CN207242851U - A kind of filling pipeline divides away from device - Google Patents

Abstract

The utility model discloses a kind of dividing away from device for filling pipeline, its key points of the technical solution are that：Be connected including being rotationally connected with screw propulsion above conveyer belt point to drive the driving device of its rotation away from bar and with the one end of screw propulsion point away from bar, screw propulsion be divided to away from be fixedly connected on bar be useful for along conveyer belt direction of transfer promote increase two adjacent containers between distance helical blade, the precession direction of helical blade is opposite with the direction of transfer of conveyer belt, the pitch of helical blade is identical along the width dimensions of direction of transfer with container, and fltting speed when screw propulsion point is rotated away from bar is smaller than the conveying speed of conveyer belt；The driving device is servomotor, the output shaft of servomotor and the screw propulsion point are away from being equipped with transmission mechanism between bar, servomotor drives screw propulsion point to be rotated away from bar by transmission mechanism, the utility model has the advantages that container closely can be divided away from.

Description

A kind of filling pipeline divides away from device

Technical field

A kind of filling pipeline is the utility model is related to, more particularly to a kind of filling pipeline divides away from device.

Background technology

Filling pipeline is widely used in the filling work in the batch production process of various liquid, i.e., loads liquid and hold In device, manpower is reduced, improves production efficiency.

The filling pipeline of liquid detergent is divided into filling area, capping area and area of casing, and the container in each area is by conveyer belt Conveyed, form a filling production lines.After container fills liquid detergent, it is sent to capping area by conveyer belt in batch, The container of each batch mutually contradicts, and the distance between bottleneck of container is smaller.After container is transferred into capping area, capping The capping device in area carries out the bottleneck of container capping, and the speed of capping device installation bottle cap is slow, and the speed of conveyer belt is protected Hold it is constant, in order to make the frequency of capping and below container follow-up frequency be consistent, it is necessary in container closely It is divided away from processing before into capping area.

Utility model content

The purpose of this utility model be to provide a kind of filling pipeline point away from device, its advantage is can be to being close in one Rise container divided away from.

The above-mentioned technical purpose of the utility model technical scheme is that：A kind of filling pipeline Divide away from device, including the screw propulsion point being rotationally connected with above conveyer belt connects away from bar and with the one end of screw propulsion point away from bar Connect to drive the driving device that it is rotated, screw propulsion point increases away from being fixedly connected to be useful for promoting along conveyer belt direction of transfer on bar The helical blade of distance between big two adjacent container, the precession direction of helical blade and the direction of transfer of conveyer belt are on the contrary, spiral The pitch of blade is identical along the width dimensions of direction of transfer with container, and fltting speed when screw propulsion point is rotated away from bar is than transmission The conveying speed of band is small.

It is through the above technical solutions, faster than the transmission of conveyer belt to the fltting speed of container when screw propulsion point is rotated away from bar Spend small, container enters screw propulsion point away from can be inconsistent with the helical blade surface close to upstream before bar, is pushed away with spiral Into point rotation away from bar, helical blade increases the distance between container between being gradually inserted container.It is spiral after container is separated from each other Blade continues to rotate and promotes container to be moved towards conveyer belt direction of transfer.The pitch of helical blade and container are along conveyer belt sender To width dimensions it is identical, helical blade can be smoothly inserted into the gap between two containers, avoid helical blade edge Extruded with container.

The utility model is further arranged to：The driving device is servomotor, the output shaft of servomotor with it is described Screw propulsion point drives screw propulsion point to be rotated away from bar away from transmission mechanism, servomotor is equipped between bar by transmission mechanism.

Through the above technical solutions, servomotor has preferable rotating speed control performance, it is possible to achieve multistage rotational speed regulation, The conveyer belt of face difference transfer rate adjusts adaptable rotating speed, precession speed of the screw propulsion point away from bar is less than conveyer belt Transfer rate, helical blade can be smoothly inserted into the gap between two containers.

The utility model is further arranged to：The transmission mechanism includes being fixedly connected on the screw propulsion point away from bar one The transmission shaft at end, the driven pulley being fixedly connected on transmission shaft, the master being fixedly connected on the servo motor output shaft Dynamic belt pulley and the driving belt being wrapped on driven pulley and drive pulley.

Through the above technical solutions, servomotor drives driver pulley rotation when running, then pass through driving belt band Dynamic driven pulley rotates, and has certain friction coefficient between driving belt and drive pulley and driven pulley, spiral Promote to divide promotes container that stuck situation may occur along conveyer belt operational process away from bar, and at this time, screw propulsion point is subject to away from bar Larger torque drag, driven pulley stop operating, and opposite slip, servo electricity occur between driven pulley and driving belt Machine no longer drives screw propulsion point to be rotated away from bar, avoids helical blade from damaging container by pressure.

The utility model is further arranged to：The conveyer belt is equipped with two guiding parallel with conveyer belt direction of transfer Bar, container two sides in transmit process are slidably connected with two guide rods respectively.

Through the above technical solutions, when in gap between helical blade insertion container, helical blade promotes container towards remote Direction from helical blade is moved, and guide rod is inconsistent with container, and container can only can make towards the direction movement that conveyer belt transmits What container was stablized moves along conveyer belt.

The utility model is further arranged to：The helical blade surface is fixedly connected with one layer of tetrafluoro layer.

Through the above technical solutions, when between helical blade insertion container, tetrafluoro layer surface and container occur it is opposite slide, The coefficient of sliding friction of tetrafluoro layer surface is smaller, can be easier in the gap between insertion container, two containers are strutted, Increase the distance between container.It is opposite with container sliding while helical blade promotes the direction movement that container is transmitted towards conveyer belt Dynamic, tetrafluoro layer can reduce the frictional resistance between container.

The utility model is further arranged to：The screw propulsion point has been fixedly connected with shaft, conveyer belt away from bar both ends Side plate on be fixedly connected with support plate, be socketed with brasses in shaft, shaft passes through brasses and is rotatablely connected with support plate.

Through the above technical solutions, the coefficient of sliding friction of brasses is smaller, opposite with support plate turn of shaft can be reduced The frictional resistance being subject to during dynamic, improves screw propulsion point away from the stability in bar rotation process.

In conclusion the utility model has the advantages that：

1st, when screw propulsion point is rotated away from bar, helical blade is gradually inserted between two containers close to each other, by two Container struts, the distance between increase container；

2nd, guide rod can prevent container from deviateing the direction of transfer of conveyer belt during being softened.

Brief description of the drawings

Fig. 1 is the schematic diagram of utility model works principle；

Fig. 2 is to embody the schematic diagram for being oriented to rod structure；

Fig. 3 is the assembling structure schematic diagram of the utility model；

Fig. 4 is the schematic diagram for embodying tetrafluoro Rotating fields.

In figure, 1, point away from device；11st, screw propulsion point is away from bar；111st, shaft；112nd, brasses；12nd, helical blade；121、 Tetrafluoro layer；13rd, support plate；14th, transmission shaft；15th, driven pulley；16th, servomotor；17th, drive pulley；18th, it is driven skin Band；2nd, container；3rd, conveyer belt；4th, guide rod.

Embodiment

The utility model is described in further detail below in conjunction with attached drawing.

Embodiment：A kind of dividing away from device for filling pipeline, is arranged on and capping area as shown in Figure 1, dividing away from device 1（Figure In be not drawn into, for carrying out capping to the bottleneck of container 2）On the conveyer belt 3 of connection, conveyer belt 3 is located at the upstream in capping area（Figure The direction of V meanings is downstream direction in 1）.

As shown in Fig. 2, 3 both sides of conveyer belt are equipped with the guide rod 4 being oriented to container 2, container 2 is transported along conveyer belt 3 When dynamic, two sides are opposite with the surface of two guide rods 4 respectively to be slided.

As shown in Figures 2 and 3, divide includes screw propulsion point away from bar 11, central shaft of the screw propulsion point away from bar 11 away from device 1 The direction of transfer of line and threading（The direction of V meanings in Fig. 3）It is parallel.Screw propulsion point is fixedly connected with spiral shell on the cylinder away from bar 11 Vane piece 12, helical blade 12.When screw propulsion point is rotated away from bar 11, helical blade 12 can be gradually inserted two and be close in one In gap between the container 2 risen, big, the distance between final two container 2 is gradually supportted in the gap of two containers 2 by helical blade 12 It is identical with the pitch of helical blade 12.

As shown in figure 4, the pitch of helical blade 12 is identical along the width dimensions of 3 direction of transfer of conveyer belt with container 2, it is spiral Blade 12 can be smoothly inserted into the gap between two containers 2.The surface of helical blade 12 is fixedly connected with one layer of tetrafluoro Layer 121,121 surface of tetrafluoro layer has the less coefficient of sliding friction, can reduce container 2（See Fig. 1）With helical blade 12 it Between sliding-frictional resistance.

To container 2 when screw propulsion point is rotated away from bar 11（See Fig. 1）Fltting speed it is smaller than the transfer rate of conveyer belt 3, Container 2 enters screw propulsion point before can be inconsistent with 12 surface of helical blade close to upstream away from bar 11, is pushed away with spiral Into point rotation away from bar 11, helical blade 12 increases the distance between container 2 between being gradually inserted container 2.

As shown in Figure 3 and Figure 4, both ends of the screw propulsion point away from bar 11 are equipped with support plate 13, and 13 lower end of support plate is with passing The side plate of 3 side of band is sent to be fixedly connected, the upper end of support plate 13 is with being fixedly connected on shaft of the screw propulsion point away from 11 end face of bar 111 rotation connections.Brasses 112 is equipped between shaft 111 and support plate 13, shaft 111 is rotated by brasses 112 and support plate 13 Connection, the coefficient of sliding friction of brasses 112 is smaller, can reduce and be hindered with the friction being subject in 13 relative rotational motion of support plate Power.

Transmission shaft 14 is welded with the shaft 111 of the one end in downstream, follower belt is fixedly connected with transmission shaft 14 Wheel 15, the lower section of driven pulley 15 are equipped with servomotor 16, drive pulley are fixedly connected with the output shaft of servomotor 16 17, drive pulley 17 is located at the underface of driven pulley 15, and one is wound with driven pulley 15 and drive pulley 17 Driving belt 18 is enclosed, servomotor 16 drives screw propulsion point to be rotated away from bar 11 by driving belt 18.The rotation of helical blade 12 Into the conveying direction of direction and conveyer belt 3 on the contrary, when rotating, helical blade 12 can be by container 2（See Fig. 1）Passed towards conveyer belt 3 The direction sent promotes, reach container 2 is divided away from function.

The course of work：Container 2 be transferred into 12 surface of helical blade it is inconsistent after, servomotor 16 passes through driving belt 18 drive transmission shafts 14 rotate, so as to drive screw propulsion point to be rotated away from bar 11.Helical blade 12 is gradually inserted two and mutually contradicts Container 2 between, gradually two containers 2 are strutted, increase the distance between two containers 2.Screw propulsion point is rotated further away from bar 11, Helical blade 12 promotes container 2 to be moved towards 3 direction of transfer of conveyer belt.

This specific embodiment is only explanation to the utility model, it is not the limitation to the utility model, ability Field technique personnel as needed can make the present embodiment the modification of no creative contribution after this specification is read, but As long as all protected in the right of the utility model be subject to Patent Law.

Claims (6)

1. a kind of filling pipeline divides away from device, it is characterized in that：Including being rotationally connected with conveyer belt（3）The screw propulsion of top Divide away from bar（11）And with screw propulsion point away from bar（11）One end connect to drive the driving device that it is rotated, screw propulsion point Away from bar（11）On be fixedly connected and be useful for along conveyer belt（3）Direction of transfer promotes two adjacent containers of increase（2）Between distance spiral shell Vane piece（12）, helical blade（12）Precession direction and conveyer belt（3）Direction of transfer on the contrary, helical blade（12）Pitch With container（2）Identical along the width dimensions of direction of transfer, screw propulsion point is away from bar（11）Fltting speed during rotation compares conveyer belt （3）Conveying speed it is small.

2. a kind of filling pipeline according to claim 1 divides away from device, it is characterized in that：The driving device is servo Motor（16）, servomotor（16）Output shaft and the screw propulsion point away from bar（11）Between be equipped with transmission mechanism, servo electricity Machine（16）Screw propulsion point is driven away from bar by transmission mechanism（11）Rotate.

3. a kind of filling pipeline according to claim 2 divides away from device, it is characterized in that：The transmission mechanism includes solid Surely the screw propulsion point is connected to away from bar（11）The transmission shaft of one end（14）, be fixedly connected on transmission shaft（14）On driven skin Belt wheel（15）, be fixedly connected on the servomotor（16）Drive pulley on output shaft（17）And it is wrapped in follower belt Wheel（15）And drive pulley（17）On driving belt（18）.

4. a kind of filling pipeline according to claim 1 divides away from device, it is characterized in that：The conveyer belt（3）On set There are two and conveyer belt（3）The parallel guide rod of direction of transfer（4）, container（2）In transmit process two sides respectively with two Guide rod（4）It is slidably connected.

5. a kind of filling pipeline according to claim 1 divides away from device, it is characterized in that：The helical blade（12）Table Face is fixedly connected with one layer of tetrafluoro layer（121）.

6. a kind of filling pipeline according to claim 1 divides away from device, it is characterized in that：The screw propulsion point is away from bar （11）Both ends have been fixedly connected with shaft（111）, conveyer belt（3）Side plate on be fixedly connected with support plate（13）, shaft（111） On be socketed with brasses（112）, shaft（111）Pass through brasses（112）With support plate（13）Rotation connection.