CN207903387U - A kind of small-sized tiles material delivery system - Google Patents

Abstract

The utility model provides a kind of small-sized tiles material delivery system, including magnetic shoe bottom plate, the magnetic shoe plate upper surface is equipped with pusher sliding block, the pusher sliding block passes through second sleeve, the second sleeve and the magnetic shoe bottom plate mutually from surface, be sequentially installed with the first sleeve, swivel plate and rotary cylinder from the near to the distant；One cylinder, a rotary cylinder add several assembling parts to form, and stabilized structure is not likely to produce deformation, and cost is cheap, and mechanism is compact, and magnetic shoe can prevent magnetic shoe from generating broken by the device feeding.

Description

A kind of small-sized tiles material delivery system

Technical field

The utility model belongs to machinery equipment field more particularly to a kind of small-sized tiles material delivery system.

Background technology

Traditional small-sized tiles material can substantially use round vibration plate feeding aerating cylinder to carry out when doing feeding feeding Feeding, or feeding feeding directly is carried out with circle vibration plate, circular vibration disk is a kind of ancillary equipment of automatic assembling tool, can handle Various products orderly eject.Round self-feeding vibrating disk is mainly mating by hopper, chassis, controller, straight line feeder etc. Composition.There is a impulse mgnet below the hopper of self-feeding vibrating disk, hopper vertical vibration can be made, due to spring leaf Inclination, so that hopper is rocked vibration around its vertical axis.Part in hopper, due to by this vibration, and along helical orbit It rises, until being sent to discharge port.When carrying out feeding with round vibration plate at present, there are some tiles materials to be recycled always in round vibration plate It vibrates and is crushed；The making of round vibration plate is complicated, of high cost；It is easy to get stuck.

Utility model content

The purpose of this utility model is that in view of the above shortcomings of the prior art, providing a kind of small-sized tiles material confession To device, can preventing magnetic shoe from generating, broken, cost is cheap, and mechanism is compact.

To achieve the above object, the utility model uses following technical solution：

The utility model provides a kind of small-sized tiles material delivery system, including magnetic shoe bottom plate, the magnetic shoe bottom plate Upper surface is equipped with pusher sliding block, and the pusher sliding block passes through second sleeve, the second sleeve and magnetic shoe bottom plate phase from Surface, be sequentially installed with the first sleeve, swivel plate and rotary cylinder from the near to the distant；First is equipped in the second sleeve to be oriented to Block and buffering catch, first guide pad are mounted on the bumper on piece, are equipped with and can turn on first guide pad Dynamic sub-material axis, plectrum is equipped in the middle part of the sub-material axis, and the plectrum can be dynamic with the sub-material shaft rotation；The rotary pneumatic The axis of cylinder is fixedly connected with the sub-material axis, and the rotary cylinder can drive the sub-material shaft rotation dynamic；

First sleeve and the second sleeve mutually from one end be equipped with opening；

It is also equipped with detection seat on the magnetic shoe bottom plate and close to switching, there are two can rotate for installation on the detection seat Sensor block, the side adjacent with the pusher sliding block sets that there are two optoelectronic switches in the second sleeve.

Further, the detection seat and it is described close to switch mounted on the lower surface of the magnetic shoe bottom plate, and with described the Two sleeves are corresponding.

Further, pusher sliding block one end is equipped with limited block, and the pusher sliding block other end is equipped with the second guide pad, Second guide pad has two pieces, is separately positioned on the both sides of the pusher sliding block, and be connected with the second sleeve.

Further, pusher sliding block one end adjacent with the limited block is equipped with magnetic shoe cylinder block, the magnetic shoe Cylinder block and the limited block mutually from side telescopic cylinder is installed, the telescopic cylinder by M5 vigor connector with it is described Pusher sliding block is connected；Under the drive of the telescopic cylinder, the pusher sliding block along the second sleeve direction back and forth Movement.

Further, the sensor block and it is described close to switch there are two, be separately mounted to it is described detection seat both sides.

Further, two optoelectronic switches are arranged in the both sides of the pusher sliding block.

Further, the quadrangle of magnetic shoe bottom plate lower surface is separately installed with column.

The utility model also provides a kind of operation method of small-sized tiles material delivery system, includes the following steps：

S1, first magnetic shoe enter from the opening of the first sleeve, and second sleeve intracavitary is fallen by the gravity of itself, and first Piece magnetic shoe pushes down the sensor block of the opening side of the first sleeve, and the rotation of this sensor block is by opening side close to switch sense It answers；

S2, second magnetic shoe enter from the opening of the first sleeve, and first in second sleeve is dropped to by the gravity of itself On piece magnetic shoe, the optoelectronic switch of the opening side of the first sleeve senses second magnetic shoe, and rotary cylinder is made a response at this time, Plectrum, sub-material axis is driven to rotate 180 degree, plectrum then drives second magnetic shoe to rotate the another side chamber that 180 degree falls into second sleeve It is interior；

S3, second magnetic shoe are pushed down the sensor block of another side by the gravity of itself, this sensor block is rotated by the close of homonymy Inductive switching；Third piece magnetic shoe enters from the opening of the first sleeve, and first magnetic in second sleeve is dropped to by the gravity of itself On watt, the optoelectronic switch of the opening side of first sleeve senses third piece magnetic shoe, and rotary cylinder is made a response at this time, Plectrum, sub-material axis is driven to rotate 180 degree, plectrum then drives third piece magnetic shoe to rotate the another side chamber that 180 degree falls into second sleeve It is interior；

S4, third piece magnetic shoe are dropped to by the gravity of itself in second sleeve on second magnetic shoe, the first sleeve another side Optoelectronic switch senses third piece magnetic shoe, and two optoelectronic switches, two close switches have induction at this time, then telescopic cylinder, which is done, stretches Go out action, first magnetic shoe, second magnetic shoe are released second sleeve, first magnetic shoe, second magnetic shoe are transported to next A station；Second guide pad, the first guide pad are oriented to first magnetic shoe, second magnetic shoe of release.

The beneficial effects of the utility model are：One cylinder, a rotary cylinder add several assembling parts to form, and structure is steady Gu being not likely to produce deformation, cost is cheap, and mechanism is compact, and magnetic shoe can prevent magnetic shoe from generating broken by the device feeding.

1) rotary cylinder rotation is triggered by optoelectronic switch so that magnetic shoe turns to the other side from the side of sleeve, passes through Magnetic shoe triggers the optoelectronic switch of both sides；

2) it is dropped on sensor block by the gravity of magnetic shoe itself so that sensor block rotates, to which triggering is close to switch, when two When the optoelectronic switch of side and close switch all trigger, telescopic cylinder drives pusher slide block movement, to which magnetic shoe be exported, this process Continuity is strong, the phenomenon that not will produce card magnetic shoe.

Description of the drawings

Fig. 1 is a kind of structural schematic diagram of small-sized tiles material delivery system；

Fig. 2 is a kind of schematic cross-sectional view of small-sized tiles material delivery system；

1, limited block；2, pusher sliding block；3, swivel plate；4, rotary cylinder；5, second sleeve；6, the first sleeve；7, light Electric switch；8, the second guide pad；9, column；10, sensor block；11, close to switch；12, magnetic shoe bottom plate；13, telescopic cylinder；14、 Magnetic shoe cylinder block；15, M5 active joints；16, magnetic shoe；17, plectrum；18, sub-material axis；19, the first guide pad；20, seat is detected； 21, catch is buffered.

Specific implementation mode

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with the accompanying drawings and implement Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only explaining this Utility model is not used to limit the utility model.

It please refers to Fig.1 and Fig. 2, a kind of small-sized tiles material delivery system, including magnetic shoe bottom plate 12, the magnetic shoe bottom plate 12 upper surfaces are equipped with pusher sliding block 2, and the pusher sliding block 2 passes through second sleeve 5, the second sleeve 5 and the magnetic shoe bottom 12 phase of plate from surface, be sequentially installed with the first sleeve 6, swivel plate 3 and rotary cylinder 4 from the near to the distant；In the second sleeve 5 Equipped with the first guide pad 19 and buffering catch 21, first guide pad 19 is mounted on the buffering catch 21, and described first The sub-material axis 18 that can be rotated is installed, the middle part of the sub-material axis 18 is equipped with plectrum 17, the plectrum 17 on guide pad 19 It can be rotated with the sub-material axis 18；The axis of the rotary cylinder 4 is fixedly connected with the sub-material axis 18, the rotary cylinder 4 The sub-material axis 18 can be driven to rotate；

That is, rotary cylinder 4 is connected by swivel plate 3 with the first sleeve 6.Buffer catch 21 be mounted on second sleeve 5 with The opposite bottom of first sleeve 6.

First sleeve 6 and 5 phase of the second sleeve from one end be equipped with opening；

It is also equipped on the magnetic shoe bottom plate 12 and detects seat 20 and close switch 11, on the detection seat 20 there are two installations The sensor block 10 that can be rotated, the side adjacent with the pusher sliding block 2 sets that there are two optoelectronic switches 7 in the second sleeve 5.

The detection seat 20 and it is described close to switch 11 mounted on the lower surface of the magnetic shoe bottom plate 12, and with described second Sleeve 5 is corresponding.

That is, being mounted on the side of detection seat 20 close to switch 11.

Described 2 one end of pusher sliding block is equipped with limited block 1, and 2 other end of pusher sliding block is equipped with the second guide pad 8, institute Stating the second guide pad 8 has two pieces, is separately positioned on the both sides of the pusher sliding block 2, and be connected with the second sleeve 5.The Magnetic shoe 16 can be imported next process by two guide runners 8.

2 one end adjacent with the limited block 1 of the pusher sliding block is equipped with magnetic shoe cylinder block 14, the magnetic shoe cylinder Seat 14 with 1 phase of the limited block from side telescopic cylinder 13 is installed, the telescopic cylinder 13 passes through M5 vigor connector 15 It is connected with the pusher sliding block 2；Under the drive of the telescopic cylinder 13, the pusher sliding block 2 is along the second sleeve 5 Direction move back and forth.

That is, under the drive of telescopic cylinder 13, the magnetic shoe in second sleeve 5 can be released from second sleeve 5 is interior.

The sensor block 10 and it is described close to switch 11 there are two, be separately mounted to the both sides for detecting seat 20.

That is, sensor block 10 and be separately mounted to close to switch 11 with the opening homonymy of the first sleeve 6 and with the first sleeve 6 Opening mutually from side.

Two optoelectronic switches 7 are arranged in the both sides of the pusher sliding block 2.

The quadrangle of 12 lower surface of magnetic shoe bottom plate is separately installed with column 9.

A kind of operation method of small-sized tiles material delivery system, includes the following steps：

S1, first magnetic shoe 16 enter from the opening of the first sleeve 6, and 5 intracavitary of second sleeve is fallen by the gravity of itself, First magnetic shoe 16 pushes down the sensor block 10 of the opening side of the first sleeve 6, this sensor block 10 is rotated by opening side Incude close to switch 11；

S2, second magnetic shoe 16 enter from the opening of the first sleeve 6, are dropped in second sleeve 5 by the gravity of itself On first magnetic shoe 16, the optoelectronic switch 7 of the opening side of the first sleeve 6 senses second magnetic shoe 16, at this time rotary pneumatic Cylinder 4 is made a response, and plectrum 17, sub-material axis 18 is driven to rotate 180 degree, and plectrum 17 then drives second rotation of magnetic shoe 16 180 degree to fall Enter the another side intracavitary of second sleeve 5；

S3, second magnetic shoe 16 are pushed down the sensor block 10 of another side by the gravity of itself, this sensor block 10 is rotated by homonymy Close to switch 11 incude；Third piece magnetic shoe 16 enters from the opening of the first sleeve 6, and second sleeve is dropped to by the gravity of itself In 5 on first magnetic shoe 16, the optoelectronic switch 7 of the opening side of first sleeve 6 senses third piece magnetic shoe 16, at this time Rotary cylinder 4 is made a response, and plectrum 17, sub-material axis 18 is driven to rotate 180 degree, and plectrum 17 then drives third piece magnetic shoe 16 to rotate 180 degree falls into the another side intracavitary of second sleeve 5；

S4, third piece magnetic shoe 16 are dropped to by the gravity of itself in second sleeve 5 on second magnetic shoe 16, and the first sleeve 6 is another The optoelectronic switch 7 on one side senses third piece magnetic shoe 16, and two optoelectronic switches 7, two have induction close to switch 11 at this time, then Telescopic cylinder 13 does extending action, and first magnetic shoe, 16, second magnetic shoes 16 are released second sleeves 5, first magnetic shoe 16, Second magnetic shoe 16 is transported to next station；Second guide pad 8, the first guide pad 19 are to first magnetic shoe of release 16, second magnetic shoe 16 is oriented to.

The embodiment of the utility model above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously Cannot the limitation to the utility model patent range therefore be interpreted as.It should be pointed out that for the ordinary skill of this field For personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these belong to this The protection domain of utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (7)

1. a kind of small-sized tiles material delivery system, it is characterised in that：Including magnetic shoe bottom plate (12), the magnetic shoe bottom plate (12) Upper surface is equipped with pusher sliding block (2), and the pusher sliding block (2) passes through second sleeve (5), the second sleeve (5) with it is described Magnetic shoe bottom plate (12) mutually from surface, be sequentially installed with the first sleeve (6), swivel plate (3) and rotary cylinder (4) from the near to the distant； The first guide pad (19) and buffering catch (21) are equipped in the second sleeve (5), first guide pad (19) is mounted on institute It states on buffering catch (21), the sub-material axis (18) that can be rotated, the sub-material axis is installed on first guide pad (19) (18) plectrum (17) is installed, the plectrum (17) can rotate with the sub-material axis (18) in the middle part of；The rotary cylinder (4) Axis be fixedly connected with the sub-material axis (18), the rotary cylinder (4) can drive the sub-material axis (18) to rotate；

First sleeve (6) and the second sleeve (5) mutually from one end be equipped with opening；

It is also equipped with detection seat (20) on the magnetic shoe bottom plate (12) and close to (11) are switched, is equipped on the detection seat (20) Two sensor blocks (10) that can be rotated, there are two the side adjacent with the pusher sliding block (2) is set on the second sleeve (5) Optoelectronic switch (7).

2. a kind of small-sized tiles material delivery system according to claim 1, it is characterised in that：The detection seat (20) The lower surface of the magnetic shoe bottom plate (12) is mounted on the close switch (11), and corresponding with the second sleeve (5).

3. a kind of small-sized tiles material delivery system according to claim 1, it is characterised in that：The pusher sliding block (2) one end is equipped with limited block (1), and pusher sliding block (2) other end is equipped with the second guide pad (8), second guide pad (8) there are two pieces, be separately positioned on the both sides of the pusher sliding block (2), and be connected with the second sleeve (5).

4. a kind of small-sized tiles material delivery system according to claim 3, it is characterised in that：The pusher sliding block (2) magnetic shoe cylinder block (14), the magnetic shoe cylinder block (14) and the limit are installed with the adjacent one end of the limited block (1) Position block (1) mutually from side telescopic cylinder (13) is installed, the telescopic cylinder (13) passes through M5 vigor connector (15) and institute Pusher sliding block (2) is stated to be connected；Under the drive of the telescopic cylinder (13), the pusher sliding block (2) is along described second set The direction of cylinder (5) moves back and forth.

5. a kind of small-sized tiles material delivery system according to claim 2, it is characterised in that：The sensor block (10) With it is described close to switch (11) there are two, be separately mounted to it is described detection seat (20) both sides.

6. a kind of small-sized tiles material delivery system according to claim 1, it is characterised in that：Two photoelectricity are opened (7) are closed to be arranged in the both sides of the pusher sliding block (2).

7. a kind of small-sized tiles material delivery system according to claim 1, it is characterised in that：The magnetic shoe bottom plate (12) quadrangle of lower surface is separately installed with column (9).