CN214652062U

CN214652062U - Lifting charging and conveying frame

Info

Publication number: CN214652062U
Application number: CN202120956446.7U
Authority: CN
Inventors: 赵涛
Original assignee: Dongguan Lanbang Electronic Hardware Materials Co ltd
Current assignee: Dongguan Lanbang Electronic Hardware Materials Co ltd
Priority date: 2021-05-06
Filing date: 2021-05-06
Publication date: 2021-11-09
Anticipated expiration: 2031-05-06

Abstract

The application relates to the field of transportation equipment, in particular to a lifting charging carrier, which comprises a support frame, a lifting device and a turnover device; the lifting device comprises a lifting frame and a first driving mechanism, the lifting frame is arranged on the supporting frame in a sliding mode, the overturning device is arranged on the lifting frame in a rotating mode, and the overturning device is used for clamping and overturning the containing barrel; first actuating mechanism includes pneumatic cylinder, sprocket and chain, the pneumatic cylinder is fixed set up in on the support frame, the fixed first rotation axis that is provided with on the piston rod of pneumatic cylinder, the sprocket rotate set up in on the first rotation axis, the chain with sprocket intermeshing, the one end of chain is fixed set up in on the support frame, the other end of chain is fixed set up in on the crane. This application has improved the staff and will hold the dyestuff in the bucket and pour the efficiency in the agitator into.

Description

Lifting charging and conveying frame

Technical Field

The application relates to the field of transportation equipment, especially relates to a reinforced fortune carrier that goes up and down.

Background

The ink is a uniform mixture composed of color bodies (such as pigments, dyes and the like), binders, fillers, additives and the like; printing can be carried out, and drying is carried out on the printed body; is a colored pasty adhesive with certain fluidity.

In the related art, various dyes need to be uniformly mixed in the process of producing the ink. Because every dyestuff is adorned respectively in the bucket that holds of difference, in the staff need manually pour every dyestuff that holds in the bucket into the agitator in proper order, through the agitator to the dyestuff stirring of mixing.

In view of the above-mentioned related art, the inventors found the following drawbacks in the course of long-term observation: because the dyestuff is equipped with in holding the bucket, consequently hold bucket and the total gravity of dyestuff very heavy, when the staff will hold the dyestuff in the bucket and pour into the agitator in, work efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to improve the efficiency that the dyestuff that the staff will hold in the bucket was poured into the agitator, this application provides a reinforced fortune carrier that goes up and down.

The application provides a lift reinforced fortune carrier adopts following technical scheme:

a lifting charging carrier comprises a support frame, a lifting device and a turnover device;

the lifting device comprises a lifting frame and a first driving mechanism, the lifting frame is arranged on the supporting frame in a sliding mode, the overturning device is arranged on the lifting frame in a rotating mode, and the overturning device is used for clamping the containing barrel;

first actuating mechanism includes pneumatic cylinder, sprocket and chain, the pneumatic cylinder is fixed set up in on the support frame, the fixed first rotation axis that is provided with on the piston rod of pneumatic cylinder, the sprocket rotate set up in on the first rotation axis, the chain with sprocket intermeshing, the one end of chain is fixed set up in on the support frame, the other end of chain is fixed set up in on the crane.

By adopting the technical scheme, when workers need to pour the dye in the containing barrel into the stirring barrel, the hydraulic cylinder drives the piston rod to slide upwards, the piston rod drives the first rotating shaft to slide upwards, the first rotating shaft drives the chain wheel to slide upwards, the chain wheel drives the middle part of the chain to move upwards, one end of the chain is fixed on the support frame, the other end of the chain drives the lifting frame to slide upwards, and the lifting frame drives the turnover device to slide upwards, so that the containing barrel slides to the upper part of the stirring barrel; hold the bucket upset through the turning device drive, in the dyestuff that will overturn the bucket from heat is poured into the agitator, compare in background art, improve the efficiency that the staff will hold the dyestuff in the bucket and pour into the agitator.

Optionally, the turnover device comprises a turnover frame, a clamping mechanism and a second driving mechanism;

the overturning frame is rotationally arranged on the lifting frame, the clamping mechanism is arranged on the overturning frame, and the clamping mechanism is used for clamping the containing barrel;

the second driving mechanism comprises a mounting block, a rotating rod, a mounting box, a worm wheel and a worm; the installation box is fixedly arranged on the lifting frame, the reversing rod is fixedly arranged on the turnover frame, the reversing rod penetrates through the installation box, and the reversing rod is rotatably connected with the installation box; the turbine is sleeved on the reversing rod and is fixedly connected with the reversing rod; the worm is rotationally arranged in the mounting box, and the worm wheel is meshed with the worm; the installation piece is fixed set up in on the crane, the rotary rod passes the installation piece, the rotary rod with the installation piece rotates to be connected, the one end and the worm fixed connection of rotary rod.

Through adopting above-mentioned technical scheme, the staff is through rotating the rotary rod, and the rotary rod drives the worm rotatory, and the worm drives the turbine rotatory, and the turbine drives the switching-over pole rotatory, and the switching-over pole drives the roll-over stand upset, and the roll-over stand drives and holds the bucket rotation to in the dyestuff that will hold in the bucket is poured into the agitator.

Optionally, the turnover frame comprises a turnover rod, the clamping mechanism comprises a first clamping assembly and a second clamping assembly, the first clamping assembly is fixedly arranged at the top end of the turnover rod, and the first clamping assembly is used for clamping the top end of the containing barrel; the second clamping assembly is fixedly arranged at the bottom end of the turnover rod;

the second clamping assembly comprises a sliding rod and a clamping block, a sliding hole is formed in the bottom end of the turnover rod, and the sliding rod is in sliding fit with the sliding hole; a spring is fixedly arranged on the sliding rod and is fixed in the sliding hole; the bottom end of the sliding rod is fixedly connected with the clamping block.

Through adopting above-mentioned technical scheme, the staff promotes down and presss from both sides tight piece, presss from both sides tight piece and drives the pole that slides downwards to make and press from both sides tight piece and slide to the below that holds the bucket, then through rotatory pole that slides, the pole that slides drives and presss from both sides tight piece rotation, and the elasticity drive pole that slides upwards of spring slides simultaneously, and the pole that slides drives presss from both sides tight piece and upwards slides, so that the upper surface butt of the piece that slides in the bottom that holds the bucket, thereby realizes the fixed to holding the bucket.

Optionally, the clamping block is fixedly provided with a clamping portion.

Through adopting above-mentioned technical scheme, the bottom that holds the bucket has a limiting action to clamping part, and limiting clamping part is rotatory to holding the bucket outside along with the slide bar, has increased the stability that the tight piece clamp of clamp pressed from both sides tightly holds the bottom end of the barrel.

Optionally, a holding rod is fixedly arranged on the clamping block.

Through adopting above-mentioned technical scheme, the staff drives through promoting downwards that the holding rod drives and presss from both sides tight piece and slide downwards, drives through rotatory holding rod simultaneously and presss from both sides tight piece rotatory to make the clamping part rotatory to the bottom that holds the bucket, increased staff and promoted and the convenience that the rotatory tight piece of clamp.

Optionally, a protective ball is fixedly arranged on the holding rod.

Through adopting above-mentioned technical scheme, the protection ball has increased the area of contact between the tip of holding the pole and staff's hand, has reduced the pressure of the tip of holding the pole to staff's hand, has the guard action to staff's hand.

Optionally, a sliding block is fixedly arranged on the lifting frame, the supporting frame comprises a supporting rod, a sliding groove is formed in the supporting rod, and the sliding block is matched with the sliding groove in a sliding mode.

Through adopting above-mentioned technical scheme, the groove of sliding has the guide effect to the sliding block, has increased the stability that the sliding block slided along bracing piece length direction to the stability that the crane slided along the length direction of bracing piece has been increased.

Optionally, the sliding block is fixedly provided with a connecting block, a positioning groove is formed in the connecting block, the lifting frame is in clamping fit with the positioning groove, and the lifting frame is fixedly connected with the connecting block.

Through adopting above-mentioned technical scheme, the constant head tank has the positioning action to the locating piece, has increased the staff on the one hand and has installed the convenience on the connecting block with the locating piece, has also increased the stability of locating piece installation on the connecting block simultaneously.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when workers need to pour the dye in the containing barrel into the stirring barrel, the piston rod is driven by the hydraulic cylinder to slide upwards, the piston rod drives the first rotating shaft to slide upwards, the first rotating shaft drives the chain wheel to slide upwards, the chain wheel drives the middle part of the chain to move upwards, the other end of the chain drives the lifting frame to slide upwards, and the lifting frame drives the turnover device to slide upwards, so that the containing barrel slides to the upper part of the stirring barrel; the turnover device drives the containing barrel to turn over, and the dye in the turnover barrel is poured into the stirring barrel from heat, so that compared with the background technology, the efficiency of workers in pouring the dye in the containing barrel into the stirring barrel is improved;

2. the working personnel drive the worm to rotate by rotating the rotating rod, the worm drives the turbine to rotate, the turbine drives the reversing rod to rotate, the reversing rod drives the turnover frame to turn over, and the turnover frame drives the containing barrel to rotate, so that the dye in the containing barrel is poured into the stirring barrel;

3. the staff promotes down and presss from both sides tight piece, presss from both sides tight piece and drives the pole that slides downwards to make and press from both sides tight piece and slide to the below that holds the bucket, then through rotatory pole that slides, the pole that slides drives and presss from both sides tight piece rotation, and the elasticity drive pole that slides upwards of spring simultaneously, the pole that slides drives and presss from both sides tight piece and upwards slides, so that the upper surface butt of sliding piece in the bottom of holding the bucket, thereby the realization is to the fixed of holding the bucket.

Drawings

Fig. 1 is a schematic structural diagram of an elevating loading carrier in the embodiment of the application.

Fig. 2 is a partially enlarged view of a portion a in fig. 1.

Figure 3 is a schematic diagram of a second perspective of the lift loading carrier of the embodiments of the present application.

Figure 4 is a schematic structural diagram of a third perspective of an elevator charging carrier according to embodiments of the present application.

Fig. 5 is a partially enlarged view of a portion B in fig. 4.

Fig. 6 is a partially enlarged view of a portion C in fig. 4.

Fig. 7 is a cross-sectional view of a flip bar in an embodiment of the present application.

Fig. 8 is a schematic structural diagram of a second drive mechanism in the embodiment of the present application.

Description of reference numerals: 1. a support frame; 11. a connecting plate; 12. a first mounting bar; 13. a second mounting bar; 131. mounting grooves; 14. a support bar; 141. a sliding groove; 15. a first connecting rod; 16. a second connecting rod; 2. a lifting device; 21. a lifting frame; 211. positioning blocks; 2111. an observation tank; 2112. a positioning part; 212. a carrier bar; 213. a reinforcing bar; 22. a first drive mechanism; 221. a hydraulic cylinder; 2211. a piston rod; 2212. a second rotation shaft; 222. a sprocket; 223. a chain; 23. a sliding block; 24. connecting blocks; 241. positioning a groove; 3. a turning device; 31. a roll-over stand; 311. an arcuate bar; 3111. a reversing lever; 3112. a third rotation axis; 312. a turning rod; 3121. a support block; 31211. a fourth rotation axis; 3122. a sliding hole; 32. a clamping mechanism; 321. a first clamping assembly; 3211. a bearing block; 32111. a bearing part; 3212. a clamping jaw; 32121. a second rotary tank; 3213. a screw; 32131. a first hand wheel; 322. a second clamping assembly; 3221. a slide bar; 32211. a spring; 3222. a clamping block; 32221. a clamping portion; 3223. a holding rod; 3224. a protective ball; 33. a second drive mechanism; 331. mounting blocks; 332. rotating the rod; 3321. a second hand wheel; 333. installing a box; 3331. a cover body; 3332. a box body; 334. a turbine; 335. a worm; 4. a universal wheel; 41. a fixed block; 42. a rotating frame; 421. a first rotary tank; 422. a brake block; 4221. a rotating part; 4222. a tightening part; 42221. an arc-shaped slot; 43. a roller; 5. a rolling wheel; 51. a first rotation axis.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses reinforced fortune carrier goes up and down. Referring to fig. 1, the lifting charging carrier comprises a support frame 1, a lifting device 2 and a turnover device 3. Be provided with two universal wheels 4 and two wheels 5 that roll on support frame 1, elevating gear 2 installs on support frame 1, and turning device 3 installs on elevating gear 2, and elevating gear 2 is used for driving turning device 3 and goes up and down, and turning device 3 is used for the upset to hold the bucket to be convenient for pour the dyestuff that holds in the bucket into the agitator.

With reference to fig. 1, the supporting frame 1 includes a connecting plate 11, two first mounting rods 12, two second mounting rods 13 and two supporting rods 14, the connecting plate 11 is disposed horizontally, the two first mounting rods 12 and the two second mounting rods 13 are respectively fixed to two opposite side walls of the connecting plate 11, and the two supporting rods 14 are both fixedly disposed on the upper surface of the connecting plate 11.

Continuing to refer to fig. 1, specifically, the length directions of the two first mounting rods 12 are both horizontal directions, the two first mounting rods 12 are parallel to each other, and the ends of the two first mounting rods 12 close to the connecting plate 11 are both welded to the side wall of the connecting plate 11. The length direction of two second installation poles 13 is the horizontal direction, and two second installation poles 13 are parallel to each other, and two second installation poles 13 all weld with the lateral wall of connecting plate 11 towards the one end of connecting plate 11. The length direction of two bracing pieces 14 is vertical direction, and the bottom of two bracing pieces 14 all with the upper surface welding of connecting plate 11.

Referring to fig. 1 and 2, two universal wheels 4 are respectively mounted on the first mounting rod 12. Specifically, each universal wheel 4 includes a fixing block 41, a rotating frame 42 and a roller 43, the fixing block 41 is fixed on the lower surface of the first mounting rod 12 far away from one end of the connecting plate 11, the rotating frame 42 is rotatably disposed on the lower surface of the fixing block 41, and the roller 43 is rotatably disposed on the rotating frame 42.

Continuing to refer to fig. 2, in order to increase the convenience of staff for installing and dismantling the universal wheel 4, four bolts are arranged on the fixing block 41 in a penetrating manner, and all the four bolts are in threaded fit with the first installation rod 12, so that the fixing block 41 is fixed on the lower surface of the first installation rod 12, and the universal wheel 4 is fixed on the lower surface of the first installation rod 12.

With reference to fig. 2, in order to limit the rotation of the roller 43, a first rotating groove 421 is formed on the rotating frame 42, and a brake block 422 is rotatably disposed in the first rotating groove 421. Specifically, the brake block 422 includes a rotating portion 4221 and a tightening portion 4222, the rotating portion 4221 and the tightening portion 4222 are integrally formed, and the rotating portion 4221 and the tightening portion 4222 are combined to form an L shape. The rotation portion 4221 is positioned in the first rotation groove 421, and the rotation portion 4221 is rotatably connected to the rotation frame 42.

With reference to fig. 2, in order to increase the fixing effect of the tightening portion 4222 on the roller 43, an arc groove 42221 is formed on the tightening portion 4222, and the arc groove 42221 is in snap fit with the roller 43. The arc-shaped groove 42221 increases the contact area between the tightening part 4222 and the roller 43, thereby increasing the acting force of the tightening part 4222 on the roller 43.

Referring to fig. 1 and 2, two rolling wheels 5 are rotatably provided on the two second mounting bars 13, respectively. In order to increase the convenience of the worker for installing the rolling wheel 5, the upper surface of one end of the second installation rod 13 far away from the connecting plate 11 is provided with an installation groove 131. The rolling wheel 5 is positioned in the mounting groove 131, and two sides of the rolling wheel 5 are respectively abutted against two opposite side walls of the mounting groove 131. The rolling wheel 5 is fixedly provided with a first rotating shaft 51, two ends of the first rotating shaft 51 penetrate through the second mounting rod 13, and two ends of the first rotating shaft 51 are rotatably connected with the second mounting rod 13. It should be noted that, in order to keep the support frame 1 horizontal, the lowest point of the roller 43 and the lowest point of the rolling wheel 5 are located on the same horizontal plane.

Referring to fig. 1, the lifting device 2 includes a lifting frame 21 and a first driving mechanism 22, the lifting frame 21 is slidably disposed between the two support rods 14, the first driving mechanism 22 is used for driving the lifting frame 21 to slide along the vertical direction, and the turning device 3 is installed on the lifting frame 21.

Referring to fig. 1 and 3, the sliding grooves 141 have been all seted up to the mutual close lateral wall of two bracing pieces 14, and the length direction of sliding grooves 141 is vertical, and the top of sliding grooves 141 is the opening setting. The two sliding grooves 141 are provided with sliding blocks 23 in a sliding manner, and the length of the sliding block 23 is smaller than that of the sliding groove 141. In order to increase the stability of the sliding block 23 in the sliding groove 141, the sliding groove 141 is a dovetail groove, and the sliding block 23 is a dovetail block, so that the sliding block 23 can only slide in the vertical direction in the sliding groove 141. All fixedly provided with connecting block 24 on two sliding blocks 23, crane 21 is fixed in on connecting block 24.

Referring to fig. 3, in order to increase the convenience of installing and dismantling connecting block 24 by a worker, two bolts are arranged on connecting block 24 in a penetrating manner, and are both in threaded fit with sliding block 23, so that connecting block 24 is fixed on sliding block 23.

Referring to fig. 1 and 3, in order to increase the convenience of installing the crane 21 by a worker, a positioning groove 241 is formed in the connecting block 24, and the mounting rack is fixed in the positioning groove 241. Specifically, the lifting frame 21 includes a positioning block 211 and two carrier bars 212, the length directions of the two carrier bars 212 are both horizontal directions, and one ends of the two carrier bars 212 close to the positioning block 211 are all welded with the positioning block 211. The side walls of the positioning blocks 211 departing from the two bearing rods 212 are in clamping fit with the two positioning grooves 241, and the positioning blocks 211 are welded with the two connecting blocks 24. The positioning grooves 241 have a positioning function on the one hand for the positioning blocks 211, and the positioning grooves 241 increase the stability of the mounting of the positioning blocks 211 on the two connecting blocks 24 on the other hand.

Referring to fig. 1, the turnover device 3 is rotatably disposed between two carrying bars 212. In order to increase the firmness of the two bearing rods 212 for bearing the turnover device 3, the reinforcing rods 213 are disposed between the two bearing rods 212 and the positioning block 211, the reinforcing rods 213 are disposed in an inclined manner, the top ends of the reinforcing rods 213 are welded to the lower surface of the bearing rods 212, and the bottom ends of the reinforcing rods 213 are welded to the side walls of the positioning block 211. In order to facilitate the staff to observe the turnover device 3, the side wall of the positioning block 211 is provided with an observation slot 2111.

Referring to fig. 1 and 3, the first driving mechanism 22 includes a hydraulic cylinder 221, two sprockets 222, and two chains 223. The length direction of the hydraulic cylinder 221 is a vertical direction, the bottom end of the hydraulic cylinder 221 is welded to the upper surface of the connecting plate 11, the piston rod 2211 of the hydraulic cylinder 221 is fixedly provided with the second rotating shaft 2212, and the piston rod 2211 of the hydraulic cylinder 221 and the second rotating shaft 2212 are combined to form a T shape. Both ends of the second rotating shaft 2212 are respectively inserted into the centers of the two chain wheels 222, both ends of the second rotating shaft 2212 are respectively rotatably connected with the two chain wheels 222, and the two chain wheels 222 are respectively engaged with the two chains 223.

Continuing to refer to fig. 1 and 3, in order to make the chain 223 can drive the crane 21 to go up and down, the side wall welding that two bracing pieces 14 deviate from the crane 21 has first connecting rod 15 and second connecting rod 16, and the length direction of first connecting rod 15 and second connecting rod 16 is the horizontal direction, and first connecting rod 15 is located the below of second connecting rod 16. One ends of the two chains 223 are fixed to the upper surface of the first connecting rod 15. The positioning block 211 is fixedly provided with a positioning portion 2112 near the side wall of the hydraulic cylinder 221, and the other ends of the two chains 223 are fixed to the upper surface of the positioning portion 2112. Through the hydraulic cylinder 221 drive piston rod 2211 and slide along the vertical direction, the slide bar 3221 drives the second rotation axis 2212 and slides along the vertical direction, the second rotation axis 2212 drives two chain wheels 222 and slides along the vertical direction, and simultaneously drives two chain wheels 222 to rotate around the second rotation axis 2212, thereby changing the length of the chain wheel 222 close to the chain 223 on one side of the lifting frame 21, and further adjusting the height of the lifting frame 21, and further realizing the adjustment of the height of the turnover device 3.

Referring to fig. 1, the turnover device 3 includes a turnover frame 31, a clamping mechanism 32 and a second driving mechanism 33, the turnover frame 31 is rotatably disposed between two carrying rods 212, the clamping mechanism 32 is mounted on the turnover frame 31, and the clamping mechanism 32 is used for clamping the containing barrel. The second driving mechanism 33 is used for driving the roll-over stand 31 to roll over.

Referring to fig. 1 and 4, the roll-over stand 31 includes a roll-over bar 312 and an arc bar 311, the roll-over bar 312 is a circular bar, the arc bar 311 is semicircular, and the cross section of the arc bar 311 is circular. The turning rod 312 is welded with the arc rod 311, the arc rod 311 is symmetrically distributed on two sides of the turning rod 312, and the turning rod 312 is perpendicular to the plane where the arc rod 311 is located. The both ends of arc pole 311 are the integrated molding has third rotation axis 3112, and two bearing bar 212 are worn to locate respectively by the one end that arc pole 311 was kept away from to two third rotation axis 3112, and two third rotation axis 3112 all rotate with bearing bar 212 and are connected. The gripping mechanism 32 is mounted on the turning lever 312, and the second driving mechanism 33 is used to drive one of the third rotating shafts 3112 to rotate.

Referring to fig. 4, the clamping mechanism 32 includes a first clamping assembly 321 and a second clamping assembly 322, the first clamping assembly 321 being mounted to the top end of the turning bar 312, the second clamping assembly 322 being mounted to the bottom end of the turning bar 312, the first clamping assembly 321 and the second clamping assembly 322 being used to clamp the tub.

Referring to fig. 4 and 5, the first clamping assembly 321 includes a bearing block 3211, a clamping jaw 3212 and a screw 3213, the top end of the turning rod 312 passes through the bearing block 3211, the turning rod 312 is welded to the bearing block 3211, and the turning rod 312 is perpendicular to the surface of the bearing block 3211. The clamping jaw 3212 is rotatably arranged at the top end of the turnover rod 312, the screw 3213 penetrates through the clamping jaw 3212, and the screw 3213 is in threaded fit with one end of the clamping jaw 3212. A bearing portion 32111 is integrally formed on the upper surface of the bearing block 3211, and the bottom end of the screw 3213 abuts against the bearing portion 32111. In order to facilitate the worker to rotate the screw 3213, a first hand wheel 32131 is fixedly disposed at the top end of the screw 3213.

Referring to fig. 5, specifically, a supporting block 3121 is integrally formed at the top end of the turning rod 312, a second rotating groove 32121 is formed on the clamping jaw 3212, the supporting block 3121 passes through the second rotating groove 32121, a fourth rotating shaft 31211 is welded to the supporting block 3121, both ends of the fourth rotating shaft 31211 pass through the clamping jaw 3212, and the clamping jaw 3212 is rotatably connected to the fourth rotating shaft 31211. The worker rotates the screw 3213 by rotating the hand wheel to rotate the clamping jaws 3212 around the supporting block 3121, thereby adjusting an angle between the clamping jaws 3212 and the bearing block 3211, and the clamping jaws 3212 and the bearing block 3211 clamp the top end of the tub.

Referring to fig. 6 and 7, the second clamping assembly 322 includes a sliding rod 3221 and a clamping block 3222, a sliding hole 3122 is opened at the bottom end of the flipping rod 312, the top end of the sliding rod 3221 is inserted into the sliding hole 3122, and the sliding rod 3221 is in sliding fit with the flipping rod 312. A spring 32211 is fixedly disposed at the top end of the sliding rod 3221, and one end of the spring 32211 away from the sliding rod 3221 is fixedly connected to the hole bottom of the sliding hole 3122. The bottom end of the sliding rod 3221 is welded to the upper surface of the clamping block 3222, a clamping portion 32221 is integrally formed on the side wall of the clamping block 3222 close to the turnover rod 312, the clamping block 3222 and the clamping portion 32221 are combined to form an L shape, and the clamping block 3222 and the clamping portion 32221 are used for clamping the bottom end of the containing barrel.

With continued reference to fig. 6 and 7, the worker rotates the clamping block 3222 to rotate the clamping portion 32221 to the bottom end of the tub, the elastic force of the spring 32211 pulls the clamping block 3222 to slide toward the direction close to the turning rod 312, and the clamping block 3222 drives the clamping portion 32221 to slide toward the direction close to the turning rod 312, so that the clamping portion 32221 abuts against the bottom end of the tub, thereby fixing the tub.

Referring to fig. 7, in order to increase the convenience of the worker for rotating the clamping block 3222, a holding rod 3223 is disposed at one side of the clamping block 3222 close to the flipping rod 312, the holding rod 3223 is L-shaped, and the holding rod 3223 and the clamping portion 32221 are respectively disposed at two sides of the flipping rod 312. In order to reduce the pressure of the end of the holding rod 3223 away from the clamping block 3222 on the hand of the worker, a holding ball 3224 is fixedly arranged at the end of the holding rod 3223 away from the clamping block 3222, and the holding ball 3224 has a protective effect on the hand of the worker.

Referring to fig. 4 and 8, the second driving mechanism 33 includes a mounting block 331, a rotating rod 332, a mounting case 333, a worm wheel 334, and a worm 335. The mounting case 333 includes a case 3332 and a cover 3331 covering the case 3332. The housing 3332 is welded to one of the side walls of the carrier bar 212 and the worm gear 334 and worm gear 335 are mounted within the housing 3332. In order to increase the convenience of the worker for opening the cover 3331, four bolts are arranged on the cover 3331 in a penetrating manner and are in threaded fit with the box 3332, so that the cover 3331 is fixed on the box 3332, and the convenience of the worker for repairing the worm 335 of the turbine 334 is increased.

With reference to fig. 4 and 8, in particular, a reversing lever 3111 is integrally formed at one end of one of the third rotating shafts 3112 close to the mounting box 333, two ends of the reversing lever 3111 are rotatably connected to two parallel side walls of the box 3332, the worm gear 334 is sleeved on the reversing lever 3111, and the worm gear 334 is fixedly connected to the reversing lever 3111. The worm 335 is located below the direction change lever 3111, and the longitudinal direction of the worm 335 is perpendicular to the longitudinal direction of the direction change lever 3111. Both ends of the worm 335 are rotatably connected to the other two parallel side walls of the housing 3332, and the worm 335 is engaged with the worm wheel 334. The mounting box 333 protects the worm gear 334 and the worm 335, thereby limiting dust in the air from falling onto the surfaces of the worm gear 334 and the worm 335 and ensuring the cleanliness of the surfaces of the worm gear 334 and the worm 335.

With continued reference to fig. 4 and 8, the mounting block 331 is rectangular, the mounting block 331 is welded to the side wall of the positioning block 211 facing the mounting box 333, the rotating rod 332 penetrates through the mounting block 331, the rotating rod 332 is rotatably connected with the mounting block 331, one end of the rotating rod 332 facing the mounting box 333 is fixedly connected with one end of the worm 335, and one end of the rotating rod 332 far away from the mounting box 333 is fixedly provided with a second hand wheel 3321. The staff rotates rotary rod 332 through rotatory second hand wheel 3321, and rotary rod 332 drives the worm 335 rotatoryly, and worm 335 drives turbine 334 rotatoryly, and turbine 334 drives the switching-over pole 3111 rotatoryly, and switching-over pole 3111 drives one of them third rotation axis 3112 rotatoryly, and third rotation axis 3112 drives arc pole 311 rotatoryly, and arc pole 311 drives and holds the bucket upset to the dyestuff that will hold in the bucket is poured into in the agitator. Meanwhile, the worm 335 structure of the worm wheel 334 has a self-locking function, when the worker stops rotating the rotating rod 332, the turnover frame 31 stops turning over, and the stability of the containing barrel fixed on the turnover frame 31 is increased.

The implementation principle of the lifting charging and carrying frame is as follows: when workers need to pour the dye in the containing barrel into the stirring barrel, the top end of the containing barrel is clamped through the first clamping assembly 321, and the bottom end of the containing barrel is clamped through the second clamping assembly 322; the worker pushes the support frame 1 towards the direction close to the stirring barrel, and the support frame 1 drives the stirring barrel to slide towards the direction close to the stirring barrel; the piston rod 2211 is driven to slide upwards through the hydraulic cylinder 221, the piston rod 2211 drives the first rotating shaft 51 to slide upwards, the first rotating shaft 51 drives the two chain wheels 222 to slide upwards, the two chain wheels 222 drive the middle parts of the chains 223 to move upwards, one ends of the two chains 223 are fixed on the first connecting rod 15, so that the other ends of the two chains 223 slide upwards, the other ends of the two chains 223 drive the positioning parts 2112 to slide upwards, the positioning parts 2112 drive the positioning blocks 211 to slide upwards, the positioning blocks 211 drive the two bearing rods 212 to slide upwards, the two bearing rods 212 drive the turnover frame 31 to slide upwards, and the turnover frame 31 drives the containing barrel to slide upwards, so that the containing barrel slides above the stirring barrel; rotatory second hand wheel 3321 of staff, second hand wheel 3321 drives the rotary rod 332 rotatory, rotary rod 332 drives the worm 335 rotatory, worm 335 drives turbine 334 is rotatory, turbine 334 drives switching-over pole 3111 rotatory, switching-over pole 3111 drives the rotation of third rotation axis 3112 rotatory, third rotation axis 3112 drives arc 311 rotatory, arc 311 drives turning-over pole 312 rotatory, turning-over pole 312 drives first clamping component 321 and second clamping component 322 rotatory simultaneously, first clamping component 321 and second clamping component 322 drive and hold the bucket rotatory, thereby in will holding the dyestuff in the bucket and pour into the agitator, compare in background art, the efficiency that the staff will hold the dyestuff in the bucket and pour into the agitator has been improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a reinforced fortune frame that goes up and down which characterized in that: comprises a supporting frame (1), a lifting device (2) and a turnover device (3);

the lifting device (2) comprises a lifting frame (21) and a first driving mechanism (22), the lifting frame (21) is arranged on the supporting frame (1) in a sliding mode, the overturning device (3) is arranged on the lifting frame (21) in a rotating mode, and the overturning device (3) is used for clamping the containing barrel;

first actuating mechanism (22) include pneumatic cylinder (221), sprocket (222) and chain (223), pneumatic cylinder (221) fixed set up in on support frame (1), the fixed first rotation axis (51) that is provided with on piston rod (2211) of pneumatic cylinder (221), sprocket (222) rotate set up in on first rotation axis (51), chain (223) with sprocket (222) intermeshing, the one end of chain (223) fixed set up in on support frame (1), the other end of chain (223) fixed set up in on crane (21).

2. The lift charging carrier of claim 1, wherein: the turnover device (3) comprises a turnover frame (31), a clamping mechanism (32) and a second driving mechanism (33);

the overturning frame (31) is rotationally arranged on the lifting frame (21), the clamping mechanism (32) is arranged on the overturning frame (31), and the clamping mechanism (32) is used for clamping a containing barrel;

the second driving mechanism (33) comprises a mounting block (331), a rotating rod (332), a mounting box (333), a turbine (334) and a worm (335); the mounting box (333) is fixedly arranged on the lifting frame (21), the reversing rod (3111) is fixedly arranged on the roll-over stand (31), the reversing rod (3111) penetrates through the mounting box (333), and the reversing rod (3111) is rotatably connected with the mounting box (333); the turbine (334) is sleeved on the reversing rod (3111), and the turbine (334) is fixedly connected with the reversing rod (3111); the worm (335) is rotatably arranged in the mounting box (333), and the worm wheel (334) is meshed with the worm (335); the installation piece (331) is fixed set up in on crane (21), rotary rod (332) pass installation piece (331), rotary rod (332) with installation piece (331) rotate and are connected, the one end of rotary rod (332) with worm (335) fixed connection.

3. The lift charging carrier of claim 2, wherein: the overturning frame (31) comprises an overturning rod (312), the clamping mechanism (32) comprises a first clamping assembly (321) and a second clamping assembly (322), the first clamping assembly (321) is fixedly arranged at the top end of the overturning rod (312), and the first clamping assembly (321) is used for clamping the top end of the containing barrel; the second clamping assembly (322) is fixedly arranged at the bottom end of the turnover rod (312);

the second clamping assembly (322) comprises a sliding rod (3221) and a clamping block (3222), a sliding hole (3122) is formed in the bottom end of the turnover rod (312), and the sliding rod (3221) is in sliding fit with the sliding hole (3122); a spring (32211) is fixedly arranged on the sliding rod (3221), and the spring (32211) is fixed in the sliding hole (3122); the bottom end of the sliding rod (3221) is fixedly connected with the clamping block (3222).

4. The lift charging carrier of claim 3, wherein: a clamping part (32221) is fixedly arranged on the clamping block (3222).

5. The lift charging carrier of claim 4, wherein: a holding rod (3223) is fixedly arranged on the clamping block (3222).

6. The lift charging carrier of claim 5, wherein: a protective ball (3224) is fixedly arranged on the holding rod (3223).

7. The lift charging carrier of claim 1, wherein: the utility model discloses a support frame, including crane (21), support frame (1), bracing piece (14), the fixed sliding block (23) that is provided with on crane (21), sliding groove (141) have been seted up on bracing piece (14), sliding block (23) with sliding groove (141) cooperation of sliding.

8. The lift charging carrier of claim 7, wherein: fixed connecting block (24) that is provided with on sliding block (23), constant head tank (241) have been seted up on connecting block (24), crane (21) with constant head tank (241) joint cooperation, crane (21) with connecting block (24) fixed connection.