CN2880755Y - Curve type transporting connecting device - Google Patents
Curve type transporting connecting device Download PDFInfo
- Publication number
- CN2880755Y CN2880755Y CN 200520132130 CN200520132130U CN2880755Y CN 2880755 Y CN2880755 Y CN 2880755Y CN 200520132130 CN200520132130 CN 200520132130 CN 200520132130 U CN200520132130 U CN 200520132130U CN 2880755 Y CN2880755 Y CN 2880755Y
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- load
- transfer device
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Abstract
The utility model concerns a kind of curve-typed transfer connecting device, mainly arranged on transfer points of each conveyor belt; the device has a hollow body matching the height difference between conveyor belts; the body has an inlet and outlet corresponding to the conveyor belt; a arc-shaped curve section is arranged to match the places of the inlet and outlet, to make the inner part of the body form a arc-shaped guide surface. Therefore, the curve-typed transfer connecting device can amortize with the guide of the curvature of the guide surface, and can correspondingly guide materials to move, so as to effectively reduce the impact strength when materials is transferred or falling; the impact strength of materials in the transferring process can be born and offset by each guide surface, in order to effectively reduce the impact and rebound of materials and to prevent the phenomena of producing a large amount of dust and spilled materials.
Description
Technical field
The utility model is about a kind of curvilinear style transhipment connecting device, especially refer to a kind of transfer point place that is applied to load-transfer device, provide the adjacent conveyor interband to connect and the function of transhipment, and utilize its bent road design, the transhipment connecting device design of splendid buffering effect when providing material to transport.
Background technology
At present common as mining site; working space such as building site or plant area; usually setting can be transported the load-transfer device of material; in order to transport smoothly as ore; material such as coal or sandstone is to the destination; wherein; because being transported to the distance of destination, material may reach several kilometers far away; and this transports in the process; its landform just rises and falls also different; therefore; general dealer can be provided with some load-transfer devices usually in transporting the way, and each load-transfer device can be connected to form several transfer points, the design of formation non-linear bonded assembly to each other ordinatedly; and each transfer point setting groove that connects material is provided by the low purposes that rises and falls and provide each load-transfer device to be connected and fixed of form height ordinatedly.
See also shown in Figure 4, be the existing groove 30 that connects material that is arranged at the transfer point place of each load-transfer device, these groove 30 inside that connect material are a hollow form, and cooperate the height of landform to rise and fall, and the throughput direction of desiring between each load-transfer device of bonded assembly reaches diff-H to each other, and be provided with the several through holes 31 that are communicated to its inner space, 32, each through hole 31,32 can supply different load-transfer devices 33 respectively, set the position on it for 34 groups, by this, when material is transported to when connecting material groove 30 places from load-transfer device 33, can enter its inside via the through hole 31 of its top, again by the transmission of load-transfer device 33 directly to falling on another load-transfer device 34, by output in the groove 30 below through holes 32 that connect material,, reach the purpose of transhipment material again to continue transporting material to next transfer point or destination.
But the aforementioned existing groove 30 that connects material, though can reach the function of transhipment material, when reality was used, the many shortcomings that but still have the following stated existed:
1, as shown in Figure 5, when material after these groove 30 top through holes 31 that connect material enter, because this groove 30 that connects material is 90 degree verticals, and inside there is no any design of accepting material for its buffering, when material is desired when load-transfer device 33 transfers to another load-transfer device 34, must be in the mode of free-falling body, to falling on another load-transfer device 34, therefore, this material is meeting direct shock delivery band 34 when falling, material is impacted because of brute force produce a large amount of dust, cause and carry a large amount of suspended particulates in the air secretly, improved, cause its shipment and delivery cost to increase so must purchase dust-collecting equipment separately, and material also rebounds on load-transfer device 34 easily and forms flash, and causes the waste of material.
2, when material when load-transfer device 33 freely drops down onto another load-transfer device 34, because the existing groove 30 no suitable guiding designs that connect material, when causing material to fall, can't concentrate on load-transfer device 34 central authorities, and may be distributed in load-transfer device 34 both sides, make load-transfer device 34 when continuing to transport material, be easy to generate flash, so must and be reclaimed with artificial cleaning, cause inconvenience greatly when transporting material, and, when material falls direct shock delivery band 34 sides of taking back or when right-hand, also easily because of brute force impact cause load-transfer device 34 towards a lateral deviation from inclination, it is damaged under the running easily long-time continuing.
3, see also shown in Figure 5ly again, this groove 30 of connecting material is for bearing the impulsive force of material, and the portion turning point is provided with ceramic wafer 35 within it, but this ceramic wafer 35 is under impacting through material brute force repeatedly, also is easy to generate to come off.
Summary of the invention
Therefore, for improving the shortcoming of the aforementioned existing groove that connects material, a kind of " curvilinear style transhipment connecting device " designed in the design people's research and development, wish design whereby, be arranged at the transfer point place of each load-transfer device, and cooperate the direct of travel of material, utilize bent road design guide material to another load-transfer device, so that splendid buffering and guiding effect to be provided, prevent that effectively material from producing dust and flash because of impacting.
The technological means that the utility model used is for being to provide a kind of curvilinear style transhipment connecting device, be mainly the transfer point that is arranged at each load-transfer device, it has the hollow body of the diff-H between each load-transfer device of cooperation, corresponding each the load-transfer device position of this body is respectively equipped with inlet and outlet, and body cooperates this inlet and exit position to form the curve section of several curved arc shape, each curve section interconnects to each other, and corresponding inlet is the design that is bent downwardly towards outlet, and its body is that corresponding each curve section is in its inner guiding face that forms camber line shape.
Utilize the combination of said structure, can utilize the guiding of the curvature of each guiding face to form buffering during this curvilinear style transhipment connecting device, and the guiding material of can taking advantage of a situation is advanced, the impact strength that is produced when transporting and falling with effective minimizing material, so material passes on the impact strength in the process, all can be born counteracting,, be prevented to produce a large amount of dust and flash phenomenon with the impact and the rebound effect of effective reduction material by each guiding face.
By said structure feature and array mode, the characteristics of the utility model curvilinear style transhipment connecting device are:
1, after material enters this curvilinear style transhipment connecting device, can utilize the curvature of each guiding face to form buffering and guiding effect, transport with effective minimizing material and to advance and impact strength when falling, so material passes on the impact strength in the process, all can be born counteracting by each guiding face, the curvature of each guiding face is calculated and can be cooperated the transportation speed of material that it is reached unanimity in addition, with more smooth acceleration/accel when slowing down material and falling, generally speaking, can effectively reduce the impact and the rebound effect of material, to prevent to produce a large amount of dust and flash phenomenon, therefore, except that not causing the waste of material, also can prevent air arround the dust pollution, and do not need to purchase separately dust-collecting equipment, to reduce the shipment and delivery cost of material.
2, when material when load-transfer device drops down onto another load-transfer device, can utilize the guiding of this each guiding face of curvilinear style transhipment connecting device, drop down onto load-transfer device central authorities smoothly, when further preventing that material from continuing to transport, produce the situation of flash from the load-transfer device both sides, so can save the human resources when cleaning flash, great convenience when transporting material is provided, and can effectively prevent material direct shock delivery band left or right-hand, make the load-transfer device can be in a lateral deviation from inclination, more to increase its service life.
3, utilize this curvilinear style transhipment connecting device that the buffering and the guiding effect of giving material is provided, can effectively reduce the impulsive force of material, the ceramic wafer that prevents to be arranged on its inner each guiding face comes off because of the brute force impact.
The accompanying drawing summary
Fig. 1 is a stereo appearance figure of the present utility model.
Fig. 2 is the scheme drawing of the utility model when passing on material.
Fig. 3 is the stereo appearance figure of another embodiment of the utility model.
Fig. 4 is the stereo appearance figure of the existing groove that connects material.
Fig. 5 is the scheme drawing of the existing groove that connects material when passing on material.
The specific embodiment
Relevant concrete enforcement design of the present utility model, see also shown in Figure 1, the utility model curvilinear style transhipment connecting device mainly is arranged at each load- transfer device 21,22 transfer point place, it has the body 10 of a hollow, this body 10 can be by on the hollow, under accept the tube 13,14 form, accept tube wherein and be positioned at the top of accepting tube down, its whole height can cooperate the height that transports landform to rise and fall, and desire connects each load-transfer device 21 that passes on, 22 diff-H, this body 10 is provided with the inlet 11 that is communicated to its inner space and exports 12, this inlet 11 and export 12 can be according to load- transfer device 21,22 actual quantity and relevant position, one or several are set respectively, in this preferred embodiment, accepting tube 13 upper end correspondences thereon desires to pass on load-transfer device 21 positions of material and is provided with an inlet 11, the locating rack 111 that the 11 peripheral settings that enter the mouth can supply this load-transfer device 21 to fix, in addition accept tube 14 lower end correspondences down in it and can accept load-transfer device 22 positions of material and be provided with an outlet 12, exporting that 12 peripheries also are provided with can be for the fixing locating rack 121 of this load-transfer device 21.
This body 10 cooperates its inlet 11 and exports 12 positions, be provided with the curve section A that several is the curved arc shape, B, wherein, curve section A is bent downwardly in an end of correspondence inlet 11, make it hold extension to be connected to curve section B in addition, the interconnective end of curve section B and curve section A also is bent downwardly, and its other end is taken advantage of a situation towards outlet 12 positions, as shown in Figure 2, so as to make body 10 can be in its inside respectively to should curve section A, B, the guiding face 15 of formation camber line shape, 16, and guiding face 15, then be provided with the ceramic wafer 17 that cooperates its curvature and can bear the impulsive force of material on 16.
Whereby, this cooperation inlet 11 and the curve section A that exports 12 positions and be the curved arc shape, B, make body 10 inner guiding faces 15 corresponding with it, 16, can utilize its curved arc curvature to provide convey materials suitable buffering effect, and utilize curve section A, the corresponding inlet 11 of B and export the design of 12 positions, form the effect of tool guiding material, when material when load-transfer device 21 is transported to this curvilinear style transhipment connecting device, can enter its inside via the inlet 11 of its body 10, at this moment, material transports the power of advancing, can utilize the guiding of the curvature of guiding face 15 to form buffering earlier, it transports impact strength with effective minimizing, utilize this guiding face 15 immediately again, material is taken advantage of a situation guiding downwards, when material when falling to another guiding face 16, its material is because of power that free-falling body produced, also can utilize the guiding of the curvature of this guiding face 16 to form buffering effect, at last, by this guiding face 15 take advantage of a situation with material be directed to the outlet 12, advance and can continue to transport, to finish the transhipment material smoothly by another load-transfer device 22.
In addition for better guiding of material and buffering effect are provided, 15,16 of this guiding faces can be set up several guiding face again, and the speed in the time of can transporting material at load-transfer device between each guiding face, and calculated the curvature of each guiding face, the speed that falls of guiding material can be reached unanimity with the speed that load-transfer device transports material, allow the transportation speed rule more of material, and slow down the acceleration/accel that is produced when it falls, avoiding material on load-transfer device, to produce strong impaction and bounce-back, and then prevent the generation of dust and flash phenomenon.
As shown in Figure 3, stereo appearance figure for another embodiment of the utility model, the body 10 of this curvilinear style transhipment connecting device can be accepted 14 in tube for 13 and two times and forms by accepting tube on the hollow, accept the relative opening 131 that tube 13 belows form forked on being somebody's turn to do, 132, its relative opening 131,132 accept tube 14 positions corresponding respectively two times, should on accept tube 13 upper end correspondences and desire to pass on load-transfer device 21 positions of material and be provided with an inlet 11, accept also corresponding respectively two load-transfer devices, 22 positions that can accept material, tube 14 lower ends for two times and be provided with outlet 12, and body 10 inside cooperate inlet 11 and export 12 positions, formation is as aforesaid camber line shape guiding face (not shown), whereby, also utilize same principle, splendid guiding of material and buffering effect are provided, and holding concurrently to reach the purpose of dispensing material, and makes the use of this curvilinear style transhipment connecting device have more variation.
By above explanation as can be known, the utility model curvilinear style transhipment connecting device, can be arranged at the transfer point place of each load-transfer device, and the direct of travel that cooperates material, with bent road design guide material to another load-transfer device, splendid buffering and guiding effect is provided, prevents that material from producing dust and flash because of impacting, it really is a quite excellent design.
Claims (5)
1, a kind of curvilinear style transhipment connecting device, mainly be arranged at the transfer point of each load-transfer device, it is characterized in that, hollow body with the diff-H between each load-transfer device of cooperation, corresponding each the load-transfer device position of this body is respectively equipped with inlet and outlet, and body cooperates this inlet and exit position to form the curve section of complex trace curved arc shape, each curve section interconnects to each other, and corresponding inlet is the design that is bent downwardly towards outlet, and corresponding each curve section of its body is in its inner guiding face that forms camber line shape.
2, curvilinear style transhipment connecting device as claimed in claim 1, it is characterized in that, body comprises the upper and lower tube of accepting, on accept tube and be positioned at the top of accepting down tube, on accept corresponding load-transfer device position of desiring to pass on material, tube upper end and be provided with an inlet, accept a lower end correspondence down and can accept the load-transfer device position of material and be provided with an outlet.
3, curvilinear style transhipment connecting device as claimed in claim 1, it is characterized in that, body is by accepting tube on the hollow and accepting tube for two times and formed, accept the relative opening that the tube below forms forked on being somebody's turn to do, opening is accepted a position corresponding two times respectively relatively, on accept corresponding load-transfer device position of desiring to pass on material, tube upper end and be provided with an inlet, accept the corresponding respectively two load-transfer device positions that can accept material, a lower end and be provided with outlet for two times.
4, as claim 1,2 or 3 described curvilinear style transhipment connecting devices, it is characterized in that each guiding face is provided with the ceramic wafer that cooperates its curvature.
5, curvilinear style transhipment connecting device as claimed in claim 4 is characterized in that, the body entry and exit are provided with can be for the fixing locating rack of load-transfer device.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 200520132130 CN2880755Y (en) | 2005-12-08 | 2005-12-08 | Curve type transporting connecting device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN 200520132130 CN2880755Y (en) | 2005-12-08 | 2005-12-08 | Curve type transporting connecting device |
Publications (1)
Publication Number | Publication Date |
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CN2880755Y true CN2880755Y (en) | 2007-03-21 |
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Family Applications (1)
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CN 200520132130 Expired - Fee Related CN2880755Y (en) | 2005-12-08 | 2005-12-08 | Curve type transporting connecting device |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104709723A (en) * | 2015-03-13 | 2015-06-17 | 浙江拓翔建材有限公司 | Slag conveying and receiving device |
CN104973412A (en) * | 2015-07-14 | 2015-10-14 | 中冶京诚工程技术有限公司 | Belt type conveying transfer device |
CN105151719A (en) * | 2014-04-13 | 2015-12-16 | 胡刘满 | Ore sand conveying device |
CN106395334A (en) * | 2016-06-16 | 2017-02-15 | 山西煤矿机械制造股份有限公司 | Full-sealing buffer anti-impact secondary transshipment system |
-
2005
- 2005-12-08 CN CN 200520132130 patent/CN2880755Y/en not_active Expired - Fee Related
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105151719A (en) * | 2014-04-13 | 2015-12-16 | 胡刘满 | Ore sand conveying device |
CN104709723A (en) * | 2015-03-13 | 2015-06-17 | 浙江拓翔建材有限公司 | Slag conveying and receiving device |
CN104709723B (en) * | 2015-03-13 | 2017-01-04 | 浙江拓翔建材有限公司 | A kind of slag transmits and receives device |
CN104973412A (en) * | 2015-07-14 | 2015-10-14 | 中冶京诚工程技术有限公司 | Belt type conveying transfer device |
CN104973412B (en) * | 2015-07-14 | 2017-05-31 | 中冶京诚工程技术有限公司 | A kind of belt conveying rehandling facilities |
CN106395334A (en) * | 2016-06-16 | 2017-02-15 | 山西煤矿机械制造股份有限公司 | Full-sealing buffer anti-impact secondary transshipment system |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C19 | Lapse of patent right due to non-payment of the annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |