CN110422567A - Transition conveyer belt apparatus and belt-type conveying equipment - Google Patents

Abstract

The present invention is suitable for conveying equipment field, disclose transition conveyer belt apparatus and belt-type conveying equipment, wherein, transition conveyer belt apparatus includes mounting rack and transition conveyer belt mechanism, transition conveyer belt mechanism includes the first drum assembly, first conveyer belt and belt tensioning drum, first drum assembly includes the first driving roller and two the first driven rollers, first driving roller, two the first driven rollers and belt tensioning drum are all pivotally mounted on mounting rack, and the spaced and parallel top for being set to the first driving roller of two the first driven rollers, belt tensioning drum is vertically set between the first driven roller and the first driving roller, first conveyer belt is around the periphery for being sheathed on the first driving roller and two the first driven rollers, belt tensioning drum presses on the outer ring surface of first conveyer belt.The present invention has taken into account the structural compactness and operating reliability of transition conveyer belt apparatus well.

Description

Transition conveyer belt apparatus and belt-type conveying equipment

Technical field

The present invention relates to conveying equipment field more particularly to transition conveyer belt apparatus and with the transition conveyer belt apparatus Belt-type conveying equipment.

Background technique

The prior art has in the belt-type conveying equipment of transition conveyer belt apparatus, the transition conveyer belt of transition conveyer belt apparatus Mechanism generally comprises a driving roller, a driven roller and the conveyer belt for being set around driving roller and driven roller periphery. For this transition conveyer belt mechanism when driving roller and driven roller to be designed smaller, the operating reliability of conveyer belt is relatively It is lower, so that transition conveyer belt mechanism is difficult to combine structural compactness and operating reliability.

Summary of the invention

The first purpose of this invention is to provide a kind of transition conveyer belt apparatus, aims to solve the problem that existing transition conveyer belt Device is difficult to the technical issues of taking into account structural compactness and operating reliability.

In order to achieve the above objectives, scheme provided by the invention is: transition conveyer belt apparatus, including mounting rack and transition conveying Band mechanism, the transition conveyer belt mechanism include the first drum assembly, first conveyer belt and belt tensioning drum, the first roller group Part includes the first driving roller and two the first driven rollers, the first driving roller, two first driven rollers and The belt tensioning drum is all pivotally mounted on the mounting rack, and two first driven rollers are spaced and parallel is set to institute The top of the first driving roller is stated, the belt tensioning drum is vertically set to first driven roller and the first driving roller Between, the first conveyer belt is around the periphery for being sheathed on the first driving roller and two first driven rollers, institute State the outer ring surface that belt tensioning drum presses on the first conveyer belt.

Optionally, the first driving roller is located in the horizontal direction between two first driven rollers, and described Tight roller is located in the horizontal direction between the first driving roller and first driven roller；And/or

The outer radial dimension of two first driven rollers is both less than the outer radial ruler of the first driving roller It is very little.

Optionally, the mounting rack includes the side bracket that pedestal and two are respectively arranged on the pedestal two opposite sides, institute The both ends, the both ends of first driven roller and the both ends of the belt tensioning drum for stating the first driving roller all rotatably connect respectively Connect two side brackets.

Optionally, the first conveyer belt, which has, is set between two first driven rollers for carrying, conveying The supporting part of cargo, the mounting rack further include being set to below the supporting part and being located between two first driven rollers Carrying position-limited rack, it is described carrying position-limited rack both ends be separately connected two side brackets.

Optionally, the both ends of the belt tensioning drum respectively in such a way that installation site is adjustable with two side brackets Connection.

Optionally, the both ends of the belt tensioning drum pass through the first fastener connection side bracket, the side respectively Bracket is equipped with for extending through the first mounting hole for connecting the belt tensioning drum, the tensioning rolling for first fastener The end of cylinder is equipped with the first connecting hole for wearing connection for first fastener, and first fastener is described first Installation site in mounting hole can be adjusted.

Optionally, can installation site be adjusted in first mounting hole in the horizontal direction in first fastener.

Second object of the present invention is to provide a kind of belt-type conveying equipment comprising main conveyor belt device and above-mentioned Transition conveyer belt apparatus, the main conveyor belt device include fixed frame and the main conveyor belt mechanism that is installed on the fixed frame, The mounting rack is set to one end of the main conveyor belt device.

Optionally, the main conveyor belt device further includes being installed on fixed frame for driving the main conveyor belt mechanism The power mechanism of operating, the belt-type conveying equipment further include that transmission connection is conveyed in the main conveyor belt mechanism and the transition Between band mechanism or transmission connection is used to drive the mistake between the power mechanism and the transition conveyer belt mechanism Cross the transmission mechanism of conveyer belt mechanism operating.

Optionally, the transmission mechanism includes connecting and being driven by the main conveyor belt mechanism with the main conveyor belt mechanism The dynamic drive sprocket of turn connect with the transition conveyer belt mechanism and can drive the driven of the transition conveyer belt mechanism operating Sprocket wheel and the chain for being surrounded on the drive sprocket Yu the driven sprocket periphery；And/or

The power mechanism includes the motor being installed on the fixed frame and transmission connection in the motor and the master Transmission component between conveyer belt mechanism.

Transition conveyer belt apparatus and belt-type conveying equipment provided by the invention, by by the conveyer belt of transition conveyer belt mechanism Around being set to the periphery of driving a roller and two driven rollers, and driving is set to by two driven rollers are spaced and parallel On the other hand the top of roller may make transition conveyer belt apparatus in this way, being on the one hand conducive to improve the operating reliability of conveyer belt Entire length can be designed smaller, to may make the overall structure of transition conveyer belt apparatus compact, well The structural compactness and operating reliability of transition conveyer belt apparatus are taken into account.In addition, transition conveyer belt apparatus of the invention, passes through Belt tensioning drum is set to press on the outer ring surface of conveyer belt to be tensioned the conveyer belt of transition conveyer belt mechanism, to be conducive to reduce defeated The slipping phenomenon of band is sent, conducive to the operating reliability for further increasing transition conveyer belt mechanism；Simultaneously as belt tensioning drum is along perpendicular To being set between driven roller and driving roller, therefore, the setting of belt tensioning drum will not increase the horizontal of transition conveyer belt apparatus and grow Degree, to be conducive to guarantee the structural compactness of transition conveyer belt apparatus.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with The structure shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the schematic perspective view of transition conveyer belt apparatus provided in an embodiment of the present invention；

Fig. 2 is the decomposition diagram of transition conveyer belt apparatus provided in an embodiment of the present invention；

Fig. 3 is the dress of driven sprocket provided in an embodiment of the present invention and the first drum assembly, first conveyer belt, belt tensioning drum With schematic diagram；

Fig. 4 is the decomposition diagram one of belt-type conveying equipment provided in an embodiment of the present invention；

Fig. 5 is the partial enlargement diagram in Fig. 4 at A；

Fig. 6 is the decomposition diagram of angle adjustment device provided in an embodiment of the present invention；

Fig. 7 is the assembling schematic diagram of chain tensioning mechanism provided in an embodiment of the present invention；

Fig. 8 is the decomposition diagram of chain tensioning mechanism provided in an embodiment of the present invention；

Fig. 9 is the decomposition diagram two of belt-type conveying equipment provided in an embodiment of the present invention；

Figure 10 is the stereoscopic schematic diagram one of belt-type conveying equipment provided in an embodiment of the present invention；

Figure 11 is the partial enlargement diagram in Figure 10 at B；

Figure 12 is the stereoscopic schematic diagram two of belt-type conveying equipment provided in an embodiment of the present invention；

Figure 13 is the assembly signal of drive sprocket and second tin roller component, the second conveyer belt provided in an embodiment of the present invention Figure.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiment is only a part of the embodiments of the present invention, instead of all the embodiments.Base Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts it is all its His embodiment, shall fall within the protection scope of the present invention.

It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute is only used in the embodiment of the present invention In explaining in relative positional relationship, the motion conditions etc. under a certain particular pose (as shown in the picture) between each component, if should When particular pose changes, then directionality instruction also correspondingly changes correspondingly.

It should also be noted that, when an element is referred to as being " fixed " or " disposed " on another element, it can be straight Connect on the other element or may be simultaneously present centering elements.When an element is known as " connection " another element, It, which can be, is directly connected to another element or may be simultaneously present centering elements.

In addition, the description for being related to " first ", " second " etc. in the present invention is used for description purposes only, and should not be understood as referring to Show or imply its relative importance or implicitly indicates the quantity of indicated technical characteristic." first ", " are defined as a result, Two " feature can explicitly or implicitly include at least one of the features.In addition, the technical solution between each embodiment can It to be combined with each other, but must be based on can be realized by those of ordinary skill in the art, when the combination of technical solution occurs Conflicting or cannot achieve when, will be understood that the combination of this technical solution is not present, also not the present invention claims protection model Within enclosing.

As shown in Figs. 1-5, transition conveyer belt apparatus 200 provided in an embodiment of the present invention, including mounting rack 211 and transition Conveyer belt mechanism 210, transition conveyer belt mechanism 210 include the first drum assembly 212, first conveyer belt 213 and belt tensioning drum 214, the first drum assembly 212 includes the first driving roller 2121 and two the first driven rollers 2122, the first driving roller 2121, two the first driven rollers 2122 and belt tensioning drum 214 are all pivotally mounted on mounting rack 211, and two first from The dynamic spaced and parallel top for being set to the first driving roller 2121 of roller 2122, belt tensioning drum 214 are vertically set to one first Between driven roller 2122 and the first driving roller 2121, first conveyer belt 213 surround and is sheathed on 2121 He of the first driving roller The periphery of two the first driven rollers 2122, belt tensioning drum 214 press on the outer ring surface of first conveyer belt 213.Specifically, first When driving roller 2121 rotates under power drive, first conveyer belt 213 can be driven to rotate, the rotation of first conveyer belt 213 can Two the first driven roller 2122 rotations are driven, to realize the operating of transition conveyer belt mechanism 210.In the embodiment of the present invention, First driving roller 2121 and two the first driven rollers 2122 are distributed in triangular shape, and first conveyer belt 213 is circular to be set to the The periphery of one driving roller 2121 and two the first driven rollers 2122, in this way, the fortune of first conveyer belt 213 on the one hand can be improved Turn reliability, on the other hand may make the entire length of transition conveyer belt apparatus 200 that can be designed smaller, to may make The overall structure of transition conveyer belt apparatus 200 is compact, has taken into account the compact-sized of transition conveyer belt apparatus 200 well Property and operating reliability.In addition, the transition conveyer belt apparatus 200 of the embodiment of the present invention, by setting belt tensioning drum 214 to compress The first conveyer belt 213 of transition conveyer belt mechanism 210 is tensioned in the outer ring surface of first conveyer belt 213, to be conducive to reduce the The slipping phenomenon of one conveyer belt 213, conducive to the operating reliability for further increasing transition conveyer belt mechanism 210；Simultaneously as Tight roller 214 is vertically set between the first driven roller 2122 and the first driving roller 2121, therefore, belt tensioning drum 214 is set The horizontal length that will not increase transition conveyer belt apparatus 200 is set, to be conducive to guarantee the compact-sized of transition conveyer belt apparatus 200 Property.

Preferably, the first driving roller 2121 is located between two the first driven rollers 2122 in the horizontal direction, tensioning rolling Cylinder 214 is located in the horizontal direction between the first driving roller 2121 and first driven roller 2122, using the layout type, Conducive to the structural compactness and operating reliability for preferably improving transition conveyer belt apparatus 200.

Preferably, the outer radial dimension of two the first driven rollers 2122 is both less than the outer of the first driving roller 2121 Portion's radial dimension.In the present embodiment, the outer radial dimension of two the first driven rollers 2122 can be designed smaller.

Specifically, first conveyer belt 213 include be set around 2121 periphery of the first driving roller the first winding portion 2132, It is set around the second winding portion 2133 of 2122 periphery of the first driven roller, is set around outside another first driven roller 2122 The third winding portion 2134 in week compresses the pressure section 2135 of cooperation with belt tensioning drum 214, is connected to the first winding portion 2132 and the First Transition interconnecting piece 2136 between two winding portions 2133, be connected to the second winding portion 2133 and third winding portion 2134 it Between with the supporting part 2131 conveyed for bearing goods, the second mistake being connected between third winding portion 2134 and pressure section 2135 The third transition connection portion 2138 crossing interconnecting piece 2137 and being connected between pressure section 2135 and the first winding portion 2132, first Winding portion 2132, the second winding portion 2133, supporting part 2131, the second transition connection portion 2137, supports First Transition interconnecting piece 2136 Splenium 2135, third transition connection portion 2138 are sequentially connected as an endless member.In the present embodiment, the first winding portion 2132, the second winding portion 2133, pressure section 2135 are in arc-shaped, and supporting part 2131 is extended horizontally to from the second winding portion 2133 Third winding portion 2134, First Transition interconnecting piece 2136 are inclined from the first winding portion 2132 with the trend far from third winding portion 2134 It extends obliquely upward to the second winding portion 2133, the second transition connection portion 2137 is from third winding portion 2134 close to the second winding portion 2133 trend is extended obliquely downward to pressure section 2135, and third transition connection portion 2138 is from pressure section 2135 close to second The trend in winding portion 2133 is extended obliquely downward to the first winding portion 2132.

Preferably, mounting rack 211 includes the side bracket that pedestal 2111 and two are respectively arranged on 2111 two opposite sides of pedestal 2112, the both ends at the both ends of the first driving roller 2121, the both ends of the first driven roller 2122 and belt tensioning drum 214 all respectively can It is rotatablely connected two side brackets 2112.The both ends of first driving roller 2121, the both ends of the first driven roller 2122 and tensioning The both ends of roller 214 can be specifically rotatably connected side bracket 2112 by bearing.

Preferably, mounting rack 211 further include be set to the lower section of supporting part 2131 and be located at two the first driven rollers 2122 it Between carrying position-limited rack 2113, carrying position-limited rack 2113 both ends be separately connected two side brackets 2112.Carry position-limited rack The bearing capacity of first conveyer belt 213 can be improved in 2113 setting, to be conducive to further increase the fortune of first conveyer belt 213 Turn reliability.

Preferably, the both ends of belt tensioning drum 214 respectively in such a way that installation site is adjustable with two side brackets 2112 Connection.In concrete application, the tensioning degree of first conveyer belt 213 can be adjusted by adjusting the position of belt tensioning drum 214.

Preferably, the both ends of belt tensioning drum 214 pass through 215 connect the side bracket 2112 of the first fastener, side branch respectively Frame 2112 is equipped with the first mounting hole 2110 for extending through connection belt tensioning drum 214 for the first fastener 215, tensioning rolling The end of cylinder 214 is equipped with for wearing the first connecting hole 2141 of connection for the first fastener 215, and the first fastener 215 is the Installation site in one mounting hole 2110 can be adjusted.Extend connection the when the first fastener 215 passes through the first mounting hole 2110 One connecting hole 2141 and when being pressed in side bracket 2112, position of first fastener 215 in the first mounting hole 2110 can It adjusts again, at this point, belt tensioning drum 214 is in locking state；Make the first fastener 215 when slightly unclamping the first fastener 215 When not compressing in side bracket 2112, position of first fastener 215 in the first mounting hole 2110 can be adjusted again, at this point, Belt tensioning drum 214 is in the adjustable state of installation site.

Preferably, can installation site be adjusted in the first mounting hole 2110 in the horizontal direction in the first fastener 215, the One mounting hole 2110 is waist-shaped hole or rectangular opening, in this way, enable belt tensioning drum 214 with towards or back to the first driven rolling The mode adjusting position that cylinder 2122 moves horizontally.It of courses, it, can also be by first as the embodiment of substitution in concrete application Fastener 215 is configured to vertically or in the first mounting hole 2110 installation is adjusted in inclined direction or arcuate directions Position.

Further, as shown in Fig. 4-13, the embodiment of the invention also provides a kind of belt-type conveying equipments comprising master is defeated Work-feeding means and above-mentioned transition conveyer belt apparatus 200, main conveyor belt device include fixed frame and the master that is installed on fixed frame Conveyer belt mechanism, mounting rack 211 are set to one end of main conveyor belt device.Transition conveyer belt apparatus 200 is used to fill with main conveyor belt Set transition and linkage conveying articles.

Preferably, main conveyor belt device further includes being installed on fixed frame with dynamic for driving main conveyor belt mechanism to operate Force mechanisms, belt-type conveying equipment further include transmission connection between main conveyor belt mechanism and transition conveyer belt mechanism 210 or pass It is dynamic to be connected between power mechanism and transition conveyer belt mechanism 210 with the transmission for driving transition conveyer belt mechanism 210 to operate Mechanism.At work, power mechanism 120 drives main conveyor belt mechanism 110 to operate to belt-type conveying equipment, meanwhile, power mechanism 120 Or main conveyor belt mechanism 110 drives transition conveyer belt mechanism 210 to operate by transmission mechanism 300, to realize belt conveying The overall operation of equipment.In the embodiment of the present invention, power source of the power mechanism 120 as belt-type conveying equipment passes through driver The power of main conveyor belt device 100 is transmitted to transition conveyer belt apparatus 200 to drive transition conveyer belt mechanism 210 by structure 300 Operating, eliminates the power of transition conveyer belt apparatus 200, to be effectively simplified the dynamical system of belt-type conveying equipment, reduces The dynamical system cost of belt-type conveying equipment.

Preferably, transmission mechanism 300 is chain-drive mechanism, can realize the transmission connection between big drive centre distancc, and Transmission process is nonelastic sliding and slipping phenomenon, average ratios are accurate, reliable operation, high-efficient.It of courses, concrete application In, transmission mechanism 300 is not limited to the scheme using chain-drive mechanism, for example, transmission mechanism 300 can also for tape handler or Gear drive, alternatively, transmission mechanism 300 can also be chain-drive mechanism, tape handler, any group of gear drive It closes.

Referring to shown in Fig. 4 and Fig. 5, as a preferred embodiment of the present embodiment, transmission mechanism 300 includes and main conveying It can connect with the connection of mechanism 110 and by the drive sprocket 310 of the driving rotation of main conveyor belt mechanism 110, with transition conveyer belt mechanism 210 It connects and can drive the driven sprocket 320 of the operating of transition conveyer belt mechanism 210 and be surrounded on drive sprocket 310 and driven sprocket 320 The chain 330 of periphery.When belt-type conveying equipment works, power mechanism 120 drives main conveyor belt mechanism 110 to operate, main conveyor belt Mechanism 110 drives drive sprocket 310 to rotate, and drive sprocket 310 drives driven sprocket 320 to rotate by chain 330, driven chain Wheel 320 drives transition conveyer belt mechanism 210 to operate, and drives transition conveyer belt apparatus by main conveyor belt device 100 to realize The effect of 200 operatings.In the present embodiment, drive sprocket 310 connect with main conveyor belt mechanism 110 and by main conveyor belt mechanism 110 Driving rotation；It of courses, in concrete application, as the embodiment of substitution, drive sprocket 310 can also be set as and power mechanism 120 connections are so that drive sprocket 310 drives rotation by power mechanism 120.

Preferably, as shown in Fig. 4, Fig. 5, Fig. 7, Fig. 8 and Figure 10, belt-type conveying equipment provided in an embodiment of the present invention is also wrapped Include the chain tensioning mechanism 400 for tension chain 330.Tensioning transmission is carried out using the chain tensioning mechanism 400 of the present embodiment The chain 330 being connected between main conveyor belt device 100 and transition conveyer belt apparatus 200 can be conducive to make in belt-type conveying equipment With very easily tension chain 330 in the process, so that state of the chain 330 always in tensioning, to be conducive to improve transmission The transmission efficiency of mechanism 300, and then the power for being conducive to improve between main conveyor belt device 100 and transition conveyer belt apparatus 200 passes Efficiency of movement.

Preferably, as shown in Fig. 4, Fig. 5, Fig. 7, Fig. 8 and Figure 10, chain tensioning mechanism 400 includes fixed plate 410, projection In 410 side of fixed plate fixing axle 420, be pivotally mounted in fixing axle 420 with the tensioning for being engaged with chain 330 Sprocket wheel 430 and locking assembly 440 for fixed plate 410 to be lock onto fixed structure, fixed plate 410 are equipped with the second mounting hole 411 and adjustment structure 412, between adjustment structure 412 and fixing axle 420, locking assembly 440 includes the second mounting hole 411 For passing through the second fastener 441 of 411 Connection Bracket 111 of the second mounting hole and for solid across the connection of adjustment structure 412 Determine frame 111 and with the adjustable third fastener 442 of 412 link position of adjustment structure.Chain provided in an embodiment of the present invention Tight mechanism 400, structure is simple, and it is also very convenient to adjust operation.Specifically, it when unclamping third fastener 442, can be driven by external force Dynamic fixed plate 410 is rotated around the second fastener 441, and the rotation of fixed plate 410 can drive 430 turns of fixing axle 420, tightener sprocket It moves to different location, and then chain 330 can be compressed by tightener sprocket 430 to achieve the purpose that tension chain 330.

Specifically, the second connecting hole that fixed frame 111 is equipped with for wearing connection for the second fastener 441 (is schemed not Show) and third connecting hole (not shown) for wearing connection for third fastener 442.The second fastener 441 successively company of wearing The second mounting hole 411 and the second connecting hole are connect, third fastener 442 successively wears connection adjustment structure 412 and third connecting hole.

Preferably, adjustment structure 412 is the arc chute in fixed plate 410, and third fastener 442 can be in arc Sliding in sliding slot, so that third fastener 442 can when fixed plate 410 turns to different location around the second fastener 441 Third connecting hole is connected across fixed plate 410.The arc of arc chute extends track, the as rotatable stroke of fixed plate 410 Range.In the present embodiment, adjustment structure 412 is set as arc chute, may make fixed plate 410 can arc chute arc extend It is continuously adjusted at any angle in footprint, to reach the mesh for arbitrarily adjusting 430 position of tightener sprocket in a certain range 's.It of courses, in concrete application, adjustment structure 412 is not limited to the form of arc chute, for example, adjustment structure 412 can also be set Being includes several the arcuately adjustment holes of track spacing in fixed plate 410, and fixed plate 410, which is can turn to, makes different adjustment The hole position just opposite with third connecting hole respectively, so that fixed plate 410 can turn to several different positions respectively, into And achieve the purpose that adjust 430 position of tightener sprocket.

Specifically, the second fastener 441 is that perhaps rivet third fastener 442 is screw or spiral shell for screw or bolt Bolt.As a preferred embodiment of the embodiment of the present invention, the second fastener 441 and third fastener 442 all for screw or Bolt, fastening is reliable, and convenient for the adjusting of the dismounting of fixed plate 410 and installation site.It of courses, in concrete application, as Second fastener 441 can also be set as rivet by the embodiment of substitution, and third fastener 442 is set as screw or bolt.

Preferably, referring to the first side edge 413 that shown in Fig. 7 and Fig. 8, there is fixed plate 410 interval to be oppositely arranged and the Dual side-edge edge 414, adjustment structure 412, third mounting hole 411 and fixing axle 420 are successively spaced set on first side edge 413 and the Between dual side-edge edge 414.Adjustment structure 412 is arranged close to first side edge 413, and fixing axle 420 is close to second side edge 414 Setting, third mounting hole 411 are located at adjustment structure 412 along the line direction of first side edge 413 and second side edge 414 and consolidate Between dead axle 420.

Preferably, the length of first side edge 413 is greater than the length of second side edge 414.The top of first side edge 413 It holds concordant with the top of second side edge 414.Adjustment structure 412 and first side edge 413 are arranged side by side.Herein, by the first side The Design of length at edge 413 obtains bigger, is primarily to facilitate being extended for arc chute, and by the length of second side edge 414 Degree is designed smaller, can be conducive to reduce the volume of fixed plate 410.

Preferably, fixing axle 420 is connected by screw to or bolt connecting mode is installed in fixed plate 410, fastening Reliably, and convenient for the dismounting of fixing axle 420.It of courses, it, can also be by fixing axle as the embodiment of substitution in concrete application 420 are set as that perhaps welding manner is fixed in fixed plate 410 or is set as fixing axle 420 and fixed plate by rivet interlacement 410 are integrally formed.

Preferably, referring to shown in Fig. 5, Fig. 7 and Fig. 8, tightener sprocket 430 is pivotally mounted to fixing axle by bearing 450 It is easy for installation on 420, and it is convenient for the rotation of tightener sprocket 430.In concrete application, when chain 330 operates, tightener sprocket 430 being rotated by chain 330, to be conducive to reduce friction of the tightener sprocket 430 to chain 330.

Preferably, referring to Figure 5, tightener sprocket 430 is located at the outside of chain 330, in this way, may make tightener sprocket 430 have bigger activity space.Chain 330 is annular, and the outside of chain 330 is the outer rim side of chain 330.It of courses, In concrete application, as the embodiment of substitution, tightener sprocket 430 can also be located to the inside of chain 330.

Specifically, driven sprocket 320 is installed on one end of the first driving roller 2121, and driven sprocket 320 is in drive sprocket 310, when being rotated by of chain 330, the first driving roller 2121 are rotated with driven sprocket 320.Power mechanism 120 exports Power can by transmission mechanism 300 drive first driving roller 2121 rotate, first driving roller 2121 rotation can drive First conveyer belt 213 rotates, and the rotation of first conveyer belt 213 can drive two the second driven roller 2122 rotations.

Preferably, referring to shown in Fig. 4, Fig. 5, Fig. 9 and Figure 13, main conveyor belt mechanism 110 includes being pivotally mounted to fix Second tin roller component 112 on frame 111 and the second conveyer belt 113 for being set around 112 periphery of second tin roller component, power mechanism 120 are installed on fixed frame 111 and are sequentially connected with second tin roller component 112.The power that power mechanism 120 exports can drive the The rotation of two drum assemblies 112, the rotation of second tin roller component 112 can drive the second conveyer belt 113 to follow around second tin roller component 112 Ring rotation, is conveyed to realize by 113 bearing goods of the second conveyer belt.

Preferably, in the present embodiment, the transmission connection of transmission mechanism 300 is in the first drum assembly 112 and second tin roller component Between 212.Transmission mechanism 300 can drive second tin roller component 212 to rotate under the driving of the first driven roller 1122, and second The rotation of drum assembly 212 can drive the second conveyer belt 213 around 212 cycle rotation of second tin roller component, to realize by second The conveying of 213 bearing goods of conveyer belt.It of courses, it, can also be by transmission mechanism 300 as the embodiment of substitution in concrete application Transmission connection is set as between power mechanism 120 and second tin roller component 212.

Preferably, referring to shown in Fig. 4, Fig. 5, Fig. 9 and Figure 13, second tin roller component 112 includes spaced and parallel is installed on admittedly The the second driving roller 1121 and the second driven roller 1122, the second conveyer belt 113 determined on frame 111 are set around the second driving roller 1121 and second driven roller 1122 periphery, second driving roller 1121 and power mechanism 120 be sequentially connected, transmission mechanism 300 transmission connections are between the second driven roller 1122 and second tin roller component 212.Specifically, drive sprocket 310 is installed on One end of second driven roller 1122, when the second driven roller 1122 rotates, drive sprocket 310 is with the second driven roller 1122 Rotation.The power that power mechanism 120 exports can drive the second driving roller 1121 to rotate, the rotation of the second driving roller 1121 Can drive the second conveyer belt 113 rotate, the rotation of the second conveyer belt 113 can drive the second driven roller 1122 rotate, second from The rotation of dynamic roller 1122 can drive drive sprocket 310 to rotate, and drive sprocket 310 is driven by chain 330, driven sprocket 320 Transition conveyer belt mechanism 210 operates.

Preferably, referring to shown in Fig. 9-12, power mechanism 120 includes motor 121 and transmission connection in motor 121 and master Transmission component 122 between conveyer belt mechanism 110.In the present embodiment, motor 121 is both the power source of main conveyor belt device 100, It is simultaneously also the power source of transition conveyer belt apparatus 200.

Preferably, referring to shown in Fig. 9-12, transmission component 122 includes shaft 1221, transmission connection in shaft 1221 and master The second transmission of the first transmission 1222 and transmission connection between shaft 1221 and motor 121 between conveyer belt mechanism 110 Pair 1223.Specifically transmission connection drives between roller 1,121 first transmission 1222 in shaft 1221 and second.1221 He of shaft Motor 121 is preferably disposed to the lower section of the second driving roller 1121.Herein, pass through the first transmission 1222 and the second transmission 1223 the two transmissions drive the second of the power transmission of motor 121 to main conveyor belt mechanism 110 on roller 1121, and one Aspect is conducive to the installation site of flexible optimal setting motor 121, is on the other hand conducive to preferably regulate and control transmission ratio.It of courses, has In body application, motor 121 and the kind of drive of the second driving roller 1121 are without being limited thereto, for example, it can also be not provided with shaft 1221, And transmission is only arranged one, power is directly transferred to the second driving roller 1121 by a transmission by motor 121.

Preferably, the first transmission 1222 is chain-drive mechanism, and motor 121 and shaft 1221 are all close to fixed frame 111 Bottom setting, the second driving roller 1121 are arranged close to the top of fixed frame 111.Chain-drive mechanism can meet shaft 1221 and The transmission demand of big drive centre distancc between two driving rollers 1121, and the nonelastic sliding of transmission process and slipping phenomenon, it is average Transmission ratio is accurate, reliable operation, high-efficient.It of courses, in concrete application, the first transmission 1222 is not limited to using chain conveyer machine Tape handler can also be used in structure.

Preferably, the second transmission 1223 is gear reduction box, compact-sized, easy for installation, stable drive, transmission effect Rate is high；It of courses, in concrete application, the second transmission 1223 is not limited to that other transmission sides can also be used using gear reduction box Formula, such as V belt translation pair, chain conveyer pair or Worm Wheel System pair etc..

Preferably, referring to shown in Fig. 3, Fig. 4, Fig. 5, Fig. 9, Figure 12 and Figure 13, transmission mechanism 300 is sequentially connected in first Between drum assembly 112 and second tin roller component 212.Transmission mechanism 300 can drive under the driving of the first driven roller 1122 Second tin roller component 212 rotates, and the rotation of second tin roller component 212 can drive the second conveyer belt 213 around second tin roller component 212 cycle rotations are conveyed to realize by 213 bearing goods of the second conveyer belt.It of courses, in concrete application, as substitution Transmission mechanism 300 can also be set as transmission connection between power mechanism 120 and second tin roller component 212 by embodiment.

Preferably, as shown in Fig. 4, Fig. 5, Fig. 6, Figure 10 and Figure 11, belt-type conveying equipment provided in an embodiment of the present invention is also Including rotation connection component 600 and angle adjustment device 500, rotation connection component 600 for be rotatablely connected mounting rack 211 with Fixed frame 111, angle adjustment device 500 are connected between fixed frame 111 and mounting rack 211 for driving transition conveyer belt Device 200 is rotated relative to main conveyor belt device 100.It is rotatablely connected the setting of component 600, is mainly used for being rotatablely connected transition conveying The fixed frame 111 of mounting rack 211 with device 200 and main conveyor belt device 100, to realize transition conveyer belt apparatus 200 With the effect that is rotatably connected of main conveyor belt device 100；The setting of angle adjustment device 500 is mainly used for driving transition conveying Band device 200 is rotated relative to main conveyor belt device 100, and then realizes transition conveyer belt apparatus 200 and main conveyor belt device The adjustable effect of 100 relative angle.In this way, can be rolled according to the power of specific occasion tandem docking equipment in concrete application The difference of cylinder diameter and conveying articles, transition conveyer belt apparatus 200 is adjusted to appropriate angle to guarantee the smooth transition of cargo.

Preferably, referring to shown in Fig. 4-6 and Figure 10-11, angle adjustment device 500 includes the first fixing component 510, second Fixing component 520, adjustment means 530, the first nut 540 and the second nut 550, the first fixing component 510 are installed on fixed frame 111 side, the second fixing component 520 are installed on the side of mounting rack 211, one end of adjustment means 530 and the second fixed structure The other end of the connection of part 520 and adjustment means 530 passes through the first fixing component 510, and the first nut 540 and the second nut 550 are all Screw thread is installed in adjustment means 530, and the first nut 540 and the second nut 550 are located at the two of the first fixing component 510 Side can drive adjustment means 530 to drive the relatively fixed frame of mounting rack 211 by adjusting the first nut 540 and the second nut 550 111 rotations.Specifically, by adjusting the first nut 540 and the second nut 550, it can drive that 530 straight line of adjustment means is past, multiple shifting Dynamic, the linear motion of adjustment means 530 can drive the relatively fixed frame 111 of mounting rack 211 to make rotating motion, and drive to realize It crosses conveyer belt apparatus 200 to rotate relative to main conveyor belt device 100, structure is simple, it is easy to operate to adjust.It of courses, angle tune The structure of regulating device 500 is without being limited thereto.

Preferably, referring to shown in Fig. 4-6 and Figure 10-11, adjustment means 530 include connecting rod 531 and screw rod 532, connecting rod 531 one end is connect with the second fixing component 520, the other end and screw rod 532 connect, and screw rod 532 passes through the first fixing component 510, the first nut 540 and the second nut 550 all screw threads are installed in adjustment means 530 and are located at the first fixing component 510 two sides.Then screw rod 532 can be fixed together with 531 separately manufacturing of connecting rod；Or screw rod 532 can also be with connecting rod 531 are an integral structure, i.e. screw rod 532 and the integrally manufactured molding of connecting rod 531.In concrete application, by adjusting the first nut 540 and second nut 550, stroke of the adjustable screw 532 between the first fixing component 510 and the second fixing component 520, Rotary motion is converted to so as to move along a straight line, to realize driving transition conveyer belt apparatus 200 with respect to main conveyor belt device 100 rotations.

Preferably, referring to shown in Fig. 4-6 and Figure 10-11, the first fixing component 510 includes the first plate body 511 and the second plate Body 512, the first plate body 511 are connect with fixed frame 111, and the second plate body 512 is from one end of the first plate body 511 towards far from fixed frame 111 direction, which is bent, to be extended, and through perforation 5121 is equipped on the second plate body 512, screw rod 532 passes through perforation 5121, the first nut 540 and second nut 550 be located at the two sides of perforation 5121.In the present embodiment, the first nut 540 is located at connecting rod 531 and Between two plate bodys 512, and the first nut 540 is connected to connecting rod 531；Second nut 550 is located at the second plate body 512 back to connecting rod 531 side, and the second nut 550 is connected to the second plate body 512.When the first nut 540 of rotation is mobile towards connecting rod 531, It can be moved with drive link 531 towards the direction far from the second plate body 512, screw rod 532 is between second body of rod and connecting rod 531 Partial-length increases, and the second fixing component 520 is corresponding with the distance between the second plate body 512 to be increased, and is equipped with so as to drive The mounting rack 211 of second fixing component 520 is rotated up around rotation connection component 600；When rotating the second nut 550 towards connecting rod When 531 movement, it can be moved with drive link 531 towards the direction close to the second plate body 512, screw rod 532 is located at second body of rod and company Partial-length between bar 531 reduces, and the second fixing component 520 is corresponding with the distance between the second plate body 512 to be reduced, thus The mounting rack 211 for being equipped with the second fixing component 520 can be driven to rotate down around rotation connection component 600.

Preferably, shown in referring to figure 5 and figure 6, the first plate body 511 is equipped with third mounting hole 5111 and the 4th mounting hole 5112, the 4th mounting hole 5112 is arcuate socket, and angle adjustment device 500 further includes across 5111 Connection Bracket of third mounting hole 111 the 4th fastener 560 and pass through 5112 Connection Bracket 111 of the 4th mounting hole and with 5112 link position of the 4th mounting hole Adjustable 5th fastener 570.Specifically, fixed frame 111 is equipped with for wearing the first of connection for the 4th fastener 560 Matching hole (not shown) and the second matching hole (not shown) that connection is worn for the 5th fastener 570 of confession.4th fastener 560 Connection third mounting hole 5111 and the first matching hole are successively worn, the 5th fastener 570 successively wears connection and adjusts the 4th mounting hole 5112 and second matching hole.5th fastener 570 can along the 4th mounting hole 5112 arching trajectory in the 4th mounting hole 5112 Sliding, so that the link position of the 5th fastener 570 and the 4th mounting hole 5112 is adjustable, in this way, on the one hand can reduce The fit dimension required precision of first fixing component 510 and fixed frame 111, on the other hand can be convenient for the first fixing component of adjusting 510 setting angle on fixed frame 111.

Preferably, shown in referring to figure 5 and figure 6, the second fixing component 520 includes the connecting plate 521 connecting with mounting rack 211 It is connect with one end of the connecting shaft 522 being installed on connecting plate 521, adjustment means 530 with connecting shaft 522.As the present embodiment A preferred embodiment, the one side of connecting plate 521 is bonded with the lateral surface of mounting rack 211, and connecting shaft 522 is convexly equipped in connection The side back to mounting rack 211 of plate 521, the one end of connecting rod 531 far from screw rod 532 are connect with connecting shaft 522.Second fixed structure The structure of part 520 is simple, and convenient for connecting with connecting rod 531.In the present embodiment, connecting shaft 522 is vertical by screw or bolt It is fixed on connecting plate 521；It of courses, in concrete application, as the embodiment of substitution, connecting shaft 522 can also pass through welding Or the modes such as riveting are fixedly connected with connecting plate 521；Or connecting shaft 522 can also be integrally formed with connecting plate 521.

Preferably, in the present embodiment, the adjustable angular range of transition conveyer belt apparatus 200 is 0 °~8 °.It of courses, has In body application, the adjustable angular range of transition conveyer belt apparatus 200 is without being limited thereto.

Preferably, referring to shown in Fig. 4, Fig. 5, Figure 10 and Figure 11, rotation connection component 600 includes two rotary shafts 610, peace The two sides for shelving 211 are rotatablely connected fixed frame 111 by two rotary shafts 610 one by one respectively.Two rotary shafts 610 are coaxially disposed. The stroke (length increase and decrease of the screw rod 532 between the second plate body 512 and connecting shaft 522) of adjusting screw rod 532, can drive peace 211 drive transition conveyer belt mechanisms 210 are shelved to rotate around rotary shaft 610.

Preferably, rotary shaft 610 is arranged close to the top of mounting rack 211, and the second fixing component 520 is close to mounting rack 211 Bottom setting.

Preferably, in the present embodiment, two rotary shafts 610 are individually fixed in the two sides of fixed frame 111, mounting rack 211 Two sides are rotatably supported in rotary shaft 610 respectively, i.e. fixed, the opposite mounting rack 211 of the relatively fixed frame 111 of rotary shaft 610 can Rotation.It of courses, in concrete application, can also be set as rotary shaft 610 can be relative to the rotation of fixed frame 111 and rotary shaft 610 and peace Shelve 211 modes being fixedly connected.

Preferably, referring to shown in Fig. 5 and Figure 11, the two sides of fixed frame 111 are designed with support plate 1111, two rotary shafts 610 are fixedly connected with two support plates 1111 one by one respectively.Rotary shaft 610 is preferably bolted or screw connection support plate 1111。

Preferably, referring to shown in Fig. 4, Fig. 5 and Figure 10, belt-type conveying equipment further includes two baffles 700, two baffles 700 respectively from the two sides Connection Bracket 111 of mounting rack 211 between block mounting rack 211 and fixed frame 111 Gap.When transition conveyer belt apparatus 200 rotates, baffle 700 primarily serves the decoration function of ornamental part, at this point, baffle 700 can block the gap between mounting rack 211 and fixed frame 111, to be conducive to improve the visual appearance effect of equipment.And in mistake When crossing 200 level-off of conveyer belt apparatus, baffle 700 in addition to the gap between mounting rack 211 and fixed frame 111 can be blocked, It plays outside the decoration function of ornamental part, also transition conveyer belt apparatus 200 can further have been connect with main conveyor belt device 100 Come, and then can play the role of reinforcing connection transition conveyer belt apparatus 200 and main conveyor belt device 100.

Preferably, in the present embodiment, transition conveyer belt apparatus 200 be set to main conveyor belt device 100 input terminal, cargo from Transition conveyer belt apparatus 200 is delivered on main conveyor belt device 100.The close main conveyor belt mechanism 110 of first conveyer belt 213 End be arranged at intervals at the second conveyer belt 113 above the end of transition conveyer belt mechanism 210, and first conveyer belt 213 orthographic projection in the horizontal plane and the orthographic projection of the second conveyer belt 113 in the horizontal plane have lap.Herein, it uses The design concept of edge of a knife transition and linkage, can reduce the gap of front and back equipment transition, and this design pattern guarantees transition conveyer belt dress Set 200 and main conveyor belt device 100 there are overlapping region, guarantee that cargo transition is smooth, prevent card Bao Xianxiang.It of courses, specifically It in, needs according to the specific application occasions, the defeated of main conveyor belt device 100 can also be arranged in transition conveyer belt apparatus 200 Outlet.

The belt-type conveying equipment of the present embodiment can be applied to sorting transportation system in, i.e., main conveyor belt device 100 be with It sorts, the sorter of conveying function；Alternatively, the belt-type conveying equipment of the present embodiment can also be applied to common transportation system ( Weighed transportation system does not have sorting function) in, i.e., main conveyor belt device 100 is with for pinpointing the defeated of conveying articles Send device.

The above description is only a preferred embodiment of the present invention, is not intended to limit the scope of the invention, all at this Under the inventive concept of invention, using equivalent structure transformation made by description of the invention and accompanying drawing content, or directly/use indirectly It is included in other related technical areas in scope of patent protection of the invention.

Claims (10)

1. transition conveyer belt apparatus, which is characterized in that including mounting rack and transition conveyer belt mechanism, the transition conveyer belt mechanism Including the first drum assembly, first conveyer belt and belt tensioning drum, first drum assembly includes the first driving roller and two First driven roller, the first driving roller, two first driven rollers and the belt tensioning drum are all rotatably mounted In on the mounting rack, and the spaced and parallel top for being set to the first driving roller of two first driven rollers, institute It states belt tensioning drum to be vertically set between first driven roller and the first driving roller, the first conveyer belt is surround It is sheathed on the periphery of the first driving roller and two first driven rollers, the belt tensioning drum presses on described first The outer ring surface of conveyer belt.

2. transition conveyer belt apparatus as described in claim 1, which is characterized in that described first drives roller position in the horizontal direction Between two first driven rollers, the belt tensioning drum is located at the first driving roller and an institute in the horizontal direction It states between the first driven roller；And/or

The outer radial dimension of two first driven rollers is both less than the outer radial dimension of the first driving roller.

3. transition conveyer belt apparatus as claimed in claim 1 or 2, which is characterized in that the mounting rack includes pedestal and two It is respectively arranged on the side bracket of the pedestal two opposite sides, the both ends of the first driving roller, first driven roller Both ends and the both ends of the belt tensioning drum are all rotatably connected two side brackets respectively.

4. transition conveyer belt apparatus as claimed in claim 3, which is characterized in that the first conveyer belt, which has, is set to two institutes State between the first driven roller with for carrying, the supporting part of conveying articles, the mounting rack further include be set to the supporting part The both ends of lower section and the carrying position-limited rack being located between two first driven rollers, the carrying position-limited rack are separately connected two A side bracket.

5. transition conveyer belt apparatus as claimed in claim 3, which is characterized in that the both ends of the belt tensioning drum are respectively with installation The mode of position-adjustable is connect with two side brackets.

6. transition conveyer belt apparatus as claimed in claim 5, which is characterized in that the both ends of the belt tensioning drum pass through respectively One fastener connects the side bracket, and the side bracket is equipped with for extending through connection institute for first fastener State the first mounting hole of belt tensioning drum, the end of the belt tensioning drum is equipped with for wearing the of connection for first fastener One connecting hole, installation site of first fastener in first mounting hole can be adjusted.

7. transition conveyer belt apparatus as claimed in claim 6, which is characterized in that first fastener can be in the horizontal direction Installation site is adjusted in first mounting hole.

8. belt-type conveying equipment, which is characterized in that including main conveyor belt device and mistake as described in any one of claim 1 to 7 Cross conveyer belt apparatus, the main conveyor belt device includes fixed frame and the main conveyor belt mechanism that is installed on the fixed frame, institute State one end that mounting rack is set to the main conveyor belt device.

9. belt-type conveying equipment as claimed in claim 8, which is characterized in that the main conveyor belt device further includes being installed on admittedly Determine on frame so that for driving the power mechanism of the main conveyor belt mechanism operating, the belt-type conveying equipment further includes transmission connection Between the main conveyor belt mechanism and the transition conveyer belt mechanism or transmission connection is in the power mechanism and the mistake It crosses between conveyer belt mechanism for driving the transmission mechanism of the transition conveyer belt mechanism operating.

10. belt-type conveying equipment as claimed in claim 9, which is characterized in that the transmission mechanism includes and the main conveying With mechanism connection and can be connect simultaneously by the drive sprocket of main conveyor belt mechanism driving rotation, with the transition conveyer belt mechanism The driven sprocket of the transition conveyer belt mechanism operating can be driven and be surrounded on the drive sprocket and the driven sprocket periphery Chain；And/or

The power mechanism includes the motor being installed on the fixed frame and transmission connection in the motor and the main conveying With the transmission component between mechanism.