip poles, two conflict posts, U-shaped swing board articulates in positive opening guard plate below outer wall department, and is equipped with the torsional spring between U-shaped swing board and the opening guard plate, two the conflict post is fixed respectively in the left side and the right side of U-shaped swing board, two elasticity sand grip poles are fixed respectively in the back outer wall department of two U-shaped push rods, and the back of elasticity sand grip pole is fixed with the elasticity sand grip, the conflict post is located the motion track of the elasticity sand grip of elasticity sand grip pole, and when U-shaped push rod moved down at every turn, the U-shaped push rod drove elasticity sand grip pole and drives U-shaped swing board to fan to management control device main part back direction to the dust that falls in management control device main part top surface to reduced the dust and covered the volume of management control device main part top surface, avoided the dust to pile up and formed the insulating layer, influence the radiating effect of management control device main part.

According to the technical scheme, prevent piling up the device still including articulated lever, U-shaped slide bar, J shaped baffle, two runners, two push away the post, the one end of articulated lever articulates in U-shaped swing plate back bottom, the U-shaped slide bar articulates the other end at the articulated lever, the inner wall top at the U-shaped slide bar is fixed to the J shaped baffle, and the below of J shaped baffle is elastic structure setting, two the runner rotates respectively and installs on the inner wall left side and the right side of U-shaped slide bar, two push away the post and fix in the one side edge that two runners are close to each other, and push away the post and be located the elastic cambered surface motion track of J shaped baffle, and when U-shaped swing plate at every turn down swings, the U-shaped swing plate promotes the articulated lever and drives U-shaped slide bar removal, and the U-shaped slide bar drives the dust push away management controlling means main part top surface to improve the efficiency of dust discharge management controlling means main part top surface, and when U-shaped swing plate upwards swings simultaneously, and U-shaped swing plate pulling the articulated lever drives U-shaped slide bar and moves anticlockwise, and U-shaped slide bar drives the J-shaped slide bar and pushes away the elastic structure and makes the elastic structure part and can avoid the problem that the J-shaped swing plate moves towards the top surface to control device to control top surface, and control device front face deformation control device.

A control method of an integrated workshop management control device comprises the following steps:

s1, setting parameters of workshop equipment by a management control device main body, and opening or closing a driving device in automatic production control equipment;

s2, a screen of the management control device main body can display information of a production process;

s3, the background terminal can transmit a signal instruction to the management control device main body through the antenna main body;

s4, the management control device main body control device performs relevant management control operation, and remote control can be achieved.

Compared with the prior art, the invention has the following beneficial effects:

(1) According to the invention, through the arrangement of the signal receiving device, the cross loop bar forms a reinforcing rib protection at the outer wall of the antenna main body, so that the structural rigidity and stability of the antenna main body are improved, and the problem that signals received by the antenna main body become fuzzy or unstable due to collision of foreign objects on the antenna main body is avoided; meanwhile, the antenna main body, the telescopic rod and the hemispherical block are matched to push the L-shaped rod to drive the cross sleeve rod to move upwards, and the cross sleeve rod scrapes the surface of the antenna main body, so that the phenomenon that dust covers the surface of the antenna main body to reduce the sensitivity of the antenna main body is avoided.

(2) According to the antenna, the through hole protection plate and the baffle plate form protection in the front and back directions of the antenna main body through the arrangement of the protection device, so that the problem that the antenna main body is damaged due to the fact that foreign objects are smashed towards the antenna main body on the front and back of the antenna main body is avoided, meanwhile, the through hole of the through hole protection plate is not blocked by the through hole protection plate when the bag plate, the U-shaped pipe and the plug rod are pressed to drive the baffle plate to be staggered with the through hole of the through hole protection plate, and the problem that the signal transmission of the antenna main body is affected by the through hole protection plate is avoided; meanwhile, the baffle plate drives the fur plate and the rubber strip to rub, static electricity is generated at the rubber strip, dust in the air around the antenna main body or scraped dust on the surface of the antenna main body is adsorbed, and therefore the amount of secondary adhesion of the dust on the surface of the antenna main body is reduced.

(3) According to the invention, through the arrangement of the anti-false touch device, the transparent plate can form shielding at the control button of the management control device main body, so that the problem of false touch operation of staff is avoided, and meanwhile, the problem that dust falling from the antenna main body covers the control button of the management control device main body and the use of the control button of the management control device main body is influenced by the dust is avoided; meanwhile, the transparent plate, the cylinder and the U-shaped rod are matched to drive the impact rod to knock the transparent plate, the transparent plate vibrates, and dust attached to the surface of the transparent plate is shaken off by the transparent plate, so that the frequency of maintenance of the transparent plate by subsequent staff is reduced.

(4) According to the invention, through the arrangement of the accumulation preventing device, when the U-shaped push rod moves downwards each time, the U-shaped push rod, the elastic raised bar and the abutting column cooperate to drive the U-shaped swing plate to fan dust falling on the top surface of the management control device body towards the back surface of the management control device body, so that the amount of dust covered on the top surface of the management control device body is reduced, the heat insulation layer formed by accumulation of dust is avoided, and the heat dissipation effect of the management control device body is influenced; when the U-shaped swinging plate swings downwards each time, the U-shaped swinging plate, the hinging rod, the U-shaped sliding rod and the management control device main body cooperate to drive the J-shaped plate to push dust on the top surface of the management control device main body away from the top surface of the management control device main body, so that the efficiency of discharging dust out of the top surface of the management control device main body is improved, meanwhile, when the U-shaped swinging plate swings upwards, the U-shaped swinging plate, the hinging rod, the U-shaped sliding rod and the management control device main body cooperate to drive the rotating wheel to rub with the management control device main body and rotate anticlockwise, the rotating wheel drives the push column to extrude the elastic structure part of the J-shaped plate, and the elastic structure part of the J-shaped plate is tilted to deform, so that the J-shaped plate does not contact with the top surface of the management control device main body when moving towards the front direction of the management control device main body, and the problem that the J-shaped plate can scrape dust back to the top surface of the management control device main body is avoided.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of the overall invention;

FIG. 2 is a rear three-dimensional schematic view of the entire present invention;

FIG. 3 is a schematic diagram of a signal receiving apparatus according to the present invention;

FIG. 4 is a schematic partial cross-sectional view of the protective device of the present invention;

FIG. 5 is a schematic view of a part of the structure of the protection device of the present invention;

FIG. 6 is a schematic diagram of an anti-false touch device according to the present invention;

FIG. 7 is a schematic bottom view of a part of the anti-false touch device of the present invention;

FIG. 8 is a schematic view of an anti-stacking device of the present invention;

FIG. 9 is a schematic view of a part of the anti-stacking device of the present invention.

In the figure: 1. a processing table; 11. a management control device main body; 2. a signal receiving device; 21. an antenna main body; 22. a cross loop bar; 23. an L-shaped rod; 24. a telescopic rod; 25. a support rod; 26. a fixed plate; 27. hemispherical blocks; 3. a protective device; 31. pressing the bag plate; 32. a U-shaped tube; 33. a plug rod; 34. a U-shaped push rod; 35. a vent protection plate; 36. a baffle; 37. a fur plate; 38. an L-shaped connecting rod; 39. a rubber strip; 4. an anti-false touch device; 41. a transparent plate; 42. a cylinder; 43. a U-shaped rod; 44. a striker rod; 5. an anti-accumulation device; 51. a U-shaped swing plate; 52. an elastic protruding bar; 53. a contact column; 54. a hinge rod; 55. a U-shaped slide bar; 56. a J-shaped plate; 57. a rotating wheel; 58. pushing the column.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Embodiment 1 referring to fig. 1 to 5, the present invention provides the following technical solutions: an integrated workshop management control device comprises a processing table 1, a management control device main body 11, a signal receiving device 2 and a protection device 3, wherein the management control device main body 11 is fixed at the top of the processing table 1;

the signal receiving device 2 comprises three antenna bodies 21, a plurality of cross loop bars 22, an L-shaped rod 23 and a telescopic rod 24, wherein the three antenna bodies 21 are uniformly and equidistantly rotatably arranged at the top of the management control device body 11, a single antenna body 21 is driven by a motor, the motor is embedded at the top of the management control device body 11, the three antenna bodies 21 are connected through belt transmission, the telescopic rod 24 is fixed at the bottom of a collecting plate of the antenna body 21, one end of the L-shaped rod 23 is fixed at the outer wall of the telescopic end of the telescopic rod 24, the plurality of cross loop bars 22 are sleeved and slidably arranged at the outer wall of the antenna body 21, and the cross loop bars 22 are fixed at the outer wall of the L-shaped rod 23, so that the structural rigidity and stability of the antenna body 21 are improved, and the problem that the antenna body 21 is collided and bent by an external collision, and signals received by the antenna body 21 become fuzzy or unstable is avoided.

The signal receiving device 2 further comprises a supporting rod 25, a fixed disc 26 and a hemispherical block 27, wherein the supporting rod 25 is fixed at the top of the management control device main body 11, the fixed disc 26 is fixed at the top of the supporting rod 25, the hemispherical block 27 is fixed at the top edge of the fixed disc 26, the bottom of the telescopic end of the telescopic rod 24 is in a semi-arc shape, the hemispherical block 27 is positioned on the semi-arc-shaped part motion track of the telescopic rod 24, meanwhile, the antenna main body 21 drives the telescopic rod 24 to rotate, the hemispherical block 27 pushes the telescopic rod 24 to drive the L-shaped rod 23 and the cross sleeve rod 22 to move upwards, and the cross sleeve rod 22 scrapes the surface of the antenna main body 21, so that dust can cover the surface of the antenna main body 21, and the sensitivity of the antenna main body 21 is reduced.

The protector 3 includes presses the cystosepiment 31, two U-shaped pipes 32, two plugs 33, two U-shaped push rods 34, two opening guard plates 35, two baffles 36, press the cystosepiment 31 to fix in the front of processing platform 1 bottom, the one end of two U-shaped pipes 32 is fixed in the top left side and the right side of pressing the cystosepiment 31, and U-shaped pipe 32 link up with the inside of pressing the cystosepiment 31, two plugs 33 slidable mounting respectively in the other end of two U-shaped pipes 32, two U-shaped push rods 34 are fixed respectively in the one side bottom that two plugs 33 kept away from each other, two baffles 36 are fixed respectively in the front of two U-shaped push rods 34 and the back, two opening guard plates 35 are fixed respectively in the front of the top of management control device main part 11 and the back, opening guard plates 35 and baffles 36 can form the protection in antenna main part 21 front and back direction, thereby the problem that antenna main part 21 is impaired is avoided to antenna main part 21 has the foreign matter on the front of pounding the back, and opening guard plates 35's top outer wall front and back all offer opening guard plates 35 and opening, two openings 35 are located in the front of top outer wall and back of the front of the antenna main part 35 and are all set up opening guard plates, two U-shaped push rods 35 and are kept away from each other opening guard plates 35, two U-shaped push channels 35 and are carried out opening guard plates 35 and move opening guard plates 35 and are driven opening guard plates 35 and are moved to the opening guard plates 35 and are not carried out opening 35 and opening guard plates 35 and are moved to the opening guard plates 35.

The protection device 3 further comprises a fur plate 37, an L-shaped connecting rod 38 and a plurality of rubber strips 39, wherein the fur plate 37 is fixed on one side of the baffle 36, which is close to the center of the main body 11 of the management control device, the baffle 36 drives the fur plate 37 to move downwards, the L-shaped connecting rod 38 is fixed on the top of the baffle 36, the rubber strips 39 are uniformly and equidistantly fixed on the outer wall of the L-shaped connecting rod 38, the rubber strips 39 are contacted with the outer wall of the fur plate 37, the fur plate 37 rubs with the rubber strips 39, static electricity is generated on the rubber strips 39, dust in the air around the main body 21 or dust scraped off the surface of the main body 21 of the antenna is adsorbed, and therefore the secondary adhesion of the dust on the surface of the main body 21 of the antenna is reduced.

When the device is used, the management control device main body 11 sets parameters of workshop equipment, a driving device in automatic production control equipment is turned on or turned off, a screen of the management control device main body 11 can display information of a production process, a background terminal can transmit a signal instruction to the management control device main body 11 through the antenna main body 21, the management control device main body 11 control device performs relevant management control operation, remote control can be realized, meanwhile, a motor drives a single antenna main body 21 to rotate, the single antenna main body 21 drives the other two antenna main bodies 21 to rotate under belt transmission, the signal receiving direction range of the antenna main bodies 21 is improved, so that the signal reinforcement effect is achieved, meanwhile, a cross loop bar 22 forms reinforcement rib protection at the outer wall of the antenna main body 21, so that the structural rigidity and stability of the antenna main body 21 are improved, and the problem that the antenna main body 21 is collided and bent by foreign objects, and the signal received by the antenna main body 21 becomes fuzzy or unstable is avoided; meanwhile, when the antenna main body 21 rotates, the telescopic rod 24 is driven to rotate, the hemispherical block 27 pushes the semi-arc-shaped part of the telescopic rod 24 to drive the telescopic end of the telescopic rod 24 to move upwards, the telescopic end of the telescopic rod 24 pushes the L-shaped rod 23 to drive the cross sleeve rod 22 to move upwards, and the cross sleeve rod 22 scrapes the surface of the antenna main body 21, so that dust is prevented from covering the surface of the antenna main body 21, and the sensitivity of the antenna main body 21 is reduced.

Meanwhile, the vent protection plate 35 and the baffle 36 form protection in the front and back directions of the antenna main body 21, so that the problem that the antenna main body 21 is damaged due to the fact that foreign objects are smashed to the antenna main body 21 on the front and back sides of the antenna main body 21 is avoided, when a worker operates the management control device main body 11, the worker steps on the pressing bag plate 31, air in the pressing bag plate 31 is extruded into the U-shaped pipe 32, gas in the U-shaped pipe 32 pushes the plug rod 33 to move downwards, the plug rod 33 drives the U-shaped push rod 34 to move downwards, the U-shaped push rod 34 drives the baffle 36 to move downwards, the baffle 36 is staggered with a vent of the vent protection plate 35, at the moment, the vent protection plate 35 does not shield the antenna main body 21, and the problem that the vent protection plate 35 influences signal transmission of the antenna main body 21 is avoided; meanwhile, the baffle 36 drives the fur plate 37 to move downwards, the fur plate 37 rubs with the rubber strip 39, static electricity is generated at the rubber strip 39, dust in the air around the antenna main body 21 or scraped dust on the surface of the antenna main body 21 is adsorbed, and therefore the amount of secondary adhesion of the dust on the surface of the antenna main body 21 is reduced.

Embodiment 2 referring to fig. 1 to 9, based on embodiment 1, the embodiment further includes an anti-false touch device 4 and an anti-accumulation device 5;

the anti-false touch device 4 comprises a transparent plate 41, the transparent plate 41 is fixed at the bottoms of the two plugs 33, the transparent plate 41 is positioned on the front face of a control button of the management control device main body 11, when a worker does not use the management control device main body 11, the transparent plate 41 can form shielding at the control button of the management control device main body 11, so that the problem of false touch operation of the worker is avoided, meanwhile, dust falling from the antenna main body 21 is prevented from covering the control button of the management control device main body 11, and the dust can cause the problem of influencing the use of the control button of the management control device main body 11.

The anti-misoperation device 4 further comprises a plurality of cylinders 42, a U-shaped rod 43 and an impact rod 44, wherein the cylinders 42 are uniformly fixed on the left side and the right side of the transparent plate 41 at equal intervals, when the plug rod 33 moves downwards, the plug rod 33 drives the transparent plate 41 to move downwards, meanwhile, the transparent plate 41 does not form shielding at a control button of the management control device main body 11, the U-shaped rod 43 is slidably mounted on the top of the inner wall of the processing table 1, a spring is arranged between the U-shaped rod 43 and the outer wall of the processing table 1, the impact rod 44 is fixed on the front surface of the U-shaped rod 43, the U-shaped rod 43 is located on a movement track of the cylinders 42, the transparent plate 41 drives the cylinders 42 to move downwards, the cylinders 42 push the U-shaped rod 43 to drive the impact rod 44 to knock the transparent plate 41, the transparent plate 41 vibrates, and dust attached to the surface of the transparent plate 41 is shaken off, so that the frequency of maintenance of the transparent plate 41 by subsequent staff is reduced.

The anti-stacking device 5 comprises a U-shaped swinging plate 51, two elastic raised line rods 52 and two abutting columns 53, wherein the U-shaped swinging plate 51 is hinged to the outer wall of the lower portion of the front opening protection plate 35, torsion springs are arranged between the U-shaped swinging plate 51 and the opening protection plate 35, the two abutting columns 53 are respectively fixed to the left side and the right side of the U-shaped swinging plate 51, the two elastic raised line rods 52 are respectively fixed to the outer wall of the back of the two U-shaped push rods 34, the back of each elastic raised line rod 52 is fixedly provided with an elastic raised line, the abutting columns 53 are located on the movement track of the elastic raised line rods 52, each time the U-shaped push rods 34 move downwards, the U-shaped push rods 34 drive the elastic raised line rods 52 to push the abutting columns 53 to drive dust falling on the top surface of the main body 11 of the management control device to fan towards the back direction of the main body 11 of the management control device, so that the amount of dust covering the top surface of the main body 11 is reduced, and the effect of the dust accumulation forming a heat insulation layer is avoided, and the effect of the main body 11 of the management control device is affected.

The anti-accumulation device 5 further comprises a hinging rod 54, a U-shaped sliding rod 55, a J-shaped plate 56, two rotating wheels 57 and two pushing posts 58, one end of the hinging rod 54 is hinged to the bottom of the back surface of the U-shaped swinging plate 51, the U-shaped sliding rod 55 is hinged to the other end of the hinging rod 54, the J-shaped plate 56 is fixed to the top of the inner wall of the U-shaped sliding rod 55, the lower part of the J-shaped plate 56 is provided with an elastic structure, when the U-shaped swinging plate 51 swings downwards each time, the U-shaped swinging plate 51 pushes the hinging rod 54 to drive the U-shaped sliding rod 55 to move, the U-shaped sliding rod 55 drives the J-shaped plate 56 to push dust on the top surface of the management control device main body 11 away from the top surface of the management control device main body 11, therefore the efficiency of the dust discharge management control device main body 11 is improved, the two rotating wheels 57 are respectively rotatably arranged on the left side and the right side of the inner wall of the U-shaped sliding rod 55, the two push posts 58 are fixed at the edge of one side of the two rotating wheels 57, which is close to each other, and the push posts 58 are located on the elastic cambered surface movement track of the J-shaped plate 56, meanwhile when the U-shaped swinging plate 51 swings upwards, the U-shaped swinging plate 51 pulls the hinging rod 54 to drive the U-shaped sliding rod 55 to move, the U-shaped sliding rod 55 drives the rotating wheels 57 to rub against the management control device main body 11 and rotate anticlockwise, the rotating wheels 57 drive the push posts 58 to squeeze the elastic structure part of the J-shaped plate 56, and the elastic structure part of the J-shaped plate 56 is tilted and deformed, so that the J-shaped plate 56 is not contacted with the top surface of the management control device main body 11 when moving towards the front direction of the management control device main body 11, and the problem that dust is scraped back to the top surface of the management control device main body 11 by the J-shaped plate 56 is avoided.

When the management control device is used, the transparent plate 41 can form shielding at the control button of the management control device body 11 when a worker does not use the management control device body 11, so that the problem of false touch operation of the worker is avoided, and meanwhile, the problem that dust falling from the antenna body 21 covers the control button of the management control device body 11 and the use of the control button of the management control device body 11 is influenced by the dust is avoided; meanwhile, when the plug rod 33 moves downwards, the plug rod 33 drives the transparent plate 41 to move downwards, at the moment, the transparent plate 41 does not form shielding at the control button of the management control device main body 11, the transparent plate 41 drives the cylinder 42 to move downwards, the cylinder 42 pushes the U-shaped rod 43 to drive the impact rod 44 to be far away from the transparent plate 41, when the cylinder 42 does not push the U-shaped rod 43, the U-shaped rod 43 resets under the action of the corresponding spring force, the U-shaped rod 43 drives the impact rod 44 to knock the transparent plate 41, the transparent plate 41 vibrates, and dust attached to the surface of the transparent plate 41 is shaken off by the transparent plate 41, so that the frequency of maintenance of the transparent plate 41 by subsequent staff is reduced.

Meanwhile, when the U-shaped push rod 34 moves downwards each time, the U-shaped push rod 34 drives the elastic raised bar 52 to move downwards, the elastic raised bar of the elastic raised bar 52 pushes the contact column 53 to drive the U-shaped swing plate 51 to swing downwards, when the U-shaped swing plate 51 pushes against the top surface of the management control device main body 11, the elastic raised bar of the elastic raised bar 52 can cross the contact column 53, at the moment, the elastic raised bar 52 does not push the contact column 53 any more, the U-shaped swing plate 51 resets under the action of the corresponding spring force of the torsion spring, and thus the U-shaped swing plate 51 reciprocates in a way that dust falling on the top surface of the management control device main body 11 is fanned towards the back surface of the management control device main body 11, thereby reducing the amount of dust covered on the top surface of the management control device main body 11, avoiding dust accumulation to form a heat insulation layer and affecting the heat dissipation effect of the management control device main body 11; when the U-shaped swinging plate 51 swings downwards each time, the U-shaped swinging plate 51 pushes the hinging rod 54 to drive the U-shaped sliding rod 55 to slide along the top surface of the management control device main body 11 towards the back surface of the management control device main body 11, the U-shaped sliding rod 55 drives the J-shaped plate 56 to push dust on the top surface of the management control device main body 11 away from the top surface of the management control device main body 11, so that the efficiency of dust discharging out of the top surface of the management control device main body 11 is improved, meanwhile, when the U-shaped swinging plate 51 swings upwards, the U-shaped swinging plate 51 pulls the hinging rod 54 to drive the U-shaped sliding rod 55 to slide along the back surface of the management control device main body 11 towards the front surface of the management control device main body 11, the U-shaped sliding rod 55 drives the rotating wheel 57 to rub with the management control device main body 11 and rotate anticlockwise, the rotating wheel 57 drives the pushing rod 58 to squeeze the elastic structure part of the J-shaped plate 56, and the elastic structure part of the J-shaped plate 56 is tilted to deform, so that the J-shaped plate 56 does not contact with the top surface of the management control device main body 11 when moving towards the front surface of the management control device main body 11, and the problem that the J-shaped plate 56 scrapes dust back towards the top surface of the management control device main body 11 is avoided.

Embodiment 3 is a control method of an integrated plant management control device, including the steps of:

s1, setting parameters of workshop equipment by a management control device main body 11, and opening or closing a driving device in automatic production control equipment;

s2, a screen of the management control device main body 11 can display information of a production process;

s3, the background terminal can transmit a signal instruction to the management control device main body 11 through the antenna main body 21;

s4, the management control device main body 11 controls the device to perform related management control operation, and remote control can be realized.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides an integration workshop management control device, includes processing platform (1) and management control device main part (11), management control device main part (11) are fixed at the top of processing platform (1), its characterized in that: the device also comprises a signal receiving device (2), a protecting device (3), an error touch preventing device (4) and an accumulation preventing device (5);

the signal receiving device (2) comprises three antenna main bodies (21), a plurality of cross loop bars (22), L-shaped rods (23) and telescopic rods (24), wherein three antenna main bodies (21) are evenly and equidistantly rotated and installed at the top of a management control device main body (11), one antenna main body (21) is driven by a motor, the motor is embedded and fixed at the top of the management control device main body (11), three antenna main bodies (21) are connected through belt transmission, the telescopic rods (24) are fixed at the bottom of a collecting plate of the antenna main body (21), one end of each L-shaped rod (23) is fixed at the outer wall of the telescopic end of each telescopic rod (24), the plurality of cross loop bars (22) are sleeved and slidably installed at the outer wall of the antenna main body (21), and the cross loop bars (22) are fixed at the outer wall of each L-shaped rod (23).

2. The integrated plant management control device according to claim 1, characterized in that: the signal receiving device (2) further comprises a supporting rod (25), a fixed disc (26) and a hemispherical block (27), wherein the supporting rod (25) is fixed at the top of the management control device main body (11), the fixed disc (26) is fixed at the top of the supporting rod (25), the hemispherical block (27) is fixed at the top edge of the fixed disc (26), the bottom of the telescopic end of the telescopic rod (24) is in a semi-arc arrangement, and the hemispherical block (27) is located on the semi-arc part movement track of the telescopic rod (24).

3. The integrated plant management control device according to claim 2, characterized in that: the protection device (3) comprises a pressing bag plate (31), two U-shaped pipes (32), two plug rods (33), two U-shaped push rods (34), two opening protection plates (35) and two baffle plates (36), wherein the pressing bag plate (31) is fixed on the front side of the bottom of the processing table (1), one ends of the U-shaped pipes (32) are fixed on the left side and the right side of the top of the pressing bag plate (31), the U-shaped pipes (32) are communicated with the inside of the pressing bag plate (31), the two plug rods (33) are respectively and slidably mounted inside the other ends of the two U-shaped pipes (32), the two U-shaped push rods (34) are respectively fixed at the bottoms of one sides of the two plug rods (33) which are far away from each other, the two baffle plates (36) are respectively fixed between the front side and the back side of the two U-shaped push rods (34), the two opening protection plates (35) are respectively fixed on the front side and the back side of the top of the management control device main body (11), the front side and the back side of the top of the opening protection plates (35) are respectively provided with openings (35), and the openings (35) are respectively arranged at the positions of the two opening protection plates (36).

4. An integrated shop management control device according to claim 3, wherein: the protection device (3) further comprises a fur plate (37), an L-shaped connecting rod (38) and a plurality of rubber strips (39), wherein the fur plate (37) is fixed on one side, close to the center of the management control device main body (11), of the baffle plate (36), the L-shaped connecting rod (38) is fixed on the top of the baffle plate (36), the rubber strips (39) are uniformly and equidistantly fixed on the outer wall of the L-shaped connecting rod (38), and the rubber strips (39) are in contact with the outer wall of the fur plate (37).

5. The integrated plant management control device according to claim 4, wherein: the anti-false touch device (4) comprises a transparent plate (41), the transparent plate (41) is fixed at the bottoms of the two plugs (33), and the transparent plate (41) is positioned on the front face of a control button of the management control device main body (11).

6. The integrated plant management control device according to claim 5, wherein: the anti-misoperation device is characterized in that the anti-misoperation device (4) further comprises a plurality of cylinders (42), U-shaped rods (43) and impact rods (44), the cylinders (42) are uniformly fixed on the left side and the right side of the transparent plate (41) at equal intervals, the U-shaped rods (43) are slidably mounted on the top of the inner wall of the processing table (1), springs are arranged between the U-shaped rods (43) and the outer wall of the processing table (1), the impact rods (44) are fixed on the front face of the U-shaped rods (43), and the U-shaped rods (43) are located on the movement track of the cylinders (42).

7. The integrated plant management control device according to claim 6, wherein: anti-stacking device (5) are including U-shaped swing board (51), two elasticity sand grip pole (52), two conflict post (53), U-shaped swing board (51) articulates in positive opening guard plate (35) below outer wall department, and is equipped with the torsional spring between U-shaped swing board (51) and opening guard plate (35), two conflict post (53) are fixed respectively in the left side and the right side of U-shaped swing board (51), two elasticity sand grip pole (52) are fixed respectively in the back outer wall department of two U-shaped push rods (34), and the back of elasticity sand grip pole (52) is fixed with the elasticity sand grip, conflict post (53) are located the motion trail of the elasticity sand grip of elasticity sand grip pole (52).

8. The integrated plant management control device according to claim 7, wherein: the anti-stacking device is characterized in that the anti-stacking device (5) further comprises a hinging rod (54), a U-shaped sliding rod (55), a J-shaped plate (56), two rotating wheels (57) and two pushing posts (58), one end of the hinging rod (54) is hinged to the bottom of the back of the U-shaped swinging plate (51), the U-shaped sliding rod (55) is hinged to the other end of the hinging rod (54), the J-shaped plate (56) is fixed to the top of the inner wall of the U-shaped sliding rod (55), the lower portion of the J-shaped plate (56) is in an elastic structure, the two rotating wheels (57) are respectively rotatably arranged on the left side and the right side of the inner wall of the U-shaped sliding rod (55), the two pushing posts (58) are fixed to the edge of one side, close to each other, and the pushing posts (58) are located on the elastic cambered surface movement track of the J-shaped plate (56).

9. The control method of an integrated plant management control device according to any one of claims 1 to 8, characterized in that: the method comprises the following steps:

s1, setting parameters of workshop equipment by a management control device main body (11) to realize the opening or closing of a driving device in automatic production control equipment;

s2, displaying information of the production process on a screen of the management control device main body (11);

s3, the background terminal transmits a signal instruction to the management control device main body (11) through the antenna main body (21);

s4, the management control device main body (11) controls the device to perform related management control operation, and remote control is achieved.