CN213536117U - Telescopic roller way machine - Google Patents

Telescopic roller way machine Download PDF

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Publication number
CN213536117U
CN213536117U CN202020924609.9U CN202020924609U CN213536117U CN 213536117 U CN213536117 U CN 213536117U CN 202020924609 U CN202020924609 U CN 202020924609U CN 213536117 U CN213536117 U CN 213536117U
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China
Prior art keywords
telescopic
plate
plates
roller
moving
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CN202020924609.9U
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Chinese (zh)
Inventor
罗连富
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Dalian Fusen Institute Of Edible Fungi
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Dalian Fusen Institute Of Edible Fungi
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Abstract

A telescopic roller bed machine is characterized in that two sliding rails are arranged in front of and behind the upper portion of a frame body on one side of an output end, and pulleys matched with the sliding rails are arranged at the bottom of a telescopic moving vehicle; the telescopic plate support is installed on the upper portion of the support body, the upper side beams are installed on the telescopic plate support and the upper portion of the input end support body, the driving rollers and the fixed rollers are evenly installed between the front upper side beam and the rear upper side beam, the driving rollers are connected with the driving motor, moving grooves are symmetrically formed in the front vehicle plate and the rear vehicle plate, moving grooves are formed in the positions, corresponding to the moving grooves in the vehicle plates, of the front telescopic plate support and the rear telescopic plate support, and the lower ends of the telescopic plates at the two ends are installed in the. The utility model discloses a flexible roller machine is along with the terminal back-and-forth movement of reciprocating of rear end conveying equipment, makes roller machine be flexible removal in length direction, has solved the problem of the distance change between the conveyer that the lift follow-up belt feeder back-and-forth movement that carloader roll table goes up and down to lead to appears, has satisfied the production needs of automatic loading.

Description

Telescopic roller way machine
Technical Field
The utility model relates to a material transmission equipment field especially relates to edible mushroom production line transmission equipment.
Background
In the production process of edible fungi, the fungi packaging bags are put into the fungi basket after being finished, and then the fungi are horizontally conveyed to a car loader by adopting a manual car loading or roller bed machine, so that the manual car loading speed is low, and the production efficiency is low. Although the production efficiency is greatly improved by adopting the lifting follow-up conveyor to load the fungus baskets transmitted by the roller conveyor, the lifting frame of the loading machine can lead the lifting follow-up conveyor to move back and forth, the problem of distance change between the input end of the lifting follow-up conveyor and the roller conveyor occurs, the conveying of the fungus baskets is influenced due to overlarge clearance, the fungus baskets cannot be smoothly transited and linked between the fungus baskets and the lifting follow-up conveyor, the loading difficulty is caused, the production process requirement of an automatic production line of a large-scale production workshop cannot be met, and the operation is unstable.
SUMMERY OF THE UTILITY MODEL
In order to realize smooth transition and the problem that links up between roller machine and the lift belt feeder, the utility model provides a flexible roller machine.
The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is: a telescopic roller bed machine is characterized in that two sliding rails 12 are arranged on the upper portion of a frame body 11 in front and at the back of one side of an output end, and pulleys 13 matched with the sliding rails 12 are arranged on the front and at the back of the bottom of a telescopic moving vehicle 15 respectively; telescopic plate brackets 111 are symmetrically arranged at the front and back of the upper part of the frame body 11 at one side of the input end, upper side beams 119 are arranged on the telescopic plate brackets 111 and the upper part of the input end frame body, and a driving roller 118 and a fixed roller 116 are uniformly arranged between the front and back upper side beams 119; the front and rear vehicle plates 17 are symmetrically provided with moving grooves 14, and the lower end of an outer extension plate 18 positioned at one end of the extension moving vehicle is fixed in the moving grooves 14 through a moving bolt 110; a moving groove 15 is formed in the front and rear telescopic plate brackets 111 at a position corresponding to the moving groove in the vehicle plate 17, and the lower end of an inner telescopic plate 130 positioned on one side of the telescopic plate brackets 111 is mounted in the moving groove 15 of the telescopic plate brackets 111 through a moving bolt 110; the telescopic plates comprise an outer telescopic plate 18 and an inner telescopic plate 130, the inner telescopic plate 18 and the outer telescopic plate 130 are connected with each other pairwise, the upper ends of the inner telescopic plate 18 and the outer telescopic plate 130 are fixed at the front end and the rear end of the roller 114, the lower ends of the inner telescopic plate 18 and the outer telescopic plate 130 are movably connected, and the intersection of the inner telescopic plate 18 and the outer telescopic plate 130 is movably connected; the roller chain 117 is arranged outside the roller 114, the fixed roller 116 and the driving roller 118.
The lower end of the front outer telescopic plate 18 and the lower end of the rear outer telescopic plate 18 which are positioned at one end of the telescopic moving vehicle are provided with a lower connecting rod 113, the lower ends of the outer telescopic plates 18 are fixed at the end parts of the lower connecting rods 113 through moving bolts 110, the outer telescopic plates 18 are positioned at the inner side of the vehicle plate 17, the moving bolts 110 are positioned in the moving grooves 14, shaft sleeves 132 are arranged outside the moving bolts 110, and the heights of the shaft sleeves 132 are larger than the thickness of the vehicle plate 17 and protrude out of the.
A lower connecting rod 113 is arranged between the lower ends of the front and rear inner telescopic plates 130 at one end of the telescopic plate support 111, the lower end of the inner telescopic plate 130 is fixed at the end part of the lower connecting rod 113 through a movable bolt 110, the inner telescopic plate 130 is positioned at the inner side of the telescopic plate support 111, the movable bolt 110 is positioned in the movable groove 14, and a stepped spacer 133 is arranged between the inner telescopic plate 130 and the telescopic plate support 111 outside the movable bolt 110.
A lower connecting rod 113 is arranged between the lower connecting ends of the inner telescopic plate 18 and the outer telescopic plate 130 corresponding to the front side and the rear side, the lower connecting ends of the inner telescopic plate 18 and the outer telescopic plate 130 are fixed at the end part of the lower connecting rod 113 through a movable bolt 110, and a spacer 123 is arranged between the inner telescopic plate 18 and the outer telescopic plate 130 outside the movable bolt 110.
An upper connecting rod 112 is arranged between the intersections of the inner telescopic plates 18 and the outer telescopic plates 130 corresponding to the front side and the rear side, and the intersections of the inner telescopic plates 18 and the outer telescopic plates 130 are fixed at the end parts of the upper connecting rod 112 through transition chain wheels 147 and locking bolts 115; the upper ends of the inner telescopic plate 18 and the outer telescopic plate 130 are fixed to the end of the roller 114 by a locking bolt 115 and a spacer 123.
The telescopic moving vehicle 15 is arranged at the outer side and is provided with a connecting rotary hinge shaft 19 connected with the lifting belt conveyor through a hinge shaft connecting angle plate 16.
The moving groove 15 is a long strip-shaped longitudinal groove.
The pulley frame 125 is installed on the inner side of the bottom edge of the vehicle plate 17, the two pulley shafts 126 are symmetrically installed on the pulley frame 125 and the vehicle plate 17, the groove-shaped pulley 13 is installed on the pulley shaft 126, and the sliding rail 12 is a square sliding rail matched with the groove of the groove-shaped pulley 13.
A front cover plate 127 and a rear cover plate 128 are respectively installed at the front and rear edges of the upper portion of the frame body 1.
The utility model discloses a flexible roller machine, set up the locomotive and the expansion plate of being connected with the locomotive, the input of lift follow-up conveyer is connected to the locomotive, behind material (fungus basket) entering roller conveyer, flexible roller machine is the back-and-forth movement along with reciprocating of rear end lift follow-up conveyer, make roller machine be flexible removal at length direction, the fungus package after edible mushroom industry bagging-off production line basket is automatic carry on rear end follow-up lift conveyer, the problem of the distance change between the lift follow-up conveyer back-and-forth movement that has solved that carloader roll table lift leads to and the roller conveyer appears and the roller conveyer is solved, stability and follow-up nature are good, the production needs of automatic loading have been satisfied.
Drawings
Fig. 1 is a main view of the telescopic roller bed of the present invention.
Fig. 2 is a side view of the telescopic roller table of the present invention.
Fig. 3 is an enlarged structural view of a portion a in fig. 2.
Fig. 4 is a schematic drawing of the stretching state of the telescopic roller machine of the present invention.
Fig. 5 is a schematic view of the shrinking state of the telescopic roller machine of the present invention.
Fig. 6 is a mounting structure diagram between the expansion plate and the sweep of the expansion roller machine of the utility model.
Fig. 7 is the installation structure diagram of the locomotive board and the shaft sleeve of the telescopic roller bed.
Fig. 8 is the installation structure diagram of the inner and outer expansion plates of the expansion roller machine.
Fig. 9 is a mounting structure diagram of the inner and outer expansion plates and the spacer bush of the expansion roller machine of the utility model.
Fig. 10 is a mounting structure diagram between the expansion plate and the expansion plate support of the expansion roller machine of the present invention.
Fig. 11 is a structure view of the step type spacer of the telescopic roller machine of the present invention.
In the figure: 11. frame body, 12, slide rail, 13, pulley, 14, moving groove, 15, telescopic moving vehicle, 16, hinge shaft connecting angle plate, 17, vehicle plate, 18, outer telescopic plate, 19, connecting rotating hinge shaft, 110, moving bolt, 111, telescopic plate bracket, 112, upper connecting rod, 113, lower connecting rod, 114, roller, 115, locking bolt, 116, fixed roller, 117, roller chain, 118, driving roller, 119, upper side beam, 120, motor chain, 121, driving motor, 123, spacer bush, 124, motor base, 125, pulley frame, 126, pulley shaft, 127, front side cover plate, 128, rear side cover plate, 129, foot cup, 130, inner telescopic plate, 131, connecting beam, 132, shaft sleeve, 133, stage type spacer bush, 147 and transition chain wheel.
Detailed Description
The utility model discloses a flexible roller machine structure is as shown in fig. 1 and fig. 2, two slide rails 12 are installed around being located output one side on support body 11 upper portion, connect through tie-beam 131 between two sweep 17 around the flexible locomotive 15, pulley yoke 125 is installed to flexible locomotive 15 bottom, pulley yoke 125 is installed to sweep 17 base inboard side, two pulley shafts 126 are symmetrically installed on pulley yoke 125 and sweep 17, install cell type pulley 13 on pulley shaft 126, slide rail 12 is the square slide rail that matches with the recess of cell type pulley 13, pulley and guide rail coincide, the direction of movement is stable, the expansion plate is difficult to warp in moving flexible, as shown in fig. 3; the telescopic moving vehicle 15 is arranged at the outer side and is provided with a connecting rotating hinge shaft 19 connected with the lifting belt conveyor through a hinge shaft connecting angle plate 16. The upper part of the frame body 11 is provided with telescopic plate brackets 111 at the front and back sides of one side of the input end, the telescopic plate brackets 111 and the upper part of the input end frame body are provided with upper side beams 119, a driving roller 118 and a fixed roller 116 are uniformly arranged between the front and back upper side beams 119, one end of the driving roller 118 is connected with a driving motor 121, the driving motor 121 is arranged on the frame body 11 through a motor base 124, and one end of the driving roller 118 is connected with the driving motor 121 through a motor chain 120; the front and rear car plates 17 are symmetrically provided with moving grooves 14, the lower end of an outer telescopic plate 18 located at one end of the telescopic moving car is fixed in the moving groove 14 through a moving bolt 110, as shown in fig. 6 and 7, a lower connecting rod 113 is arranged between the lower ends of the front and rear outer telescopic plates 18 located at one end of the telescopic moving car, the lower end of the outer telescopic plate 18 is fixed at the end of the lower connecting rod 113 through the moving bolt 110, the outer telescopic plate 18 is located on the inner side of the car plate 17, the moving bolt 110 is located in the moving groove 14, a shaft sleeve 132 is arranged outside the moving bolt 110, the height of the shaft sleeve 132 is larger than the thickness of the car plate 17 and protrudes out of the inner side of the car plate 17, the shaft sleeve is larger. The front and rear telescopic plate brackets 111 are provided with a moving groove 14 at a position corresponding to the moving groove of the vehicle panel 17, the lower end of an inner telescopic plate 130 positioned at one side of the telescopic plate bracket 111 is mounted in the moving groove 14 of the telescopic plate bracket 111 through a moving bolt 110, as shown in fig. 10 and 11, a lower connecting rod 113 is arranged between the lower ends of the front and rear inner telescopic plates 130 positioned at one end of the telescopic plate bracket 111, the lower end of the inner telescopic plate 130 is fixed at the end of the lower connecting rod 113 through the moving bolt 110, the inner telescopic plate 130 is positioned at the inner side of the telescopic plate bracket 111, the moving bolt 110 is positioned in the moving groove 14, and a stepped spacer 133 is mounted between the inner telescopic plate 130 and the telescopic plate bracket 111 outside the moving bolt 117. The telescopic plates comprise outer telescopic plates 18 and inner telescopic plates 130, the inner telescopic plates 18 and the outer telescopic plates 130 are connected with each other pairwise, an upper connecting rod 112 is arranged between the intersections of the inner telescopic plates 18 and the outer telescopic plates 130 corresponding to the front side and the rear side, and the intersections of the inner telescopic plates 18 and the outer telescopic plates 130 are fixed at the end parts of the upper connecting rod 112 through transition chain wheels 147 and locking bolts 115; the upper ends of the inner telescopic plate 18 and the outer telescopic plate 130 are fixed to the end of the roller 114 by a locking bolt 115 and a spacer 123. As shown in fig. 8 and 9, a lower connecting rod 113 is disposed between lower connecting ends of the inner telescopic plate 18 and the outer telescopic plate 130 corresponding to front and rear sides, the lower connecting ends of the inner telescopic plate 18 and the outer telescopic plate 130 are fixed to an end of the lower connecting rod 113 by a movable bolt 110, and a spacer 123 is disposed between the inner telescopic plate 18 and the outer telescopic plate 130 outside the movable bolt 110; the upper ends of the inner telescopic plate 18 and the outer telescopic plate 130 are fixed at the end part of the roller 114 through a locking bolt 115 and a movable spacer 123; the roller chain 117 is provided outside the roller 114, the fixed roller 116 and the driving roller 118, and a front cover plate 127 and a rear cover plate 128 are respectively installed at the front and rear edges of the upper portion of the frame body 1.
When the telescopic rod way machine is used, the connecting transmission hinge shaft 19 is fixed on the rear end lifting follow-up belt conveyor, the left end of the belt conveyor moves up and down along with the rear end car loader, and the right end of the belt conveyor is fixed on the telescopic rod way machine and is fixed in height, so that the right end moves left and right. The roller machine drives the roller 118 to rotate through the driving motor 121, so as to further drive the fixed roller 116 and the roller 114 to rotate through the roller chain 117, thereby realizing material transmission. The stretching and shrinking of the stretching plate are driven by the left and right movement of the stretching trolley 15, the moving groove 14 is a long strip-shaped longitudinal groove, the moving bolt 110 is driven by the parallel movement of the stretching plate to move up and down in the moving groove 14, so that the follow-up between the roller machine and the belt conveyor is realized, and the stretching state and the shrinking state of the roller machine are respectively shown in fig. 4 and fig. 5. The follow-up telescopic roller machine solves the continuity problem of automatic loading of fungus package baskets on an edible fungus production line, enables fungus packages produced at the front end to be continuously and smoothly loaded on a sterilization vehicle, and more importantly solves the problem of back and forth movement generated by a relative loading machine when a rear-end follow-up lifting conveyor is lifted, enables a rear-end lifting follow-up belt conveyor to be capable of stably moving back and forth, and improves the automation level of the fungus package production line.

Claims (9)

1. A flexible roller way machine which is characterized in that: two sliding rails (12) are arranged on the upper portion of the frame body (11) in front and at the back of one side of the output end, and pulleys (13) matched with the sliding rails (12) are arranged on the front side and the back side of the bottom of the telescopic moving vehicle (15) respectively; telescopic plate supports (111) are symmetrically arranged in front and back of the upper part of the frame body (11) at one side of the input end, upper side beams (119) are arranged on the telescopic plate supports (111) and the upper part of the input end frame body, driving rollers (118) and fixed rollers (116) are uniformly arranged between the front upper side beam (119) and the rear upper side beam (119), and one end of each driving roller (118) is connected with a driving motor (121); the front and the rear vehicle plates (17) are symmetrically provided with moving grooves (14), and the lower ends of outer extension plates (18) positioned at one end of the telescopic moving vehicle are fixed in the moving grooves (14) through moving bolts (110); a moving groove (14) is formed in the front and rear telescopic plate brackets (111) at a position corresponding to the moving groove in the vehicle plate (17), and the lower end of an inner telescopic plate (130) positioned on one side of the telescopic plate brackets (111) is arranged in the moving groove (14) of the telescopic plate brackets (111) through a moving bolt (110); the telescopic plates comprise outer telescopic plates (18) and inner telescopic plates (130), the inner telescopic plates (130) and the outer telescopic plates (18) are connected in pairs, the upper ends of the inner telescopic plates (130) and the outer telescopic plates (18) are fixed at the front end and the rear end of the roller (114), the lower ends of the inner telescopic plates (130) and the outer telescopic plates (18) are movably connected, and the intersection of the inner telescopic plates (130) and the outer telescopic plates (18) is movably connected; roller chains (117) are arranged outside the roller (114), the fixed roller (116) and the driving roller (118).
2. The telescoping roller bed machine according to claim 1, wherein: the telescopic trolley is characterized in that a lower connecting rod (113) is arranged between the lower ends of front and rear outer telescopic plates (18) at one end of the telescopic trolley, the lower ends of the outer telescopic plates (18) are fixed at the end parts of the lower connecting rod (113) through movable bolts (110), the outer telescopic plates (18) are arranged on the inner side of the trolley plate (17), the movable bolts (110) are arranged in movable grooves (14), shaft sleeves (132) are arranged outside the movable bolts (110), and the heights of the shaft sleeves (132) are larger than the thickness of the trolley plate (17) and protrude out of the inner side of the trolley plate (17).
3. The telescoping roller bed machine according to claim 1, wherein: be equipped with down connecting rod (113) between expansion plate (130) lower extreme in the front and back that is located expansion plate support (111) one end, interior expansion plate (130) lower extreme is fixed in lower connecting rod (113) tip through removal bolt (110), and interior expansion plate (130) are located expansion plate support (111) inboard, and removal bolt (110) are located shifting chute (14), and installation step type spacer (133) between expansion plate (130) and expansion plate support (111) are located to removal bolt (110) outside.
4. The telescoping roller bed machine according to claim 1, wherein: lower connecting rods (113) are arranged between lower connecting ends of the inner telescopic plates (130) and the outer telescopic plates (18) corresponding to the front side and the rear side of the frame, the lower connecting ends of the inner telescopic plates (130) and the outer telescopic plates (18) are fixed at the end parts of the lower connecting rods (113) through movable bolts (110), and the outer parts of the movable bolts (110) are located between the inner telescopic plates (130) and the outer telescopic plates (18) and are provided with spacer bushes (123).
5. The telescoping roller bed machine according to claim 1, wherein: an upper connecting rod (112) is arranged between the intersection of the inner telescopic plate (130) and the outer telescopic plate (18) corresponding to the front side and the rear side, and the intersection of the inner telescopic plate (130) and the outer telescopic plate (18) is fixed at the end part of the upper connecting rod (112) through a transition chain wheel (147) and a locking bolt (115); the upper ends of the inner telescopic plate (130) and the outer telescopic plate (18) are fixed at the end part of the roller (114) through a locking bolt (115) and a spacer bush (123).
6. The telescoping roller bed machine according to claim 1, wherein: the telescopic moving vehicle (15) is positioned at the outer side and is provided with a connecting rotating hinge shaft (19) connected with the lifting belt conveyor through a hinge shaft connecting angle plate (16).
7. The telescoping roller bed machine according to claim 1, wherein: the moving groove (14) is a long strip-shaped longitudinal groove.
8. The telescoping roller bed machine according to claim 1, wherein: pulley yoke (125) are installed to sweep (17) bottom inboard side, and two pulley axles (126) are installed on pulley yoke (125) and sweep (17) symmetry, and pulley axle (126) are gone up and are installed grooved pulley (13), and slide rail (12) are the square slide rail with groove phase-match of grooved pulley (13).
9. The telescoping roller bed machine according to claim 1, wherein: the front edge and the rear edge of the upper part of the frame body (11) are respectively provided with a front side cover plate (127) and a rear side cover plate (128).
CN202020924609.9U 2020-05-28 2020-05-28 Telescopic roller way machine Active CN213536117U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202020924609.9U CN213536117U (en) 2020-05-28 2020-05-28 Telescopic roller way machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202020924609.9U CN213536117U (en) 2020-05-28 2020-05-28 Telescopic roller way machine

Publications (1)

Publication Number Publication Date
CN213536117U true CN213536117U (en) 2021-06-25

Family

ID=76476140

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202020924609.9U Active CN213536117U (en) 2020-05-28 2020-05-28 Telescopic roller way machine

Country Status (1)

Country Link
CN (1) CN213536117U (en)

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