CN110064943A - Novel engraving machine platform - Google Patents

Abstract

A new type of engraving machine platform, comprising: a bed of the engraving machine, the bed is equipped with a workbench for mounting workpieces, and the bed is equipped with a workbench for mounting workpieces. The structure is: the bed and the work The tables are all cuboid-shaped flat-plate structures, and the top of the bed is connected to the bottom of the worktable through several new clamping structures; the new clamping structures include supporting feet integrally connected to the top of the bed. A card interface is opened on the top wall of the support foot connected to the top of the bed. Effectively avoids the need to set a larger area on the support feet integrally connected to the top of the bed in the prior art, which often results in poor damage resistance performance of the support feet integrally connected to the top of the bed, and it is not easy to use. Slots or cracks often appear during this period, which makes the use of the positioning plate poor, and the positioning plate that moves horizontally is often stuck during the movement, resulting in a high failure rate during use.

Description

New type of engraving machine platform

technical field

The invention relates to the technical field of engraving machines, in particular to a novel engraving machine platform.

Background technique

Mechanical engraving machine is a kind of general mechanical equipment widely used in wood industry, advertising industry, craft industry, mold industry, construction industry, printing and packaging industry, decoration industry. It can engrave wood board, MDF, acrylic organic board, PVC board, Hibiscus board, two-color board, marble, fire board, rubber board, glass and other different materials.

That is to say, the engraving machine is a processing equipment of drilling and milling combined processing in terms of processing principle, and is widely used in the processing of two-color plates, architectural models, small signs, three-dimensional handicrafts and other products. The engraving machine is manipulated by the digital control system to process the workpiece, so as to realize the function of processing the product.

Along with the advancement of technology, an engraving machine such as CN 208069226 U with a patent authorization announcement number has been proposed in terms of improving the reliability of the engraving machine. The movement of the bed is connected with the engraving device used to engrave the workpiece. The bed is fixedly installed with a main water tank that stores cutting fluid inside. The body is equipped with a main water pump that transports the cutting fluid in the main water tank to the movable water tank, the bed is provided with an elastic mechanism for supporting the movable water tank, and the bed is provided with a switch for operating the engraving device and abutting with the upper end of the movable water tank button, the main water pump is provided with a drive part.

Through this setting: the workpiece is installed on the worktable, and then the workpiece on the worktable is engraved by the engraving device, so as to realize the function of engraving the workpiece. The main water pump stores the cutting fluid in the main water tank to the movable water tank, and then the cutting fluid flows to the workpiece. The movable water tank is used to store the cutting fluid to avoid the failure of the main water pump and the inability to continue to provide the cutting fluid to the workpiece, which plays a role in improving reliability. When there is less cutting fluid in the movable water tank, the elastic mechanism can push the movable water tank upward, so that the movable water tank moves up and squeezes the switch button, so that the switch button closes the engraving device, thereby preventing the engraving device from affecting the workpiece when the cutting fluid is insufficient. Engraving is carried out to achieve the effect of improving reliability.

On the other hand, in the specific operation, the existing structure that the bed is installed with a workbench for mounting workpieces is: the bed and the workbench are both cuboid-shaped flat plate structures, in order to avoid the cumbersome bolt-nut connection structure , after improvement, the bed and the worktable are connected by a clip. Specifically, the clip includes a support foot and an operating rod that are integrally connected to the top of the bed. The integrated A blind hole is opened on the top of the supporting foot connected to the top of the bed, and the supporting foot integrally connected to the top of the bed is moved and connected to the positioning plate, and one end of the operating rod is in the blind hole , the inner surface of the blind hole is provided with a hole, the positioning plate is provided with a clamping joint and a columnar drive rod for manipulating the positioning plate to move, and the outer surface of one end of the operating rod in the blind hole is provided with a ring In addition, a ring-shaped positioning member is arranged between one end of the operating rod in the blind hole and the blind hole, and one end of the snap joint is positioned through the hole and the groove. One end is located on the outer wall surface of the supporting foot integrally connected to the top of the bed; the bottom of the supporting foot integrally connected to the top of the bed is provided with a coupling head; In order to optimize the positioning of the clamping posts connected to the bottom of the workbench, it is necessary to set a larger area on the supporting feet integrally connected to the top of the bed, often making the supporting feet integrally connected to the top of the bed. The anti-damage performance is not good, and cracks or cracks often appear during use, so the reliability of use is not good. In addition, the positioning plate that moves horizontally is often stuck during movement due to one end of the clamping mechanism, and the failure rate is high during use. .

SUMMARY OF THE INVENTION

In order to solve the above problems, the present invention provides a new type of engraving machine platform, which effectively avoids the need to set a larger area on the supporting feet integrally connected to the top of the bed in the prior art. The anti-damage performance of the support feet on the top of the bed is not good, the cracks or cracks often appear during use, which makes the use of poor reliability, and the positioning plate that moves horizontally is often stuck during the movement. defects with high failure rate.

In order to overcome the deficiencies in the prior art, the present invention provides a solution for a novel engraving machine platform, as follows:

A new type of engraving machine platform includes a bed of the engraving machine, and the bed is equipped with a worktable for mounting workpieces,

The structure that the bed is installed with the worktable for installing the workpiece is as follows: the bed and the worktable are both cuboid-shaped flat plate structures, and the top of the bed is connected to the bottom of the worktable through several new clamping structures ;

The novel clamping structure includes a support foot 2 integrally connected to the top of the bed, and a card interface 3 is opened on the top wall of the support foot 2 integrally connected to the top of the bed. The card is then integrally connected to the clamping post 17 at the bottom of the workbench, and one end of the clamping post 6 integrally connected to the bottom of the workbench and the card interface 3 is provided with protruding teeth and a ring-shaped groove for positioning. In addition, the lower wall of the card interface 3 is provided with protruding teeth that engage with the protruding teeth of the clamping column 17 integrally connected to the bottom of the workbench. In addition, the positioning port 4 is integrally connected to the bed. On the lower part of the support foot 2 on the top of the body, the support foot 2 integrally connected to the top of the bed is provided with a positioning port 4, and the positioning port 4 and the card interface 3 have an intersection and communicate with each other. The positioning plate 5 is screwed into the positioning opening 4. The positioning plate 5 is provided with a gap 6 and a driving plate 7. In addition, the supporting feet 2 integrally connected to the top of the bed are provided with a driving plate 7. A hole 8 through one end; when the positioning plate 5 is rotated until the notch 6 faces the card interface 3, there is no intersection between the positioning plate 5 and the card interface 3, and it is in the release mode at this time; in the positioning plate 5 When it is rotated until the gap 6 is in another place, the positioning plate 5 and the card interface 3 have an intersecting part, and the part of the positioning plate 5 is at the position of the clamping column 6 integrally connected to the bottom of the workbench. In the ditch, it is in the snap mode at this time.

The positioning opening 4 is an annular opening, the positioning plate 5 is also annular, and the notch 6 is an arch-shaped notch.

The drive plate 7 is located on the side wall of the positioning plate 5 that is farther from the notch 6 .

The positioning opening 4 is provided with a buckle block 9 for positioning the positioning plate 5 in the positioning opening 4 .

A roller 10 is arranged on a wall of the buckle block 9 close to the positioning plate 5 , the center line of the roller 10 coincides with the center line of the positioning plate 5 , and the positioning plate 5 is provided with a roller 10 that is rotatably combined. Socket 11.

A ring-shaped protrusion 12 is provided on a wall of the buckle block 9 close to the positioning plate 5 , the center line of the ring-shaped protrusion 12 coincides with the center line of the roller 10 , and the ring-shaped protrusion 12 is provided on the positioning plate 5 . Rotate the combined annular notch 13 .

The outer surface of the positioning plate 5 is provided with positioning protrusions 14, the positioning protrusions 14 are arch-shaped protrusions, and both sides of the positioning protrusions 14 are provided with arch-shaped notches to improve the amount of strain that increases more margins The inner surface of the positioning opening 4 is provided with a pair of notches 15 which are combined with the positioning protrusions 14 for positioning, and the pair of notches 15 are respectively corresponding to a pair of modes of clamping and releasing.

The positioning plate 5 is provided with a strip-shaped through-hole 16 for increasing the strain amount of the positioning protrusion 14 with more allowance, and the strip-shaped through-hole 16 has an arch-shaped structure.

The beneficial effects of the present invention are:

The novel clamping structure of the present invention includes the novel clamping structure including a block-shaped or column-shaped support leg 2 integrally connected to the top of the bed, and a block-shaped or column-shaped support integrally connected to the top of the bed A columnar card interface 3 is opened on the top wall of the foot 2, and the card interface 3 is located on the top wall of the supporting foot 2 integrally connected to the top of the bed, and the card interface 3 is then integrally connected to the top wall. The clamping column 17 at the bottom of the workbench, the end of the clamping column 6 integrally connected to the bottom of the workbench and the card interface 3 is provided with protruding teeth and a ring-shaped groove for positioning, and the card interface 3 The lower wall of the machine is provided with protruding teeth that engage with the protruding teeth of the snap-on posts 17 integrally connected to the bottom of the workbench. In addition, the positioning port 4 is located at the supporting feet 2 integrally connected to the top of the bed. On the lower part of the frame, the supporting feet 2 integrally connected to the top of the bed are provided with a positioning port 4, and there is an intersection between the positioning port 4 and the card interface 3 and communicate with each other. In addition, the positioning port 4 Screw on the positioning plate 5, the positioning plate 5 is provided with a gap 6 and a plate-shaped driving plate 7, and the supporting feet 2 integrally connected to the top of the bed are provided with a driving plate 7 to pass through. Hole 8; when the positioning plate 5 is rotated to the gap 6 and faces the card interface 3, there is no intersection between the positioning plate 5 and the card interface 3, and it is in the loosening mode at this time; when the positioning plate 5 is rotated to the gap When 6 is in another place, the positioning plate 5 and the card interface 3 have intersecting parts, and the part of the positioning plate 5 is in the groove of the clamping column 6 integrally connected to the bottom of the workbench, It is in snap mode at this time. After using such a structure, because the positioning plate is screwed into the positioning opening, and the relative occupied area of the positioning opening is not large, it will not be detrimental to the overall damage resistance of the supporting feet integrally connected to the top of the bed. , so as to ensure the reliability of the use of the supporting feet integrally connected to the top of the bed; in addition, because the positioning plate is rotatable, the positioning structure of the positioning plate will not be harmful to the rotation of the positioning plate, so as to ensure the positioning The rotation of the plate is unobstructed and the operation is convenient, so the new clamping structure has the performance of reliable operation and easy operation. The positioning port 4 is an annular port, the positioning plate 5 is also annular, and the gap 6 is an arched gap, this kind of structure is also easy to cast and form, and the area occupied by the positioning opening is not large, so that the manufacturing cost can also be reduced under the condition of improving the reliability of use; the driving plate is located at a distance from the positioning plate. The gap is farther away; therefore, the two sides of the driver board can be given enough marks for marking the loosening and loosening, which can make the new clamping structure more convenient for operation; The positioning plate is positioned at the buckle block in the positioning opening; after the buckle block is set, it will make the positioning plate more reliable, and it is also convenient for installation. It is not necessary to set additional positioning components on the positioning plate, which reduces the use of components and additionally locates the positioning plate. The plate structure is not complicated, which is conducive to casting and forming and reduces the manufacturing cost; a cylindrical roller 10 is arranged on a wall of the buckle block 9 close to the positioning plate 5, and the center line of the roller 10 and the center line of the positioning plate 5 coincide, so The positioning plate 5 is provided with a cylindrical socket 11 rotatably combined with the roller 10 . Then the rollers with this structure make the positioning plate more conducive to the positioning of the time, so that the rotation is not hindered, and the use is also convenient. A ring-shaped protrusion 12 is provided on a wall of the buckle block 9 close to the positioning plate 5 , the center line of the ring-shaped protrusion 12 coincides with the center line of the roller 10 , and the ring-shaped protrusion 12 is provided on the positioning plate 5 . Rotate the combined annular notch 13 . Then, after the ring-shaped protrusion and the ring-shaped notch are arranged, the positioning plate is not easy to be dislocated or skewed during driving, so that the rotation of the positioning plate is more reliable; the positioning protrusion is provided on the outer wall of the positioning plate, and the inner surface of the positioning port is provided with A pair of notches are positioned in combination with the positioning protrusions, and the pair of notches correspond to the mode of clamping and releasing respectively; then such a structure makes the positioning plate in the clamping or releasing mode, and the positioning of the positioning plate is more reliable; the The positioning plate is provided with a strip through hole for increasing the strain amount of the positioning protrusion; then this structure allows the positioning protrusion to have more strain, which makes the positioning plate more secure after the positioning, and there is no need to drive when driving. Excessive driving force, easy to operate.

Description of drawings

FIG. 1 is a structural diagram of a positioning column of the present invention.

FIG. 2 is a structural diagram of the supporting feet integrally connected to the top of the bed according to the present invention.

FIG. 3 is a structural diagram of the positioning plate of the present invention and some related components thereof.

FIG. 4 is a partial structural diagram of the positioning plate of the present invention.

FIG. 5 is a partial perspective structural view of the present invention.

FIG. 6 is a partial plan view of the structure of the present invention.

Detailed ways

The present invention will be further described below with reference to the accompanying drawings and embodiments.

Example 1:

As shown in Fig. 1-Fig. 6, the new type of engraving machine platform includes the engraving machine such as CN 208069226 U of Patent Authorization Announcement No. The engraving machine comprises a bed of the engraving machine, and the bed is installed with a worktable for mounting workpieces , the bed is movingly connected to the engraving device used to engrave the workpiece, the bed is fixedly installed with a main water tank that stores cutting fluid inside, the engraving device is vertically moved and connected to the movable water tank that transports the cutting fluid to the workpiece, The bed is equipped with a main water pump that transports the cutting fluid in the main water tank to the movable water tank, the bed is provided with an elastic mechanism for supporting the movable water tank, the bed is provided with a manipulation engraving device and is in contact with the upper end of the movable water tank. The connected switch button, the main water pump is provided with a drive part. Through this setting: the workpiece is installed on the worktable, and then the workpiece on the worktable is engraved by the engraving device, so as to realize the function of engraving the workpiece. The main water pump stores the cutting fluid in the main water tank to the movable water tank, and then the cutting fluid flows to the workpiece. The movable water tank is used to store the cutting fluid to avoid the failure of the main water pump and the inability to continue to provide the cutting fluid to the workpiece, which plays a role in improving reliability. When there is less cutting fluid in the movable water tank, the elastic mechanism can push the movable water tank upward, so that the movable water tank moves up and squeezes the switch button, so that the switch button closes the engraving device, thereby preventing the engraving device from affecting the workpiece when the cutting fluid is insufficient. Engraving is carried out to achieve the effect of improving reliability. The structure that the bed is installed with the worktable for installing the workpiece is as follows: the bed and the worktable are both cuboid-shaped flat plate structures, and the top of the bed is connected to the bottom of the worktable through several new clamping structures ; The new type of clamping structure includes a block-shaped or column-shaped support foot 2 integrally connected to the top of the bed, and is integrally connected to the top wall of the block-shaped or column-shaped support foot 2 at the top of the bed. There is a columnar card interface 3, the card interface 3 is located on the top wall of the supporting foot 2 integrally connected to the top of the bed, and the card interface 3 is then integrally connected to the bottom of the workbench. Column 17, one end of the clamping column 6 integrally connected to the bottom of the workbench and the card interface 3 is provided with protruding teeth and a positioning ring-shaped groove, and the lower wall of the card interface 3 is provided with The protruding teeth of the clamping column 17 integrally connected to the bottom of the workbench are engaged with the protruding teeth. In addition, the positioning port 4 is located on the lower part of the supporting foot 2 integrally connected to the top of the bed. A positioning port 4 is arranged on the support foot 2 connected to the top of the bed, and there is an intersection between the positioning port 4 and the card interface 3 and is in communication. In addition, the positioning port 4 is screwed with a positioning plate 5, so The positioning plate 5 is provided with a gap 6 and a plate-shaped driving plate 7, and the supporting foot 2 integrally connected to the top of the bed is provided with a hole 8 through which the driving plate 7 can pass through; When the plate 5 is rotated until the gap 6 faces the card interface 3, there is no intersection between the positioning plate 5 and the card interface 3, and it is in the release mode; after the positioning plate 5 is rotated until the gap 6 is in another place At the same time, the positioning plate 5 and the card interface 3 have intersecting parts, and the part of the positioning plate 5 is in the groove of the clamping column 6 integrally connected to the bottom of the workbench, and is in the clamping mode at this time. The positioning opening 4 is an annular opening, the positioning plate 5 is also annular, and the notch 6 is an arch-shaped notch. The drive plate 7 is located on the side wall of the positioning plate 5 that is farther from the notch 6 . The positioning opening 4 is provided with a buckle block 9 for positioning the positioning plate 5 in the positioning opening 4 . A cylindrical roller 10 is arranged on a wall of the buckle block 9 close to the positioning plate 5, the center line of the roller 10 coincides with the center line of the positioning plate 5, and the positioning plate 5 is provided with a rotating combination with the roller 10. The cylindrical socket 11. A ring-shaped protrusion 12 is provided on a wall of the buckle block 9 close to the positioning plate 5 , the center line of the ring-shaped protrusion 12 coincides with the center line of the roller 10 , and the ring-shaped protrusion 12 is provided on the positioning plate 5 . Rotate the combined annular notch 13 . The outer surface of the positioning plate 5 is provided with positioning protrusions 14, the positioning protrusions 14 are arch-shaped protrusions, and both sides of the positioning protrusions 14 are provided with arch-shaped notches to improve the amount of strain that increases more margins The inner surface of the positioning opening 4 is provided with a pair of notches 15 which are combined with the positioning protrusions 14 for positioning, and the pair of notches 15 are respectively corresponding to a pair of modes of clamping and releasing. The positioning plate 5 is provided with a strip-shaped through-hole 16 for increasing the strain amount of the positioning protrusion 14 with more allowance, and the strip-shaped through-hole 16 has an arch-shaped structure. The positioning plate 5 is driven to the release mode through the driving plate 7, and then the clamping column 17 integrally connected to the bottom of the workbench is extended into the card interface 3, and then the positioning plate 5 is pushed through the driving plate 7 to the clamping connection. At this time, the part of the positioning plate 5 will extend into the groove of the clamping column 6 integrally connected to the bottom of the workbench to reach the direction along the centerline of the clamping column 6 integrally connected to the bottom of the workbench. The positioning effect; if you want to perform the radian change on the clamping column 6 integrally connected to the bottom of the workbench, drive the positioning plate 5 to the release mode through the driving plate 7, and then pull the integral connection outward to the worktable. The clamping post 17 at the bottom of the table separates the protruding teeth of the clamping post 17 integrally connected to the bottom of the worktable from the protruding teeth of the bottom surface of the card interface 3, and then the protruding teeth of the clamping post 17 integrally connected to the bottom of the worktable can be separated. The clamping column 17 performs the radian change. After the change reaches the required radian, the clamping column 17 integrally connected to the bottom of the workbench is extended again to allow the protruding teeth of the clamping column 17 integrally connected to the bottom of the workbench. Engage with the protruding teeth on the bottom surface of the card interface 3, and then drive the positioning plate 5 to the clamping mode through the driving board 7.

Example 2:

As shown in Fig. 1-Fig. 6, the new type of engraving machine platform includes the engraving machine such as CN 208069226 U of Patent Authorization Announcement No. The engraving machine comprises a bed of the engraving machine, and the bed is installed with a worktable for mounting workpieces , the bed is movingly connected to the engraving device used to engrave the workpiece, the bed is fixedly installed with a main water tank that stores cutting fluid inside, the engraving device is vertically moved and connected to the movable water tank that transports the cutting fluid to the workpiece, The bed is equipped with a main water pump that transports the cutting fluid in the main water tank to the movable water tank, the bed is provided with an elastic mechanism for supporting the movable water tank, the bed is provided with a manipulation engraving device and is in contact with the upper end of the movable water tank. The connected switch button, the main water pump is provided with a drive part. Through this setting: the workpiece is installed on the worktable, and then the workpiece on the worktable is engraved by the engraving device, so as to realize the function of engraving the workpiece. The main water pump stores the cutting fluid in the main water tank to the movable water tank, and then the cutting fluid flows to the workpiece. The movable water tank is used to store the cutting fluid to avoid the failure of the main water pump and the inability to continue to provide the cutting fluid to the workpiece, which plays a role in improving reliability. When there is less cutting fluid in the movable water tank, the elastic mechanism can push the movable water tank upward, so that the movable water tank moves up and squeezes the switch button, so that the switch button closes the engraving device, thereby preventing the engraving device from affecting the workpiece when the cutting fluid is insufficient. Engraving is carried out to achieve the effect of improving reliability. The structure that the bed is installed with the worktable for installing the workpiece is as follows: the bed and the worktable are both cuboid-shaped flat plate structures, and the top of the bed is connected to the bottom of the worktable through several new clamping structures ; The new type of clamping structure includes a block-shaped or column-shaped support foot 2 integrally connected to the top of the bed, and is integrally connected to the top wall of the block-shaped or column-shaped support foot 2 at the top of the bed. There is a columnar card interface 3, the card interface 3 is located on the top wall of the supporting foot 2 integrally connected to the top of the bed, and the card interface 3 is then integrally connected to the bottom of the workbench. Column 17, one end of the clamping column 6 integrally connected to the bottom of the workbench and the card interface 3 is provided with protruding teeth and a positioning ring-shaped groove, and the lower wall of the card interface 3 is provided with The protruding teeth of the clamping column 17 integrally connected to the bottom of the workbench are engaged with the protruding teeth. In addition, the positioning port 4 is located on the lower part of the supporting foot 2 integrally connected to the top of the bed. A positioning port 4 is arranged on the support foot 2 connected to the top of the bed, and there is an intersection between the positioning port 4 and the card interface 3 and is in communication. In addition, the positioning port 4 is screwed with a positioning plate 5, so The positioning plate 5 is provided with a gap 6 and a plate-shaped driving plate 7, and the supporting foot 2 integrally connected to the top of the bed is provided with a hole 8 through which the driving plate 7 can pass through; When the plate 5 is rotated until the gap 6 faces the card interface 3, there is no intersection between the positioning plate 5 and the card interface 3, and it is in the release mode; after the positioning plate 5 is rotated until the gap 6 is in another place At the same time, the positioning plate 5 and the card interface 3 have intersecting parts, and the part of the positioning plate 5 is in the groove of the clamping column 6 integrally connected to the bottom of the workbench, and is in the clamping mode at this time. The positioning opening 4 is an annular opening, the positioning plate 5 is also annular, and the notch 6 is an arch-shaped notch. The drive plate 7 is located on the side wall of the positioning plate 5 that is farther from the notch 6 . The positioning opening 4 is provided with a buckle block 9 for positioning the positioning plate 5 in the positioning opening 4 . A cylindrical roller 10 is arranged on a wall of the buckle block 9 close to the positioning plate 5, the center line of the roller 10 coincides with the center line of the positioning plate 5, and the positioning plate 5 is provided with a rotating combination with the roller 10. The cylindrical socket 11. A ring-shaped protrusion 12 is provided on a wall of the buckle block 9 close to the positioning plate 5 , the center line of the ring-shaped protrusion 12 coincides with the center line of the roller 10 , and the ring-shaped protrusion 12 is provided on the positioning plate 5 . Rotate the combined annular notch 13 . The outer surface of the positioning plate 5 is provided with positioning protrusions 14, the positioning protrusions 14 are arch-shaped protrusions, and both sides of the positioning protrusions 14 are provided with arch-shaped notches to improve the amount of strain that increases more margins The inner surface of the positioning opening 4 is provided with a pair of notches 15 which are combined with the positioning protrusions 14 for positioning, and the pair of notches 15 are respectively corresponding to a pair of modes of clamping and releasing. The positioning plate 5 is provided with a strip-shaped through-hole 16 for increasing the strain amount of the positioning protrusion 14 with more allowance, and the strip-shaped through-hole 16 has an arch-shaped structure. The positioning plate 5 is driven to the release mode through the driving plate 7, and then the clamping column 17 integrally connected to the bottom of the workbench is extended into the card interface 3, and then the positioning plate 5 is pushed through the driving plate 7 to the clamping connection. At this time, the part of the positioning plate 5 will extend into the groove of the clamping column 6 integrally connected to the bottom of the workbench to reach the direction along the centerline of the clamping column 6 integrally connected to the bottom of the workbench. The positioning effect; if you want to perform the radian change on the clamping column 6 integrally connected to the bottom of the workbench, drive the positioning plate 5 to the release mode through the driving plate 7, and then pull the integral connection outward to the worktable. The clamping post 17 at the bottom of the table separates the protruding teeth of the clamping post 17 integrally connected to the bottom of the worktable from the protruding teeth of the bottom surface of the card interface 3, and then the protruding teeth of the clamping post 17 integrally connected to the bottom of the worktable can be separated. The clamping column 17 performs the radian change. After the change reaches the required radian, the clamping column 17 integrally connected to the bottom of the workbench is extended again to allow the protruding teeth of the clamping column 17 integrally connected to the bottom of the workbench. Engage with the protruding teeth on the bottom surface of the card interface 3, and then drive the positioning plate 5 to the clamping mode through the driving board 7.

In order to realize the external monitoring of the liquid level of the cutting fluid in the main water tank where the cutting fluid is stored, it is commonly used that a liquid level sensor is provided in the main water tank, and the liquid level sensor is connected with the microcontroller, and the micro The controller can be a PLC, a single-chip microcomputer, an ARM processor, an FPGA processor or a DSP processor. The microcontroller is connected to the 3G module, and the 3G module is connected to the server in the 3G network. 3G module 2 computer, so that the liquid level sensor can transmit the liquid level information of the cutting fluid of the main water tank collected by it to the microcontroller, and then the 3G module transmits the liquid level information of the cutting fluid of the main water tank to the 3G In the server in the network, the liquid level information of the cutting fluid of the main water tank can be further displayed on the server to achieve the purpose of monitoring. To ensure the reliability of the transmission of the cutting fluid level information of the main water tank The liquid level information of the cutting fluid in the main water tank cannot be lost. In addition, when the handshake protocol is used to transmit the liquid level information of the cutting fluid in the main water tank in the 3G network, because the 3G network transmits information wirelessly, the handshake protocol is used to execute the main water tank. The level information transfer of the cutting fluid is very detrimental to the transfer rate.

In order to realize the external monitoring of the liquid level of the cutting fluid in the main water tank storing the cutting fluid inside, it is commonly used that a liquid level sensor is arranged in the main water tank, and the liquid level sensor is connected with the microcontroller. The microcontroller can be a PLC, a single-chip microcomputer, an ARM processor, an FPGA processor or a DSP processor. The microcontroller is connected to a 3G module, and the 3G module is connected to a server in the 3G network. The server is A computer with 3G module 2, so that the liquid level sensor can transmit the liquid level information of the cutting fluid of the main water tank collected by it to the microcontroller, and then the liquid level information of the cutting fluid of the main water tank is transmitted to the 3G module. In the server in the 3G network, in this way, the microcontroller transmits the liquid level of the cutting fluid of the main water tank to the server in the 3G network;

The method that the microcontroller transmits the liquid level of the cutting fluid of the main water tank to the server in the 3G network, the method includes the following methods:

A-1: When the capacity of transmitting the liquid level information of the cutting fluid of the main water tank is higher than the preset critical value, the microcontroller executes the division of the liquid level information of the cutting fluid of the main water tank on the message 1 to obtain several sub-messages, And the information group 1 is composed of the several sub-messages, and the message 1 includes the liquid level information of the cutting fluid of the main water tank to be transmitted. Assume;

A-2: The microcontroller runs several delivery processes, and each of the delivery processes selects a sub-message in the information group 1 to convert it into a sub-packet and transmits the sub-packet to the server in the 3G network;

A-3: The server in the 3G network receives the delivered sub-messages through several receiving processes and converts all the sub-messages into sub-messages respectively, and stores the converted sub-messages in the temporary storage space;

A-4: The server in the 3G network selects sub-messages one by one in the temporary storage space and sends them to the message group 2 with the initial value of NULL, and selects one sub-message each time to execute the cutting fluid level of the main water tank The information is reorganized, and the liquid level information of the cutting fluid of the main water tank to be transmitted is obtained by decoding the last reorganized information message, and the last reorganized information message is the message 1;

In addition, because the sub-message includes the capacity of message 1, it is possible to know the progress of the current level information of the cutting fluid received in the main water tank. All sub-messages divided in message 1 are read out in the temporary storage space. Put it into the information group 2, after the reorganization is performed and the reorganization ends, the liquid level information of the cutting fluid of the main water tank can be decoded in the reorganized information message.

The microcontroller includes a segmentation module and a startup module, and the server in the 3G network includes a receiving module, a conversion module, a storage module, a selection module, a reorganization module, and a decoding module.

The segmentation module is used to divide the information of the cutting fluid of the main water tank by the microcontroller to obtain a number of sub-systems when the capacity of the information about the level of the cutting fluid of the main water tank is higher than the preset critical value. message, and use the several sub-messages to form an information group 1, the message 1 includes the liquid level information of the cutting fluid of the main water tank to be transmitted;

The startup module 1 is used to run several delivery processes, and each of the delivery processes selects a sub-message in the information group 1 to convert it into a sub-packet and transmits the sub-packet to the server in the 3G network;

The receiving module 1 is used to receive the delivered sub-messages through several receiving processes, the conversion module 1 is used to convert all the sub-messages into sub-messages respectively, and the storage module is used to convert the converted sub-messages. The message is stored in the temporary storage space; the selection module is used to select sub-messages one by one through the temporary storage space and send them to the information group 2 whose initial value is NULL, and the reorganization module is used to select a sub-message each time Then, the reorganization of the liquid level information of the cutting fluid in the main water tank is performed, and the decoding module 1 is used to decode the information of the cutting fluid in the main water tank to be transmitted by decoding the information message reorganized at the last time.

Therefore, when the liquid level information of the cutting fluid in the main water tank is higher than the preset critical value, the segmentation information and the reorganization mode and several process modes are used to ensure the reliability of the transmission of the liquid level information of the cutting fluid in the main water tank. Without using the handshake protocol to transmit the liquid level information of the cutting fluid in the main water tank and ensuring the transmission rate of the liquid level information of the cutting fluid in the main water tank, the reliable transmission of the liquid level information of the cutting fluid in the main water tank can be achieved through the 3G network.

In addition, the first message also includes whether the server in the 3G network needs to transmit the response message, so that the server in the 3G network can perform the operation of whether to transmit the response message or not to transmit the response message by means of the microcontroller. When the current 3G network is reliably implemented, the reliable 3G network can ensure that the microcontroller transmits all information to the server in the 3G network, so it is not necessary for the server in the 3G network to transmit the response message to the microcontroller, which can reduce the operation time. It is cumbersome, reduces the processing time, and improves the rate of transmitting the liquid level information of the cutting fluid of the main water tank, just like, that is, when the message one is not required to be transmitted by the server in the 3G network and the response message is set to one, the 3G The server in the network transmits the response message to the microcontroller, and when the message 1 is set to NULL for the server in the 3G network to transmit the response message, the server in the 3G network does not transmit the response message to the microcontroller. device;

The method that the microcontroller transmits the liquid level of the cutting fluid of the main water tank to the server in the 3G network, further comprising: when the liquid level information of the cutting fluid of the main water tank is not higher than the preset critical value. International ways include:

B-1: The microcontroller converts the message into a sub-packet, and starts a transfer process to transmit the sub-packet to the server in the 3G network;

B-2: The server in the 3G network receives the transmitted sub-message through a receiving process and converts it into a sub-message, and decodes the sub-message to obtain the liquid level information of the cutting fluid that is transmitted to the main water tank;

B-3: The server in the 3G network transmits a response message to the microcontroller. Naturally, the execution of B-3 must comply with: Whether the server in the message one is required to transmit a response message to the 3G network is set at the time of becoming one;

In addition, after the microcontroller starts a transfer process, the transfer process will transfer the response message again if the response message is not received within a period of time.

The microcontroller and the server in the 3G network also include the following modules:

Here, the microcontroller further includes a second startup module, and the server in the 3G network further includes a second receiving module, a second conversion module, a second decoding module, and a response module;

The starting module 2 is used to convert the message 1 into a sub-message when the liquid level information of the cutting fluid in the main water tank is not higher than the preset critical value, and start a transfer process to transfer the sub-message. The message is delivered to the server in the 3G network;

The receiving module 2 is used to receive the delivered sub-message through a receiving process; the conversion module 2 is used to convert the received delivered sub-message into a sub-message, and the decoding module 2 is used to pass the received sub-message. Decoding the sub-message to obtain the liquid level information of the cutting fluid that is transmitted to the main water tank;

The response module is used to transmit a response message to the microcontroller.

The manner in which the microcontroller in the A-2 runs several delivery processes includes: determining the number of obtained sub-messages and the number of the delivery processes, if the number of obtained sub-messages is lower than the number of the delivery processes, then The number of delivery processes that are run is the same as the number of sub-messages obtained, otherwise all delivery processes will be run; for example, if a message is split into four sub-messages, and there are six delivery processes in the microcontroller, it is necessary to determine the split The number of outgoing sub-messages and the number of delivery processes are determined, and it is determined that the number of sub-messages divided, that is, four is lower than the number of delivery processes, that is, six, then only four delivery processes are run at this time. , but does not have to run all delivery processes.

And after running all the transfer processes, if the microcontroller receives the response message, then the idle transfer process selects a sub-message in the information group 1 again to convert it into a sub-message and executes the transfer until all the All sub-messages in the message group one are delivered; like, message one is divided into nine sub-messages, there are six delivery processes in the microcontroller, and the microcontroller determines the number of divided sub-messages, which is nine If the number is higher than the number of delivery processes, that is, six, then the six delivery processes are all running. The message is delivered to the server in the 3G network. If there is a delivery process within the duration range, just like a response message is received in 6S, it means that the delivery of the sub-message delivered by the delivery process has ended successfully. The delivery process can then select a sub-message from the remaining three sub-messages in message group 1 to perform delivery.

In addition, such a situation will occur during the transmission of the liquid level information of the cutting fluid in the main water tank: after receiving a sub-message from the microcontroller, the server in the 3G network transmits a response message to the microcontroller, However, the microcontroller does not receive the response message within the preset time period, so that the microcontroller transmits the sub-message again, so that the server in the 3G network receives a pair of identical sub-messages Therefore, it is necessary to avoid reorganizing the same sub-messages, that is, the sub-messages converted into sub-messages, during the reorganization of the liquid level information of the cutting fluid in the main water tank. Judgment as follows: Determine whether the sub-message currently read is the same as the sub-message in the reorganized sub-message, if they are the same, do not perform the reorganization of the cutting fluid level information of the main water tank for the sub-message currently read, if they are not the same, then Execute the reorganization of the liquid level information of the cutting fluid in the main water tank for the currently read sub-message.

This ensures that the same sub-message is reassembled only once during reassembly.

The microcontroller also includes a determination module 1, which is used to determine the number of the obtained sub-messages and the number of the delivery processes, if the number of the obtained sub-messages is lower than the number of the delivery processes, then The number of delivery processes that are run is the same as the number of sub-messages obtained, otherwise all delivery processes are run;

And after running all the transfer processes, if the microcontroller receives the response message, then the idle transfer process selects a sub-message in the information group 1 again to convert it into a sub-message and executes the transfer until all the All sub-messages in the message group 1 are delivered;

The server in the 3G network also includes a second judgment module, and the second judgment module is used to determine whether the read sub-message is the same as the sub-message in the reorganized sub-message, and if it is the same, it will not judge the current read-out sub-message. Execute the reorganization of the liquid level information of the cutting fluid in the main water tank. If it is different, execute the reorganization of the liquid level information of the cutting fluid in the main water tank for the currently read sub-message.

In this way, the split information and reorganization mode, the response message and re-transmission mode, and several process modes are used to ensure the reliability of the transmission of the cutting fluid level information in the main water tank, so as to avoid the need to use the handshake protocol to transmit the cutting fluid in the main water tank. Under the condition of ensuring the transmission speed of the liquid level information of the cutting fluid in the main water tank, the reliable transmission of the liquid level information of the cutting fluid in the main water tank can be achieved through the 3G network.

The present invention has been described above by way of illustrating the embodiments. Those skilled in the art should understand that the present disclosure is not limited to the above-described embodiments, and various changes can be made without departing from the scope of the present invention. change and replace.

Claims (8)

1. a kind of novel engraving machine platform, comprising: the lathe bed of engraving machine, the lathe bed are equipped with the work for installing workpiece Platform, which is characterized in that the structure that the lathe bed is equipped with the workbench for installing workpiece is: the lathe bed and workbench are The top of rectangular-shape slab construction, the lathe bed is connect by several novel clamping structures with the bottom of the workbench；Institute Stating novel clamping structure includes the support leg that integration is connected at the top of the lathe bed, and integration is connected at the top of the lathe bed It is provided with card interface on the roof of support leg, the clip-connecting rod that integration is connected to the bottom of workbench is clamped in the card interface, The integration is connected to the clip-connecting rod of the bottom of workbench and the round of prominent tooth and positioning is arranged in one of card interface clamping Ditch road, be in addition arranged on the lower wall of card interface and the prominent tooth of the clip-connecting rod of the integrated bottom for being connected to workbench occlusion Prominent tooth is connected on the lower part of the support leg at the top of the lathe bed in addition, the positioning port is in integration, and the integration is even It connects and positioning port is set in the support leg at the top of the lathe bed, there is cross section and phase between the positioning port and card interface Logical, be in addition screwed in the positioning port positioning plate, and gap and driving plate are provided on the positioning plate, and in addition the integration connects Connect be arranged in the support leg at the top of the lathe bed allow driving plate one transmission hole；In the positioning plate turn to gap When towards card interface, there is no cross section between the positioning plate and card interface, is at this moment in release mode；In positioning plate turn To opening position when other place, the positioning plate and card interface have cross section, and the positioning plate is partially located in Integration is connected in the ditch road of the clip-connecting rod of the bottom of workbench, is at this moment in clamping mode.

2. novel engraving machine platform according to claim 1, which is characterized in that the positioning port is cricoid mouth, described Positioning plate is also ring-type, and the gap is the gap of arcuation.

3. novel engraving machine platform according to claim 1, which is characterized in that the driving plate is in distance on positioning plate In the farther side wall of gap.

4. novel engraving machine platform according to claim 1, which is characterized in that be arranged at the positioning port and be used to fixed Position plate is located in the snap block in positioning port.

5. novel engraving machine platform according to claim 4, which is characterized in that a wall of the snap block close to positioning plate On roller is set, the center line of the roller and the center line of positioning plate are overlapped, and are arranged on the positioning plate and are revolved with roller The dynamic socket combined.

6. novel engraving machine platform according to claim 4, which is characterized in that the snap block 9 is close to the one of positioning plate Round protrusion is set on wall, the center line of round protrusion and the center line of roller coincide, be arranged on the positioning plate and The round notch that round protrusion turn combines.

7. novel engraving machine platform according to claim 4, which is characterized in that be arranged on the outer surface of the positioning plate Positioning protrusion, the positioning protrusion are arcuation protrusions, and in addition arcuation notch is arranged all to improve in the both sides of the positioning protrusion Increase the dependent variable of more margin, is arranged on the positioning port inner surface and positioning protrusion combines a pair of of the notch positioned, institute A pair of of notch is stated to respectively correspond clamping and unclamp such a pair of of mode.

8. novel engraving machine platform according to claim 1, which is characterized in that be arranged on the positioning plate and be used to increase The strip openings of the dependent variable of positioning protrusion more margin, the strip openings are arced configuration.