CN219275315U - Numerical control cutter placing box - Google Patents

Abstract

The utility model provides a numerical control cutter placement box which comprises a cutter placement mechanism, an operating mechanism and a pushing mechanism, wherein the operating mechanism is arranged on one side of the cutter placement mechanism, the operating mechanism and the pushing mechanism are mutually electrified and controlled, the pushing mechanism is electrically connected with the operating mechanism through each embedded cable, the cutter placement mechanism comprises a field grid placement plate, a square slot is formed in the middle of the plate surface of the field grid placement plate, and a connecting upright rod is vertically arranged at the cross position of the middle of the slot position of the square slot. Through being provided with field word check and placing board and square fluting, be used for achieving to retrieve the cutter that places according to square fluting placement state and realize classifying the square fluting with some, through the connection pole setting that is equipped with and the connection backing plate on top, according to the access state of connecting the backing plate, the convenience of use personnel directly places square fluting position with corresponding numerical control cutter, avoids the cutter to lose.

Description

Numerical control cutter placing box

Technical Field

The utility model relates to the technical field of numerical control machining treatment, in particular to a numerical control cutter placing box.

Background

The numerical control tool placing box is a device for orderly storing specific numerical control tools, various tools are used in machining, and generally the tools are required to be stored in the tool box so as to be convenient to take.

Chinese patent publication No. CN205708773U discloses an automatic storing and taking device for PCB cutter box, comprising: the left fixing plate and the right fixing plate are arranged on the base, cutter box sliding grooves are arranged on the left fixing plate and the right fixing plate, and station grooves for pushing out the connecting rod pushing piece upwards are formed in the upper parts of the cutter box sliding grooves and the lower parts of the cutter box feeding and discharging stations; the connecting rod pushing piece is fixed on the connecting rod fixed block, the connecting rod fixed block is matched with the crank through the lower bearing, the crank is installed on the right fixed plate, the crank is linked with an output shaft of the crank motor, the connecting rod fixed block is connected with the lower end of the guide rod, the upper end of the guide rod is matched with the linear bearing, the linear bearing is connected with the linear bearing fixed block, the right fixed plate is provided with the cylinder guide rail, the cylinder guide rail is provided with the horizontal sliding block in a sliding mode, the horizontal sliding block is provided with the lifting cylinder, the action end of the lifting cylinder is provided with the vertical sliding block, the vertical sliding block is connected with the tool box pushing plate, and the tool box pushing plate is positioned in the tool box sliding groove. The object that the technique that involves in this patent product was stored is the PCB cutter, and what brought is that the cutter aspect of PCB processing was deposited possesses that work efficiency is higher, the flexibility is good, has possessed better assembly benefit simultaneously, but does not accomplish better classification in the aspect of the adaptation of cutter itself and the cutter model induction, generally relies on manual selection in the aspect of the accomodating of cutter self simultaneously.

It should be noted that the information disclosed in the foregoing background section is only for enhancement of understanding of the background of the present application and thus may include information that does not form the prior art that is already known to those of ordinary skill in the art.

Disclosure of Invention

The utility model aims to provide a numerical control cutter placement box for solving the problems of the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a numerical control cutter placement box comprises a cutter placement mechanism, an operating mechanism and a pushing mechanism;

an operating mechanism is arranged on one side of the cutter placing mechanism, and the operating mechanism and the pushing mechanism are mutually electrified and controlled;

the pushing mechanism is electrically connected with the operating mechanism through each embedded cable;

the cutter placing mechanism comprises a field grid placing plate, square grooves are formed in the middle of the plate surface of the field grid placing plate, connecting upright rods are vertically arranged at the cross positions of the middle parts of the groove positions of the square grooves, and a plurality of interception brackets are covered at the middle parts of the top ends of the connecting upright rods;

the pushing mechanism comprises a plurality of electric telescopic rods arranged in the middle of the bottom end of a field grid placement plate, wherein the bottom ends of rod bodies of the electric telescopic rods are arranged through structural supports of connecting seats and the bottom ends, telescopic bulges are vertically arranged in the middle of the top ends of the electric telescopic rods, magnetic adsorption heads are arranged on the top ends of the telescopic bulges, and the magnetic adsorption heads are magnetically connected with the bottoms of appointed cutters.

For better placement of the tool, as a preferred embodiment of the utility model: the middle part of the interception bracket is surrounded by a plurality of criss-cross connecting base plates, and the middle part crossing parts of the connecting base plates are surrounded by grooves for independently placing cutters.

In order to control the electrical property between the control box and the corresponding storage battery, the utility model adopts a preferable scheme: the operating mechanism comprises a control box which is arranged on the side of the grid placing plate, the box body of the control box is hollow, and a storage battery for control is arranged in the control box.

In order to realize the power-on operation of the telescopic structure at the bottom end of the designated cutter, the utility model adopts a preferable scheme as follows: the control box comprises a box body, a pushing mechanism, a wire connector, a plurality of round button holes, a plurality of protruding buttons, a wire connector and a pushing mechanism, wherein the surface of the top of the box body of the control box is sequentially provided with the round button holes, the inside of the hole sites of the round button holes are provided with the protruding buttons according to the distribution, and the protruding buttons are electrically connected with the pushing mechanism through the wire connector.

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

1) Through being provided with field word check place board and square fluting, place the state according to square fluting and be used for reaching the power and carry out steady placing to appointed structure, through the connection backing plate that connects pole setting and top that is equipped with, according to the access state of connecting the backing plate, the user of being convenient for places corresponding numerical control cutter directly to square fluting position, only need place in appointed trench when accomplishing the cutter and put, the protection to high-value cutter has been realized, avoid causing rust and the corruption of cutter itself because of external greasy dirt or the influence of piece, more be favorable to the protection of cutter later stage;

2) The electric telescopic rod is arranged, the electric telescopic rod moves upwards in a telescopic state, the telescopic bulge moves upwards after being electrically connected with the telescopic bulge, and the aim of the electric telescopic rod is to automatically press the telescopic structure to control the upward movement of the electric telescopic rod by personnel according to different specifications of cutters according to actual use requirements, so that the pushed cutters are the specifications of cutters required by the personnel;

3) The automatic cutter sorting device has the advantages that corresponding cutters can be selected automatically according to specifications better and more conveniently in the later use aspect, the purpose of better sorting is achieved in the replacement aspect, and compared with a comparison file, the automatic cutter sorting device has the function of sorting and placing different cutters, and the automatic cutter sorting device has the function of pushing the cutters out of grooves automatically, so that a user can determine the type of the cutter, and the cutter is automatically realized.

Drawings

FIG. 1 is a schematic view of a push mechanism according to the present utility model;

FIG. 2 is a schematic view of a tool setting mechanism according to the present utility model;

FIG. 3 is a schematic view of an operating mechanism according to the present utility model;

fig. 4 is a schematic structural view of the present utility model.

In the figure: 1. a cutter placement mechanism; 11. a field grid placing plate; 12. square slotting; 13. connecting the vertical rods; 14. an interception bracket; 15. connecting the backing plate; 16. slotting; 2. an operating mechanism; 21. a control box; 22. a protruding button; 23. a circular button opening; 3. a pushing mechanism; 31. an electric telescopic rod; 32. a telescopic protrusion; 4. a driving mechanism; 41. a power toggle button; 42. a power toggle switch; 43. a control backing plate; 44. the angle toggle block.

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 utility model provides a technical solution: the utility model provides a box is put to numerical control cutter, includes cutter placement machine constructs 1, operating device 2, pushing equipment 3 and actuating mechanism 4, and wherein operating device 2 is installed to one side of cutter placement machine constructs 1, mutual circular telegram control between operating device 2 and the pushing equipment 3, and pushing equipment 3 passes through each pre-buried cable and operating device 2 electric connection, and actuating mechanism 4 then installs on operating device 2, through operating device 2 control actuating mechanism 4 work.

The detailed structure of the above mechanism will be described below: wherein the cutter placing mechanism 1 includes that the board 11 is placed to the field style of calligraphy that places with ground, square fluting 12 has been seted up at the face middle part of board 11 is placed to the field style of calligraphy, connecting pole setting 13 is vertically installed at the trench middle part cross position of square fluting 12, the top middle part cover of a plurality of connecting pole setting 13 is connected and is equipped with interception support 14, and the middle part at interception support 14 encloses and is equipped with a plurality of criss-cross connection backing plates 15, the middle part cross position of a plurality of connection backing plates 15 all encloses and is equipped with each independently be used for placing the fluting 16 of cutter, the fluting 16 of adoption, in later stage use, only need place the fluting 16 with the cutter in, can form a inclosed space, so that the protection cutter can not receive external greasy dirt influence.

The operating means 2 includes the control box 21 of installation setting at the board 11 avris is placed to field word check, and the inside cavity of box of control box 21, and the built-in battery that is used for controlling of installing, and the main purpose of control box 21 of taking is a plurality of control switch of integration, only needs to stir one of them cutter model on-off control like this and appointed field word check place the inside cutter push rod of board 11 face, will automatic operation, pushes out the cutter and shows the sword from the fluting inside.

When the automatic numerical control pushing device is specifically used, firstly, a user lays and places numerical control cutters to be stored from the position of the slot 16 according to the size of the cutters according to the square slot position formed in the middle of the field grid placing plate 11, and places the numerical control cutters to the middle of the field grid placing plate 11 according to the cross enclosing position of the connecting base plate 15, and the user performs magnetic induction connection through the connecting position of the top end of the telescopic bulge 32, electrifies the cutters according to magnetic induction on the telescopic bulge 32, increases magnetic force for the electromagnet according to low-voltage current, controls the magnetic force intensity on the cutters of different specifications, avoids the cutters from toppling over when pushing the cutters in the later stage, and can automatically push the cutters according to the electric telescopic rod compared with the storage aspect of the classification type adopted by comparison files so as to solve the problem that the traditional cutters need manual operation.

Referring to fig. 4, a plurality of round button holes 23 are sequentially formed in the top surface of the box body of the control box 21, a plurality of convex buttons 22 are distributed inside the holes of the round button holes 23, the convex buttons 22 are electrically connected with the pushing mechanism 3 through a wire connector, and the magnetic structure of the convex buttons 22 is used for controlling the top end to realize magnetic adsorption placement of a part of iron cutters, so that the cutters are prevented from falling or even toppling before being discharged.

The actuating mechanism 4 is including installing the power toggle button 41 that sets up in the box top side of control box 21, the top middle part of power toggle button 41 all is provided with power toggle switch 42, power toggle switch 42 is the plate clamp form, and the avris that is located power toggle switch 42 is provided with control backing plate 43, wherein top middle part at control backing plate 43 rotates and is equipped with rolling bearing, rolling bearing's top middle part is provided with angle toggle block 44, through being equipped with rolling bearing and angle toggle block 44 with toggle angle toggle block 44's radian, control electric telescopic handle's power intensity, the later stage can let appointed telescopic rod body structure extend longer when placing some cutters of different length, until the propelling movement comes out the standing groove. It should be noted that, the technical solution of the driving mechanism 4 controlling the electric telescopic rod to perform the telescopic operation in this embodiment is not within the scope of the present utility model, and is only used for understanding that the driving mechanism 4 can control the telescopic length of the electric telescopic rod differently, and the electric telescopic rod in this application performs the telescopic operation by those skilled in the art through conventional techniques.

When the electric telescopic handle is used, the protruding button 22 is opened, the pressing state of the protruding button 22 is realized, the electric telescopic handle 31 at the bottom end of the designated field grid placing plate 11 stretches up and down and moves up, the power at the middle part of the field grid placing plate 11 is controlled by a user to stir the button, the cutter is automatically displaced to the upper and lower positions according to stretching, then the cutter is only required to be connected with the end position of the telescopic protrusion 32 through magnetism, the magnetic structure is opened by the user, and the user manually operates the angle control gear 44 and then is used for operating the electric telescopic rod at the bottom end after manually stirring the angle control gear 44.

The pushing mechanism 3 is used for pushing the cutter to a designated position, and mainly comprises a plurality of electric telescopic rods 31 arranged in the middle of the bottom end of the field grid placing plate 11, the bottom ends of rod bodies of the plurality of electric telescopic rods 31 are arranged through structural supports of connecting seats and the bottom ends, telescopic bulges 32 are vertically arranged in the middle of the top ends of the electric telescopic rods 31, magnetic adsorption heads are arranged on the tops of the telescopic bulges 32, the magnetic adsorption heads are magnetically connected with the bottoms of the designated cutters, and electric connection is realized through the connection states of the magnetic adsorption heads.

When the power toggle button is specifically used, a user opens the bulge button 22, the pressing state of the bulge button 22 is up-and-down telescopic movement of the electric telescopic movement 31 at the bottom end of the field grid placing plate 11 designated by the user, the user controls the power toggle button 41 in the middle of the field grid placing plate 11, the power toggle button 41 is pushed up and down, and then the power toggle button 41 is displaced up and down, and is automatically displaced up and down according to the telescopic movement;

the user only needs to connect the cutter through the magnetism of the end position of flexible protruding 32, realizes the magnetism absorption to different cutters after the user opens the magnetic structure this moment, avoids the cutter to cause when later stage use to drop and loses, and magnetism absorption can keep the cutter to be in the vertically state in center and avoid cutter to empty or the problem of colliding with that brings between cutter and the protective structure, then stir piece 44 through manual operation angle, is used for operating the electric telescopic handle of bottom after stirring piece 44 according to manual stirring angle.

Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art may modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some technical features thereof, and any modifications, equivalent substitutions, improvements and the like within the spirit and principles of the present utility model should be included in the scope of the present utility model.

Claims (4)

1. A numerical control cutter placement box comprises a cutter placement mechanism (1), an operating mechanism (2) and a pushing mechanism (3);

the automatic cutting machine is characterized in that an operating mechanism (2) is arranged on one side of the cutter placing mechanism (1), and the operating mechanism (2) and the pushing mechanism (3) are mutually electrified and controlled;

the pushing mechanism (3) is electrically connected with the operating mechanism (2) through an embedded cable;

the cutter placing mechanism (1) comprises a field grid placing plate (11), square grooves (12) are formed in the middle of the plate surface of the field grid placing plate (11), connecting vertical rods (13) are vertically arranged at the crossing positions of the middle parts of the grooves of the square grooves (12), and a plurality of interception brackets (14) are covered at the middle parts of the top ends of the connecting vertical rods (13);

push mechanism (3) are including installing a plurality of electric telescopic handle (31) at field word check place board (11) bottom middle part, a plurality of the body of rod bottom of electric telescopic handle (31) is through the structural support setting of connecting seat with the bottom, flexible arch (32) are vertically installed in electric telescopic handle (31) top middle part, the top of flexible arch (32) is provided with magnetic adsorption head, and this magnetic adsorption head is connected with appointed cutter bottom magnetism.

2. The numerical control tool setting box according to claim 1, characterized in that: the middle part of the interception bracket (14) is surrounded by a plurality of criss-cross connecting base plates (15), and the middle part crossing parts of the connecting base plates (15) are surrounded by grooves (16) for independently placing cutters.

3. The numerical control tool setting box according to claim 1, characterized in that: the operating mechanism (2) comprises a control box (21) arranged on the side of the grid placing plate (11), and the box body of the control box (21) is hollow and internally provided with a storage battery for control.

4. A numerical control tool setting box according to claim 3, characterized in that: the control box is characterized in that a plurality of round button holes (23) are sequentially formed in the top surface of the box body of the control box (21), a plurality of protruding buttons (22) are arranged inside holes of the round button holes (23), and the protruding buttons (22) are electrically connected with the pushing mechanism (3) through connectors.

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