CN204980272U

CN204980272U - Automatic reposition of redundant personnel conveyor

Info

Publication number: CN204980272U
Application number: CN201520504145.5U
Authority: CN
Inventors: 周东风; 邢春华; 许金荣; 吴超; 潘晓芬; 严龙
Original assignee: SUZHOU UB PRECISION ELECTRONIC CO Ltd
Current assignee: SUZHOU UB PRECISION ELECTRONIC CO Ltd
Priority date: 2015-07-13
Filing date: 2015-07-13
Publication date: 2016-01-20
Anticipated expiration: 2025-07-13

Abstract

The utility model relates to an automatic reposition of redundant personnel conveyor, including horizontal belt line conveying unit and lift belt line conveying unit, two guiding mechanism of lifting and drop rotating mechanism connect the mounting panel on arranging the slide rail in between two guiding mechanism, and the motor is connected with the mounting panel drive, all are equipped with the chute on guiding mechanism's rotatory climbing mechanism cam plate and the belt climbing mechanism cam plate, and chute front and back conveying unit 0 drive loading board up -and -down motion on the rotation climbing mechanism cam plate is followed to climbing mechanism's cam follow -up ware subassembly, belt transport line on lift belt line conveying unit contains elevating system and sets up it, sport conversion drive belt transport line up -and -down motion around the chute on elevating system's the cam follow -up ware subassembly edge belt climbing mechanism cam plate. Utilize the rising and the decline of the same motor drive lead screw two sets of mechanisms of drive ( lifting and drop rotating mechanism and lift belt line conveying unit ), the structure is compacter, has saved the space, the cost is reduced for the reposition of redundant personnel of product is carried.

Description

Automatic shunt feedway

Technical field

The utility model relates to a kind of automatic shunt feedway, belongs to technical field of automation equipment.

Background technology

At present, common lifting mechanism is all single, and driven the rise and fall of a drive mechanism by a motor, form is comparatively single.

Utility model content

The purpose of this utility model is the deficiency overcoming prior art existence, provides a kind of automatic shunt feedway.

The purpose of this utility model is achieved through the following technical solutions:

Automatic shunt feedway, feature is: comprise horizontal belt line supply unit and be connected the hoisting belts line supply unit of transition with it, the service direction of hoisting belts line supply unit and the service direction of horizontal belt line supply unit perpendicular, the inside region of described hoisting belts line supply unit is provided with lifting rotation mechanism;

Described lifting rotation mechanism comprises motor, two guiding mechanisms and lifting body, two guiding mechanisms are placed on slide rail respectively, connection plate between two guiding mechanisms, motor drives with adapter plate and is connected, guiding mechanism can be driven to move along slide rail, described guiding mechanism comprises vertically arranged rotation lifting body lobe plate and belt lifting body lobe plate, rotate on lifting body lobe plate and belt lifting body lobe plate and be equipped with skewed slot, described lifting body comprises and rotates the Cam Follower assembly and connected loading plate that on lifting body lobe plate, skewed slot matches, Cam Follower assembly seesaws to transform along skewed slot on rotation lifting body lobe plate and drives loading plate up-and-down movement, loading plate is installed sucker installation component,

Described hoisting belts line supply unit comprises lifting mechanism and arranges the belt conveyor line on it, described lifting mechanism comprises the Cam Follower assembly and the connected support for carrying belt conveyor line that match with skewed slot on belt lifting body lobe plate, and Cam Follower assembly seesaws to transform along skewed slot on belt lifting body lobe plate and drives belt conveyor line up-and-down movement.

Further, above-mentioned automatic shunt feedway, wherein, described sucker installation component is installed on loading plate by 90 ° of rotating mechanisms.

Further, above-mentioned automatic shunt feedway, wherein, described sucker installation component is distributed with multiple sucker.

Further, above-mentioned automatic shunt feedway, wherein, described support is provided with buphthalmos assembly.

Again further, above-mentioned automatic shunt feedway, wherein, the output shaft of described motor is provided with screw mandrel, and described adapter plate is provided with the nut sleeve matched with screw mandrel.

Again further, above-mentioned automatic shunt feedway, wherein, on described rotation lifting body lobe plate, the grooved track of skewed slot is a tilted upward linear portion.

Again further, above-mentioned automatic shunt feedway, wherein, on described belt lifting body lobe plate, the grooved track of skewed slot comprises the horizontal linear section of a tilted upward linear portion and transition and linkage.

The substantive distinguishing features that technical solutions of the utility model are outstanding and significant progress are mainly reflected in:

The utility model design is unique, novel structure, and utilize same motor to drive screw mandrel to drive the rise and fall of Liang Zu mechanism (lifting rotation mechanism and hoisting belts line supply unit), the shunting for product is carried.Compare the lifting mechanism of other type, structure is compacter, saves space, reduces cost.Simple and easy applicable, be the new design of a practicality, market application foreground is wide.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, technical solutions of the utility model are described further:

Fig. 1: structural representation of the present utility model;

Fig. 2: the structural representation of lifting rotation mechanism;

Local structure schematic diagram in Fig. 3: Fig. 2;

Fig. 4: the structural representation of hoisting belts line supply unit.

Detailed description of the invention

As shown in Figure 1, automatic shunt feedway, comprise horizontal belt line supply unit 1 and be connected the hoisting belts line supply unit 2 of transition with it, the service direction of hoisting belts line supply unit 2 and the service direction of horizontal belt line supply unit 1 perpendicular, the inside region of hoisting belts line supply unit 2 is provided with lifting rotation mechanism 3.

As Fig. 2, shown in Fig. 3, lifting rotation mechanism 3 comprises motor 31, two guiding mechanisms 32 and lifting body 33, two guiding mechanisms 32 are placed on slide rail 38 respectively, connection plate 37 between two guiding mechanisms, the output shaft of motor 31 is provided with screw mandrel 36, adapter plate 37 is provided with the nut sleeve matched with screw mandrel, motor 31 drives screw mandrel 36 to rotate, then adapter plate 37 straight-line motion is converted into, drive guiding mechanism 32 along slide rail 38 straight-line motion, guiding mechanism 32 comprises vertically arranged rotation lifting body lobe plate 322 and belt lifting body lobe plate 321, rotate on lifting body lobe plate 322 and belt lifting body lobe plate 321 and be equipped with skewed slot, the grooved track rotating skewed slot on lifting body lobe plate 322 is a tilted upward linear portion, on belt lifting body lobe plate 321, the grooved track of skewed slot comprises the horizontal linear section of a tilted upward linear portion and transition and linkage, lifting body 33 comprises and rotates the Cam Follower assembly and connected loading plate that on lifting body lobe plate, skewed slot matches, Cam Follower assembly seesaws to transform along skewed slot on rotation lifting body lobe plate 322 and drives loading plate up-and-down movement, loading plate installs 90 ° of rotating mechanisms, sucker installation component 34 installed by 90 ° of rotating mechanisms, sucker installation component is distributed with multiple sucker 35.

As shown in Figure 4, hoisting belts line supply unit 2 comprises lifting mechanism 21 and arranges the belt conveyor line 23 on it, lifting mechanism 21 comprises the Cam Follower assembly and the connected support for carrying belt conveyor line that match with skewed slot on belt lifting body lobe plate 321, Cam Follower assembly seesaws to transform along skewed slot on belt lifting body lobe plate 321 and drives belt conveyor line 23 up-and-down movement, support is provided with buphthalmos assembly 22.

During embody rule, product is carried on horizontal belt line supply unit 1, when it is transported to midway location, namely time directly over hoisting belts line supply unit 2 and lifting rotation mechanism 3, motor 31 rotates, guiding mechanism 32 is driven to move, the Cam Follower assembly of lifting body 33 is made to drive loading plate upward movement along rotating skewed slot conversion of motion on lifting body lobe plate 322, the Cam Follower assembly of lifting mechanism 21 is made to drive belt conveyor line 23 upward movement along skewed slot conversion of motion on belt lifting body lobe plate 321, promotion hoisting belts line supply unit 2 and lifting rotation mechanism 3 rise simultaneously, in uphill process, hoisting belts line supply unit 2 first contacts with product, when after arrival certain position, motor is rotated further, hoisting belts line supply unit 2 no longer will rise and be stopped at this height, and lifting rotation mechanism 3 continues jacking, continue to rise to certain altitude after contacting with product, when after arrival specified altitude assignment, vacuum is opened, sucker 35 holds product, 90 ° of rotating mechanisms drive sucker installation component 34 half-twist together with product, vacuum discharges, lifting rotation mechanism 3 and product start to decline, after product drops to and contacts with hoisting belts line supply unit 2, after lifting rotation mechanism 3 continues decline one section of height, hoisting belts line supply unit 2 drops to a certain position together with lifting rotation mechanism 3, belt conveyor line 23 entry into service of hoisting belts line supply unit 2 is by output of products, after output of products, hoisting belts line supply unit 2 and lifting rotation mechanism 3 continue to drop to original position.

Motor 31 drives screw mandrel 36 to operate, then promote guiding mechanism 32 to move forward, the Cam Follower assembly of lifting body 33 drives loading plate upward movement along rotating skewed slot conversion of motion on lifting body lobe plate 322, namely when guiding mechanism 32 travels forward, lifting body 33 starts after jacking makes loading plate rise to certain position, and vacuum is opened, sucker 35 adsorption production, 90 ° of rotating mechanism runnings, make product half-twist simultaneously.

Motor 31 drives screw mandrel 36 to operate, then promote guiding mechanism 32 to move forward, the Cam Follower assembly of lifting mechanism 21 drives belt conveyor line 23 upward movement along skewed slot conversion of motion on belt lifting body lobe plate 321, namely when guiding mechanism 32 travels forward, lifting mechanism 21 starts jacking makes belt conveyor line 23 rise to certain position, buphthalmos assembly 22 for support product surrounding (namely after product half-twist, product exceeds the part of belt line), to prevent product flexural deformation.

Rotation lifting body lobe plate 322 and belt lifting body lobe plate 321 are positioned on same slide rail, namely together with time motion, Cam Follower assembly in lifting rotation mechanism 3 moves along the skewed slot rotated in lifting body lobe plate 322, when rotating lifting body lobe plate 322 and advancing, lifting rotation mechanism 3 rises, when rotating lifting body lobe plate 322 and retreating, lifting rotation mechanism 3 declines.Cam Follower assembly in hoisting belts line supply unit 2 moves along the skewed slot in belt lifting body lobe plate 321, when belt lifting body lobe plate 321 advances, hoisting belts line supply unit 2 rises, after belt lifting body lobe plate 321 proceeds to certain position, Cam Follower assembly in hoisting belts line supply unit 2 moves along the horizontal linear section of belt lifting body lobe plate 321 skewed slot, namely hoisting belts line supply unit 2 no longer along with before belt lifting body lobe plate 321 so that rise, again because belt lifting body lobe plate 321 and rotation lifting body lobe plate 322 move simultaneously, so, just start when rotating lifting body lobe plate 322, when belt lifting body lobe plate 321 advances, lifting rotation mechanism 3, hoisting belts line supply unit 2 rises simultaneously, after rising to certain altitude, along with rotation lifting body lobe plate 322, belt lifting body lobe plate 321 moves on, hoisting belts line supply unit 2 will no longer rise, and lifting rotation mechanism 3 continues to rise.Same motor is utilized to drive screw mandrel to drive the rise and fall of Liang Zu mechanism (lifting rotation mechanism 3 and hoisting belts line supply unit 2).

In sum, the utility model design is unique, novel structure, and realize the rise and fall of same motor control Liang Zhong mechanism, the shunting for product is carried.Compare the lifting mechanism of other type, structure is compacter, saves space, reduces cost.

It is to be understood that: the above is only preferred implementation of the present utility model; for those skilled in the art; under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims

1. automatic shunt feedway, it is characterized in that: comprise horizontal belt line supply unit and be connected the hoisting belts line supply unit of transition with it, the service direction of hoisting belts line supply unit and the service direction of horizontal belt line supply unit perpendicular, the inside region of described hoisting belts line supply unit is provided with lifting rotation mechanism;

2. automatic shunt feedway according to claim 1, is characterized in that: described sucker installation component is installed on loading plate by 90 ° of rotating mechanisms.

3. automatic shunt feedway according to claim 1 and 2, is characterized in that: described sucker installation component is distributed with multiple sucker.

4. automatic shunt feedway according to claim 1, is characterized in that: described support is provided with buphthalmos assembly.

5. automatic shunt feedway according to claim 1, it is characterized in that: the output shaft of described motor is provided with screw mandrel, described adapter plate is provided with the nut sleeve matched with screw mandrel.

6. automatic shunt feedway according to claim 1, is characterized in that: on described rotation lifting body lobe plate, the grooved track of skewed slot is a tilted upward linear portion.

7. automatic shunt feedway according to claim 1, is characterized in that: on described belt lifting body lobe plate, the grooved track of skewed slot comprises the horizontal linear section of a tilted upward linear portion and transition and linkage.