CN220595926U - Automatic multi-functional work or material rest of control - Google Patents

Abstract

The utility model relates to the technical field of material storage and transportation equipment, in particular to an automatically controlled multifunctional material rack, which comprises a frame, wherein the bottom end of the frame is connected with a multifunctional reinforcing base, a material rack assembly is arranged on the frame, the material rack assembly comprises a material guiding unit, the material guiding unit comprises fluent strips and recycling fluent strips, a plurality of fluent strips are respectively arranged at the side ends of the inner wall of the frame, the fluent strips form an angle with a horizontal plane, the fluent strips slide down along an inclined direction through the gravity of materials, and the recycling fluent strips are arranged below the fluent strips at the lowest end; the device wholly adopts multilayer structure, has increased kind and the quantity of required transportation part, has reduced the resource input of tractor in the production line simultaneously, and this device adopts automatic switching mechanism, has realized the recovery function of defective goods, defective products.

Description

Automatic multi-functional work or material rest of control

Technical Field

The utility model relates to the technical field of material storage and transportation equipment, in particular to an automatically controlled multifunctional material rack.

Background

In recent years, with the development of intelligent manufacturing technology in industrial fields, enterprises of various large-scale mechanical equipment and production and manufacture gradually manage in a workshop unmanned direction, so that the transportation of various materials and products is involved, defective products and defective products cannot be completely guaranteed to be produced in various processes of a production line, the defective products and the defective products are recovered in a limited space for logistics under the premise of unmanned management, meanwhile, the line-side wiring pressure of parts is very high, the investment of resources such as a tractor is greatly increased, and therefore, the technical significance of realizing low-cost and multifunctional material storage transportation equipment in the limited space is great.

Therefore, it is necessary to invent an automatically controlled multifunctional work or material rest.

Disclosure of Invention

Therefore, the utility model provides an automatically controlled multifunctional material rack to solve the problem of how to realize low-cost and multifunctional material storage and transportation in a limited space.

In order to achieve the above object, the present utility model provides the following technical solutions: the utility model provides an automatic multi-functional work or material rest of control, includes the frame, the bottom of frame is connected with multi-functional enhancement base, install the work or material rest subassembly on the frame, the work or material rest subassembly includes:

the material guiding unit comprises fluent strips and recycling fluent strips, a plurality of fluent strips are respectively arranged at the side ends of the inner wall of the frame, the fluent strips form an angle with the horizontal plane, the material slides down along the inclined direction by the gravity of the material, and the recycling fluent strips are arranged below the fluent strips at the lowest end;

the transmission unit comprises a first conveying line, a second conveying line, a third conveying line and a fourth conveying line, the structures of the first conveying line, the second conveying line, the third conveying line and the fourth conveying line are the same, the first conveying line, the second conveying line, the third conveying line and the fourth conveying line are all fixed on the inner wall of the frame according to the sequence from top to bottom, and the first conveying line, the second conveying line, the third conveying line and the fourth conveying line are all corresponding to the positions of the set fluency strips and the recovery fluency strips;

the infrared sensors are respectively arranged on a first conveying line, a second conveying line, a third conveying line and a fourth conveying line.

Preferably, the number of fluency strips is three, each fluency strip is three, the first conveying line, the second conveying line and the third conveying line are corresponding to the positions of the fluency strips in three groups, the number of fluency strips is three, the fourth conveying line is located at the corresponding position with the fluency strips, and the inclination directions of the fluency strips and the fluency strips in three groups are opposite.

Preferably, the frame is lean pipe, a plurality of lean pipes are spliced and connected through outer straight connectors, outer 90-degree connectors and outer cross connectors, and the fluent strip, the recycling fluent strip, the first conveying line, the second conveying line, the third conveying line and the fourth conveying line are all connected with the lean pipe at the corresponding positions.

Preferably, the fluent strip is kept away from one side of a conveying line and a fourth conveying line with the recovered fluent strip and is provided with a fluent strip fixing buckle, the fluent strip and the recovered fluent strip are both fixedly buckled with a side end through the fluent strip fixing buckle, the first conveying line comprises a belt, a motor, a conveying line driven shaft, a conveying line driving shaft and a side fixing strip, the belt is arranged on the conveying line driven shaft and the conveying line driving shaft, the bottom end of the outer wall of the conveying line driven shaft and the outer wall of the conveying line driving shaft is fixedly connected with the outer wall of the lean pipe supported by the frame, the conveying line driving shaft is arranged on one side close to the fluent strip and the recovered fluent strip, a plurality of motors are fixedly connected with one side of the conveying line driving shaft, and the output shaft of the motor is fixedly connected with one end of the conveying line driving shaft.

Preferably, the frame is located the fluent strip and retrieves the below of fluent strip and is close to the one end of belt and install fluent strip mounting, a plurality of fluent strip and retrieve the outer wall bottom of fluent strip all with the outer wall top sliding connection of fluent strip mounting of corresponding position, be fixed with the side fixed strip between transfer chain driven shaft and the transfer chain driving shaft and be located the both sides of belt, side fixed strip outer wall top all is fixed with the material deflector that leads the material usefulness, infrared sensor installs on the side fixed strip, arbitrary the card material cylinder mounting panel is installed on the outer wall top of material deflector, card material cylinder is installed on the outer wall top of card material cylinder mounting panel and is close to belt one side.

Preferably, the outer wall of frame just is located the below of No. four transfer chains and is fixed with the lift cylinder mounting panel, equal sliding connection of lower extreme corner has the lift cylinder stand pipe about the outer wall of lift cylinder mounting panel, the outer wall upper end of lift cylinder stand pipe all passes the outer wall top of lift cylinder mounting panel and is fixed with extension board a, the outer wall top of extension board a is fixed with the outer wall bottom both sides of lift cylinder stand pipe.

Preferably, the lifting cylinder is installed at the center of the bottom end of the outer wall of the lifting cylinder mounting plate, the top output end of the lifting cylinder penetrates through the top end of the outer wall of the lifting cylinder mounting plate and is fixed with a support plate b, and the top end of the outer wall of the support plate b is fixed with the bottom end of the outer wall of the support plate a.

Preferably, the electromagnetic valve group is installed to outer wall bottom and the one side that is located the lift cylinder of lift cylinder mounting panel, the output of electromagnetic valve group passes through the cable and is connected with the signal access end of lift cylinder, travel switch is installed to outer wall front end one side of No. four transfer chains.

Preferably, the line concentration box is installed to outer wall front end one side of frame, motor, solenoid valve group and card material cylinder are all connected with the output of line concentration box through control cable.

The beneficial effects of the utility model are as follows:

the utility model mainly aims at the automatic and unmanned production line which is developed vigorously at present; the device integrally adopts a multi-layer structure, so that the variety and the number of parts required to be transported are increased, and meanwhile, the resource investment of tractors in a production line is reduced; the device adopts automatic switching mechanism, has realized the recovery function of defective goods, defective products, and the device supports according to different demands, changes relevant module, realizes custom application.

Drawings

FIG. 1 is a front perspective view of the present utility model;

FIG. 2 is a schematic view of a rear view of the present utility model;

fig. 3 is an enlarged schematic view of the structure of fig. 1 a according to the present utility model.

In the figure: 100. a frame; 200. a multifunctional reinforcing base; 300. a belt; 400. an outer straight joint; 500. a 90-degree joint is embraced outwards; 600. an external holding cross joint; 700. a material guide plate; 800. a clamping cylinder; 900. a motor; 910. an infrared sensor; 110. a line concentration box; 120. a fluent strip flange wheel; 130. fluent strips; 140. recovering the fluent strip flange wheel; 150. recovering fluent strips; 160. fluent strip fixing buckle; 170. a fluent strip fixing member; 180. a lifting cylinder; 190. a driven shaft of the conveying line; 210. a driving shaft of the conveying line; 220. a side fixing strip; 310. a clamping cylinder mounting plate; 320. a travel switch; 330. an electromagnetic valve group; 340. a lifting cylinder mounting plate; 350. a first conveying line; 360. a second conveying line; 370. a third conveying line; 380. a fourth conveying line; 390. lifting cylinder guide tube.

Detailed Description

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

Referring to fig. 1-3, the automatically controlled multifunctional material rack provided by the utility model comprises a frame 100, wherein the frame 100 is a lean pipe, a plurality of lean pipes are spliced and connected through an outer straight joint 400, an outer 90-degree joint 500 and an outer cross joint 600, the bottom end of the frame 100 is connected with a multifunctional reinforcing base 200, the multifunctional reinforcing base 200 is used for supporting the bottom end of the frame 100, and the multifunctional reinforcing base 200 is formed by processing a thick iron plate, so that the contact area with the ground is larger, and the stability of the material rack is ensured; the installation position of the universal wheel is reserved, the multifunctional application is realized, meanwhile, the lean pipe material is aluminum alloy, the lean pipe material is formed by fixedly constructing an outer straight joint 400, an outer 90-degree joint 500 and an outer cross joint 600 of various types, the anti-corrosion and rust-proof effects can be realized, other parts can be fast connected and fastened, the frame 100 is provided with four layers of structures, the upper three layers are used as raw material layers, the bottommost layer is used as a recovery layer, the frame 100 is provided with a material frame assembly, the material frame assembly comprises a material guiding unit, the material guiding unit comprises fluent strips 130 and recovery fluent strips 150, the fluent strips 130 are respectively arranged at the side ends of the inner wall of the frame 100, the set fluent strips 130 are formed by arranging a plurality of rollers on the same guide strip, the rollers selected on the fluent strips 130 at two sides are fluent strip flange wheels 120, the material conveyed by the fluent strip 130 can be caused to deviate, the obliquely arranged fluent strip 130 can convey the material by utilizing the gravity of the material through the roller, the fluent strip 130 forms an angle with the horizontal plane, the material slides down along the oblique direction by the gravity of the material, the degree between the fluent strip 130 and the horizontal plane is 15 degrees to 30 degrees, the recovery fluent strip 150 is arranged below the lowest fluent strip 130, the recovery fluent strip 150 is arranged for discharging the residual material, the structure of the recovery fluent strip 150 is the same as that of the fluent strip 130, the rollers selected by the recovery fluent strip 150 at two sides are the recovery fluent strip flange wheels 140, the number of the fluent strips 130 is three, the number of the fluent strips 130 of each group is three, the first conveying line 350, the second conveying line 360 and the third conveying line 370 are corresponding to the positions of the three groups of fluent strips 130, the number of the recycling stream strip 150 is three, the fourth conveying line 380 and the recycling stream strip 150 are positioned at the corresponding positions, the inclination directions of the recycling stream strip 150 and the three groups of stream strip flange wheels 120 are opposite, the recycling stream strip 150 is arranged to take out recycling materials, and the stream strip 130, the recycling stream strip 150, the first conveying line 350, the second conveying line 360, the third conveying line 370 and the fourth conveying line 380 are all connected with lean pipes at the corresponding positions;

the transmission unit comprises a first conveying line 350, a second conveying line 360, a third conveying line 370 and a fourth conveying line 380, wherein the structures of the first conveying line 350, the second conveying line 360, the third conveying line 370 and the fourth conveying line 380 are the same, the first conveying line 350, the second conveying line 360, the third conveying line 370 and the fourth conveying line 380 are all fixed on the inner wall of the frame 100 according to the sequence from top to bottom, the first conveying line 350, the second conveying line 360, the third conveying line 370 and the fourth conveying line 380 correspond to the positions of the fluency strips 130 and the recovery fluency strips 150, fluency strip fixing buckles 160 are arranged on one sides of the fluency strips 130 and the recovery fluency strips 150 away from the first conveying line 350 and the fourth conveying line 380, the fluency strips 130 and the recovery fluency strips 150 are all connected with the outer walls of the side-end lean tubes through the fluency strip fixing buckles 160, and personnel can adjust the distance between the fluent strip 130 and the recycling fluent strip 150 according to the requirement of conveying materials, so that materials with more sizes can be conveyed, the first conveying line 350 comprises a belt 300, a motor 900, a conveying line driven shaft 190, a conveying line driving shaft 210 and a side fixing strip 220, the belt 300 is arranged on the conveying line driven shaft 190 and the conveying line driving shaft 210, the bottom ends of the outer walls of the conveying line driven shaft 190 and the conveying line driving shaft 210 are both fixed with the outer wall of a lean pipe supported by the frame 100, the conveying line driving shaft 210 is arranged at one side close to the fluent strip flange wheel 120 and the recycling fluent strip flange wheel 140, a plurality of motors 900 are fixed at one side of the conveying line driving shaft 210, the output shafts of the motors 900 are fixedly connected with one end of the conveying line driving shaft 210, and particularly, the arranged motors 900 can drive the conveying line driving shaft 210 to rotate after being electrified, the conveyor line driving shaft 210 can be matched with the conveyor line driven shaft 190 to rotate the belt 300 when rotating, so that the belt 300 can discharge materials conveyed by the fluent strips 130, the optional motor 900 can rotate forward and backward, the frame 100 is positioned below the fluent strips 130 and the recovery fluent strips 150, one end, close to the belt 300, is provided with the fluent strip fixing piece 170, the bottom ends of the outer walls of the fluent strips 130 and the recovery fluent strips 150 are both in sliding connection with the top ends of the outer walls of the fluent strip fixing pieces 170 at corresponding positions, the fluent strip fixing pieces 170 are arranged to support the bottom ends of the fluent strips 130 and the recovery fluent strips 150, the top ends of the outer walls of the fluent strip fixing pieces 170 are provided with sliding grooves at the connection positions of the fluent strips 130 and the recovery fluent strips 150, the bottom ends of the fluent strips 130 and the recovery fluent strips 150 can slide in the sliding grooves through sliding blocks, the fluent strip fixing member 170 supports the bottoms of the fluent strip 130 and the recovered fluent strip 150, and meanwhile, the positions of the fluent strip 130 and the recovered fluent strip 150 are not blocked by personnel, the side fixing strips 220 are fixed between the conveyor line driven shaft 190 and the conveyor line driving shaft 210 and positioned at two sides of the belt 300, the side fixing strips 220 are arranged to guide materials conveyed by the belt 300 and protect the conveyor line driven shaft 190 and the conveyor line driving shaft 210, the top ends of the outer walls of the side fixing strips 220 are respectively fixed with a material guide plate 700 for guiding materials, the infrared sensors 910, a plurality of infrared sensors 910 are respectively arranged on the first conveyor line 350, the second conveyor line 360, the third conveyor line 370 and the fourth conveyor line 380, the infrared sensors 910 are arranged to judge whether the materials are in place or not, and the infrared sensors 910 can adopt ohm-dragon photoelectric switches, the sensor brands such as a dock, a proximity switch, an RFID, a Hall sensor and the like can be replaced according to actual demands, the installation distance between two adjacent infrared sensors 910 is the length of a product tray, simultaneously, three infrared sensors 910 are respectively installed on a first conveying line 350 and a second conveying line 360, two infrared sensors 910 are installed on a third conveying line 370, one infrared sensor 910 is installed on a fourth conveying line 380, the infrared sensors 910 are installed on a side fixing strip 220, a clamping cylinder installing plate 310 is installed at the top end of the outer wall of any material guide plate 700, a clamping cylinder 800 is installed at the top end of the outer wall of the clamping cylinder installing plate 310 and close to one side of a belt 300, and the arranged clamping cylinder 800 is installed at a discharge port of the device and used for supporting excessive materials, so that incorrect material feeding quantity is avoided, a worker drives a driving shaft 210 of the conveying line and the belt 300 to rotate to convey materials on a fluent strip 130 to the belt 300 through setting the quantity of orders in advance, the belt 300 can convey the materials out, and after the required last materials leave the belt 300, the clamping cylinder 800 is prevented from being clamped by a control line 110;

the outer wall of the frame 100 and the lower part of the fourth conveying line 380 are fixedly provided with lifting cylinder mounting plates 340, corners of the upper end and the lower end of the outer wall of the lifting cylinder mounting plates 340 are slidably connected with lifting cylinder guide pipes 390, the upper ends of the outer walls of the lifting cylinder guide pipes 390 penetrate through the top ends of the outer walls of the lifting cylinder mounting plates 340 and are fixedly provided with support plates a, the top ends of the outer walls of the support plates a are fixed with the two sides of the bottom ends of the outer walls of the lifting cylinder guide pipes 390, the arranged lifting cylinder guide pipes 390 can support the fourth conveying line 380 at the bottommost position through the support plates a, the function of conveying materials by the clamping cylinder 800 is not influenced, meanwhile, the lifting cylinder guide pipes 390 can also play a role of guiding the upward movement of the fourth conveying line 380, the lifting cylinder 180 is arranged at the center of the bottom ends of the outer walls of the lifting cylinder mounting plates 340, the top output end of the lifting cylinder 180 passes through the top end of the outer wall of the lifting cylinder mounting plate 340 and is fixed with a support plate b, the top end of the outer wall of the support plate b is fixed with the bottom end of the outer wall of the support plate a, the lifting cylinder 180 can push the No. four conveying line 380 to move up and down under the control of the line concentration box 110 through the output end of the lifting cylinder and the support plate b, when a person needs to convey materials by the No. three conveying line 370, the No. four conveying line 380 can be pushed upwards to flush with the No. three conveying line 370, so that the No. three conveying line 370 and the No. four conveying line 380 can convey the materials on the fluent strip 130 at the position corresponding to the No. three conveying line 370, and when the residual materials need to be recovered, the person can control the lifting cylinder 180 to enable the No. four conveying line 380 to move downwards to flush with the recovered fluent strip 150, and then the residual materials conveyed by the No. three conveying line 370 can drop on the No. four conveying line 380, the belt 300 on the fourth conveying line 380 rotates reversely to guide out materials through the recycling fluent strip 150, the electromagnetic valve bank 330 is installed at the bottom end of the outer wall of the lifting cylinder mounting plate 340 and located at one side of the lifting cylinder 180, the output end of the electromagnetic valve bank 330 is connected with the signal access end of the lifting cylinder 180 through a cable, the electromagnetic valve bank 330 is arranged to enable the line concentration box 110 to control the telescopic travel of the conveying line driven shaft 190, the travel switch 320 is installed at one side of the front end of the outer wall of the fourth conveying line 380, the travel switch 320 is arranged to play a role in limiting and position calibration of the fourth conveying line 380, the line concentration box 110 is installed at one side of the front end of the outer wall of the frame 100, the motor 900, the electromagnetic valve bank 330 and the material clamping cylinder 800 are all connected with the output end of the line concentration box 110 through control cables, the line concentration box 110 is a PLC controller of the model S7-1200, the PLC controller obtains signals of the infrared sensor 910, and various executing elements are controlled to perform corresponding actions through further processing of the signals by the CPU.

The application process of the utility model is as follows: firstly, when a person needs to transport materials by the third conveyor line 370, the output end of the lifting cylinder 180 is controlled to stretch through the line concentration box 110 and the electromagnetic valve group 330, so that the fourth conveyor line 380 moves downwards to be flush with the third conveyor line 370, and at the moment, the rotation direction of the fourth conveyor line 380 is the same as that of the third conveyor line 370, then the person can input the blanking quantity of the materials by the control unit, and then the person can place the materials on the three groups of fluent strips 130, the materials roll on the fluent strips 130 by the weight of the person and fall on the belt 300, the motor 900 is arranged to drive the belt 300 to rotate through the conveyor line driving shaft 210, the belt 300 can transport the materials, the infrared sensor 910 arranged during transport can count the materials, and when the infrared sensor 910 measures that the last material passes, the set line concentration box 110 controls the output end of the material clamping cylinder 800 to stretch, so that the belt 300 is prevented from continuously transporting the materials;

when the personnel need to discharge the defective materials, the output end of the lifting cylinder 180 drives the fourth conveying line 380 to move downwards to be flush with the position of the recycling fluent strip 150 through the line concentration box 110 and the electromagnetic valve bank 330, the motor 900 on the fourth conveying line 380 is controlled to drive the belt 300 to rotate reversely, the worker only needs to place the defective materials on the fluent strip 130 corresponding to the third conveying line 370, then the defective materials conveyed by the third conveying line 370 can fall on the fourth conveying line 380, and the belt 300 on the fourth conveying line 380 rotates reversely to guide the materials out through the recycling fluent strip 150, so that the purpose of intensively recycling the materials to be recycled in the defective materials is achieved.

The above description is of the preferred embodiments of the present utility model, and any person skilled in the art may modify the present utility model or make modifications to the present utility model with the technical solutions described above. Therefore, any simple modification or equivalent made according to the technical solution of the present utility model falls within the scope of the protection claimed by the present utility model.

Claims (9)

1. The utility model provides an automatic multi-functional work or material rest of control, includes frame (100), the bottom of frame (100) is connected with multi-functional enhancement base (200), its characterized in that: a frame (100) having a material rack assembly mounted thereon, the material rack assembly comprising:

the material guiding unit comprises fluency strips (130) and recycling fluency strips (150), a plurality of fluency strips (130) are respectively arranged at the side ends of the inner wall of the frame (100), the fluency strips (130) form an angle with the horizontal plane, the fluency strips slide down along the inclined direction through the gravity of materials, and the recycling fluency strips (150) are arranged below the fluency strips (130) at the lowest end;

the transmission unit comprises a first conveying line (350), a second conveying line (360), a third conveying line (370) and a fourth conveying line (380), the structures of the first conveying line (350), the second conveying line (360), the third conveying line (370) and the fourth conveying line (380) are all the same, the first conveying line (350), the second conveying line (360), the third conveying line (370) and the fourth conveying line (380) are all fixed on the inner wall of the frame (100) according to the sequence from top to bottom, and the first conveying line (350), the second conveying line (360), the third conveying line (370) and the fourth conveying line (380) are all corresponding to the positions of the set fluency strips (130) and the recovery fluency strips (150);

the infrared sensors (910), a plurality of infrared sensors (910) are respectively installed on a first conveying line (350), a second conveying line (360), a third conveying line (370) and a fourth conveying line (380).

2. An automatically controlled multifunctional work or material rest according to claim 1, characterized in that: the number that fluency strip (130) set up is three, every group fluency strip (130) set up the number is three, no. one transfer chain (350), no. two transfer chains (360) and No. three transfer chains (370) all correspond with the position of three fluency strip (130) of group, retrieve fluency strip (150) set up the number is three, no. four transfer chains (380) are in corresponding position department with retrieving fluency strip (150), retrieve fluency strip (150) and three groups the inclination of fluency strip (130) is opposite.

3. An automatically controlled multifunctional work or material rest according to claim 1, characterized in that: the frame (100) is a lean pipe, a plurality of lean pipes are assembled and connected through an outer straight joint (400), an outer 90-degree joint (500) and an outer cross joint (600), and the fluent strip (130), the recovery fluent strip (150), a first conveying line (350), a second conveying line (360), a third conveying line (370) and a fourth conveying line (380) are all connected with the lean pipe at the corresponding positions.

4. An automatically controlled multifunctional work or material rest according to claim 3, characterized in that: the utility model provides a smooth strip (130) and retrieve smooth strip (150) and keep away from one side of transfer chain (350) and No. four transfer chain (380) and all install smooth strip fixed buckle (160), smooth strip (130) and retrieve smooth strip (150) all pass through smooth strip fixed buckle (160) and side the outer wall sliding connection of lean tube, no. one transfer chain (350) including belt (300), motor (900), transfer chain driven shaft (190), transfer chain driving shaft (210) and side fixed strip (220), install on transfer chain driven shaft (190) and transfer chain driving shaft (210) belt (300), transfer chain driven shaft (190) and transfer chain driving shaft (210) outer wall bottom all are fixed with the outer wall of the lean tube of the support of frame (100), transfer chain driving shaft (210) set up in the one side that is close to smooth strip (130) and retrieve smooth strip (150), a plurality of motor (900) are fixed in one side of transfer chain (210), the output shaft of motor (900) and the fixed connection of transfer chain driving shaft (210).

5. An automatically controlled multifunctional work or material rest according to claim 4, wherein: the frame (100) is located the below of fluent strip (130) and retrieving fluent strip (150) and is close to one end of belt (300) and install fluent strip mounting (170), a plurality of fluent strip (130) and retrieve outer wall bottom of fluent strip (150) all with the outer wall top sliding connection of fluent strip mounting (170) of corresponding position, be fixed with side fixed strip (220) between transfer chain driven shaft (190) and transfer chain driving shaft (210) and be located the both sides of belt (300), side fixed strip (220) outer wall top all is fixed with material deflector (700) that the guide was used, infrared sensor (910) are installed on side fixed strip (220), arbitrary card material cylinder mounting panel (310) are installed on the outer wall top of material deflector (700), card material cylinder (800) are installed on outer wall top and one side close to belt (300) of card material cylinder mounting panel (310).

6. An automatically controlled multifunctional work or material rest according to claim 5, wherein: the outer wall of frame (100) and be located the below of No. four transfer chain (380) and be fixed with lift cylinder mounting panel (340), the equal sliding connection of outer wall upper and lower extreme corner of lift cylinder mounting panel (340) has lift cylinder stand pipe (390), the outer wall upper end of lift cylinder stand pipe (390) all passes the outer wall top of lift cylinder mounting panel (340) and is fixed with extension board a, extension board a's outer wall top and lift cylinder stand pipe (390) outer wall bottom both sides are fixed.

7. An automatically controlled multifunctional work or material rest according to claim 6, wherein: lifting cylinder (180) are installed at outer wall bottom center department of lifting cylinder mounting panel (340), the top output of lifting cylinder (180) passes outer wall top of lifting cylinder mounting panel (340) and is fixed with extension board b, extension board b's outer wall top all with extension board a's outer wall bottom mounting.

8. An automatically controlled multifunctional work or material rest according to claim 7, wherein: the electromagnetic valve group (330) is installed to outer wall bottom and the one side that is located lift cylinder (180) of lift cylinder mounting panel (340), the output of electromagnetic valve group (330) is connected with the signal access end of lift cylinder (180) through the cable, travel switch (320) are installed to outer wall front end one side of No. four transfer chain (380).

9. An automatically controlled multifunctional work or material rest according to claim 8, wherein: the wire collecting box (110) is installed on one side of the front end of the outer wall of the frame (100), and the motor (900), the electromagnetic valve group (330) and the clamping cylinder (800) are connected with the output end of the wire collecting box (110) through control cables.