CN106429351A - Chain conveyor - Google Patents

Abstract

The invention discloses a chain conveyor which comprises a frame, wherein the frame comprises a front cross beam and a rear cross beam; a first conveying component is arranged at the right ends of the front cross beam and the rear cross beam; a second conveying component is arranged at the left ends of the front cross beam and the rear cross beam; the left end of the first conveying component and the right end of the second conveying component are connected with a same rotating shaft and independently run. In a working process, when bricks are discontinuous, namely, an opening exists at a junction of the first conveying component and the second conveying component, the second conveying component stops running, the first conveying component continues running, the subsequent brick is connected with the front brick, and then the continuous state is formed and the requirement of parting is met. The chain conveyor can automatically splice the bricks to the continuous state before the bricks reach the positions for parting and stacking; the manual placement is not required; the manpower is saved; the production cost is lowered; the production efficiency is increased; the automatic production is more benefited.

Description

A kind of chain transfer

Technical field

The invention belongs to building material production facility field, more particularly to chain transfer.

Background technology

Most domestic standard brick manufacturing enterprise is typically all the side's of breaking into pile when standard brick is packed, and for convenience of transporting, needs to use Pallet is as carrier, and pallet investment is big and lossy in transport process.Minority enterprise is had to be packed using semi-automation, will Standard brick is packaged into the square pile with forklift hole, then is transported, but needs dependence manually to pile up standard brick on request And go out square hole in desired location code, then carried out with machine and pile, then carry out packing and transporting, such scheme production cost height, work People's high labor intensive, low production efficiency.

At present, there is the higher packing manner of automaticity, i.e., using unpiler, standard brick is unloaded be placed on conventional On chain transfer, conventional chain transfer conveying standard brick is to parting, piling station, and standard brick parting is reserved fork truck by stitch-separating machine Hole, the standard brick code side of one-tenth pile is packed by stacking machine, but due to being spaced toward discharge standard brick existence time on chain transfer, in routine The standard brick for running on chain transfer is discontinuous, in order to meet the requirement of parting, it is desired nonetheless to manually put into standard brick Continuously, it is still desirable to human resourcess are consumed, production efficiency is affected.

Content of the invention

In order to solve above-mentioned problem, the present invention provides a kind of chain transfer, and the device reaches can standard brick Before parting, piling station, it is about to certainly standard brick and continuous state is scrabbled up, without the need for manually putting, manpower has been saved, has improve efficiency.

To achieve these goals, the present invention adopts below scheme, including：Frame, the frame includes forward and backward crossbeam, institute The right-hand member for stating forward and backward crossbeam arranges the first conveying assembly, and the left end of the forward and backward crossbeam arranges the second conveying assembly, and described the The left end of one conveying assembly, the right-hand member of the second conveying assembly are connected in same rotating shaft, and each independent operating.

Preferably, first conveying assembly is so constituted, the middle part of the forward and backward crossbeam connect respectively in one, in two Bearing block, the bearing block rotates rotating shaft in connection, the first-class distance interval of the middle rotating shaft be fixedly connected some in a sprocket wheel；Institute The right-hand member for stating forward and backward crossbeam connects right one, right two bearing bracket respectively, and the bearing block rotates connection right spindle, the right spindle Upper equidistant intervals are fixedly connected some right sprocket wheels, the right sprocket wheel with described in a sprocket wheel corresponding；Some first annular chains During what bar was ratcheting be sleeved on a sprocket wheel and right sprocket wheel；The bottom of the forward and backward crossbeam right-hand member connects the first chain tensioning mechanism； One end of the middle rotating shaft connects the first drive mechanism.

Preferably, first strainer is so constituted, and connects some first and lead between the bottom of the forward and backward crossbeam To wheel, first directive wheel is corresponded with the first annular chain, and the first annular chain is from the first directive wheel Top passes through, and is movably disposed within the groove of the first directive wheel；First is fixedly connected between the bottom of the forward and backward crossbeam Major axis, some first tensioning wheels are rotatably connected on the first major axis, and first tensioning wheel is with the first annular chain one by one Corresponding, the first annular chain is passed through from the top of the first tensioning wheel and ratcheting with the first tensioning wheel；First major axis Two ends connect the first adjusting screw rod.

First drive mechanism is so constituted, and the side of central rack is fixedly connected the first motor, first motor Outfan connect the first decelerator, first decelerator outfan connection in rotating shaft one end.

Preferably, second conveying assembly is so constituted, per the company of rotation between a sprocket wheel in adjacent in the middle rotating shaft Two sprocket wheel in connecing；The left end of the forward and backward crossbeam connects the first from left, the second from left bearing block, left rotary shaft and the first from left, the second from left bearing block respectively Rotate connection, in the left rotary shaft, equidistant intervals are fixedly connected left sprocket wheel, the left sprocket wheel with described in two sprocket wheels corresponding； What some second ring chains were ratcheting be sleeved on left sprocket wheel and on two sprocket wheels；The bottom connection the of the forward and backward crossbeam left end Two chain tensioning mechanisms；One end of the left rotary shaft connects the second drive mechanism.

Preferably, second strainer is so constituted, and connects some second and lead between the bottom of the forward and backward crossbeam To wheel, second directive wheel is corresponded with second ring chain, and second ring chain is from the second directive wheel Top passes through, and is movably disposed within the groove of the second directive wheel；Second is fixedly connected between the bottom of the forward and backward crossbeam Major axis, some second tensioning wheels are rotatably connected on the second major axis, and second tensioning wheel is with second ring chain one by one Corresponding, second ring chain is passed through from the top of the second tensioning wheel and ratcheting with the second tensioning wheel；Second major axis Two ends connect the second adjusting screw rod.

Second drive mechanism is so constituted, and the side of frame left end is fixedly connected the second motor, second motor Outfan connect the second decelerator, second decelerator outfan connection left rotary shaft one end.

During work, the first conveying assembly of chain transfer, the operation of the second conveying assembly independent synchronization, standard brick is delivered to The parting of left end, piling station, when standard brick occurs discontinuous, i.e., in the first conveying assembly and the intersection of the second conveying assembly When there is vacancy, induction installation senses vacancy signal, and the second conveying assembly is out of service, and the first conveying assembly is continued to run with, So as to follow-up standard brick to be connected with standard brick above, continuous state is formed, meets the needs of parting.

The present invention can be about to standard brick and scrabble up continuous state, without the need for artificial before standard brick arrival parting, piling station certainly Put, manpower has been saved, production cost is reduced, production efficiency is improve, and advantageously in automated production.

Description of the drawings

Fig. 1 is chain transfer schematic front view of the present invention.

Fig. 2 is chain transfer schematic top plan view of the present invention.

Specific embodiment

The present invention is described in further detail below in conjunction with the accompanying drawings, can be clearer so as to those skilled in the art Ground understands, as shown in Figure 1 and Figure 2, chain transfer of the present invention includes：Frame, the frame includes forward and backward crossbeam 1-1,1-2, institute The right-hand member for stating forward and backward crossbeam 1-1,1-2 arranges the first conveying assembly, and the left end setting second of described forward and backward crossbeam 1-1,1-2 is defeated Sending component, the left end of first conveying assembly, the right-hand member of the second conveying assembly are connected in same rotating shaft, and each independent fortune OK.

Preferably, first conveying assembly is so constituted, during the middle part of described forward and backward crossbeam 1-1,1-2 connects respectively First, middle two bearing bracket 2-1,2-2, described bearing block 2-1,2-2 rotate rotating shaft 3 in connection, equidistant intervals in the middle rotating shaft 3 Be fixedly connected some in a sprocket wheel 4；The right-hand member of described forward and backward crossbeam 1-1,1-2 connects right one, right two bearing bracket 5-1,5- respectively 2, described bearing block 5-1,5-2 rotate connection right spindle 6, and on the right spindle 6, equidistant intervals are fixedly connected some right sprocket wheels 7, the right sprocket wheel 7 with described in a sprocket wheel 4 corresponding；A sprocket wheel 4 and the right side during what some first annular chains 8 were ratcheting be sleeved on On sprocket wheel 7；The bottom of forward and backward crossbeam 1-1,1-2 right-hand member connects the first chain tensioning mechanism；One end of the middle rotating shaft 3 Connect the first drive mechanism.

Preferably, first strainer is so constituted, if connecting between the bottom of described forward and backward crossbeam 1-1,1-2 Do the first directive wheel 9, first directive wheel 9 corresponded with the first annular chain 8, the first annular chain 8 from The top of the first directive wheel 9 passes through, and is movably disposed within the groove of the first directive wheel 9；Described forward and backward crossbeam 1-1,1-2 Bottom between be fixedly connected the first major axis 10, some first tensioning wheels 11 are rotatably connected on the first major axis 10, described first Tensioning wheel 11 is corresponded with the first annular chain 8, and the first annular chain 8 is passed through from the top of the first tensioning wheel 11 And it is ratcheting with the first tensioning wheel 11；The two ends of first major axis 10 connect the first adjusting screw rod 12.

First drive mechanism is so constituted, and the side of central rack is fixedly connected the first motor 13, first electricity The outfan of machine 13 connects the first decelerator 14, one end of rotating shaft 3 in the outfan connection of first decelerator 14.

Preferably, second conveying assembly is so constituted, and is rotated per between a sprocket wheel 4 in adjacent in the middle rotating shaft 3 Two sprocket wheel 15 in connection；The left end of described forward and backward crossbeam 1-1,1-2 connects the first from left, the second from left bearing block 16-1,16-2 respectively, left Rotating shaft 17 is rotated with the first from left, the second from left bearing block 16-1,16-2 and is connected, and in the left rotary shaft 17, equidistant intervals are fixedly connected left chain Wheel 18, the left sprocket wheel 18 with described in two sprocket wheels 15 corresponding；What some second ring chains 19 were ratcheting is sleeved on left sprocket wheel 18 and on two sprocket wheels 15；The bottom of forward and backward crossbeam 1-1,1-2 left end connects the second chain tensioning mechanism；The left-hand rotation One end of axle 17 connects the second drive mechanism.

Preferably, second strainer is so constituted, if connecting between the bottom of described forward and backward crossbeam 1-1,1-2 The second directive wheel 20 is done, second directive wheel 20 is corresponded with second ring chain 19, second ring chain 19 pass through from the top of the second directive wheel 20, and are movably disposed within the groove of the second directive wheel 20；The forward and backward crossbeam 1- 1st, second major axis 21 is fixedly connected between the bottom of 1-2, and some second tensioning wheels 22 are rotatably connected on the second major axis 21, described Second tensioning wheel 22 is corresponded with second ring chain 19, and second ring chain 19 is upper from the second tensioning wheel 22 Portion passes through and ratcheting with the second tensioning wheel 22；The two ends of second major axis 21 connect the second adjusting screw rod 23.

Second drive mechanism is so constituted, and the side of frame left end is fixedly connected the second motor 24, second electricity The outfan of machine 24 connects the second decelerator 25, one end of the outfan connection left rotary shaft 17 of second decelerator 25.

During work, the first conveying assembly of chain transfer, the operation of the second conveying assembly independent synchronization, standard brick is delivered to The parting of left end, piling station, when standard brick occurs discontinuous, i.e., in the first conveying assembly and the intersection of the second conveying assembly When there is vacancy, induction installation senses vacancy signal, and the second conveying assembly is out of service, and the first conveying assembly is continued to run with, So as to follow-up standard brick to be connected with standard brick above, continuous state is formed, meets the needs of parting.

The present invention can be about to standard brick and scrabble up continuous state, without the need for artificial before standard brick arrival parting, piling station certainly Put, manpower has been saved, production cost is reduced, production efficiency is improve, and advantageously in automated production.

Claims (7)

1. a kind of chain transfer, including frame, the frame includes forward and backward crossbeam (1-1,1-2), it is characterised in that：Before described, The right-hand member of rear cross beam (1-1,1-2) arranges the first conveying assembly, and the left end setting second of described forward and backward crossbeam (1-1,1-2) is defeated Sending component, the left end of first conveying assembly, the right-hand member of the second conveying assembly are connected in same rotating shaft, and each independent fortune OK.

2. chain transfer according to claim 1, it is characterised in that first conveying assembly is so constituted：Before described, The middle part of rear cross beam (1-1,1-2) connect respectively in one, middle two bearing bracket (2-1,2-2), described bearing block (2-1,2-2) rotate Rotating shaft (3) in connection, described middle rotating shaft (3) upper equidistant intervals be fixedly connected some in a sprocket wheel (4)；The forward and backward crossbeam The right-hand member of (1-1,1-2) connects right one, right two bearing bracket (5-1,5-2) respectively, and it is right that described bearing block (5-1,5-2) rotates connection Rotating shaft (6), described right spindle (6) upper equidistant intervals are fixedly connected some right sprocket wheel (7), right sprocket wheel (7) with described in One sprocket wheel (4) is corresponding；During what some first annular chain (8) were ratcheting be sleeved on a sprocket wheel (4) and right sprocket wheel (7)；Described The bottom of forward and backward crossbeam (1-1,1-2) right-hand member connects the first chain tensioning mechanism；One end connection first of middle rotating shaft (3) Drive mechanism.

3. chain transfer according to claim 2, it is characterised in that：First strainer is so constituted：Before described, Connect between the bottom of rear cross beam (1-1,1-2) some first directive wheel (9), the first directive wheel (9) and first ring Shape chain (8) is corresponded, and first annular chain (8) are passed through from the top of the first directive wheel (9), and are movably disposed within In the groove of the first directive wheel (9)；The first major axis (10) is fixedly connected between the bottom of described forward and backward crossbeam (1-1,1-2), if Do the first tensioning wheel (11) to be rotatably connected on the first major axis (10), the first tensioning wheel (11) and the first annular chain (8) correspond, first annular chain (8) from the top of the first tensioning wheel (11) through and with the first tensioning wheel (11) tooth Close；The two ends of the first major axis (10) connect the first adjusting screw rod (12).

4. chain transfer according to claim 2, it is characterised in that：First drive mechanism is so constituted：In frame The side in portion is fixedly connected the first motor (13), and the outfan of the first motor (13) connects the input of the first decelerator (14) End, one end of rotating shaft (3) in the outfan connection of the first decelerator (14).

5. chain transfer according to claim 1 or claim 2, it is characterised in that second conveying assembly is so constituted：Described Middle rotating shaft (3) are upper to rotate two sprocket wheels (15) in connection per between a sprocket wheel (4) in adjacent；Described forward and backward crossbeam (1-1,1-2's) Left end connects the first from left, the second from left bearing block (16-1,16-2), left rotary shaft (17) and the first from left, the second from left bearing block (16-1,16-2) respectively Rotate connection, described left rotary shaft (17) upper equidistant intervals are fixedly connected left sprocket wheel (18), left sprocket wheel (18) with described in Two sprocket wheels (15) are corresponding；What some second ring chain (19) were ratcheting be sleeved on left sprocket wheel (18) and on two sprocket wheels (15)； The bottom of described forward and backward crossbeam (1-1,1-2) left end connects the second chain tensioning mechanism；One end connection of left rotary shaft (17) Second drive mechanism.

6. chain transfer according to claim 5, it is characterised in that：Second strainer is so constituted：Before described, Connect between the bottom of rear cross beam (1-1,1-2) some second directive wheel (20), the second directive wheel (20) and described second Ring chain (19) is corresponded, and the second ring chain (19) are passed through from the top of the second directive wheel (20), and be may move The groove for being placed in the second directive wheel (20) in；The second major axis is fixedly connected between the bottom of described forward and backward crossbeam (1-1,1-2) (21), some second tensioning wheel (22) be rotatably connected on the second major axis (21), the second tensioning wheel (22) and described second Ring chain (19) correspond, the second ring chain (19) from the top of the second tensioning wheel (22) through and with second Bearing up pulley (22) is ratcheting；The two ends of the second major axis (21) connect the second adjusting screw rod (23).

7. chain transfer according to claim 5, it is characterised in that：Second drive mechanism is so constituted：A frame left side The side at end is fixedly connected the second motor (24), and the outfan of the second motor (24) connects the input of the second decelerator (25) End, one end of outfan connection left rotary shaft (17) of the second decelerator (25).