CN109515790A - A kind of quick feeding structure of bottle placer - Google Patents

Abstract

A kind of quick feeding structure of bottle placer, including piston cylinder assembly, the feed pipe group being connected on piston cylinder assembly, discharge nozzle group and driving device；Piston cylinder assembly includes the internal cylinder body with cavity, the piston being arranged in cavity and the piston rod on cylinder body and being fixedly connected with the piston is arranged in, and cavity is divided into the first cavity and the second cavity by piston, and driving device and piston rod are sequentially connected；Feed pipe group includes the first input pipe and the second input pipe, and the output end of the first input pipe is connected to the first cavity, and the output end of the second input pipe is connected to the second cavity；Discharge nozzle group includes the first efferent duct and the second efferent duct, and the input terminal of the first efferent duct is connected to the first cavity, and the input terminal of the second efferent duct is connected to the second cavity.Piston of the invention once can be realized raw feed materials operation twice in inner cavity back and forth movement.

Description

A kind of quick feeding structure of bottle placer

Technical field

The present invention relates to a kind of quick feeding structures of bottle placer.

Background technique

In the prior art, the quick feeding structure of bottle placer include have inner cavity for material cylinder, be arranged in material cylinder Piston, the feed pipe and discharge nozzle being connected to for material cylinder inner cavity, problem are that piston is once only capable of in inner cavity back and forth movement It realizes primary raw material output, is fed inefficiency, has some limitations.

Therefore, it is necessary to be further improved.

Summary of the invention

It is an object of the invention to overcome above-mentioned the shortcomings of the prior art, and provide a kind of quick feed of bottle placer Structure, piston once can be realized the output of raw material twice in inner cavity back and forth movement, be fed high-efficient.

The object of the present invention is achieved like this:

A kind of quick feeding structure of bottle placer, including piston cylinder assembly, the feed pipe group being connected on piston cylinder assembly, discharging Pipe group and driving device；

The piston cylinder assembly include the internal cylinder body with cavity, the piston being arranged in cavity and be arranged on cylinder body and with Cavity is divided into the first cavity and the second cavity by the piston rod that piston is fixedly connected, piston, and driving device and piston rod are driven Connection；

The feed pipe group includes the first input pipe and the second input pipe, and the output end of the first input pipe is connected to the first cavity, The output end of second input pipe is connected to the second cavity；

The discharge nozzle group includes the first efferent duct and the second efferent duct, and the input terminal of the first efferent duct is connected to the first cavity, The input terminal of second efferent duct is connected to the second cavity.

The feed pipe group includes primary input pipe, the input terminal of the first input pipe and the second input pipe with primary input pipe Output end connection, is arranged in parallel between the first input pipe and the second input pipe；

The discharge nozzle group includes main efferent duct, input of the output end of the first efferent duct and the second efferent duct with main efferent duct End connection, the first efferent duct and the second efferent duct are arranged in parallel.

First input pipe is equipped with the first operated pneumatic valve, and the second input pipe is equipped with the second operated pneumatic valve, and first is defeated Outlet pipe is equipped with third operated pneumatic valve, and the second efferent duct is equipped with the 4th operated pneumatic valve.

The driving device includes top plate and bottom plate, two between left and right every being arranged and be fixed on leading between top plate and bottom plate Axis, the movable upper mobile board being arranged on guide shaft, the movable lower movable plate being arranged on guide shaft, be fixed in the middle part of guide shaft and Middle fixed plate between upper mobile board and lower movable plate, is fixed on lower movable plate at the nut set being fixed in middle fixed plate It the speed reducer of bottom, the motor that speed reducer side is set and is sequentially connected with it and is connect with speed reducer drive and is located at two Screw rod between guide shaft, screw rod pass through lower movable plate and middle fixed plate upwards in turn and extend to upper mobile board bottom part down, spiral shell Mother set is connect with screw rod transmission；

The cylinder body is fixed on top plate, and piston rod is pierced by downwards cylinder body and top plate and is fixedly connected on upper mobile board.

Corresponding two guide shafts of the right and left of the upper mobile board and lower movable plate are equipped with linear bearing, upper mobile board and Lower movable plate passes through corresponding linear bearing transmission connection on two guide shafts respectively.

The bottom plate side is equipped with vertical bar, and vertical bar is equipped with the approach switch sensor for detecting lower movable plate.

The upper mobile board bottom is equipped with top chock, and upper bearing (metal) is embedded in top chock, protrudes into axis at the top of screw rod It holds in seat and is sequentially connected with upper bearing (metal), be pierced by the top of screw rod above upper bearing (metal), lock nut, lock nut are equipped at the top of screw rod Above upper bearing (metal), lock nut is located in top chock, and upper mobile board bottom is equipped with for accommodating the fovea superior at the top of screw rod Hole, it is spaced between screw rod top surface and upper concave hole top surface；

The lower movable plate upper surface is equipped with step, is embedded with lower bearing in step, screw rod is passed down through lower bearing Seat is simultaneously sequentially connected with lower bearing.

The cylinder body is vertically arranged along its length, and the first cavity is located above the second cavity.

The feed pipe group and discharge nozzle group are located at the opposite sides of cylinder body side.

The output end of first input pipe and the input terminal of the first efferent duct are oppositely arranged and are both connected to side of cylinder block Top, the input terminal of the output end of the second input pipe and the second efferent duct is oppositely arranged and is both connected to the bottom of side of cylinder block Portion.

Additional aspect and advantage of the invention will become obviously in following description section, and reality through the invention It tramples and recognizes.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of one embodiment of the invention.

Fig. 2 is the cross-sectional view of one embodiment of the invention.

Fig. 3 is the partial enlarged view in the portion Fig. 2A.

Fig. 4 is the structural schematic diagram of one embodiment of the invention.

Specific embodiment

The invention will be further described with reference to the accompanying drawings and embodiments.

Referring to figures 1-4, the quick feeding structure of this bottle placer, including piston cylinder assembly, be connected on piston cylinder assembly Feed pipe group, discharge nozzle group and driving device；

The piston cylinder assembly includes the internal cylinder body 1 with cavity, the piston 2 being arranged in cavity and is arranged on cylinder body 1 And cavity is divided into the first cavity 4 and the second cavity 5, driving device and work by the piston rod 3 being fixedly connected with piston 2, piston 2 Stopper rod 3 is sequentially connected；

Driving device realizes the first cavity 4 and the second chamber for driving piston rod 3 to do back and forth movement in cavity with piston 2 The pumping material and feed of body 5, those skilled in the art are appreciated that.

The feed pipe group includes the first input pipe 7 and the second input pipe 8, the output end and the first chamber of the first input pipe 7 Body 4 is connected to, and the output end of the second input pipe 8 is connected to the second cavity 5；

The discharge nozzle group includes the first efferent duct 10 and the second efferent duct 11, the input terminal and the first cavity of the first efferent duct 10 4 connections, the input terminal of the second efferent duct 11 are connected to the second cavity 5.

Further, the cylinder body 1 is vertically arranged along its length, and the first cavity 4 is located at 5 top of the second cavity.It is real The layout of existing cylinder body 1.

The piston of this bottle placer feeding structure once can be realized raw material output twice in inner cavity back and forth movement, specifically Are as follows:

Flow-like raw material continues to be sent into from the input terminal of the first input pipe 7 and the second input pipe 8, and raw material has respectively entered the first chamber In body 4 and the second cavity 5, raw material is full of the first cavity 4 and the second cavity 5；

When piston 2 moves up the first cavity 4 of compression, the raw material in the first cavity 4 is successively exported through the first efferent duct 10, and second Cavity 5 is released, and the volume enlargement of the second cavity 5, raw material persistently adds in the second cavity 5 through the second input pipe 8, until living Plug 2 reaches the range of the first cavity 4 of compression；

When piston 2 moves down the second cavity 5 of compression, the raw material in the second cavity 5 is exported through the second efferent duct 11, the first cavity 4 are released, and the volume enlargement of the first cavity 4, raw material persistently adds in the first cavity 4 through the first input pipe 7, until piston 2 Reach the range of the second cavity 5 of compression；

Intracavitary forward direction movement and reverse movement (back and forth movement) can be realized the output of raw material including piston 2, improve this filling The feed efficiency of installation feeding structure.

The quantity of feeding structure is two groups and arranges by front and back.

Further, first input pipe 7 is equipped with the first operated pneumatic valve 27, and the second input pipe 8 is equipped with the second gas Movable valve 30, the first efferent duct 10 are equipped with third operated pneumatic valve 31, and the second efferent duct 11 is equipped with the 4th operated pneumatic valve 32.

When piston 2 moves up the first cavity 4 of compression, the first operated pneumatic valve 27 and the 4th operated pneumatic valve 32 switch to closing State, the second operated pneumatic valve 30 and third operated pneumatic valve 31 switch to opening state, raw material exported from the first efferent duct 10 and It is added in the second cavity 5 from the second input pipe 8；

When piston 2 moves down the second cavity 5 of compression, the first operated pneumatic valve 27 and the 4th operated pneumatic valve 32 switch to open shape State, the second operated pneumatic valve 30 and third operated pneumatic valve 31 switch to closed state, raw material exported from the second efferent duct 11 and from First input pipe 7 is added in the first cavity 4.

First operated pneumatic valve 27, the second operated pneumatic valve 30, third operated pneumatic valve 31 and the 4th operated pneumatic valve 32 pass through pipeline It is circumscribed with reversing solenoid valve respectively, to realize the first operated pneumatic valve 27, the second operated pneumatic valve 30, third operated pneumatic valve 31 and the The opening and closing of four operated pneumatic valves 32, reversing solenoid valve are circumscribed with air pump by pipeline, and reversing solenoid valve and air pump are external In outside feeding structure, those skilled in the art is appreciated that.

It can be used in first operated pneumatic valve 27, the second operated pneumatic valve 30, third operated pneumatic valve 31 and the 4th operated pneumatic valve 32 The switch valve of his form substitutes, and those skilled in the art is appreciated that.

Further, the feed pipe group includes primary input pipe 6, and the input terminal of the first input pipe 7 and the second input pipe 8 is equal It is connected to the output end of primary input pipe 6, is arranged in parallel between the first input pipe 7 and the second input pipe 8；

The discharge nozzle group includes main efferent duct 9, the output end of the first efferent duct 10 and the second efferent duct 11 with main efferent duct 9 Input terminal connection, the first efferent duct 10 and the second efferent duct 11 are arranged in parallel.

Main efferent duct 9 is circumscribed with filling head by pipeline, and those skilled in the art is appreciated that.

Primary input pipe 6 is circumscribed with the pump housing by pipeline, and the aspiration end of the pump housing is placed in the container for storing flow-like raw material.

Further, the driving device includes top plate 12, bottom plate 13, two between left and right every being arranged and be fixed on top plate 12 Guide shaft 14, the movable upper mobile board 15 being arranged on guide shaft 14 between bottom plate 13 movable are arranged on guide shaft 14 Lower movable plate 16 is fixed on 14 middle part of guide shaft and the middle fixed plate 17 between upper mobile board 15 and lower movable plate 16, fixation Nut set 18, the speed reducer 19 that is fixed on lower 16 bottom of movable plate, setting in middle fixed plate 17 19 side of speed reducer simultaneously The motor 20 that is sequentially connected with it and be sequentially connected with speed reducer 19 and be located at the screw rod 21 between two guide shafts 14, screw rod 21 according to Secondary to be upward through lower movable plate 16 and middle fixed plate 17 and extend to 15 bottom part down of upper mobile board, nut set 18 is passed with screw rod 21 Dynamic connection；

The cylinder body 1 is fixed on top plate 12, and piston rod 3 is pierced by downwards cylinder body 1 and top plate 12 and is fixedly connected on upper mobile board On 15.

Motor 20 is servo motor.

Piston rod 3 is pierced by cylinder body 1 upwards, and 1 top of cylinder body is always positioned at the top of piston rod 3, and piston rod 3 is intracavitary inside to be occupied Certain space, since the upper and lower ends of piston rod 3 are pierced by cylinder body 1 respectively, effective piston above and below piston 2 Area is the same, so that it is consistent with the feed quantity moved downward to realize that piston 2 is moved upwards.

Nut set is 18 fixed in the vertical direction, driving screw rod 21 rotation and in the vertical direction when motor 20 is run It is mobile, so that moving up and down for upper mobile board 15, lower movable plate 16 and piston rod 3 is driven, to realize piston 2 in cavity It moves up and down.

Speed reducer 19 and motor 20 follow moving up and down for screw rod 21.

Further, corresponding two guide shafts 14 of the right and left of the upper mobile board 15 and lower movable plate 16 are equipped with straight line Bearing 24, upper mobile board 15 and lower movable plate 16 are respectively through the transmission connection of corresponding linear bearing 24 on two guide shafts 14. The setting of linear bearing 24 is for guiding upper mobile board 15 and lower movable plate 16 to move on guide shaft 14.

Further, 13 side of bottom plate is equipped with vertical bar 25, and vertical bar 25 is equipped with for detecting connecing for lower movable plate 16 Nearly switch sensor 26.

The test side of approach switch sensor 26 is directed at the maximum stroke that lower movable plate 16 moves up.

The quantity of approach switch sensor 26 can be two, including upper approach switch sensor and lower close to switch sensing Device, the test side of upper approach switch sensor is directed at the maximum stroke that lower movable plate 16 moves up, lower close to switch sensing The test side of device is directed at the maximum stroke that lower movable plate 16 moves down, and those skilled in the art is appreciated that.

Vertical bar 25 is equipped with upper touch switch and lower touch switch, and upper touch switch is located on upper approach switch sensor Side, lower touch switch is located at the lower section of lower approach switch sensor, when upper approach switch sensor and lower approach switch sensor When failure, when lower movable plate 16 touches touch switch and lower touch switch, motor 20 is out of service.

Further, 15 bottom of upper mobile board is equipped with top chock 22, is embedded with upper bearing (metal), silk in top chock 22 It protrudes at the top of bar 21 in top chock 22 and is sequentially connected with upper bearing (metal), realize the positioning at 21 top of screw rod, worn at the top of screw rod 21 Out above upper bearing (metal), lock nut 29 is equipped at the top of screw rod, lock nut 29 is located above upper bearing (metal), and lock nut 29 is located at upper In bearing block 22,15 bottom of upper mobile board is equipped with the upper concave hole 28 for accommodating 21 top of screw rod, 21 top surface of screw rod and upper concave hole It is spaced between 28 top surfaces；It avoids interfering between screw rod 21 and upper mobile board 15.

16 upper surface of lower movable plate is equipped with step 23, is embedded with lower bearing in step 23, screw rod 21 to Under across step 23 and with lower bearing be sequentially connected.

Further, the feed pipe group and discharge nozzle group are located at the opposite sides of 1 side of cylinder body.Realize feed pipe The layout of group and discharge nozzle group.

Further, the input terminal of the output end of first input pipe 7 and the first efferent duct 10 is oppositely arranged and connects Connect the top in 1 side of cylinder body, the input terminal of the output end of the second input pipe 8 and the second efferent duct 11 is oppositely arranged and is all connected with In the bottom of 1 side of cylinder body.Realize the cloth of the first input pipe 7, the first efferent duct 10, the second input pipe 8 and the second efferent duct 11 Office.

Further, bottle placer includes control device, and control device is placed outside outside feeding structure, and control device passes through line Road is electric with approach switch sensor 26, reversing solenoid valve, the pump housing, air pump, motor 20, upper touch switch and lower touch switch respectively Connection.

The above disclosure is only a preferred embodiment of the invention, rather than limits claim of the invention with this Protection scope still belongs to the range that the present invention is protected according to equivalent variations made in the scope of the present invention.

Claims (10)

1. a kind of quick feeding structure of bottle placer, which is characterized in that including piston cylinder assembly, be connected on piston cylinder assembly Feed pipe group, discharge nozzle group and driving device；

The piston cylinder assembly includes the internal cylinder body (1) with cavity, the piston (2) being arranged in cavity and is arranged in cylinder body (1) cavity is divided into the first cavity (4) and the second cavity by the piston rod (3) being fixedly connected on and with piston (2), piston (2) (5), driving device and piston rod (3) are sequentially connected；

The feed pipe group includes the first input pipe (7) and the second input pipe (8), the output end and first of the first input pipe (7) Cavity (4) connection, the output end of the second input pipe (8) are connected to the second cavity (5)；

The discharge nozzle group includes the first efferent duct (10) and the second efferent duct (11), the input terminal of the first efferent duct (10) and the One cavity (4) connection, the input terminal of the second efferent duct (11) are connected to the second cavity (5).

2. the quick feeding structure of bottle placer according to claim 1, which is characterized in that the feed pipe group includes primary input It manages (6), the input terminal of the first input pipe (7) and the second input pipe (8) is connected to the output end of primary input pipe (6), and first is defeated Enter and is arranged in parallel between pipe (7) and the second input pipe (8)；

The discharge nozzle group includes main efferent duct (9), the output end of the first efferent duct (10) and the second efferent duct (11) with master The input terminal of efferent duct (9) is connected to, and the first efferent duct (10) and the second efferent duct (11) are arranged in parallel.

3. the quick feeding structure of any one of -2 bottle placers according to claim 1, which is characterized in that first input pipe (7) the first operated pneumatic valve (27) are equipped with, the second input pipe (8) is equipped with the second operated pneumatic valve (30), the first efferent duct (10) It is equipped with third operated pneumatic valve (31), the second efferent duct (11) is equipped with the 4th operated pneumatic valve (32).

4. the quick feeding structure of bottle placer according to claim 1, which is characterized in that the driving device includes top plate (12), bottom plate (13), two between left and right every the guide shaft (14), movable for being arranged and being fixed between top plate (12) and bottom plate (13) Lower movable plate (16) in the upper mobile board (15), movable setting on guide shaft (14) on guide shaft (14) is set, is fixed on and leads In the middle part of axis (14) and the middle fixed plate (17) between upper mobile board (15) and lower movable plate (16), it is fixed on middle fixed plate (17) nut set (18) on, the speed reducer (19) for being fixed on lower movable plate (16) bottom, setting speed reducer (19) side simultaneously It the motor (20) that is sequentially connected with it and is sequentially connected with speed reducer (19) and is located at the screw rod (21) between two guide shafts (14), Screw rod (21) passes through lower movable plate (16) and middle fixed plate (17) upwards in turn and extends to upper mobile board (15) bottom part down, spiral shell Mother set (18) and screw rod (21) are sequentially connected；

The cylinder body (1) is fixed on top plate (12), and piston rod (3) is pierced by downwards cylinder body (1) and top plate (12) and is fixedly connected On upper mobile board (15).

5. the quick feeding structure of bottle placer according to claim 4, which is characterized in that the upper mobile board (15) and lower work Corresponding two guide shafts (14) of the right and left of movable plate (16) are equipped with linear bearing (24), upper mobile board (15) and lower movable plate (16) respectively by corresponding linear bearing (24) transmission connection on two guide shafts (14).

6. the quick feeding structure of bottle placer according to claim 4, which is characterized in that bottom plate (13) side is equipped with perpendicular Bar (25), vertical bar (25) are equipped with the approach switch sensor (26) for detecting lower movable plate (16).

7. the quick feeding structure of bottle placer according to claim 4, which is characterized in that upper mobile board (15) bottom is set Have top chock (22), upper bearing (metal) be embedded in top chock (22), protruded at the top of screw rod (21) in top chock (22) and with Upper bearing (metal) transmission connection, screw rod (21) top are pierced by above upper bearing (metal), are equipped with lock nut (29) at the top of screw rod, lock nut (29) it is located above upper bearing (metal), lock nut (29) is located in top chock (22), and upper mobile board (15) bottom is equipped with for holding The upper concave hole (28) received at the top of screw rod (21), it is spaced between screw rod (21) top surface and upper concave hole (28) top surface；

Lower movable plate (16) upper surface is equipped with step (23), and lower bearing, screw rod are embedded in step (23) (21) it is passed down through step (23) and is sequentially connected with lower bearing.

8. the quick feeding structure of bottle placer according to claim 1, which is characterized in that the cylinder body (1) is square along its length To being vertically arranged, the first cavity (4) is located above the second cavity (5).

9. the quick feeding structure of bottle placer according to claim 1, which is characterized in that the feed pipe group and discharge nozzle group It is located at the opposite sides of cylinder body (1) side.

10. the quick feeding structure of bottle placer according to claim 1, which is characterized in that first input pipe (7) it is defeated The input terminal of outlet and the first efferent duct (10) is oppositely arranged and is both connected to the top of cylinder body (1) side, the second input pipe (8) Output end and the input terminal of the second efferent duct (11) be oppositely arranged and be both connected to the bottom of cylinder body (1) side.