CN208843313U - A kind of casement automatic docking device - Google Patents

Abstract

The utility model discloses a kind of casement automatic docking devices in Palletizer field, including hoistable platform, it is corresponding with hoistable platform to be equipped at least one stacking frame, the stacking frame is arranged successively from top to bottom is provided with the mobile saddle of several layers, each mobile saddle is flexibly connected with stacking frame, the mobile saddle is equipped with transmission handle close to the side of hoistable platform, the hoistable platform and lift drive mechanism are sequentially connected, hoistable platform is parallel with the mobile saddle surface, Mobile base that can be mobile on hoistable platform surface is provided on the hoistable platform, Mobile base is identical as the mobile moving direction of saddle, Mobile base is equipped with swingable drawing and send block, drawing send block setting corresponding with transmission handle.Multiple sash can be sequentially placed into the mobile saddle of each layer of stacking frame by the utility model, and high degree of automation improves work efficiency, and stability is good.

Description

A kind of casement automatic docking device

Technical field

The utility model belongs to Palletizer field, in particular to a kind of casement automatic docking device.

Background technique

In the prior art, a kind of negative-pressure glass carries palletizing apparatus, number of patent application: 201721415374.5；Shen It please day: 2017-10-30；Publication number: 207566473U；Publication date: 2018-07-03；Its structure include glass conveyer device and Glass transporting device, the glass transporting device are arranged in above the end of the glass conveyer device, to convey glass Blocking glass on device is transported and stacking；The glass conveyer device includes two struts, multiple transfer rollers and the first drive Dynamic device, two struts are horizontally disposed and are parallel to each other, and multiple transfer rollers are parallel to each other and evenly spaced set Set between two struts, each transfer roller be mutually perpendicular to respectively with two struts and with its company of rotation It connects, multiple transfer rollers and first driving device are sequentially connected, and are driven and are run simultaneously by first driving device；The glass is removed Shipping unit includes the consistent first glass handling unit of two specifications and the second glass handling unit, the first glass handling list Member and the second glass handling unit are symmetrically arranged at the two sides of the glass conveyer device, and respectively intermittently in turn by glass Glass in conveying device is moved away from and carries out stacking respectively.The device is by conveying glass transporting device setting in the glass The glass block-by-block on glass conveyer device is transported to facilitate in the end of device.Disadvantage is that: the device can not incite somebody to action Multiple pieces of glass sash successively stacking multilayer from top to bottom, the ground in good order stacking of multiple pieces of glass sash is good, the degree of automation compared with Low, assembling quality is lower；When stacking casement, it not can guarantee sash and be steadily put into designated position, do not generate collision.

Utility model content

The purpose of the utility model is to provide a kind of casement automatic docking devices, can be sequentially placed into multiple sash In the mobile saddle of each layer of stacking frame, in good order, high degree of automation is improved work efficiency, and improves assembling quality；It protects Card sash is put into designated position, does not generate collision, stability is good.

Purpose of the utility model is realized as follows: a kind of casement automatic docking device, including hoistable platform, with Hoistable platform is corresponding to be equipped at least one stacking frame, and the stacking frame is arranged successively from top to bottom is provided with the mobile support of several layers Platform, each mobile saddle are flexibly connected with stacking frame, and the mobile saddle is equipped with transmission handle, institute close to the side of hoistable platform It states hoistable platform and lift drive mechanism is sequentially connected, hoistable platform is parallel with the mobile saddle surface, and the lifting is flat Mobile base that can be mobile on hoistable platform surface is provided on platform, Mobile base is identical as the mobile moving direction of saddle, Mobile base It is equipped with swingable drawing and send block, drawing send block setting corresponding with transmission handle.

When utility model works, lift drive mechanism drives hoistable platform to be elevated to position corresponding with mobile saddle It sets, draws and block is sent to swing to the position being connected with transmission handle, Mobile base is mobile to pull out mobile saddle, mobile saddle lateral bolster Support is sent on block in drawing, guarantees that mobile saddle keeps horizontal stable, sash can be stably placed on mobile saddle；Manipulator crawl Sash is put on mobile saddle, and Mobile base sends mobile saddle back to origin-location again；Then hoistable platform is elevated to and other shiftings The dynamic corresponding position of saddle pulls out mobile saddle, and manipulator continues to be put into sash, may be implemented successively to put multiple sash Enter on each mobile saddle.Compared with prior art, the utility model has the beneficial effects that: multiple sash can be sequentially placed into In the mobile saddle of each layer of stacking frame, in good order, high degree of automation is improved work efficiency, and realizes automated handling code Pile, whole process do not need manually to participate in, and improve assembling quality；Guarantee that sash is put into designated position, do not generate collision, stablizes Property is good.

The Mobile base setting is sent on the upside of machine in drawing as a further improvement of the utility model, and drawing send machine setting rising Drop in the middle part of platform, drawing send machine to be internally provided with feed screw nut component, and one end of lead screw and motor one are sequentially connected, feed screw nut with Mobile base transmission is connected.Motor one drives lead screw rotation, and feed screw nut drives Mobile base to send in drawing and moves on the upside of machine, Mobile base band Dynamic mobile saddle is mobile.

Oscillating cylinder is provided on the Mobile base as a further improvement of the utility model, drawing send block to be sequentially connected On the swing output shaft of oscillating cylinder, it includes the connector sleeve being set on oscillating cylinder output shaft that block is sent in drawing, is divided on connector sleeve It is not wholely set pulling plate and push plate parallel to each other, pulling plate and push plate are vertical with mobile saddle plane.Oscillating cylinder output Axis can rotate within the scope of 0 ~ 90 °, and when oscillating cylinder drives drawing that block is sent to swing to horizontal position, pulling plate and push plate are located at mobile handle Subordinate side, when mobile saddle is pulled outwardly by Mobile base, pulling plate drives transmission handle to be pulled outwardly；Mobile base sends mobile saddle back to original When coming position, push plate is inwardly pushed away handle is driven.

The cross section of the transmission handle is set as L shape as a further improvement of the utility model, and transmission handle includes Support plate and driver plate, support plate is parallel with mobile saddle plane, and driver plate is vertical with mobile saddle plane, and driver plate, which is located at, to be drawn Position between plate and push plate, support plate are located above pulling plate and push plate, and support plate may be supported on pulling plate and push plate；Mobile support Platform surface is equipped with several through-holes.When drawing send block to swing to horizontal position, pulling plate and push plate are placed exactly in below support plate, driver plate Between pulling plate and push plate, when mobile saddle is pulled outwardly by Mobile base, pulling plate is contacted with driver plate, and mobile saddle is pulled outwardly When arriving extreme position out, support plate is supported on pulling plate, in push plate, guarantees mobile saddle held stationary, when manipulator places sash, It will not shake, guarantee sash steadily in place；When Mobile base sends mobile saddle back to origin-location, push plate contacts biography with driver plate Dynamic, support plate is supported on pulling plate, in push plate, when guaranteeing that sash returns to origin-location, will not shake.

The hoistable platform is arranged on the rack as a further improvement of the utility model, and rack includes pedestal, pedestal Surrounding is provided with column, and each the upper end of the column is equipped with footstock, is additionally provided with four guide rods between the pedestal and footstock, each guide rod and each Column is arranged in a one-to-one correspondence, and between pedestal and footstock, hoistable platform is flexibly connected hoistable platform with each guide rod.Guide rod is Hoistable platform guiding, guarantees stable action when lifting.

The lift drive mechanism includes the motor that portion in the base is arranged as a further improvement of the utility model, Two, the input shaft transmission connection of motor two and retarder one, the left and right sides of retarder one is equipped with horizontal output shaft, pedestal Two sides be equipped with elevator, one output shaft of retarder is sequentially connected through the input terminal of shaft coupling and corresponding elevator, rises The side transmission connection corresponding with hoistable platform of the lifting output end of drop machine.Motor two through retarder one deceleration after, retarder one Two output shafts drive the elevator duty of two sides respectively, and the elevator of two sides drives hoistable platform to move up and down, more steadily.

Turbine and worm mechanism, worm screw and deceleration are equipped with inside the elevator as a further improvement of the utility model, The corresponding output shaft transmission connection of device one, elevator upper end are equipped with feed screw nut component vertically, and turbine is set in lead screw lower end, lead screw Nut side transmission corresponding with hoistable platform is connected.The output shaft of retarder one drives worm screw rotation, and worm screw drives turbine rotation, Turbine drives lead screw rotation, and feed screw nut axial movement drives hoistable platform lifting.

The two sides of the stacking frame correspond to each mobile saddle equipped with several groups as a further improvement of the utility model, Guiding mechanism, every group of guiding mechanism include the idler wheel of several successively horizontally arranged settings, and stacking frame side is at hoistable platform Be correspondingly provided with top rollers equipped with pair of rollers, above pair of rollers, the mobile saddle be located at corresponding top rollers and pair of rollers it Between.The idler wheel of two sides provides guiding for mobile saddle, and top rollers and pair of rollers form gusseted, prevents mobile saddle or more It shakes, mobile saddle movement is more stable, prevents sash from shaking up and down.

Each stacking frame is arranged on exchange frame as a further improvement of the utility model, and exchange frame bottom is equipped with At least 2 pairs of movable pulley groups, movable pulley group and traversing driving device are sequentially connected, and are correspondingly provided with guide rail, guide rail below movable pulley group Axis is vertical with Mobile base moving direction, and exchange frame bottom is additionally provided with the side guide bearing with rail-sides face contact.On exchange frame Multiple stacking framves are provided with, can be with the more sash of stacking, stacking space is bigger, traversing after piling with sash on a stacking frame Driving mechanism drives exchange frame to move along guide rail, before the stacking frame of next sky comes hoistable platform, continues sash stacking Up.

The traversing driving device includes motor three, motor three and retarder as a further improvement of the utility model, The transmission connection of two input shafts, the left and right sides of retarder two are equipped with output shaft, and two output shaft of retarder is moved with corresponding Wheel transmission connection.For motor three after the deceleration of retarder two, the output shaft of two two sides of retarder drives movable pulley to roll respectively, exchange Frame realizes movement, is switched to the stacking frame of next sky.

Detailed description of the invention

Fig. 1 is the schematic perspective view of the utility model.

Fig. 2 is another schematic perspective view of the utility model.

Fig. 3 is the enlarged drawing of elevator.

Fig. 4 is another schematic perspective view of the utility model.

Fig. 5 is the top view of the utility model.

Fig. 6 is the main view of the utility model.

Fig. 7 is the side view of the utility model.

Fig. 8 is to be driven handle and draw the enlarged drawing for sending machine.

Fig. 9 is the enlarged drawing for being driven handle and oscillating cylinder.

Figure 10 is to be driven handle and draw the location diagram for sending block.

Figure 11 is the side view of Figure 10.

Figure 12 is to draw the three-dimensional structure diagram for sending block.

Figure 13 is the three-dimensional structure diagram for being driven handle.

Figure 14 is the location diagram of mobile saddle and idler wheel.

Wherein, 1 hoistable platform, 2 stacking framves, 3 mobile saddles, 4 transmission handles, 4a support plate, 4b driver plate, 5 Mobile bases, 6 draw and send block, 6a connector sleeve, 6b pulling plate, 6c push plate, and 7 draw and send machine, 8 motors one, 9 oscillating cylinders, 10 through-holes, 11 racks, the bottom 11a Seat, 11b column, 11c footstock, 12 guide rods, 13 motors two, 14 retarders one, 15 elevators, 16 feed screw nut components, 17 idler wheels, 17a top rollers, 17b pair of rollers, 18 exchange frames, 19 movable pulley groups, 20 guide rails, 21 side guide bearings, 22 motors three, 23 slow down Device two.

Specific embodiment

It as represented in figures 1 through 14, is a kind of casement automatic docking device, including hoistable platform 1, it is opposite with hoistable platform 1 It should be equipped at least one stacking frame 2, stacking frame 2 is arranged successively from top to bottom is provided with the mobile saddle 3 of several layers, each mobile saddle 3 are flexibly connected with stacking frame 2, and mobile saddle 3 is equipped with transmission handle 4, hoistable platform 1 and liter close to the side of hoistable platform 1 Driving mechanism transmission connection is dropped, and hoistable platform 1 is parallel with mobile 3 surface of saddle, and being provided on hoistable platform 1 can go up and down The mobile Mobile base 5 in 1 surface of platform, Mobile base 5 is identical as the mobile moving direction of saddle 3, and Mobile base 5 is equipped with swingable Block 6 is sent in drawing, and drawing send block 6 setting corresponding with transmission handle 4.The setting of Mobile base 5 send machine 7 upside in drawing, and drawing send the setting of machine 7 rising 1 middle part of platform drops, and drawing send machine 7 to be internally provided with feed screw nut component, and one end of lead screw and motor 1 are sequentially connected, lead screw spiral shell It is female to be connected with the transmission of Mobile base 5.It is provided with oscillating cylinder 9 on Mobile base 5, draws the swing for sending the transmission connection of block 6 in oscillating cylinder 9 On output shaft, drawing and sending block 6 includes the connector sleeve 6a being set on 9 output shaft of oscillating cylinder, is wholely set respectively on connector sleeve 6a There are pulling plate 6b and push plate 6c parallel to each other, pulling plate 6b and push plate 6c are vertical with mobile 3 plane of saddle.It is driven the cross of handle 4 Section is set as L shape, and transmission handle 4 includes support plate 4a and driver plate 4b, and support plate 4a is parallel with mobile 3 plane of saddle, passes Movable plate 4b is vertical with mobile 3 plane of saddle, position of the driver plate 4b between pulling plate 6b and push plate 6c, and support plate 4a, which is located at, to be drawn Above plate 6b and push plate 6c, support plate 4a be may be supported on pulling plate 6b and push plate 6c；Mobile 3 surface of saddle is equipped with several through-holes 10.Hoistable platform 1 is arranged in rack 11, and rack 11 includes pedestal 11a, and pedestal 11a surrounding is provided with column 11b, each column The upper end 11b is equipped with footstock 11c, and four guide rods 12, each guide rod 12 and each column 11b mono- are additionally provided between pedestal 11a and footstock 11c One is correspondingly arranged, and between pedestal 11a and footstock 11c, hoistable platform 1 is flexibly connected hoistable platform 1 with each guide rod 12.Institute Stating lift drive mechanism includes the motor 2 13 being arranged in the middle part of pedestal 11a, the input shaft biography of motor 2 13 and retarder 1 Dynamic connection, the left and right sides of retarder 1 are equipped with horizontal output shaft, and the two sides of pedestal 11a are equipped with elevator 15, subtract Fast one 14 output shaft of device is sequentially connected through shaft coupling with the input terminal of corresponding elevator 15, the lifting output end and liter of elevator 15 The corresponding side transmission connection of platform 1 is dropped.Turbine and worm mechanism, worm screw output corresponding with retarder 1 are equipped with inside elevator 15 Axis transmission connection, 15 upper end of elevator are equipped with feed screw nut component 16 vertically, and turbine is set in lead screw lower end, feed screw nut and liter The corresponding side transmission of platform 1 is dropped to be connected.The two sides of stacking frame 2 correspond to each mobile saddle 3 equipped with several groups of guide means, and every group Guiding mechanism includes the idler wheel 17 of several successively horizontally arranged settings, and 2 side of stacking frame is equipped with pair of rollers at hoistable platform 1 Top rollers 17a is correspondingly provided with above 17b, pair of rollers 17b, mobile saddle 3 is located at corresponding top rollers 17a and pair of rollers 17b Between.Each stacking frame 2 is arranged on exchange frame 18, and 18 bottom of exchange frame is equipped at least 2 pairs of movable pulley groups 19, movable pulley group 19 with Traversing driving device is sequentially connected, and guide rail 20,20 axis of guide rail and 5 moving direction of Mobile base are correspondingly provided with below movable pulley group 19 Vertically, 18 bottom of exchange frame is additionally provided with the side guide bearing 21 contacted with 20 side of guide rail.The traversing driving device includes electricity Machine 3 22, motor 3 22 and 2 23 input shaft of retarder are sequentially connected, and the left and right sides of retarder 2 23 is equipped with output shaft, 2 23 output shaft of retarder is sequentially connected with corresponding movable pulley.

When work, for motor 2 13 after the deceleration of retarder 1, two output shafts of retarder 1 drive two sides respectively Elevator 15 works, and the feed screw nut component 16 of elevator 15 is driven, and the feed screw nut of two sides drives about 1 hoistable platform simultaneously Movement, hoistable platform 1 are elevated to position corresponding with mobile saddle 3, and motor 1 drives Mobile base by feed screw nut component Before 5 are moved to transmission handle 4, when oscillating cylinder 9 drives drawing that block 6 is sent to swing to horizontal position, pulling plate 6b and push plate 6c are located at shifting Below dynamic handle, support plate 4a is supported on drawing and send on block 6, and pulling plate 6b drives transmission handle 4 to be pulled outwardly by driver plate 4b, mobile After saddle 3 pulls out, mobile 3 lateral support of saddle is sent on block 6 in drawing, guarantees that mobile saddle 3 keeps horizontal stable, manipulator crawl Sash is steadily put on mobile saddle 3；Then Mobile base 5 moves backward, push plate 6c and driver plate 4b Contact Transmission, support plate 4a It is supported on drawing to send on block 6, Mobile base 5 sends mobile saddle 3 back to origin-location again；Then hoistable platform 1 is elevated to and other shiftings The dynamic corresponding position of saddle 3 pulls out mobile saddle 3, and manipulator continues to be put into sash, may be implemented multiple sash successively It is put on each mobile saddle 3.After piling with sash on one stacking frame 2, motor 3 22 is after the deceleration of retarder 2 23, retarder two The output shaft of 23 two sides drives movable pulley to roll respectively, and exchange frame 18 realizes movement, is switched to the stacking frame 2 of next sky, then Sash stacking is got on.Utility model has the advantages that the mobile support of each layer that multiple sash can be sequentially placed into stacking frame 2 In good order in platform 3, high degree of automation improves work efficiency, and realizes automated handling stacking, and whole process does not need It is artificial to participate in, improve assembling quality；Guarantee that sash is put into designated position, do not generate collision, stability is good.

The utility model is not limited to above-described embodiment, on the basis of technical solution disclosed by the utility model, this For the technical staff in field according to disclosed technology contents, not needing creative labor can be special to some of which technology Sign makes some replacements and deformation, these replacements and deformation are within the protection scope of the present utility model.

Claims (10)

1. a kind of casement automatic docking device, which is characterized in that corresponding with hoistable platform to be equipped with extremely including hoistable platform A few stacking frame, the stacking frame is arranged successively from top to bottom is provided with the mobile saddle of several layers, each mobile saddle with code Racking is flexibly connected, and the mobile saddle is equipped with transmission handle close to the side of hoistable platform, and the hoistable platform and lifting are driven The transmission connection of motivation structure, hoistable platform is parallel with the mobile saddle surface, and being provided on the hoistable platform can go up and down The mobile Mobile base of platform surface, Mobile base is identical as the mobile moving direction of saddle, and Mobile base is equipped with swingable drawing and send Block, drawing send block setting corresponding with transmission handle.

2. a kind of casement automatic docking device according to claim 1, which is characterized in that the Mobile base setting exists Drawing is sent on the upside of machine, and drawing send machine to be arranged in the middle part of hoistable platform, and drawing send machine to be internally provided with feed screw nut component, one end of lead screw with Motor one is sequentially connected, and feed screw nut is connected with Mobile base transmission.

3. a kind of casement automatic docking device according to claim 1 or 2, which is characterized in that on the Mobile base It is provided with oscillating cylinder, drawing send block transmission connection on the swing output shaft of oscillating cylinder, and it includes being set in swing gas that block is sent in drawing Connector sleeve on cylinder output shaft, is wholely set pulling plate and push plate parallel to each other on connector sleeve respectively, pulling plate and push plate with Mobile saddle plane is vertical.

4. a kind of casement automatic docking device according to claim 3, which is characterized in that the cross of the transmission handle Section is set as L shape, and transmission handle includes support plate and driver plate, and support plate is parallel with mobile saddle plane, driver plate and shifting Dynamic saddle plane is vertical, and position of the driver plate between pulling plate and push plate, support plate is located above pulling plate and push plate, support plate It may be supported on pulling plate and push plate；Mobile saddle surface is equipped with several through-holes.

5. a kind of casement automatic docking device according to claim 1 or 2, which is characterized in that the hoistable platform It is arranged on the rack, rack includes pedestal, and pedestal surrounding is provided with column, and each the upper end of the column is equipped with footstock, the pedestal and top Four guide rods are additionally provided between seat, each guide rod is arranged in a one-to-one correspondence with each column, and hoistable platform rises between pedestal and footstock Drop platform is flexibly connected with each guide rod.

6. a kind of casement automatic docking device according to claim 5, which is characterized in that the lift drive mechanism The input shaft of motor two including portion in the base is arranged, motor two and retarder one is sequentially connected, the left and right two of retarder one Side is equipped with horizontal output shaft, and the two sides of pedestal are equipped with elevator, one output shaft of retarder through shaft coupling with it is corresponding The input terminal of elevator is sequentially connected, the side transmission connection corresponding with hoistable platform of the lifting output end of elevator.

7. a kind of casement automatic docking device according to claim 6, which is characterized in that set inside the elevator There is turbine and worm mechanism, worm screw output shaft transmission connection corresponding with retarder one, elevator upper end is equipped with feed screw nut group vertically Part, turbine are set in lead screw lower end, and feed screw nut side transmission corresponding with hoistable platform is connected.

8. a kind of casement automatic docking device according to claim 1 or 2, which is characterized in that the stacking frame Two sides correspond to each mobile saddle equipped with several groups of guide means, and every group of guiding mechanism includes several successively horizontally arranged settings Idler wheel, stacking frame side are equipped with pair of rollers at hoistable platform, and top rollers, the mobile support are correspondingly provided with above pair of rollers Platform is located between corresponding top rollers and pair of rollers.

9. a kind of casement automatic docking device according to claim 1 or 2, which is characterized in that each stacking frame It is arranged on exchange frame, exchange frame bottom is equipped at least 2 pairs of movable pulley groups, and movable pulley group and traversing driving device are sequentially connected, It is correspondingly provided with guide rail below movable pulley group, rail axis is vertical with Mobile base moving direction, and exchange frame bottom is additionally provided with and guide rail The side guide bearing of side contact.

10. a kind of casement automatic docking device according to claim 9, which is characterized in that the traversing driving machine Structure includes motor three, and motor three and two input shaft of retarder are sequentially connected, and the left and right sides of retarder two is equipped with output shaft, Two output shaft of retarder is sequentially connected with corresponding movable pulley.