CN103640883A

CN103640883A - Glass transferring equipment

Info

Publication number: CN103640883A
Application number: CN201310682707.0A
Authority: CN
Inventors: 江泳
Original assignee: XINYI MAOSEN TECHNOLOGY INDUSTRY Co Ltd
Current assignee: XINYI MAOSEN TECHNOLOGY INDUSTRY Co Ltd
Priority date: 2013-12-16
Filing date: 2013-12-16
Publication date: 2014-03-19
Anticipated expiration: 2033-12-16
Also published as: CN103640883B

Abstract

The invention provides glass transferring equipment which can transfer glass from one conveying belt to another conveying belt conveniently and reliably. The glass transferring equipment comprises a first conveying belt and a second conveying belt, wherein a transferring table is arranged in a position between an output end of the first conveying belt and an input end of the second conveying belt, and comprises a transferring part and a bearing part; the transferring part comprises a transferring support and transferring rotating shafts mounted at two ends of the transferring support, the two transferring rotating shafts are connected through at least two belts which are arranged in parallel, at least one transferring rotating shaft is connected with power equipment, gaps are reserved between the belts, and the transferring shafts are perpendicular to the conveying direction of the second conveying belt; the bearing part comprises a bearing support and bearing rotating shafts mounted on the bearing support, the bearing rotating shafts are located in the gaps between the belts, and the bearing support is equipped with jacking equipment so as to enable the bearing rotating shafts to be higher than or lower than the belts; and the bearing rotating shafts are perpendicular to the conveying direction of the first conveying belt.

Description

Glass transfer equipment

Technical field

The invention belongs to field of mechanical technique, specially refer to a kind of glass transfer equipment.

Background technology

In the production process of glass, often run into glass is transferred to the situation another load-transfer device from a load-transfer device, current way is manually glass to be lifted from a load-transfer device, be transported on another load-transfer device, this way not only efficiency is low, and easily because employee's misoperation causes glass to damage, also increased employee's labour intensity simultaneously.

Summary of the invention

The object of the invention is to propose a kind of glass transfer equipment, can facilitate, failure-free transfers to glass another load-transfer device from a load-transfer device.

Glass transfer equipment of the present invention comprises the first load-transfer device and the second load-transfer device, key is that the position between the mouth of described the first load-transfer device and the input end of the second load-transfer device is provided with a conveyer table, described conveyer table consists of transhipment portion and carrier, described transhipment portion comprises transhipment support and is installed on the transhipment rotating shaft at transhipment support two ends, described two transhipment rotating shafts connect by least two belts that are arranged side by side, at least one transhipment rotating shaft is connected with power plant, between described belt, be provided with gap, described transhipment rotating shaft is perpendicular to the throughput direction of the second load-transfer device, described carrier comprises to be accepted support and is installed on the rotating shaft of accepting of accepting on support, described in accept the gap location of rotating shaft between belt, described in accept support and Lifting Equipment be installed so that accept rotating shaft above belt or lower than belt, describedly accept rotating shaft perpendicular to the throughput direction of the first load-transfer device.

The principle of work of above-mentioned glass transfer equipment is as follows: first utilize Lifting Equipment will accept support and raise, make to accept rotating shaft above belt, then by glass along the first tape transport, make glass flow to accepting in rotating shaft of carrier from the mouth of the first load-transfer device and (accept rotating shaft self without power), utilizing subsequently Lifting Equipment will accept support reduces, make to accept rotating shaft lower than belt, along with accepting the reduction of rotating shaft, glass will become from the state by accepting rotating shaft support the state being supported by belt, finally recycle power plant and drive transhipment rotating shaft, belt is moved along with transhipment rotating shaft, the glass being set up on belt will move along with belt, and be transported to the input end of the first load-transfer device, thereby realize, glass is transferred to the object of the second load-transfer device from the first load-transfer device.

Further, described Lifting Equipment comprises cylinder and lifting-up support, described lifting-up support is " Y " shape or "T"-shaped structure, the one end at the top of described lifting-up support is connected with transhipment support by rotating shaft, the other end at top is provided with a bearing, the top of the periphery of described bearing with accept support and contact; The bottom of described lifting-up support is connected with the end of the piston rod of described cylinder by rotating shaft; The bottom of described cylinder is connected with ground or transhipment support by rotating shaft.Cylinder can be positioned at top or the below of the bottom of lifting-up support, the cylinder of take is below example while being positioned at the below of bottom of lifting-up support: when the piston rod of cylinder stretches out, one end that is provided with bearing of lifting-up support will be rotated around rotating shaft (being the other end on the top of lifting-up support), the periphery top of bearing all the time with accept support and contact, thereby will accept support jack-up, make to accept rotating shaft above belt; When the piston rod of cylinder is retracted, accepting support will be under self gravitation effect and fall, and makes to accept rotating shaft lower than belt.In like manner, when cylinder is positioned at the top of bottom of lifting-up support, when accepting support and can stretch out at the piston rod of cylinder, declines, and rise when the piston rod of cylinder is retracted.

Further, described in accept support and be provided with track adjusting wheel, described track adjusting wheel contacts with vertically disposed guide rail, by coordinating of track adjusting wheel and guide rail, can guarantee to accept support vertical downward, and be unlikely to tilt.

Further, described transhipment support is provided with tension wheel, and described tension wheel contacts with belt, so that belt in tensioning state, guarantees that belt is reliable with contacting of glass.

Further, described the first load-transfer device is perpendicular to the second load-transfer device, and described transhipment rotating shaft, perpendicular to accepting rotating shaft, can be shifted glass like this between two mutually perpendicular load-transfer devices, meets the needs of most factories.

Glass transfer device structure of the present invention is simple, can facilitate, failure-free transfers to glass another load-transfer device from a load-transfer device, has saved manpower, and has improved work efficiency and safety.

Accompanying drawing explanation

Fig. 1 is the birds-eye view (arrow on load-transfer device represents the throughput direction of this load-transfer device) of glass transfer equipment of the present invention.

Fig. 2 is the front elevation (being the A arrow angle prestige past in accompanying drawing 1) of glass transfer equipment of the present invention.

Fig. 3 is the lateral plan (being the B arrow angle prestige past in accompanying drawing 1) of glass transfer equipment of the present invention.

Fig. 4 is the decline view of Lifting Equipment.

Fig. 5 is the propradation schematic diagram of Lifting Equipment.

Example in figure: 1, the first load-transfer device; 2, the second load-transfer device; 3, conveyer table; 31, transhipment support; 32, transhipment rotating shaft; 33, belt; 34, power plant; 35, accept support; 36, accept rotating shaft; 37, track adjusting wheel; 38, guide rail; 39, tension wheel; 4, Lifting Equipment; 41, cylinder; 42, lifting-up support; 43, the first rotating shaft; 44, bearing; 45, the second rotating shaft; 46, the 3rd rotating shaft.

The specific embodiment

Contrast accompanying drawing below, by the description to embodiment, the specific embodiment of the present invention is described in further detail as the effect of the mutual alignment between the shape of each related member, structure, each several part and annexation, each several part and principle of work etc.

Embodiment 1:

As Fig. 1, 2, shown in 3, the glass transfer equipment of the present embodiment comprises mutually perpendicular the first load-transfer device 1 and the second load-transfer device 2, position between the input end of the mouth of the first load-transfer device 1 and the second load-transfer device 2 is provided with a conveyer table 3, described conveyer table 3 consists of transhipment portion and carrier, described transhipment portion comprises transhipment support 31 and is installed on the transhipment rotating shaft 32 at transhipment support 31 two ends, described two transhipment rotating shafts 32 connect by least two belts that are arranged side by side 33, at least one transhipment rotating shaft 32 is connected with power plant 34, between described belt 33, be provided with gap, described transhipment rotating shaft 32 is perpendicular to the throughput direction of the second load-transfer device 2, described carrier comprises accepting support 35 and being installed on to accept accepts rotating shaft 36 on support 35, the described gap location of rotating shaft 36 between belt 33 of accepting, described in accept support 35 and Lifting Equipment 4 be installed so that accept rotating shaft 36 above belt 33 or lower than belt 33, describedly accept rotating shaft 36 perpendicular to the throughput direction of the first load-transfer device 1.

The surrounding of accepting support 35 is equipped with track adjusting wheel 37, and described track adjusting wheel 37 contact with being vertically installed in the guide rail 38 of transhipment on support 31, by coordinating of track adjusting wheel 37 and guide rail 38, can guarantee to accept support 35 vertically downward, and be unlikely to inclination.

Transhipment support 31 is provided with tension wheel 39, and described tension wheel 39 contacts with belt 33, so that belt 33 in tensioning state, guarantees that belt 33 is reliable with contacting of glass.

As shown in Figure 4,5, specifically, Lifting Equipment 4 comprises cylinder 41 and lifting-up support 42, described lifting-up support 42 is "T"-shaped structure, the one end at the top of described lifting-up support 42 is connected with transhipment support 31 by the first rotating shaft 43, the other end at top is provided with a bearing 44, the top of the periphery of described bearing 44 with accept support 35 and contact; The bottom of described lifting-up support 42 is connected with the end of the piston rod of described cylinder 41 by the second rotating shaft 45, and cylinder 41 is positioned at the below of the bottom of lifting-up support 42, and the bottom of cylinder 41 is connected with ground or transhipment support 31 by the 3rd rotating shaft 46.When the piston rod of cylinder 41 stretches out, one end that is provided with bearing 44 of lifting-up support 42 will be the other end on the top of lifting-up support 42 around the first rotating shaft 43() rotate, the periphery top of bearing 44 all the time with accept support 35 and contact, thereby will accept support 35 jack-up, make to accept rotating shaft 36 above belt 33(as shown in Figure 5); When the piston rod of cylinder 41 is retracted, accepting support 35 will be under self gravitation effect and fall, and makes to accept rotating shaft 36 lower than belt 33(as shown in Figure 4).

The principle of work of above-mentioned glass transfer equipment is as follows: first utilize Lifting Equipment 4 will accept support 35 and raise, make to accept rotating shaft 36 above belt 33, then glass is carried along the first load-transfer device 1, make glass flow to accepting in rotating shaft 36 of carrier from the mouth of the first load-transfer device 1, utilizing subsequently Lifting Equipment 4 will accept support 35 reduces, make to accept rotating shaft 36 lower than belt 33, along with accepting the reduction of rotating shaft 36, glass will become the state being supported by belt 33 from the state by accepting rotating shaft 36 supports, finally recycle power plant 34 and drive transhipment rotating shaft 32, belt 33 is moved along with transhipment rotating shaft 32, the glass being set up on belt 33 will move along with belt 33, and be transported to the input end of the first load-transfer device 1, thereby realize, glass is transferred to the object of the second load-transfer device 2 from the first load-transfer device 1.

Claims

1. a glass transfer equipment, comprise the first load-transfer device and the second load-transfer device, it is characterized in that the position between the mouth of described the first load-transfer device and the input end of the second load-transfer device is provided with a conveyer table, described conveyer table consists of transhipment portion and carrier, described transhipment portion comprises transhipment support and is installed on the transhipment rotating shaft at transhipment support two ends, described two transhipment rotating shafts connect by least two belts that are arranged side by side, at least one transhipment rotating shaft is connected with power plant, between described belt, be provided with gap, described transhipment rotating shaft is perpendicular to the throughput direction of the second load-transfer device, described carrier comprises to be accepted support and is installed on the rotating shaft of accepting of accepting on support, described in accept the gap location of rotating shaft between belt, described in accept support and Lifting Equipment be installed so that accept rotating shaft above belt or lower than belt, describedly accept rotating shaft perpendicular to the throughput direction of the first load-transfer device.

2. glass transfer equipment according to claim 1, it is characterized in that described Lifting Equipment comprises cylinder and lifting-up support, described lifting-up support is " Y " shape or "T"-shaped structure, the one end at the top of described lifting-up support is connected with transhipment support by rotating shaft, the other end at top is provided with a bearing, the top of the periphery of described bearing with accept support and contact; The bottom of described lifting-up support is connected with the end of the piston rod of described cylinder by rotating shaft; The bottom of described cylinder is connected with ground or transhipment support by rotating shaft.

3. glass transfer equipment according to claim 2, accepts support described in it is characterized in that and is provided with track adjusting wheel, and described track adjusting wheel contacts with vertically disposed guide rail.

4. according to the glass transfer equipment described in claim 1 or 2 or 3, it is characterized in that described transhipment support is provided with tension wheel, described tension wheel contacts with belt, so that belt is in tensioning state.

5. according to the glass transfer equipment described in claim 1 or 2 or 3, it is characterized in that described the first load-transfer device is perpendicular to the second load-transfer device, described transhipment rotating shaft is perpendicular to accepting rotating shaft.