CN208483583U - A kind of numerically-controlled machine tool feeding device - Google Patents

Abstract

The utility model discloses a kind of numerically-controlled machine tool feeding devices, including feeding main body, lower section is equipped with pedestal on the left of the feeding main body, and chassis interior is embedded with motor, lifting shaft is connected with above the motor, and left case is installed above lifting shaft, second baffle is installed on the outside of the dextrorotation turnning box, is equipped with third baffle on the outside of the convex ball.The numerically-controlled machine tool is with feeding device by the way that feeding material to be placed in right case, then its feeding material is rolled by the ball inside right case, its feeding material is proceeded in rotary box by conveyer belt, arc ball inside rotary box carries out secondary rotating screening to its feeding material, its feeding material classification is placed, it solves lathe feeding usually and is all after manually manually lower waist is to its marshalling inside the article-storage device of storage machine tool element, then carry out a series of activities is clamped by the fixture of lathe, but in traditional feeding device, it is slow to arrange feeding, the low problem of man efficiency.

Description

A kind of numerically-controlled machine tool feeding device

Technical field

The utility model relates to fields of numeric control technique, specially a kind of numerically-controlled machine tool feeding device.

Background technique

Lathe feeding be usually all manually inside the article-storage device of storage machine tool element manually lower waist it is arranged it is whole After neat, carry out a series of activities is then clamped by the fixture of lathe, but in traditional feeding device, arranges feeding Slowly, man efficiency is low, and therefore, this technology existing defects needs to improve.

Summary of the invention

The purpose of this utility model is to provide a kind of numerically-controlled machine tool feeding devices, to solve to mention in above-mentioned background technique Lathe feeding out be usually all manually inside the article-storage device of storage machine tool element manually lower waist to its marshalling it Afterwards, carry out a series of activities is then clamped by the fixture of lathe, but in traditional feeding device, arrangement feeding is slow, people The problem of work low efficiency.

To achieve the above object, the utility model provides the following technical solutions: a kind of numerically-controlled machine tool feeding device, including Feeding main body, feeding main body left side lower section is equipped with pedestal, and chassis interior is embedded with motor, is connected with liter above the motor Axis is dropped, and left case is installed above lifting shaft, the second ball is embedded with inside the left case, and be connected with snap-gauge on the left of left case, institute It states top on the right side of left case and is equipped with conveyer belt, and rotary box is installed on the right side of conveyer belt, arc ball is embedded with inside the rotary box, and Support column is installed on the outside of rotary box, sliding rail is connected on the right side of the support column, and be embedded with convex ball above sliding rail, the convex ball is right Side is equipped with dextrorotation turnning box, and the second conveyer belt is equipped on the outside of dextrorotation turnning box, is connected with right case on the right side of second conveyer belt, and It is embedded with ball inside right case, the second support column is installed, and be embedded with the second lifting shaft inside the second support column below the right case, Right pedestal is installed, and right chassis interior is embedded with the second motor, is equipped on the outside of the support column below second lifting shaft Baffle, the dextrorotation turnning box outside is equipped with second baffle, and the second arc ball is embedded with inside dextrorotation turnning box, on the outside of the convex ball Equipped with third baffle.

Preferably, the snap-gauge is concave structure, and snap-gauge is structure as a whole by bonding with left case, and the height of snap-gauge Less than the height of left case.

Preferably, the quantity of the arc ball inside the rotary box has and at least ten, and arc ball is located at rotary box Internal uniform crossover is placed.

Preferably, the support post shapes are T-type structure, square shape and the contract inside sliding rail on support column T-type structure It closes shape to match, and support column and sliding rail constitute movable connection structure.

Preferably, the height of the baffle, second baffle and third baffle is greater than the height of rotary box, convex ball and dextrorotation turnning box Degree, and the width of baffle, the width of second baffle and third baffle and rotary box, convex ball and dextrorotation turnning box is equal.

Compared with prior art, the utility model has the beneficial effects that the numerically-controlled machine tool feeding device is by by feeding Material is placed in right case, is then rolled by the ball inside right case to its feeding material, its feeding material is passed through Conveyer belt proceeds in rotary box, and the arc ball inside rotary box carries out secondary rotating screening to its feeding material, by its feeding Material classification is placed, and solving lathe feeding usually is all manually from the artificial lower waist in the article-storage device the inside of storage machine tool element After its marshalling, carry out a series of activities is then clamped by the fixture of lathe, but in traditional feeding device, It is slow to arrange feeding, the low problem of man efficiency.The snap-gauge of the device is concave structure, and snap-gauge is integrated by bonding with left case Structure, and the height of snap-gauge is less than the height of left case, which when in use, passes through the circular arc inside rotary box and dextrorotation turnning box After ball and the second arc ball carry out rotary screen point to the material of its feeding, then its material is passed through on left case by conveyer belt The lower flexible height that left case is adjusted by the height of lathe, so that more convenient pass through its feeding material manually by it It is placed on lathe, is then worked by the fixture inside lathe, snap-gauge material is rubber and concave structure, can make card Plate is more convenient that its feeding material is transported on lathe when engaging the engaging of lathe side, and the height of snap-gauge is less than left case Height can make snap-gauge on the outside of the engaging lathe after, do not delay and manually take out feeding material inside left case, the rotation of the device The quantity of arc ball inside turnning box has and at least ten, and arc ball is located at uniform crossover inside rotary box and places, the dress It sets when in use, because the quantity of arc ball has and at least ten, and arc ball is located at uniform crossover inside rotary box and places, will When feeding material is placed on rotary box rotation, feeding material screening uniformly conveying, convenient for manually working it, the dress can be made The support post shapes set are T-type structure, and square shape matches with the shape of agreeing with inside sliding rail on support column T-type structure, and Support column and sliding rail constitute movable connection structure, which when in use, will need the material of feeding by inside dextrorotation turnning box After rotary sieve, the material rotation of its feeding is categorized on convex ball, is then carried out again by the arc ball inside rotary box After rotation classification is completed, movable connection structure can be made up of support column and sliding rail by its rotary box and passes through sliding rail to moving down It is dynamic, then feeding material after sub-sieve is transported to inside left case by conveyer belt, the T-type structure of support column can work When, more firm when installing with sliding rail, the height of the baffle of the device, second baffle and third baffle is greater than rotary box, convex ball With the height of dextrorotation turnning box, and the width of baffle, the width of second baffle and third baffle and rotary box, convex ball and dextrorotation turnning box It is equal, the device when in use, because baffle, second baffle and third baffle height be greater than rotary box, convex ball and dextrorotation turnning box Height, can make manually by its feeding material be placed on inside the device sieve convey when, avoid feeding material because of the device At work, because vibration feeding material drops out, and baffle, the width of second baffle and third baffle and rotary box, convex ball and the right side The width of rotary box is equal to work and installs and uses convenient for the device.

Detailed description of the invention

Fig. 1 is the utility model positive structure schematic；

Fig. 2 is the utility model support column design of part schematic diagram；

Fig. 3 is the utility model overlooking structure diagram.

In figure: 1, feeding main body, 2, conveyer belt, 3, left case, 4, snap-gauge, 5, ball, 6, pedestal, 7, motor, 8, lifting shaft, 9, sliding rail, 10, arc ball, 11, rotary box, 12, support column, 13, convex ball, 14, dextrorotation turnning box, the 15, second conveyer belt, 16, the right side Case, 17, right pedestal, the 18, second motor, the 19, second support column, the 20, second lifting shaft, the 21, second ball, 22, baffle, 23, Second baffle, 24, third baffle, the 25, second arc ball.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: a kind of numerically-controlled machine tool feeding device, including it is upper Expect main body 1,1 left side lower section of feeding main body is equipped with pedestal 6, and motor 7 is embedded with inside pedestal 6, is connected with lifting shaft above motor 7 8, and left case 3 is installed above lifting shaft 8, it is embedded with the second ball 21 inside left case 3, and be connected with snap-gauge 4 on the left of left case 3, blocks Plate 4 is concave structure, and snap-gauge 4 is structure as a whole by bonding with left case 3, and the height of snap-gauge 4 is less than the height of left case 3, The device when in use, by arc ball 10 inside rotary box 11 and dextrorotation turnning box 14 and the second arc ball 25 to its feeding Point after material carries out rotary screen, then its material is stretched by left about 3 case by conveyer belt 2 pass through the height of lathe into And the height of left case 3 is adjusted, so that more convenient pass through its feeding material manually places it on lathe, then pass through Fixture inside lathe works, and 4 material of snap-gauge is rubber and concave structure, and snap-gauge 4 can be made in engaging lathe side card It is more convenient that its feeding material is transported on lathe when conjunction, and the height of snap-gauge 4 can make snap-gauge 4 exist less than the height of left case 3 After engaging on the outside of lathe, not to delay and manually take out left 3 inside feeding material of case, left 3 right side top of case is equipped with conveyer belt 2, And rotary box 11 is installed on the right side of conveyer belt 2, the quantity of the arc ball 10 inside rotary box 11 has and at least ten, and circular arc Ball 10 is located at the placement of 11 inside uniform crossover of rotary box, the device when in use, because the quantity of arc ball 10 has and at least ten It is a, and arc ball 10 is located at the placement of 11 inside uniform crossover of rotary box, when feeding material is placed on the rotation of rotary box 11, can make Feeding material screening uniformly conveying is embedded with arc ball 10, and rotary box 11 convenient for manually working it inside rotary box 11 Outside is equipped with support column 12, and 12 shape of support column is T-type structure, inside support column 12T type superstructure shape and sliding rail 9 Shape of agreeing with match, and support column 12 and sliding rail 9 constitute movable connection structure, which when in use, will need feeding Material after 14 internal rotating sub-sieve of dextrorotation turnning box, the rotation of the material of its feeding is categorized on convex ball 13, then again After carrying out rotation classification completion by the arc ball 10 inside rotary box 11, support column 12 and 9 composition activity of sliding rail can be passed through Connection structure moves down its rotary box 11 by sliding rail 9, is then transported to feeding material after sub-sieve by conveyer belt 2 Inside left case 3, the T-type structure of support column 12 can be more firm when installing with sliding rail 9 at work, connects on the right side of support column 12 It is connected to sliding rail 9, and is embedded with convex ball 13 above sliding rail 9, dextrorotation turnning box 14 is equipped on the right side of convex ball 13, and install on the outside of dextrorotation turnning box 14 There is the second conveyer belt 15, right case 16 is connected on the right side of the second conveyer belt 15, and is embedded with ball 5 inside right case 16, right 16 lower section of case Second support column 19 is installed, and is embedded with the second lifting shaft 20 inside the second support column 19, is equipped with below the second lifting shaft 20 Right pedestal 17, and the second motor 18 is embedded with inside right pedestal 17, baffle 22, baffle 22, second gear are installed on the outside of support column 12 The height of plate 23 and third baffle 24 is greater than the height of rotary box 11, convex ball 13 and dextrorotation turnning box 14, and baffle 22, second baffle 23 is equal with the width of dextrorotation turnning box 14 with the width of third baffle 24 and rotary box 11, convex ball 13, the device when in use, because The height of baffle 22, second baffle 23 and third baffle 24 is greater than the height of rotary box 11, convex ball 13 and dextrorotation turnning box 14, can make Manually by its feeding material be placed on inside the device sieve convey when, avoid feeding material because of the device at work, because Vibration feeding material drops out, and baffle 22, the width of second baffle 23 and third baffle 24 and rotary box 11, convex ball 13 and dextrorotation The width of turnning box 14 is equal to work and installs and uses convenient for the device, second baffle 23 is equipped on the outside of dextrorotation turnning box 14, and right It is embedded with the second arc ball 25 inside rotary box 14, is equipped with third baffle 24 on the outside of convex ball 13.

Working principle: when using the numerically-controlled machine tool feeding device, it is each to first check for the numerically-controlled machine tool feeding device Whether components are complete, avoid that installation is caused to go wrong due to the defect of part during the installation process, check errorless laggard The device is placed on the ground by row work first, and then the snap-gauge of the device 4 is fastened on the outside of lathe, because snap-gauge 4 is rubber Glue material matter, so even if having partial shape not to be bonded, rubber material itself can also be according to practical feelings when being bonded on the outside of lathe Condition itself adjusts the shape of snap-gauge 4 and powers on the device after snap-gauge 4 is fitted on the outside of lathe, pass through the second motor 18 So that its second lifting shaft 20 is carried out lifting work, its right case 16 is reduced, then feeding material is poured into right case 16, passes through the right side Its feeding material roll shining by the ball 5 inside case 16 to be moved, and the second lifting shaft 20 is risen, after right case 16 rises, is led to Cross the second conveyer belt 15 its feeding material is slowly transported to inside dextrorotation turnning box 14, dextrorotation turnning box 14 by the second motor 18 to Then its feeding material is carried out rotation shaking-sieving to convex ball by the second arc ball 25 inside dextrorotation turnning box 14 by anticlockwise Reach buffering classification on 13, then feeding material carries out rotation regrading classification again by rotary box 11, and such as artificial hair When now screening is completed, rotary box 11 can be supported on sliding rail 9 by support column 12 and move up and down, its feeding material is passed through conveyer belt 2 are transported to after left 3 inside of case, its lifting shaft 8 is risen to suitable position by motor 7, is manually put to its feeding material It sets on lathe, then the fixture on lathe clamps its feeding material, works, and here it is the numerically-controlled machine tools to use Expect the use process of device.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of numerically-controlled machine tool feeding device, including feeding main body (1), it is characterised in that: under on the left of the feeding main body (1) Side is equipped with pedestal (6), and is embedded with motor (7) inside pedestal (6), is connected with lifting shaft (8) above the motor (7), and goes up and down It is equipped with left case (3) above axis (8), is embedded with the second ball (21) inside the left case (3), and be connected with card on the left of left case (3) Plate (4), left case (3) the right side top is equipped with conveyer belt (2), and is equipped with rotary box (11), the rotation on the right side of conveyer belt (2) Arc ball (10) are embedded with inside turnning box (11), and are equipped with support column (12) on the outside of rotary box (11), the support column (12) is right Side is connected with sliding rail (9), and is embedded with convex ball (13) above sliding rail (9), is equipped with dextrorotation turnning box (14) on the right side of the convex ball (13), and It is equipped with the second conveyer belt (15) on the outside of dextrorotation turnning box (14), is connected with right case (16) on the right side of second conveyer belt (15), and Ball (5) are embedded with inside right case (16), are equipped with the second support column (19) below the right case (16), and the second support column (19) Inside is embedded with the second lifting shaft (20), is equipped with right pedestal (17) below second lifting shaft (20), and in right pedestal (17) Portion is embedded with the second motor (18), is equipped with baffle (22) on the outside of the support column (12), installation on the outside of the dextrorotation turnning box (14) Have second baffle (23), and be embedded with the second arc ball (25) inside dextrorotation turnning box (14), is equipped with third on the outside of the convex ball (13) Baffle (24).

2. a kind of numerically-controlled machine tool feeding device according to claim 1, it is characterised in that: the snap-gauge (4) is concave Structure, snap-gauge (4) are structure as a whole by bonding with left case (3), and the height of snap-gauge (4) is less than the height of left case (3).

3. a kind of numerically-controlled machine tool feeding device according to claim 1, it is characterised in that: the rotary box (11) is internal The quantity of arc ball (10) have and at least ten, and arc ball (10) is located at the internal uniform crossover of rotary box (11) and places.

4. a kind of numerically-controlled machine tool feeding device according to claim 1, it is characterised in that: support column (12) shape For T-type structure, square shape and the internal shape of agreeing with of sliding rail (9) match on support column (12) T-type structure, and support column (12) movable connection structure is constituted with sliding rail (9).

5. a kind of numerically-controlled machine tool feeding device according to claim 1, it is characterised in that: the baffle (22), second The height of baffle (23) and third baffle (24) is greater than the height of rotary box (11), convex ball (13) and dextrorotation turnning box (14), and keeps off Plate (22), the width of second baffle (23) and third baffle (24) and rotary box (11), convex ball (13) and dextrorotation turnning box (14) Width is equal.