CN212981318U - Clout storage frame - Google Patents

Abstract

The utility model relates to a clout storage frame, it includes frame, slide elevating system, slide horizontal migration mechanism and conveying platform, from last down installing a plurality of slide in proper order in the frame, the design of frame one side has the feed/discharge gate and this side of slide to install slide elevating system, slide horizontal migration mechanism slidable mounting is in slide elevating system from top to bottom, and conveying platform is installed to slide horizontal migration mechanism below. The material taking device has the advantages of simple design, convenience in use and convenience in timely storage of excess materials and material taking when the excess materials are reused.

Description

Clout storage frame

Technical Field

The utility model relates to a sponge processing machinery technical field, concretely relates to clout storage frame.

Background

When sponge raw material block cut processing through the sponge cutting machine in the past, some clouts produced, and these clouts are carried away once more very inconveniently, throw away then more extravagant, in order to guarantee that the clout utilizes conveniently, need an auxiliary assembly at present.

Disclosure of Invention

In order to solve the problem, the utility model provides a clout storage frame, the design is simple, convenient to use, and the clout of being convenient for is in time stored and gets the material when using once more.

The technical scheme of the utility model:

the utility model provides a clout storage frame, it includes frame, slide elevating system, slide horizontal migration mechanism and conveying platform, from last down installing a plurality of slide in proper order in the frame, frame one side design has the advance/discharge gate and this side of slide to install slide elevating system, slide horizontal migration mechanism slidable mounting is from top to bottom in slide elevating system, conveying platform is installed to slide horizontal migration mechanism below.

The frame include left frame and right frame, left frame and right frame erect the installation respectively, a plurality of L type extension board is installed to left frame inboard, and right frame inboard corresponds left frame also one-to-one design and installs a plurality of L type extension board, two L type extension boards of left frame and right frame on same horizontal plane form the slide rail, but slide slidable mounting forms on the slide rail at two L type extension boards, and one side of left frame and right frame is connected through a plurality of stulls, and the opposite side of left frame and right frame forms the business turn over/discharge gate of slide.

Slide elevating system include four balladeur trains, a slide rail, a slide block, the band pulley, a belt, a rotating shaft, lift driving motor, four balladeur trains are first balladeur train respectively, the second balladeur train, third balladeur train and fourth balladeur train, four vertical installations of balladeur train just are the tetragonal form, first balladeur train and second balladeur train correspond respectively and install the left and right sides position at the advance/discharge gate of frame, third balladeur train and fourth balladeur train are then installed subaerial through the pillar of two, vertical installation has the slide rail on four balladeur trains respectively, the upper and lower both ends of four balladeur trains are respectively rotatory to be installed band pulley and belt and are walked around from two upper and lower band pulley outsides, the belt is located slide rail one side, slider one side fixed connection belt, lift driving motor is installed to second balladeur train and fourth balladeur train lower extreme one side, the band pulley of lift driving motor drive The lower end between the third sliding frame and the fourth sliding frame is also provided with a synchronous rotating shaft, and the two ends of the synchronous rotating shaft are respectively connected with the belt wheel at the lower end of the third sliding frame and the fourth sliding frame; the sliding plate horizontal moving mechanism comprises two cross frames, wherein two ends of one cross frame are respectively and correspondingly arranged on the sliding blocks of the first sliding frame and the third sliding frame, and two ends of the other cross frame are respectively and correspondingly arranged on the sliding blocks of the second sliding frame and the fourth sliding frame.

Slide horizontal migration mechanism include two crossbearers, layer board, sprocket, chain, shifting block and shifting block motor, two crossbearers correspond slidable mounting respectively in slide elevating system both sides, the layer board is all installed to two crossbearers lower extreme, two layer boards are installed in opposite directions and are formed the pallet frame that supports the slide, the sprocket is installed respectively at the both ends of crossbearer, the chain is installed on two sprockets, one of them sprocket design has the shifting block motor to be installed on the crossbearer and shifting block motor drive connects this sprocket, the shifting block is installed in the chain outside, the both sides of slide have the square steel frame respectively to design, the square steel frame outside is close to both ends position and opens and has the square groove that supplies shifting block male.

The slide include square steel frame and diaphragm, two square steel frame parallel mount evenly install a plurality of diaphragm between and, the both ends of diaphragm are connected with the square steel frame inboard respectively, the outside of two square steel frames is close to both ends position and opens respectively and has the square chest.

Conveying platform include the conveyer belt, the carriage, the foot rest, the band pulley, the take-up pulley, the action wheel, conveying motor and connecting axle, evenly install a plurality of carriage on the foot rest, the band pulley is installed respectively at the both ends of every carriage, the action wheel is installed through the connecting plate to every carriage lower extreme, the take-up pulley design has two and two to install respectively on carriage or connecting plate and lie in action wheel top both sides, the conveyer belt walks around and two take-up pulleys top in the conveyer belt outside from the band pulley at both ends and the action wheel outside, the action wheel of adjacent carriage lower extreme passes through the connecting axle and links to each other, it has conveying motor to install on the connecting plate to lie in outside carriage lower extreme, conveying motor.

The upper ends of the first sliding frame and the third sliding frame are connected through a frame, the upper ends of the second sliding frame and the fourth sliding frame are also connected through a frame, a feed port/discharge port is formed between the first sliding frame and the third sliding frame, a discharge port/feed port is correspondingly formed between the second sliding frame and the fourth sliding frame, and the third sliding frame and the fourth sliding frame are fixedly connected through a plurality of connecting rods.

The edge part of the lower end of the L-shaped support plate is provided with an upward inclined flange, the side of the L-shaped support plate close to the material inlet/outlet is provided with a notch, and the lower end of the notch is provided with a contact switch.

The edge part of the supporting plate is provided with a flanging which inclines upwards.

The plurality of transverse plates form gaps, and the plurality of conveying frames are correspondingly positioned in the gaps formed among the plurality of transverse plates.

The utility model has the advantages of simple design, convenient to use gets the material when the clout of being convenient for in time stores and uses once more.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a schematic front view of the present invention.

Fig. 3 is a left side view schematically illustrating the present invention.

Fig. 4 is a schematic top view of the present invention.

Fig. 5 is a partially enlarged schematic view of the slide plate lifting mechanism of the present invention.

Fig. 6 is a partially enlarged schematic view of the horizontal movement mechanism of the slide plate according to the present invention.

Fig. 7 is a schematic partial sectional view of the conveying platform of the present invention.

Detailed Description

Referring to the attached drawings 1-7, the excess material storage rack comprises a frame 1, a sliding plate 2, a sliding plate lifting mechanism 3, a sliding plate horizontal moving mechanism 4 and a conveying platform 5, wherein a plurality of sliding plates 2 are sequentially arranged in the frame 1 from top to bottom, a material inlet/outlet port 10 of the sliding plate 2 is designed on one side of the frame 1, the sliding plate lifting mechanism 3 is arranged on the side of the frame 1, the sliding plate horizontal moving mechanism 4 can be vertically and slidably arranged in the sliding plate lifting mechanism 3, and the conveying platform 5 is arranged below the sliding plate horizontal moving mechanism 4.

Frame 1 include left frame 11 and right frame 12, left frame 11 and right frame 12 erect the installation respectively, and a plurality of L type extension board 13 is installed to left frame 11 inboard, and a plurality of L type extension board 13 is installed to right frame 12 inboard corresponding left frame 11 also one-to-one design, two L type extension boards 13 of left frame 11 and right frame 12 on same horizontal plane form the slide rail, but slide 2 slidable mounting forms on the slide rail at two L type extension boards 13, and one side of left frame 11 and right frame 12 is connected through a plurality of studders, and the opposite side of left frame 11 and right frame 12 forms the business turn over/discharge gate 10 of slide 2. A plurality of layers are designed in the framework and used for placing the sliding plate, and the distance between every two layers can be designed in different ways, so that the sponge blocks with different heights can be placed.

The sliding plate lifting mechanism 3 comprises four sliding frames, a sliding rail, a sliding block 35, belt wheels, a belt 30, a synchronous rotating shaft and a lifting driving motor 36, wherein the four sliding frames are respectively a first sliding frame 31, a second sliding frame 32, a third sliding frame 33 and a fourth sliding frame 34, the four sliding frames are vertically arranged and are in a tetragonal shape, the first sliding frame 31 and the second sliding frame 32 are respectively and correspondingly arranged at the left side and the right side of the inlet/outlet port 10 of the frame 1, the third sliding frame 33 and the fourth sliding frame 34 are arranged on the ground through two supporting columns, the four sliding rails are respectively and vertically arranged on the four sliding frames, the upper end and the lower end of each sliding frame are respectively and rotatably provided with a belt wheel, the belt is wound around the outer sides of the upper belt wheel and the lower belt wheel, the belt is positioned at one side of the sliding rail, one side of the sliding block 35 is fixedly connected with the belt, a synchronous rotating shaft 37 is arranged at the lower end between the first sliding frame 31 and the second sliding frame 32, the synchronous rotating shaft 37 is connected with belt wheels of which two ends are respectively connected with the lower ends of the first sliding frame 31 and the second sliding frame 32, a synchronous rotating shaft 37 is also arranged at the lower end between the third sliding frame 33 and the fourth sliding frame 34, and the synchronous rotating shaft 37 is connected with belt wheels of which two ends are respectively connected with the lower ends of the third sliding frame 33 and the fourth sliding frame 34; the sliding plate horizontal moving mechanism 4 comprises two cross frames 41, wherein two ends of one cross frame 41 are respectively correspondingly arranged on the sliding blocks 35 of the first sliding frame 31 and the third sliding frame 33, and two ends of the other cross frame 41 are respectively correspondingly arranged on the sliding blocks 35 of the second sliding frame 32 and the fourth sliding frame 34. Two lifting driving motors run synchronously, the belt is driven to rotate through the belt wheel, the synchronous rotating shaft ensures synchronization, the belt drives the sliding blocks to slide up and down on the sliding rails, the lifting driving motors are synchronous, the synchronous rotating shaft is synchronous, the four sliding blocks also run synchronously, and the sliding plate horizontal moving mechanism arranged among the four sliding blocks stabilizes lifting motion.

Slide horizontal migration mechanism 4 include two crossbearers 41, layer board 42, sprocket 43, chain 44, shifting block 45 and shifting block motor 46, two crossbearers 41 correspond slidable mounting respectively and all install layer board 42 in slide elevating system 3 both sides, two crossbearers 41 lower extremes all install layer board 42, two layer boards 42 install in opposite directions and form the layer board 42 frame that supports slide 2, sprocket 43 is installed respectively at the both ends of crossbearer 41, chain 44 installs on two sprocket 43, one of them sprocket 43 design has shifting block motor 46 to install on crossbearer 41 and this sprocket 43 is connected in the driving of shifting block motor 46, shifting block 45 is installed in the chain 44 outside, the both sides of slide 2 the design respectively have square steel frame 21, the square steel frame 21 outside is close to both ends position and opens and has the square groove 23 that supplies shifting block 45 to insert. One function of the sliding plate horizontal movement mechanism is to support the sliding plate through a supporting plate, the other function is that a shifting block motor rotates to drive a chain to rotate around a chain wheel, a shifting block arranged on the chain moves outside and finally falls into a square groove of the sliding plate, the sliding plate is hooked, and when the sliding plate needs to be pulled out from a frame, the shifting block motor acts to drive the shifting block to pull out the sliding plate to the upper surface of the supporting plate of the sliding plate horizontal movement mechanism; when the sliding plate needs to be pushed into the upper surface of the sliding plate sliding rail formed by the two L-shaped support plates 13 in the frame from the supporting plate of the sliding plate horizontal moving mechanism, the shifting block motor reversely acts to drive the shifting block to push the sliding plate into the frame.

The slide 2 include square steel frame 21 and diaphragm 22, two square steel frame 21 parallel mount and evenly install a plurality of diaphragm 22 between, the both ends of diaphragm 22 are connected with square steel frame 21 inboard respectively, the outside of two square steel frame 21 is close to both ends position and has opened square groove 23 respectively.

The conveying platform 5 comprises a conveying belt 51, conveying frames 52, foot supports 53, belt pulleys 58, tension pulleys 54, a driving wheel 55, a conveying motor 56 and a connecting shaft 57, the foot supports 53 are evenly provided with the plurality of conveying frames 52, the two ends of each conveying frame 52 are respectively provided with the belt pulleys, the lower end of each conveying frame 52 is provided with the driving wheel 55 through the connecting plate, the two tension pulleys 54 are provided with two belt pulleys and two tension pulleys, the two belt pulleys are respectively arranged on the conveying frames 52 or the connecting plate 59 and are positioned on the two sides above the driving wheel 55, the conveying belt 51 bypasses the outer sides of the belt pulleys and the driving wheel 55, the two tension pulleys 54 are propped against the outer side of the conveying belt 51, the driving wheels 55 at the lower ends of the adjacent conveying frames 52 are connected through the connecting shaft 57, the lower end of.

The upper ends of the first sliding frame 31 and the third sliding frame 33 are connected through a frame 1, the upper ends of the second sliding frame 32 and the fourth sliding frame 34 are also connected through the frame 1, a feeding port/discharging port is formed between the first sliding frame 31 and the third sliding frame 33, a discharging port/feeding port is correspondingly formed between the second sliding frame 32 and the fourth sliding frame 34, and the third sliding frame 33 and the fourth sliding frame 34 are fixedly connected through a plurality of connecting rods. The feed/discharge ports may be varied as required for installation.

The edge part of the lower end of the L-shaped support plate 13 is provided with an upward inclined flange, the side of the L-shaped support plate 13 close to the material inlet/outlet is provided with a notch, and the lower end of the notch is provided with a contact switch 6.

The edge of the supporting plate 42 is provided with a flange which inclines upwards.

Gaps are formed among the plurality of transverse plates 22, and the plurality of conveying frames 52 are correspondingly positioned in the gaps formed among the plurality of transverse plates 22 one by one. The utility model discloses well transport frame designs into a plurality of, forms synchronous single conveying platform, can pass in the clearance in the slide to do not influence the conveyer belt rotation, carry away the sponge piece from the slide, or the sponge piece is carried on the slide.

When the utility model is used, when the sponge block does not need to be stored, the sponge block normally enters from the feed inlet, is conveyed by the conveying platform 5 and then exits from the discharge port, and enters the sponge cutting and processing mechanism for processing; when sponge needs to be stored, the sliding plate lifting mechanism 3 drives the sliding plate horizontal moving mechanism 4 to ascend to reach a designated position, the sliding plate 2 is taken out of the frame 1 through the sliding plate horizontal moving mechanism 4, the sliding plate 2 is positioned on the sliding plate horizontal moving mechanism 4, the sliding plate lifting mechanism 3 drives the sliding plate horizontal moving mechanism 4 to descend, a transverse plate 22 of the sliding plate 2 and a conveying frame 52 on the conveying platform 5 are crossed, the conveying frame 52 on the conveying platform 5 penetrates through a gap between the transverse plates 22 without influencing feeding or discharging above the conveying platform 5, a sponge block enters through the conveying platform 5, the sponge block is positioned on the sliding plate 2 at this time, the sliding plate lifting mechanism 3 drives the sliding plate horizontal moving mechanism 4 and the sliding plate 2 to ascend again, in the ascending process of the sliding plate 2, the conveying frame 52 of the conveying platform 5 withdraws from the gap in the sliding plate 2, and the sliding plate 2 supports the, after reaching the designated position, the sliding plate 2 is placed in the frame 1 again through the sliding plate horizontal moving mechanism 4 and is taken out when waiting for use; when the sponge block is taken out, the sliding plate 2 is taken out to move the same, after the sliding plate 2 falls on the conveying platform 5, the conveying frame 52 of the conveying platform 5 penetrates through the gap between the transverse plates 22 of the sliding plate 2, the sponge block is jacked up by the conveying frame 52, and the sponge block is output by the movement of the conveying platform 5.

Claims (10)

1. The utility model provides a clout storage frame, its characterized in that, it includes frame, slide elevating system, slide horizontal migration mechanism and conveying platform, from last a plurality of slide down installing in proper order in the frame, frame one side design has the advance/discharge gate and this side of slide to install slide elevating system, slide horizontal migration mechanism slidable mounting is in slide elevating system from top to bottom, conveying platform is installed to slide horizontal migration mechanism below.

2. The excess material storage rack according to claim 1, wherein the frame comprises a left frame and a right frame, the left frame and the right frame are respectively vertically installed, a plurality of L-shaped support plates are installed on the inner side of the left frame, a plurality of L-shaped support plates are correspondingly designed and installed on the inner side of the right frame corresponding to the left frame, two L-shaped support plates of the left frame and the right frame on the same horizontal plane form a sliding plate slide rail, a sliding plate can be slidably installed on the sliding plate slide rail formed by the two L-shaped support plates, one side of the left frame and one side of the right frame are connected through a plurality of cross braces, and the other side of the left frame and the other side of the right frame form a material inlet/outlet.

3. The excess material storage rack according to claim 1, wherein the sliding plate lifting mechanism comprises four sliding frames, a sliding rail, a sliding block, a belt wheel, a belt, a rotating shaft and a lifting driving motor, the four sliding frames are respectively a first sliding frame, a second sliding frame, a third sliding frame and a fourth sliding frame, the four sliding frames are vertically arranged and are in a tetragonal shape, the first sliding frame and the second sliding frame are respectively correspondingly arranged at the left side and the right side of the inlet/outlet port of the frame, the third sliding frame and the fourth sliding frame are arranged on the ground through two supporting columns, the four sliding frames are respectively vertically provided with the sliding rail, the upper end and the lower end of each sliding frame are respectively rotatably provided with the belt wheel, the belt is wound around the upper belt wheel and the lower belt wheel, the belt is positioned at one side of the sliding rail, one side of the sliding block is fixedly connected with the belt, the lifting driving motor is arranged at one side of, a synchronous rotating shaft is arranged at the lower end between the first sliding frame and the second sliding frame, the connecting ends of the synchronous rotating shaft are respectively connected with belt wheels at the lower ends of the first sliding frame and the second sliding frame, a synchronous rotating shaft is also arranged at the lower end between the third sliding frame and the fourth sliding frame, and the connecting ends of the synchronous rotating shaft are respectively connected with belt wheels at the lower ends of the third sliding frame and the fourth sliding frame; the sliding plate horizontal moving mechanism comprises two cross frames, wherein two ends of one cross frame are respectively and correspondingly arranged on the sliding blocks of the first sliding frame and the third sliding frame, and two ends of the other cross frame are respectively and correspondingly arranged on the sliding blocks of the second sliding frame and the fourth sliding frame.

4. The excess material storage rack according to claim 1 or 3, wherein the sliding plate horizontal moving mechanism comprises two cross frames, supporting plates, chain wheels, chains, shifting blocks and shifting block motors, the two cross frames are respectively and correspondingly slidably mounted on two sides of the sliding plate lifting mechanism, the supporting plates are mounted at the lower ends of the two cross frames, the two supporting plates are oppositely mounted to form supporting plate frames for supporting the sliding plate, the chain wheels are respectively mounted at two ends of the cross frames, the chains are mounted on the two chain wheels, one chain wheel is provided with the shifting block motor which is mounted on the cross frames, the shifting block is connected with the chain wheel through the driving of the shifting block motor, the shifting blocks are mounted on the outer sides of the chains, square steel frames are respectively designed on two sides of the sliding plate, and square grooves for the shifting blocks to be inserted into are formed in positions.

5. The excess material storage rack of claim 1, wherein the sliding plate comprises square steel frames and transverse plates, the two square steel frames are arranged in parallel, a plurality of transverse plates are uniformly arranged between the two square steel frames, two ends of each transverse plate are respectively connected with the inner sides of the square steel frames, and square grooves are respectively formed in the outer sides of the two square steel frames close to the two ends.

6. The excess material storage rack according to claim 5, wherein the conveying platform comprises a conveying belt, a plurality of conveying frames, a plurality of supporting frames, a belt wheel, a tension wheel, a driving wheel, a conveying motor and a connecting shaft, the supporting frames are evenly provided with the plurality of conveying frames, the belt wheel is respectively arranged at two ends of each conveying frame, the driving wheel is arranged at the lower end of each conveying frame through a connecting plate, the tension wheel is provided with two or two belt wheels, the two belt wheels are respectively arranged on the conveying frames or the connecting plate and are positioned at two sides above the driving wheel, the conveying belt bypasses the belt wheels at the two ends and the outer side of the driving wheel, the two tension wheels abut against the outer side of the conveying belt, the driving wheels at the lower ends of the adjacent conveying frames are connected through the connecting shaft.

7. The excess material storage rack of claim 3, wherein the upper ends of the first carriage and the third carriage are connected through a frame, the upper ends of the second carriage and the fourth carriage are also connected through a frame, a feed/discharge port is formed between the first carriage and the third carriage, a discharge/feed port is correspondingly formed between the second carriage and the fourth carriage, and the third carriage and the fourth carriage are fixedly connected through a plurality of connecting rods.

8. The excess material storage rack of claim 2, wherein the lower edge of the L-shaped support plate is provided with an upward inclined flange, the side of the L-shaped support plate close to the material inlet/outlet is provided with a notch, and the lower end of the notch is provided with a contact switch.

9. The excess material storage rack of claim 4, wherein the edge of the supporting plate is provided with an upward inclined flange.

10. The excess material storage rack of claim 6, wherein a gap is formed between the plurality of transverse plates, and the plurality of conveying racks are correspondingly positioned in the gap formed between the plurality of transverse plates.

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