CN217497585U - Feeding device for numerical control machining - Google Patents

Abstract

The utility model relates to a feeding device for numerical control machining, which comprises a frame; the longitudinal driving mechanisms respectively comprise a group of longitudinal driving rollers which are rotatably arranged at two end parts of the rack, and corresponding longitudinal feeding belts are respectively installed between first belt pulleys of the same group of longitudinal driving rollers in a tensioning manner; a set of sideslip actuating mechanism, sideslip actuating mechanism contains the support frid respectively, the top of support frid is portable respectively and installs corresponding lifting support, lifting support's both sides are rotated respectively and are installed a set of transverse driving roller, transverse driving roller is located corresponding vertical feeding belt's inboard respectively, and corresponding horizontal feeding belt is installed in the tensioning respectively between same group of transverse driving roller's the second belt pulley, and horizontal feeding belt's up end is located vertical feeding belt's downside respectively. The utility model discloses can effectively realize automatic unloading linking up of going up to reduce the intensity of labour to artificial dependence and reduction staff.

Description

Material feeding unit for numerical control processing

Technical Field

The utility model relates to an auxiliary assembly is used in numerical control processing, specifically indicates a material feeding unit is used in numerical control processing.

Background

Numerical control machining is a common machining and manufacturing method of metal products, and a work blank is machined through a numerical control machine tool so as to machine and manufacture a corresponding metal product.

With the continuous development of the numerical control machining industry, the loading and unloading in the machining process are switched from manual loading and unloading to mechanical arm loading and unloading. Although the machining efficiency can be obviously improved by feeding and discharging through the manipulator, the blank feeding end still needs to fix and place the tray with the blanks in place through manual work, after the last blank in the tray is fed, the empty tray is detached through manual work, and the new tray with the blanks is fixed and placed in place again; and the finished product end needs to fix and place the empty tray in place manually, and after the finished product is placed in the tray, the tray with the finished product is dismounted manually, and the empty tray is fixed and placed in place again. The whole feeding process, namely the feeding and discharging process, completely depends on manual work, so that the efficiency is low, and the labor intensity of workers is high.

Consequently, design a section can be effectively automatic will have the tray of blank to carry the assigned position, after the material loading is accomplished to last blank in the tray that has the blank, carries out the position conversion to it automatically to directly regard it as the finished product to receive the tray, thereby effectively realize automatic unloading linking on, with reduce by a wide margin to artifical dependence and reduce staff's intensity of labour's material feeding unit for numerical control processing be the utility model discloses a research purpose.

Disclosure of Invention

Problem to above-mentioned prior art exists, the utility model provides a material feeding unit is used in numerical control processing, this material feeding unit is used in numerical control processing can effectively solve the problem that above-mentioned prior art exists.

The technical scheme of the utility model is that:

a feeding device for numerical control machining comprises

A frame;

the longitudinal driving mechanisms are arranged on two sides of the rack side by side, each longitudinal driving mechanism comprises a group of longitudinal driving rollers which are rotatably arranged at two end parts of the rack, corresponding first belt pulleys are respectively fixed on two sides of each longitudinal driving roller, corresponding longitudinal feeding belts are respectively installed between the first belt pulleys of the same group of longitudinal driving rollers in a tensioning mode, the upper end surfaces of the longitudinal feeding belts are respectively positioned on the upper side of the rack, corresponding longitudinal driving motors are respectively fixed on two sides of the rack, and one longitudinal driving roller of the same group of longitudinal driving rollers is connected to the output shaft end of each longitudinal driving motor in a transmission mode;

a group of transverse moving driving mechanisms which are arranged on two sides of the frame side by side and respectively comprise a supporting groove plate fixedly arranged at one end of the frame, which is not provided with a longitudinal driving motor, the top of the supporting groove plate is respectively provided with a corresponding lifting bracket in a movable way, two sides of the lifting bracket are respectively provided with a group of transverse driving rollers in a rotating way, the transverse driving rollers are respectively positioned at the inner sides of the corresponding longitudinal feeding belts, and the two ends of the transverse driving roller are respectively provided with a corresponding second belt pulley in a fixing way, corresponding transverse feeding belts are respectively installed between the second belt pulleys of the same group of transverse driving rollers in a tensioning way, the upper end surfaces of the transverse feeding belts are respectively positioned at the lower sides of the longitudinal feeding belts, corresponding transverse driving motors are respectively arranged on the lifting brackets, and one transverse driving roller in the same group of transverse driving rollers is in transmission connection with the output shaft end of each transverse driving motor.

The lifting support is driven by a lifting driving cylinder which is fixedly arranged at the bottom of the supporting groove plate.

And longitudinal support rod pieces for supporting the upper surface of the longitudinal feeding belt are respectively fixed on the positions, corresponding to the longitudinal feeding belt, of the frame.

And the lifting brackets are respectively provided with a transverse supporting rod piece used for supporting the upper surface of the transverse feeding belt at the position corresponding to the transverse feeding belt.

The longitudinal driving roller is connected to the output shaft end of the longitudinal driving motor in a belt transmission mode.

The transverse driving roller is connected to an output shaft end of the transverse driving motor in a belt transmission mode.

And corresponding tray limiting baffles are respectively arranged on the rack outside the supporting trough plate.

The utility model has the advantages that:

1) the utility model discloses at first be provided with a set of longitudinal drive mechanism in the frame, on a set of longitudinal drive mechanism's basis, still be provided with a set of sideslip actuating mechanism, wherein, a longitudinal drive mechanism is used for the tray that inside conveying has the blank, and another longitudinal drive mechanism is used for outside conveying out device to have off-the-shelf tray.

During feeding, a plurality of trays with blanks are placed on a longitudinal driving mechanism for conveying the trays with the blanks inwards side by side through a manual or external feeding mechanism, and an empty tray is placed on the longitudinal driving mechanism for conveying the trays with the finished products outwards; in the processing process, the blanks on the trays with the blanks are continuously fed and processed under the action of an external feeding manipulator, and the finished products after processing are continuously placed on the empty trays; after the last blank of the tray with the blanks is fed, the tray with the finished products is conveyed outwards, then a group of lifting supports of the transverse moving driving mechanism are respectively lifted to drive the tray with the blanks fed to be lifted, then a transverse driving motor is started to drive the tray with the blanks fed to a longitudinal driving mechanism for conveying the tray with the finished products outwards, and the tray with the blanks fed is used as a finished product placing tray; then the tray with the blank at the rear side is conveyed inwards, and normal operations of feeding, processing and finished product returning can be repeated.

Thereby effectively realize automatic unloading link up of going up to reduce artifical dependence and reduce staff's intensity of labour by a wide margin.

2) The utility model discloses a sideslip actuating mechanism is a set of, and it sets up in the both sides of frame side by side, consequently, can directly carry out the trade to the vertical actuating mechanism who is used for inside conveying to have the tray of blank and is used for outside conveying to go out the device and have off-the-shelf tray according to the processing demand, thereby effectively promotes the utility model discloses an use adaptability.

3) The utility model discloses a horizontal drive roller is located the inboard of corresponding vertical pay-off belt respectively, and the up end of horizontal pay-off belt is located the downside of vertical pay-off belt respectively, drives under the drive of actuating cylinder in the lift, can effectively drive lifting support, drives the horizontal drive roller that is located on lifting support promptly and effectively carries out the lifting to do not influence the utility model discloses a under the prerequisite of whole working process, effectively conveniently carry out the tray side and move, in order to ensure the utility model discloses a practical effect.

4) The utility model discloses a still be provided with respectively on frame and the lifting support and be used for providing the vertical support member and the horizontal support member that support to the upper surface of vertical feeding belt and horizontal feeding belt to ensure frame and lifting support to vertical feeding belt and horizontal feeding belt's supported effect, thereby effectively further ensure the utility model discloses a practical function.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a usage state diagram of the present invention.

FIG. 3 is a schematic view showing the construction of the traverse driving mechanism.

Detailed Description

To facilitate understanding of those skilled in the art, the structure of the present invention will now be described in further detail with reference to the following examples:

referring to FIGS. 1-3, a feeding device for numerical control machining includes

A frame 1;

the longitudinal driving mechanisms 2 are arranged on two sides of the rack 1 side by side, each longitudinal driving mechanism 2 comprises a group of longitudinal driving rollers 201 rotatably mounted at two end portions of the rack 1, corresponding first belt pulleys 202 are respectively fixed on two sides of each longitudinal driving roller 201, corresponding longitudinal feeding belts (not marked) are respectively mounted between the first belt pulleys 202 of the same group of longitudinal driving rollers 201 in a tensioning manner, the upper end surfaces of the longitudinal feeding belts are respectively located on the upper side of the rack 1, corresponding longitudinal driving motors 203 are respectively fixed on two sides of the rack 1, and one longitudinal driving roller 201 of the same group of longitudinal driving rollers 201 is connected to the output shaft end of the longitudinal driving motor 203 in a transmission manner;

a set of traverse driving mechanism 3, set up in the both sides of frame 1 side by side, traverse driving mechanism 3 contains fixed mounting respectively in frame 1 has not had the support frid 301 of the one end of longitudinal drive motor 203, the top of supporting frid 301 is corresponding lifting support 302 of movable mounting respectively, a set of transverse drive roller 303 is installed in the rotation respectively to the both sides of lifting support 302, transverse drive roller 303 is located corresponding longitudinal feeding belt's inboard respectively, and transverse drive roller 303's both ends respectively fixing device have corresponding second belt pulley 304, corresponding transverse feeding belt (not sign) is installed in the tensioning respectively between same set of transverse drive roller 303's the second belt pulley 304, transverse feeding belt's up end is located longitudinal feeding belt's downside respectively, the last fixing device respectively of lifting support 302 has corresponding transverse drive motor 305, one transverse driving roller 303 in the same group of transverse driving rollers 303 is in transmission connection with the output shaft end of the transverse driving motor 305.

The lifting brackets 302 are driven by lifting driving cylinders 306 fixed to the bottom of the supporting channel plate 301.

The machine frame 1 is respectively provided with a longitudinal support rod piece 4 for supporting the upper surface of the longitudinal feeding belt at the position corresponding to the longitudinal feeding belt.

The lifting brackets 302 are respectively provided with a transverse support rod 5 for supporting the upper surface of the transverse feeding belt at the position corresponding to the transverse feeding belt.

The longitudinal driving roller 201 is connected to the output shaft end of the longitudinal driving motor 203 in a belt transmission manner.

The transverse driving roller 303 is connected to an output shaft end of the transverse driving motor 305 in a belt transmission manner.

And corresponding tray limiting baffles 6 are respectively arranged on the rack 1 at the outer side of the supporting trough plate 301.

The using method of the feeding device for numerical control machining comprises the following specific steps:

1) one longitudinal driving mechanism 2 is used for conveying the tray with the blank inwards, and the other longitudinal driving mechanism 2 is used for conveying the tray with the finished product outwards;

2) manually placing a plurality of trays with blanks side by side on a longitudinal driving mechanism 2 for conveying the trays with the blanks inwards, and placing an empty tray on the longitudinal driving mechanism 2 for conveying the trays with finished products outwards;

3) continuously feeding and processing the blanks on the trays with the blanks under the action of an external feeding manipulator, and continuously placing the finished products after processing on the empty trays;

4) after the last blank of the tray with blanks is loaded, the tray with finished products is conveyed outwards, under the driving of the lifting driving cylinder 306, the lifting supports 302 of the group of transverse moving driving mechanisms 3 are respectively lifted to drive the tray with blanks loaded to be lifted, then the transverse driving motor 305 is started to drive the tray with blanks loaded to the longitudinal driving mechanism 2 for conveying the tray with finished products outwards, and the tray with blanks loaded is used as a tray for placing finished products;

5) then the tray with the blank at the rear side is conveyed inwards, and normal operations of feeding, processing and finished product returning can be repeated.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. The utility model provides a material feeding unit for numerical control processing which characterized in that: comprises that

A frame (1);

the longitudinal driving mechanisms (2) are arranged on two sides of the rack (1) side by side, each longitudinal driving mechanism (2) comprises a group of longitudinal driving rollers (201) rotatably mounted at two end parts of the rack (1), two sides of each longitudinal driving roller (201) are respectively provided with a corresponding first belt pulley (202) in a fixing mode, a corresponding longitudinal feeding belt is respectively installed between the first belt pulleys (202) of the same group of longitudinal driving rollers (201) in a tensioning mode, the upper end face of each longitudinal feeding belt is respectively located on the upper side of the rack (1), two sides of the rack (1) are respectively provided with a corresponding longitudinal driving motor (203) in a fixing mode, and one longitudinal driving roller (201) of the same group of longitudinal driving rollers (201) is connected to the output shaft end of the longitudinal driving motor (203) in a transmission mode;

a set of sideslip actuating mechanism (3), set up in side by side in the both sides of frame (1), sideslip actuating mechanism (3) contain fixed mounting respectively in frame (1) does not have support frid (301) of the one end of longitudinal drive motor (203) to install, the top of supporting frid (301) is portable respectively and installs corresponding lifting support (302), the both sides of lifting support (302) are rotated respectively and are installed a set of horizontal drive roller (303), horizontal drive roller (303) are located the inboard of corresponding vertical feeding belt respectively, and the both ends of horizontal drive roller (303) are fixed device respectively has corresponding second belt pulley (304), corresponding horizontal feeding belt is installed in the tensioning respectively between second belt pulley (304) of same group of horizontal drive roller (303), the up end of horizontal feeding belt is located respectively the downside of vertical feeding belt, and the lifting support (302) is respectively provided with a corresponding transverse driving motor (305) in a fixing way, and one transverse driving roller (303) in the same group of transverse driving rollers (303) is connected to the output shaft end of the transverse driving motor (305) in a transmission way.

2. The feeding device for numerical control machining according to claim 1, characterized in that: the lifting brackets (302) are respectively driven by lifting driving cylinders (306) which are fixedly arranged at the bottoms of the supporting groove plates (301).

3. The feeding device for numerical control machining according to claim 1, characterized in that: and longitudinal support rod pieces (4) for supporting the upper surface of the longitudinal feeding belt are respectively fixed on the positions, corresponding to the longitudinal feeding belt, of the rack (1).

4. The feeding device for numerical control machining according to claim 1, characterized in that: and the lifting brackets (302) are respectively provided with a transverse supporting rod piece (5) used for supporting the upper surface of the transverse feeding belt at the position corresponding to the transverse feeding belt.

5. The feeding device for numerical control machining according to claim 1, characterized in that: the longitudinal driving roller (201) is connected to the output shaft end of the longitudinal driving motor (203) in a belt transmission mode.

6. The feeding device for numerical control machining according to claim 1, characterized in that: the transverse driving roller (303) is in transmission connection with an output shaft end of the transverse driving motor (305) through a belt transmission mode.

7. The feeding device for numerical control machining according to claim 1, characterized in that: and corresponding tray limiting baffles (6) are respectively arranged on the rack (1) at the outer side of the supporting groove plate (301).

Images