CN216944919U

CN216944919U - Double-layer circulating conveying line

Info

Publication number: CN216944919U
Application number: CN202220491189.9U
Authority: CN
Inventors: 张冬新; 沈坤
Original assignee: Suzhou Deji Automation Technology Co ltd
Current assignee: Suzhou Deji Automation Technology Co ltd
Priority date: 2022-03-09
Filing date: 2022-03-09
Publication date: 2022-07-12
Anticipated expiration: 2032-03-09

Abstract

The utility model relates to a double-layer circulating conveying line which comprises an upper-layer conveying belt assembly and a lower-layer conveying belt assembly, wherein two ends of the lower-layer conveying belt assembly are respectively provided with a jig circulating assembly, the upper-layer conveying belt assembly and the lower-layer conveying belt assembly are identical in structure, the upper-layer conveying belt assembly comprises a rack, a driving shaft arranged at one end of the rack, a driving belt wheel arranged on the driving shaft, a driven shaft arranged at the other end of the rack, a driven belt wheel arranged on the driven shaft, a conveying belt connected with the driven belt wheel and the driving belt wheel, and a traction motor arranged on the rack, and the jig circulating assembly comprises a vertical frame, a transverse sliding assembly, a lifting sliding assembly and a jig clamping jaw. According to the utility model, the upper-layer conveying belt assembly and the lower-layer conveying belt assembly are adopted to realize the circular operation of the jig, and the jig circulation assembly is used to realize the operation of the jig on the upper-layer conveying belt assembly and the lower-layer conveying belt assembly, so that the production efficiency of the conveying line is effectively improved, the use amount of the jig is reduced, and the automation degree is improved.

Description

Double-layer circulating conveying line

Technical Field

The utility model relates to a conveying line, in particular to a double-layer circulating conveying line.

Background

The conveying line is a common part of an automatic production line and is mainly used for circulating the part in each process. For the condition that the workpiece is small and needs to be accurately carried, a carrying jig is usually arranged on the conveying line. In order to work with each station, the jig is usually carried to each station position and needs to be suspended, and the jig needs to be reused. In order to solve the problems, the jigs must be recycled, the existing recycling method adopts the jigs to be collected in a centralized manner and then used, and the mode results in large using amount of the jigs, more occupied equipment and large investment.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model aims to provide a double-layer circulating conveyor line.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model provides a double-deck circulating transfer chain, includes upper conveyer belt subassembly, is located the lower floor's conveyer belt subassembly of upper conveyer belt subassembly below, lower floor's conveyer belt subassembly both ends respectively are equipped with a tool circulation subassembly, upper conveyer belt subassembly with lower floor's conveyer belt subassembly structure is the same, upper conveyer belt subassembly include the frame, set up in the driving shaft of frame one end, set up in driving epaxial driving pulley, set up in the driven shaft of the frame other end, set up in driven pulley on the driven shaft, connect driven pulley with driving pulley's conveyer belt, set up in the frame and main shaft with driving shaft's traction motor, tool circulation subassembly includes the grudging post, set up in the grudging post top and the slip direction is on a parallel with the horizontal slip subassembly of conveyer belt traffic direction, set up in the last lift slip subassembly of horizontal slip subassembly, And the jig clamping jaw is arranged at the sliding end of the lifting sliding assembly.

Above-mentioned design adopts upper conveyer belt subassembly and lower floor's conveyer belt subassembly to realize the tool at the circulation operation, utilizes tool circulation subassembly to realize the tool and effectively improve transfer chain production efficiency at the operation of upper conveyer belt subassembly and lower floor's conveyer belt subassembly, reduces the tool use amount, improves degree of automation.

As a further improvement of the design, two ends of the driving shaft are respectively provided with a driving belt wheel, two ends of the driven shaft are respectively provided with a driven belt wheel, and the conveying belt is connected with the driving belt wheel and the driven belt wheel at the same end of the driving shaft and the driven shaft. Be convenient for make tool both sides receive balanced traction force and set up tool subassembly of keeping in between the conveyer belt.

As a further improvement of the design, a jig temporary storage assembly is arranged between the two conveying belts, the jig temporary storage assembly comprises a temporary storage mounting frame, a temporary storage cylinder arranged on the temporary storage mounting frame, a tray arranged on a cylinder rod of the temporary storage cylinder, a material blocking cylinder arranged on the temporary storage mounting frame, a material blocking seat arranged on a cylinder rod of the material blocking cylinder, a material blocking arm rotationally connected with the material blocking seat, and an elastic piece arranged on the material blocking seat, wherein the rotation axis of the material blocking arm extends horizontally and is perpendicular to the feeding direction of the jig, the material blocking arm extends from the lower part of the other end in the feeding direction of the jig, the top of the elastic piece abuts against the bottom of one end of the material blocking arm, which deviates from the feeding direction of the jig, the top of the tray is provided with a positioning pin for positioning the jig, the tray is in a lower limiting state, and the top of the positioning pin is lower than the bottom of the jig, the tray is located upper limit position, the tray top is higher than upper conveyer belt top surface, keep off the material cylinder and be in the contraction state, keep off the material arm top and be fixed in tool location bottom, keep off the material cylinder and be in stretching out the state, keep off the material arm top and be higher than the tool bottom. Adopt and keep off the material cylinder drive and keep off the material arm lift, and keep off material arm elasticity and rotate the connection, effectively realize keeping off the material of tool and the buffering when keeping off the material, realize keeping in of tool through the tray that goes up and down.

As a further improvement of the design, the two sides of the upper layer conveying belt assembly and the two sides of the lower layer conveying belt assembly are both provided with guide strips extending along the running direction of the jig. The guide strip is convenient for to the accurate direction of tool.

As a further improvement of the design, the lifting sliding assembly is a screw linear sliding table, and the transverse sliding assembly comprises a sliding rail extending left and right, a rodless cylinder parallel to the sliding rail, and a sliding seat connected with the rodless cylinder and matched with the sliding rail. The lifting sliding assembly adopts the screw linear sliding table to realize the accurate control of the lifting height of the jig, the jig is convenient to stably place on the lower-layer conveyor belt assembly, the jig is accurately grabbed, the rodless cylinder is convenient for rapidly and transversely moving the jig, and the production efficiency is improved.

As a further improvement of the design, a detection support is arranged on the guide strip of the upper-layer conveying belt assembly, and a photoelectric sensor used for detecting workpieces on the jig is arranged on the detection support. The photoelectric sensor is convenient for rapidly detecting workpieces on the jig, and automation is realized.

As a further improvement of the design, the top end of the material blocking arm is provided with the roller, so that damping between the material blocking arm and the jig is reduced conveniently when the material blocking is started.

The utility model has the beneficial effects that: the jig circulation device adopts the upper-layer conveying belt assembly and the lower-layer conveying belt assembly to realize the circular operation of the jig, and adopts the jig circulation assembly to realize the operation of the jig on the upper-layer conveying belt assembly and the lower-layer conveying belt assembly, thereby effectively improving the production efficiency of the conveying line, reducing the use amount of the jig and improving the automation degree.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic side view of the jig circulation assembly provided at one end of the jig circulation assembly according to the present invention.

Fig. 2 is a schematic view of an overall three-dimensional structure of the jig circulation assembly provided at one end of the jig circulation assembly of the present invention.

Fig. 3 is a schematic perspective view of the jig circulation assembly of the present invention.

Fig. 4 is a schematic cross-sectional view of a temporary storage device of a jig according to the present invention.

In the figure, 1, an upper layer conveyor belt assembly, 2, a lower layer conveyor belt assembly, 3, a jig temporary storage assembly, 4, a jig circulation assembly, 5, a conveyor belt, 6, a driving shaft, 7, a guide strip, 8, a sliding seat, 9, a temporary storage mounting frame, 10, a positioning pin, 11, a driving belt wheel, 12, a traction motor, 13, a detection support, 14, a photoelectric sensor, 15, a sliding rail, 16, a screw linear sliding table, 17, a jig clamping jaw, 18, a vertical frame, 19, a rodless cylinder, 20, a frame, 21, a driven belt wheel, 22, a driven shaft, 23, a material blocking arm, 24, an elastic piece, 25, a material blocking seat, 26, a material blocking cylinder, 27, a roller, 28, a tray and 29 are arranged in a temporary storage cylinder.

Detailed Description

The present invention will now be described in detail with reference to the drawings and specific embodiments, wherein the exemplary embodiments and descriptions are provided only for the purpose of illustrating the present invention and are not to be construed as limiting the present invention.

Example (b): the utility model provides a double-deck circulating transfer chain, includes upper conveyer belt subassembly 1, is located lower floor's conveyer belt subassembly 2 of upper conveyer belt subassembly 1 below, 2 both ends of lower floor's conveyer belt subassembly respectively are equipped with a tool circulation subassembly 4, upper conveyer belt subassembly 1 with lower floor's conveyer belt subassembly 2 structure is the same, upper conveyer belt subassembly 1 includes frame 20, set up in driving shaft 6 of frame 20 one end, set up in driving pulley 11 on driving shaft 6, set up in the driven shaft 22 of the frame 20 other end, set up in driven pulley 21 on the driven shaft 22, connect driven pulley 21 with conveyer belt 5 of driving pulley 11, set up in frame 20 and main shaft and driving shaft 6 connection's traction motor 12, tool circulation subassembly 4 includes grudging post 18, set up in 18 tops of grudging post and the slip direction is on a parallel with the horizontal slip subassembly of conveyer belt 5 traffic direction, A lifting sliding component arranged on the transverse sliding component, and a jig clamping jaw 17 arranged at the sliding end of the lifting sliding component.

Above-mentioned design adopts upper conveyer belt subassembly 1 and lower floor's conveyer belt subassembly 2 to realize the tool in the circulation operation, utilizes tool circulation subassembly 4 to realize the tool in the operation of upper conveyer belt subassembly 1 and lower floor's conveyer belt subassembly 2, effectively improves transfer chain production efficiency, reduces the tool use amount, improves degree of automation.

As a further improvement of the design, two ends of the driving shaft 6 are respectively provided with a driving pulley 11, two ends of the driven shaft 22 are respectively provided with a driven pulley 21, and the conveyer belt 5 is connected with the driving pulley 11 and the driven pulley 21 at the same end of the driven shaft 22 and the driving shaft 6. So as to facilitate the two sides of the jig to receive balanced traction force and to arrange the temporary jig storage component 3 between the conveyer belts 5.

As a further improvement of the design, a tool temporary storage assembly 3 is arranged between the two conveyor belts 5, the tool temporary storage assembly 3 comprises a temporary storage mounting frame 9, a temporary storage cylinder 29 arranged on the temporary storage mounting frame 9, a tray 28 arranged on a cylinder rod of the temporary storage cylinder 29, a material blocking cylinder 26 arranged on the temporary storage mounting frame 9, a material blocking seat 25 arranged on a cylinder rod of the material blocking cylinder 26, a material blocking arm 23 rotatably connected with the material blocking seat 25, and an elastic member 24 arranged on the material blocking seat 25, wherein a rotation axis of the material blocking arm 23 horizontally extends and is perpendicular to the feeding direction of the tool, the material blocking arm 23 extends from the bottom of the other end in the feeding direction of the tool, the top of the elastic member 24 abuts against the bottom of one end of the material blocking arm 23 deviating from the feeding direction of the tool, and a positioning pin 10 for positioning the tool is arranged on the top of the tray 28, the tray 28 is in a lower limit state, the top of the positioning pin 10 is lower than the bottom of the jig, the tray 28 is in an upper limit position, the top of the tray 28 is higher than the top surface of the upper layer conveying belt 5, the material blocking cylinder 26 is in a contraction state, the top end of the material blocking arm 23 is fixed at the positioning bottom of the jig, the material blocking cylinder 26 is in an extension state, and the top of the material blocking arm 23 is higher than the bottom of the jig. Adopt and keep off the material cylinder 26 drive and keep off the material arm 23 lift, and keep off the material arm 23 elasticity and rotate the connection, effectively realize the fender material of tool and the buffering when keeping off the material, realize the temporary storage of tool through the tray 28 that goes up and down.

As a further improvement of the design, guide strips 7 extending along the running direction of the jig are arranged on both sides of the upper layer conveying belt assembly 1 and both sides of the lower layer conveying belt assembly. The guide strip 7 is convenient for accurately guiding the jig.

As a further improvement of the design, the lifting sliding assembly is a screw linear sliding table 16, and the transverse sliding assembly comprises a sliding rail 15 extending left and right, a rodless cylinder 19 parallel to the sliding rail 15, and a sliding seat 8 connected with the rodless cylinder 19 and matched with the sliding rail 15. The lifting sliding assembly adopts the screw linear sliding table 16 to realize the accurate control of the lifting height of the jig, the jig is convenient to stably place on the lower-layer conveyor belt assembly 2, the jig is accurately grabbed, the rodless cylinder 19 is convenient for rapidly and transversely moving the jig, and the production efficiency is improved.

As a further improvement of the design, a detection support 13 is arranged on the guide strip 7 of the upper-layer conveyor belt assembly 1, and a photoelectric sensor 14 for detecting a workpiece on the jig is arranged on the detection support 13. The photoelectric sensor 14 is convenient for rapidly detecting workpieces on the jig, and automation is realized.

As a further improvement of the design, the top end of the material blocking arm 23 is provided with a roller 27, so that damping between the material blocking arm 23 and a jig is reduced when the material blocking is started.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a double-deck circulating transfer chain, includes upper conveyer belt subassembly, is located lower floor's conveyer belt subassembly of upper conveyer belt subassembly below, its characterized in that, lower floor's conveyer belt subassembly both ends respectively are equipped with a tool circulation subassembly, upper conveyer belt subassembly with lower floor's conveyer belt subassembly structure is the same, upper conveyer belt subassembly include the frame, set up in the driving shaft of frame one end, set up in driving epaxial driving pulley, set up in the driven shaft of the frame other end, set up in driven epaxial driven pulley, connect driven pulley with driving pulley's conveyer belt, set up in the frame and main shaft with driving shaft's traction motor, tool circulation subassembly includes the grudging post, set up in the grudging post top and the slip direction are on a parallel with the horizontal slip subassembly of conveyer belt traffic direction, The lifting and sliding assembly is arranged on the transverse sliding assembly, and the jig clamping jaw is arranged at the sliding end of the lifting and sliding assembly.

2. The double-deck circulating conveyor line according to claim 1, wherein a driving pulley is provided at each end of said driving shaft, a driven pulley is provided at each end of said driven shaft, and said conveyor belt connects said driving pulley and said driven pulley at the same end of said driving shaft as said driven shaft.

3. The double-layer circulating conveying line according to claim 2, wherein a jig temporary storage assembly is arranged between the two conveying belts, the jig temporary storage assembly comprises a temporary storage mounting frame, a temporary storage cylinder arranged on the temporary storage mounting frame, a tray arranged on a cylinder rod of the temporary storage cylinder, a material blocking cylinder arranged on the temporary storage mounting frame, a material blocking seat arranged on a cylinder rod of the material blocking cylinder, a material blocking arm rotatably connected with the material blocking seat, and an elastic member arranged on the material blocking seat, wherein a rotating axis of the material blocking arm horizontally extends and is perpendicular to a feeding direction of a jig, the material blocking arm extends from the bottom of the lower part of the other end of the material blocking arm in the feeding direction of the jig, the top of the elastic member abuts against the bottom of one end of the material blocking arm, which deviates from the feeding direction of the jig, and the top of the tray is provided with a positioning pin for positioning the jig, the positioning pin is arranged on the tray, the positioning pin is arranged on the positioning pin, the positioning pin is arranged on the positioning pin, the tray, the positioning pin, the tray, the positioning pin, the tray is arranged on the positioning pin, the tray, the top, the tray, the stopping cylinder is arranged on the stopping cylinder, the stopping cylinder is arranged in an extended state, the stopping cylinder, the extended state, the stop, the stopping cylinder, the stop, the tray, the stopping cylinder, the stop, the tray, the stopping cylinder is in the stop, the tray, the stop, the tray, the stop arm, the tray, the stop, the tray, the.

4. The double-layer circulating conveyor line according to claim 1, wherein guide strips extending in the running direction of the jig are arranged on both sides of the upper layer conveyor belt assembly and both sides of the lower layer conveyor belt assembly.

5. The double-layer circulating conveying line according to claim 1, wherein the lifting sliding assembly is a lead screw linear sliding table, and the transverse sliding assembly comprises a slide rail extending left and right, a rodless cylinder parallel to the slide rail, and a slide seat connected with the rodless cylinder and matched with the slide rail.

6. The double-layer circulating conveying line as claimed in claim 4, wherein a detection bracket is arranged on the guide strip of the upper-layer conveying belt assembly, and a photoelectric sensor for detecting a workpiece on the jig is arranged on the detection bracket.

7. The double-layer circulating conveying line according to claim 3, wherein the top end of the material blocking arm is provided with a roller.