CN221185599U - Numerical control cutting board adjusting structure - Google Patents

Abstract

The utility model discloses a numerical control cutting plate adjusting structure, which relates to the technical field of massage beds and comprises a bottom plate and a left-right position adjusting component; a bottom plate: two corresponding brackets are fixed on the rear side, and a storage component is arranged on the upper side of the bottom plate; left and right position adjusting components: contain fixed frame, first motor, threaded rod and remove the frame, the upside of two supports is fixed with fixed frame, the inside sliding connection of fixed frame has the removal frame, the screw hole has been seted up to the rear side portion of removing the frame, the inside threaded connection of screw hole has the threaded rod, the threaded rod rotates the inside of connecting at fixed frame, first motor is installed on the right side of fixed frame, the right-hand member at the threaded rod is fixed to the output shaft of first motor, the output of outside PLC controller is connected to the input electricity of first motor, can automatic adjustment cutting position when cutting out the board, avoids manual regulation.

Description

Numerical control cutting board adjusting structure

Technical Field

The utility model relates to the technical field of massage beds, in particular to a numerical control cutting plate adjusting structure.

Background

The massage bed is also called a press bed, a beauty treatment bed, a physiotherapy bed, a back rubbing bed and the like, is widely used in places such as foot bath shops, beauty treatment hospitals, physiotherapy hospitals, bathing places and the like, and mainly comprises a bracket and a bed plate;

The existing massage bed board needs to be cut in the process of processing, when the existing board cutting device cuts the bed board, the cutting position of the board needs to be manually adjusted, after cutting is completed, the board needs to be manually adjusted, subsequent cutting is convenient, operation is troublesome, time and labor are wasted, and therefore, the numerical control board cutting adjusting structure is provided.

Disclosure of utility model

The utility model aims to overcome the existing defects, and provides the numerical control cutting plate adjusting structure which can automatically adjust the cutting position during cutting plates, avoid manual adjustment and effectively solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the numerical control cutting board adjusting structure comprises a bottom board and a left-right position adjusting component;

A bottom plate: two corresponding brackets are fixed on the rear side, and a storage component is arranged on the upper side of the bottom plate;

Left and right position adjusting components: contain fixed frame, first motor, threaded rod and remove the frame, the upside of two supports is fixed with fixed frame, the inside sliding connection of fixed frame has the removal frame, the screw hole has been seted up to the rear side portion of removing the frame, the inside threaded connection of screw hole has the threaded rod, the threaded rod rotates the inside of connecting at fixed frame, first motor is installed on the right side of fixed frame, the output of the outside PLC controller is fixed at the right-hand member of threaded rod to the output of first motor, detection subassembly is installed to the upside of fixed frame and removal frame, position control subassembly around installing on the side of removal frame, position control subassembly is adjusted about cutting board subassembly through setting up.

Further, the front and back position adjusting assembly comprises a sliding frame, a second motor, a tooth column and a toothed plate, the sliding frame is connected to the inner portion of the sliding frame in a sliding mode, the second motor is installed on the right side of the sliding frame, the tooth column is connected to the inner portion of the sliding frame in a rotating mode, the toothed plate is fixed to the upper side of the inner portion of the sliding frame, the tooth column is meshed with the toothed plate, the input end of the second motor is electrically connected with the output end of an external PLC (programmable logic controller), and the front and back position of the cutting plate assembly is adjusted through the front and back position adjusting assembly.

Further, the detection component comprises a laser range finder, a mounting plate and a reflecting plate, wherein the laser range finder is arranged at the right end of the upper side of the fixed frame and the front end of the upper side of the movable frame, the mounting plate is provided with two mounting plates, the rear end of the upper side of the movable frame is fixed on the mounting plate at the rear side of the upper side of the movable frame, the front end of the upper side of the sliding frame is fixed on the mounting plate, the reflecting plate is fixed on the side surface of the mounting plate, the two reflecting plates respectively correspond to the two laser range finders, the laser range finders are electrically connected with an external PLC (programmable logic controller) in a bidirectional manner, and the moving distance of the cutting plate component is measured by the detection component.

Further, cut out board subassembly contains first electric telescopic handle, mounting bracket, third motor and cutting dish, first electric telescopic handle is installed to the downside of slipframe, the upside at the mounting bracket is fixed to the flexible arm of first electric telescopic handle, the third motor is installed on the right side of mounting bracket, the inside rotation of mounting bracket is connected with the cutting dish, the right-hand member at the cutting dish is fixed to the output shaft of third motor, the output of the outside PLC controller is all connected to the equal electricity of input of first electric telescopic handle and third motor cuts the bed board through setting up to cut out the board subassembly.

Further, the storage component comprises a fixing frame, a fourth motor, a rotating shaft, an electric brush slip ring and a storage plate, wherein the fixing frame is fixed on the upper side of the bottom plate, the fourth motor is installed on the upper side of the inner portion of the fixing frame, the rotating shaft is fixed on an output shaft of the fourth motor, the electric brush slip ring is installed on the circumferential surface of the rotating shaft, the storage plate is fixed at the upper end of the rotating shaft, and the input ends of the fourth motor and the electric brush slip ring are electrically connected with the output end of an external PLC controller, and the storage component is arranged to store the bed plate.

Further, still include fixed subassembly, fixed subassembly contains fixed frame, second electric telescopic handle and fixed plate, the upside of storage board is fixed with two corresponding fixed frames, two corresponding second electric telescopic handle are installed to fixed frame's upside, are fixed with the fixed plate on the flexible arm of two second electric telescopic handle, the output of brush sliding ring is connected to the input electricity of second electric telescopic handle, fixes the bed board through setting up fixed subassembly.

Compared with the prior art, the utility model has the beneficial effects that: this numerical control cuts out board regulation structure has following benefit:

The massage bed board is stored through setting up storage component, start fixed subassembly after storing and fix it, then position adjustment subassembly and front and back position adjustment subassembly are controlled around to cutting board subassembly's front and back respectively, two laser rangefinder are measured the front and back left and right position of cutting dish respectively at the in-process of adjusting, make it can remove the position that needs cut, can be when cutting the board under such circumstances automatically regulated cutting position, avoid manual adjustment, not only improved the efficiency of cutting, through the precision that has improved the cutting.

Drawings

FIG. 1 is a schematic view of the front side structure of the present utility model;

FIG. 2 is an enlarged view of the utility model at A;

Fig. 3 is a front cross-sectional view of the present utility model.

In the figure: 1a bottom plate, 2 a bracket, 3 a left-right position adjusting component, 31 a fixed frame, 32 a first motor, 33 a threaded rod, 34 a movable frame, 4 a front-back position adjusting component, 41 a sliding frame, 42 a second motor, 43 a tooth column, 44 a tooth plate, 5 a detecting component, 51 a laser range finder, 52 a mounting plate, 53 a reflecting plate, 6 a cutting plate component, 61 a first electric telescopic rod, 62 a mounting frame, 63 a third motor, 64 a cutting plate, 7 a storage component, 71 a fixing frame, 72 a fourth motor, 73 a rotating shaft, 74 a brush sliding ring, 75 a storage plate, 8 a fixed component, 81 a fixed frame, 82 a second electric telescopic rod and 83 a fixed plate.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present embodiment provides the following technical solutions: the numerical control cutting board adjusting structure comprises a bottom board 1 and a left-right position adjusting component 3;

The base plate 1: the rear side is fixed with two corresponding brackets 2, the upper side of the bottom plate 1 is provided with a storage component 7, the storage component 7 comprises a fixed frame 71, a fourth motor 72, a rotating shaft 73, a brush slip ring 74 and a storage plate 75, the upper side of the bottom plate 1 is fixed with the fixed frame 71, the upper side of the inside of the fixed frame 71 is provided with the fourth motor 72, the output shaft of the fourth motor 72 is fixedly provided with the rotating shaft 73, the circumference surface of the rotating shaft 73 is provided with the brush slip ring 74, the upper end of the rotating shaft 73 is fixedly provided with the storage plate 75, the input ends of the fourth motor 72 and the brush slip ring 74 are electrically connected with the output end of an external PLC controller, the storage component 8 also comprises a fixing component 8, the fixing component 8 comprises a fixing frame 81, a second electric telescopic rod 82 and a fixing plate 83, two corresponding fixing frames 81 are fixed on the upper side of the storage plate 75, two corresponding second electric telescopic rods 82 are arranged on the upper side of the fixing frame 81, the telescopic arms of the two second electric telescopic rods 82 are fixedly provided with the fixing plates 83, and the input ends of the second electric telescopic rods 82 are electrically connected with the output ends of the brush slip ring 74, and the fixing component 8 are arranged on the bed plate 7, and the bed 7 is set by the fixing component 8;

Left-right position adjustment assembly 3: comprises a fixed frame 31, a first motor 32, a threaded rod 33 and a movable frame 34, wherein the upper sides of the two brackets 2 are fixedly provided with the fixed frame 31, the movable frame 34 is connected in a sliding manner in the fixed frame 31, the rear side edge part of the movable frame 34 is provided with a threaded hole, the threaded rod 33 is connected in a threaded manner in the threaded hole, the threaded rod 33 is rotationally connected in the fixed frame 31, the right side of the fixed frame 31 is provided with the first motor 32, the output shaft of the first motor 32 is fixed at the right end of the threaded rod 33, the input end of the first motor 32 is electrically connected with the output end of an external PLC controller, the upper sides of the fixed frame 31 and the movable frame 34 are provided with a detection component 5, the side surface of the movable frame 34 is provided with a front-rear position regulating component 4, the lower side of the front-rear position regulating component 4 is provided with a cutting board component 6, the front-rear position regulating component 4 comprises a sliding frame 41, a second motor 42, a tooth post 43 and a tooth board 44, the sliding frame 41 is connected in a sliding manner in the moving frame 34, the second motor 42 is arranged on the right side of the sliding frame 41, the toothed column 43 is connected in the sliding frame 41 in a rotating manner, the toothed plate 44 is fixed on the upper side of the inner part of the sliding frame 41, the toothed column 43 is meshed with the toothed plate 44, the input end of the second motor 42 is electrically connected with the output end of an external PLC (programmable logic controller), the detection assembly 5 comprises a laser range finder 51, a mounting plate 52 and a reflecting plate 53, the laser range finder 51 is arranged at the right end of the upper side of the fixed frame 31 and the front end of the upper side of the moving frame 34, the mounting plate 52 is provided with two mounting plates 52, the mounting plate 52 at the rear side is fixed at the rear end of the upper side of the moving frame 34, the mounting plate 52 at the front side is fixed at the front end of the upper side of the sliding frame 41, the reflecting plate 53 is fixed on the side of the mounting plate 52, the two reflecting plates 53 are respectively corresponding to the two laser range finders 51, the laser range finder 51 is electrically connected with the external PLC in a bidirectional manner, the cutting board assembly 6 comprises a first electric telescopic rod 61, a mounting frame 62, a third motor 63 and a cutting disc 64, the first electric telescopic rod 61 is mounted on the lower side of the sliding frame 41, a telescopic arm of the first electric telescopic rod 61 is fixed on the upper side of the mounting frame 62, the third motor 63 is mounted on the right side of the mounting frame 62, the cutting disc 64 is connected with the inner rotation of the mounting frame 62, an output shaft of the third motor 63 is fixed at the right end of the cutting disc 64, input ends of the first electric telescopic rod 61 and the third motor 63 are electrically connected with the output end of an external PLC controller, the cutting board assembly 6 cuts a bed board through setting the cutting board assembly 6, the moving distance of the cutting board assembly 6 is measured through setting the detecting assembly 5, the front-back position of the cutting board assembly 6 is adjusted through setting the front-back position adjusting assembly 4, and the left-right position of the cutting board assembly 6 is adjusted through setting the left-right position adjusting assembly 3.

The working principle of the numerical control cutting plate adjusting structure provided by the utility model is as follows: firstly, the massage bed board is placed above the storage board 75, after the placement, four second electric telescopic rods 82 are started to enable two fixing boards 83 to move downwards to fix the bed board, after the fixing, a first motor 32 and a second motor 42 are respectively started, after the fixing, a first motor 32 is started, a threaded rod 33 is rotated, the threaded rod 33 rotates to drive a movable frame 34 to move left and right, the movable frame 34 drives a cutting board assembly 6 and a rear mounting board 52 to move left and right in the process of moving the movable frame 34, at the moment, a rear laser range finder 51 detects the position of the rear mounting board 52 and the distance between the rear mounting board 52, an external PLC controller automatically controls the first motor 32 to be closed after the rear mounting board is moved to a required position, a second motor 42 is started to drive a tooth post 43 to rotate, the tooth post 43 is driven to move forward and backward under the action of a toothed plate 44 in the process of rotating the tooth post 43, the slide frame 41 will drive the mounting panel 52 of cutting board subassembly 6 and front side and carry out the back-and-forth movement in the in-process of moving, this moment the front side laser rangefinder 51 will detect the position of front side mounting panel 52 and interval between them, outside PLC controller will automatic control second motor 42 close after it moves to the required position, so can carry out accurate adjustment to the cutting position of cutting board subassembly 6, start third motor 63 after the regulation and make cutting dish 64 rotate, start first electric telescopic handle 61 and move down and can cut the board to the bed board in cutting dish 64 pivoted in-process, start fourth motor 72 after cutting to one side of bed board and make the storage board 75 rotate and can adjust the position of bed board, repeat above-mentioned operation after the adjustment can carry out accurate cutting to the bed board.

It should be noted that, the external PLC controller disclosed in the above embodiment is specifically designated by siemens S7-200, the first motor 32, the second motor 42, the third motor 63 and the fourth motor 72 may be 1LE0003 three-phase asynchronous motors, the first electric telescopic rod 61 and the second electric telescopic rod 82 may be TGC-se:Sub>A high-thrust electric telescopic rod, the laser range finder 51 may be se:Sub>A D2 laser range finder, and then the external PLC controller may be freely configured according to the practical application scenario, so as to control the operation of the first motor 32, the second motor 42, the third motor 63, the fourth motor 72, the first electric telescopic rod 61 and the second electric telescopic rod 82 by the methods commonly used in the prior art.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (6)

1. Numerical control cuts out board regulation structure, its characterized in that: comprises a bottom plate (1) and a left-right position adjusting component (3);

Bottom plate (1): two corresponding brackets (2) are fixed on the rear side, and a storage component (7) is arranged on the upper side of the bottom plate (1);

Left-right position adjusting component (3): contain fixed frame (31), first motor (32), threaded rod (33) and remove frame (34), the upside of two supports (2) is fixed with fixed frame (31), the inside sliding connection of fixed frame (31) has removes frame (34), the screw hole is seted up at the rear side limit portion of removing frame (34), the inside threaded connection of screw hole has threaded rod (33), threaded rod (33) rotate and connect in the inside of fixed frame (31), first motor (32) are installed on the right side of fixed frame (31), the output of first motor (32) is fixed at the right-hand member of threaded rod (33), the output of outside PLC controller is connected to the input electricity of first motor (32), detection subassembly (5) are installed to the upside of fixed frame (31) and removal frame (34), position control subassembly (4) around installing on the side of removal frame (34), cutting board subassembly (6) are installed to the downside of position control subassembly (4).

2. The numerical control cutting board adjusting structure according to claim 1, wherein: front and back position control subassembly (4) contain sliding frame (41), second motor (42), tooth post (43) and pinion rack (44), the inside sliding connection of moving frame (34) has sliding frame (41), second motor (42) are installed on the right side of sliding frame (41), the inside rotation of sliding frame (41) is connected with tooth post (43), inside upside of sliding frame (41) is fixed with pinion rack (44), tooth post (43) meshes with pinion rack (44), the output of outside PLC controller is connected to the input electricity of second motor (42).

3. The numerical control cutting board adjusting structure according to claim 1, wherein: the detection assembly (5) comprises a laser range finder (51), a mounting plate (52) and a reflecting plate (53), wherein the right end of the upper side of the fixed frame (31) and the front end of the upper side of the movable frame (34) are respectively provided with the laser range finder (51), the mounting plate (52) is provided with two mounting plates, the rear end of the upper side of the movable frame (34) is fixed on the rear side of the rear side mounting plate (52), the front end of the upper side of the sliding frame (41) is fixed on the front side of the front side mounting plate (52), the reflecting plate (53) is fixed on the side surface of the mounting plate (52), the two reflecting plates (53) respectively correspond to the two laser range finders (51) mutually, and the laser range finders (51) are in bidirectional electric connection with an external PLC controller.

4. The numerical control cutting board adjusting structure according to claim 2, wherein: the utility model discloses a cutting board subassembly (6) including first electric telescopic handle (61), mounting bracket (62), third motor (63) and cutting dish (64), first electric telescopic handle (61) are installed to the downside of sliding frame (41), the flexible arm of first electric telescopic handle (61) is fixed in the upside of mounting bracket (62), third motor (63) are installed on the right side of mounting bracket (62), the inside rotation of mounting bracket (62) is connected with cutting dish (64), the right-hand member at cutting dish (64) is fixed to the output shaft of third motor (63), the output of outside PLC controller is all connected to the input of first electric telescopic handle (61) and third motor (63).

5. The numerical control cutting board adjusting structure according to claim 1, wherein: the storage assembly (7) comprises a fixing frame (71), a fourth motor (72), a rotating shaft (73), a brush slip ring (74) and a storage plate (75), wherein the fixing frame (71) is fixed on the upper side of the bottom plate (1), the fourth motor (72) is installed on the upper side of the inside of the fixing frame (71), the rotating shaft (73) is fixed on an output shaft of the fourth motor (72), the brush slip ring (74) is installed on the circumferential surface of the rotating shaft (73), the storage plate (75) is fixed at the upper end of the rotating shaft (73), and the input ends of the fourth motor (72) and the brush slip ring (74) are electrically connected with the output end of an external PLC.

6. The numerical control cutting board adjusting structure according to claim 5, wherein: still include fixed subassembly (8), fixed subassembly (8) contain fixed frame (81), second electric telescopic handle (82) and fixed plate (83), the upside of storage board (75) is fixed with two corresponding fixed frame (81), two corresponding second electric telescopic handle (82) are installed to the upside of fixed frame (81), are fixed with fixed plate (83) on the flexible arm of two second electric telescopic handle (82), the output of brush sliding ring (74) is connected to the input electricity of second electric telescopic handle (82).