CN114412232A - Building cylinder support equipment - Google Patents

Abstract

The invention relates to a supporting device, in particular to a building cylindrical supporting device. The invention aims to provide a building cylinder supporting device capable of automatically clamping a building cylinder. The invention provides building cylinder supporting equipment which comprises supporting frames, wheels, a supporting shell, a turnover assembly and the like, wherein the supporting frames are arranged in the middle of the left side and the right side of the supporting shell, the wheels are rotatably arranged on the front side and the rear side of the lower part of the supporting frame, and the turnover assembly used for driving a cement cylinder to rotate is arranged on the supporting frame on the right side. According to the invention, the cement cylinder is manually placed between the tops of the placing tables, so that the first pressing block can be extruded to move downwards, the clamping blocks can be driven to rotate towards the inner side to clamp the cement cylinder, then the cement cylinder can be transported to a specified position, and then the cement cylinder can be driven to turn over by rotating the turning frame upwards, and the installation work of the cement cylinder is completed.

Description

Building cylinder support equipment

Technical Field

The invention relates to a supporting device, in particular to a building cylindrical supporting device.

Background

At present, when people install the building cylinder, at first need the manual work to transport the building cylinder to the assigned position, the rethread loop wheel machine lifts by the building cylinder, again by artifical assistance-localization real-time, accomplishes the installation work, comparatively waste time and energy.

Patent application CN207959989U, published as 20181012, discloses an auxiliary supporting mechanism for mounting a civil engineering high and large cylinder, which adopts a clamping fixing component consisting of a positioning base body and a binding component arranged on one side of a supporting base to fix the cylinder, a limiting clamping groove is arranged on one side of the positioning base body to fix the cylinder, the binding component arranged on the positioning base body and positioned outside the limiting clamping groove is used for fixing, the binding component consisting of the main base body and an elastic buffer member is used, clamping pieces are arranged at two ends of the main base body and corresponding positions of the mounting base body to connect and fix the two, so that people can mount the auxiliary supporting mechanism conveniently, a positioning cavity is arranged in the main base body to set the elastic positioning plate, and the elastic positioning plate is connected and fixed with the elastic positioning plate, the cylinder is fixed by buffering from the inner side of the main body. Although above-mentioned patent can make things convenient for people to install the building cylinder, this patent does not possess the counter weight and presss from both sides tight function, when the propelling movement of building cylinder by a relatively large margin, very easily appears turning on one's side and the phenomenon of sliding, and the security is not high.

In view of the above, there is a need for a building column support apparatus that can automatically clamp a building column to solve the above problems.

Disclosure of Invention

In order to overcome the defects that the conventional auxiliary supporting mechanism does not have a counterweight clamping function generally and the building cylinder is easy to turn over and slide in the pushing process, the invention aims to provide building cylinder supporting equipment capable of automatically clamping the building cylinder.

The invention is realized by the following technical approaches:

the utility model provides a building cylinder support equipment, which comprises a supporting rack, the wheel, shells, place the platform, the upset subassembly, clamping component and promotion subassembly, shells's the left and right sides middle part all is equipped with the support frame, the equal rotary type in both sides is equipped with the wheel around the support frame lower part, be equipped with on the support frame on right side and be used for driving the cement cylinder and carry out the pivoted upset subassembly, be equipped with two platforms of placing that are used for placing the cement cylinder on the upset subassembly, it is equipped with on the platform and is used for carrying out the tight clamping component of clamp to the cement cylinder to place, be equipped with the promotion subassembly that is used for driving clamping component work on the upset subassembly.

Further, the upset subassembly is including the upset frame, first rotation axis, first carriage, first guide bar, first spring, slipmat and connection frame, symmetry rotary type is equipped with first rotation axis around the support frame upper portion on right side, be equipped with the upset frame between the first rotation axis inboard, the bottom left side and the contact of left support frame top of upset frame, both sides all are equipped with two first guide bars around the upset frame is inside, bilateral symmetry slidingtype is equipped with first carriage between four first guide bars, first carriage top all is connected with the adjacent platform of placing, first guide bar right part is all around there being first spring, the both ends of first spring are connected with left first carriage and upset frame respectively, it all is equipped with the slipmat to place the bench top, be equipped with the connection frame between the inboard upper portion of first carriage.

Further, clamping component is including the fixed block, the second rotation axis, the clamp splice, first gear, the second guide bar, first rack, second spring and protecting crust, place the equal bilateral symmetry in both sides upper portion around the platform and be equipped with the fixed block, equal rotary type is equipped with the second rotation axis between two fixed blocks of homonymy, all be equipped with the clamp splice on the second rotation axis, second rotation axis inboard all is equipped with first gear, both sides lower part all is equipped with two second guide bars around placing the platform, it is equipped with first rack all to slide between two second guide bars of homonymy, first rack all meshes with adjacent first gear, all around having the second spring on the second guide bar, the both ends of second spring are connected with second guide bar and first rack respectively, both sides lower part all is equipped with the protecting crust around placing the platform, the second guide bar all is located inside the adjacent protecting crust.

Furthermore, the pushing component comprises a first supporting rod, a second sliding frame, a first pressing block and a third spring, wedge pole, the second bracing piece, push rod and fourth spring, the equal bilateral symmetry in both sides is equipped with first bracing piece around the bottom in the connecting frame, all the slidingtype is equipped with the second carriage between two first bracing piece upper portions about the homonymy, bilateral symmetry is equipped with first briquetting between the second carriage top, all be equipped with the third spring between two first bracing pieces of second carriage and homonymy, both sides all are equipped with wedge pole around the first briquetting bottom, the left and right sides middle part of bottom all is equipped with the second bracing piece in the connecting frame, the symmetry slidingtype is equipped with the push rod around between second bracing piece upper portion, the push rod all contacts with adjacent first rack, wedge pole all contacts with adjacent push rod, all be equipped with the fourth spring between the push rod inboard and two second bracing piece upper portions.

Further, still including being used for carrying out spacing chucking subassembly to the push rod, the chucking subassembly is including the third bracing piece, the fixture block, the fifth spring, first guide block, ejector pin and sixth spring, the symmetry is equipped with the third bracing piece around in the middle of the interior bottom of adapter frame, the slidingtype is equipped with the fixture block between third bracing piece upper portion, the push rod can contact with the fixture block toward the inboard motion, all around having the fifth spring on the third bracing piece, the both ends of fifth spring are connected with fixture block and adapter frame respectively, the symmetry is equipped with first guide block around the interior bottom right side of adapter frame, slidingtype is equipped with the ejector pin between the first guide block upper portion, the ejector pin is connected with the adapter frame slidingtype, the ejector pin is moved left and can contact with the fixture block, all be equipped with the sixth spring between ejector pin middle part and two first guide blocks.

Further, still including being used for driving roll-over frame pivoted drive assembly, drive assembly is including the fourth bracing piece, the rocker, the third rotation axis, the worm, first supporting block, the worm wheel, the fourth rotation axis, second gear and cingulum, left support frame middle part is equipped with the fourth bracing piece, fourth bracing piece upper portion rotary type is equipped with the third rotation axis, the third rotation axis is connected with the supporting shell rotary type, third rotation axis left side is equipped with the rocker, third rotation axis right side is equipped with the worm, the interior bottom right side of supporting shell is equipped with first supporting block, first supporting block upper portion rotary type is equipped with the fourth rotation axis, fourth rotation axis middle part is equipped with the worm wheel, worm wheel and worm meshing, the front and back both sides of fourth rotation axis all are equipped with the second gear with first rotation axis inboard, all around there being the cingulum between two second gears of homonymy.

Furthermore, the turnover-proof device also comprises a turnover-proof assembly for improving the stability, the turnover-proof assembly comprises a fifth support rod, a second pressing block, a seventh spring, a second guide block, a slide rod, an eighth spring, a second rack, a second support block, a third gear and a rotary rod, the fifth support rod is symmetrically arranged at the front and back of the left side of the inner top of the support shell, the number of the fifth support rod is four, the second pressing block is arranged between the lower parts of the two fifth support rods at the same side in a sliding manner, the top of the second pressing block is contacted with the bottom of the turnover frame, the seventh spring is wound at the lower part of the fifth support rod, two ends of the seventh spring are respectively connected with the fifth support rod and the second pressing block, the second guide block is symmetrically arranged at the front and back of the middle of the inner bottom of the support shell, the slide rod is arranged at the upper part of the second guide block in a sliding manner, the second pressing block is contacted with the adjacent slide rod, and the slide rod is connected with the support shell in a sliding manner, all be equipped with the eighth spring between slide bar and the adjacent second guide block, the slide bar right side all is equipped with the second rack, and the symmetry is equipped with the second supporting shoe around the support frame lower part on right side, and the equal rotary type in second supporting shoe lower part is equipped with the rotary rod, and the rotary rod lower part all is equipped with the third gear, the second rack all with adjacent third gear engagement.

Furthermore, rubber protection pads are arranged on the inner sides of the clamping blocks.

Compared with the prior art, the invention has the following advantages:

1. according to the invention, the cement cylinder is manually placed between the tops of the placing tables, so that the first pressing block can be extruded to move downwards, the clamping blocks can be driven to rotate towards the inner side to clamp the cement cylinder, then the cement cylinder can be transported to a specified position, and then the cement cylinder can be driven to turn over by rotating the turning frame upwards, and the installation work of the cement cylinder is completed.

2. When the push rod moves towards the inner side, the clamping block can clamp the push rod, so that the push rod is prevented from resetting, the position of the clamping block can be fixed, and the cement cylinder is prevented from sliding down when being turned over.

3. When the turnover frame rotates upwards, the second rack can be driven to move rightwards, so that the third gear is driven to rotate, the third gear drives the rotating rod to rotate downwards, the rotating rod is in contact with the ground, and the equipment is prevented from toppling.

Drawings

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

Fig. 2 is a schematic perspective view of another embodiment of the present invention.

Fig. 3 is a schematic internal perspective view of the present invention.

Fig. 4 is a schematic internal perspective view of another aspect of the present invention.

Fig. 5 is a partial perspective view of the present invention.

Fig. 6 is a schematic structural diagram of the flip assembly of the present invention.

Fig. 7 is a schematic view of a part of the structure of the flip assembly of the present invention.

FIG. 8 is a schematic view of the construction of the clamping assembly of the present invention.

Fig. 9 is a partial schematic view of the clamp assembly of the present invention.

FIG. 10 is a schematic view of a pushing assembly according to the present invention.

FIG. 11 is a schematic view of a portion of the pushing assembly of the present invention.

Fig. 12 is a schematic view showing the construction of the chucking assembly of the present invention.

Fig. 13 is a partial structural view of the clamping assembly of the present invention.

Fig. 14 is a schematic structural diagram of the driving assembly of the present invention.

Fig. 15 is a partial structural schematic view of the driving assembly of the present invention.

Fig. 16 is a schematic structural view of the anti-rollover assembly of the present invention.

Fig. 17 is a partial structural view of the anti-tipping assembly of the present invention.

Reference numbers in the drawings: 1: support frame, 2: wheel, 3: support housing, 4: placing table, 5: flip assembly, 501: turning over a frame, 502: first rotation axis, 503: first carriage, 504: first guide bar, 505: first spring, 506: non-slip pad, 507: connecting frame, 6: clamping assembly, 601: fixed block, 602: second rotation axis, 603: clamping block, 604: first gear, 605: second guide bar, 606: first rack, 607: second spring, 608: protective shell, 7: push assembly, 701: first support bar, 702: second carriage, 703: first press block, 704: third spring, 705: wedge rod, 706: second support bar, 707: push rod, 708: fourth spring, 8: clamping assembly, 801: third support bar, 802: a latch, 803: fifth spring, 804: first guide block, 805: ejector pin, 806: sixth spring, 9: drive assembly, 901: fourth support bar, 902: rocker, 903: third rotation axis, 904: worm, 905: first support block, 906: worm wheel, 907: fourth rotation axis, 908: second gear, 909: toothed belt, 10: anti-rollover assembly, 1001: fifth support bar, 1002: second briquette, 1003: seventh spring, 1004: second guide block, 1005: slide bar, 1006: eighth spring, 1007: second rack, 1008: second support block, 1009: third gear, 1010: the rod is rotated.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings.

Example 1

The utility model provides a building cylinder support equipment, refer to fig. 1-11, including support frame 1, wheel 2, supporting shell 3, place platform 4, upset subassembly 5, clamping component 6 and promotion subassembly 7, support frame 1 has all been welded at the left and right sides middle part of supporting shell 3, the equal rotary type in both sides is equipped with wheel 2 around the support frame 1 lower part, be equipped with upset subassembly 5 on the support frame 1 on right side, be equipped with two on the upset subassembly 5 and place platform 4, people can place the cement cylinder between the top of placing platform 4, be equipped with clamping component 6 on the upset subassembly 5, be equipped with promotion subassembly 7 on the upset subassembly 5.

Referring to fig. 1 to 7, the turnover assembly 5 includes a turnover frame 501, a first rotation axis 502, a first sliding frame 503, a first guide bar 504, a first spring 505, a non-slip mat 506 and a connection frame 507, the first rotation axis 502 is symmetrically arranged on the upper portion of the right support frame 1 in a front-back rotation manner, the turnover frame 501 is arranged between the inner sides of the first rotation axes 502, the left side of the bottom of the turnover frame 501 is in contact with the top of the left support frame 1, two first guide bars 504 are welded on the front and back sides of the interior of the turnover frame 501, the first sliding frame 503 is symmetrically arranged between the four first guide bars 504 in a left-right sliding manner, the top of the first sliding frame 503 is connected with the adjacent placing table 4, when the turnover frame 501 rotates, the first sliding frame 503 and the placing table 4 can be driven to rotate, thereby the cement column can be driven to rotate, the installation process of the cement column can be completed, the first spring 505 is wound around the right portion of the first guide bar 504, both ends of the first spring 505 are respectively connected with the first sliding frame 503 and the turning frame 501 on the left side, the top of the placing table 4 is provided with an anti-skid pad 506, and a connecting frame 507 is arranged between the upper parts of the inner sides of the first sliding frames 503.

Referring to fig. 1, 2, 3, 4, 8 and 9, the clamping assembly 6 includes a fixing block 601, a second rotating shaft 602, a clamping block 603, a first gear 604, a second guide rod 605, a first rack 606, a second spring 607 and a protective shell 608, the fixing block 601 is welded on the upper portion of the front and rear sides of the placing table 4 in bilateral symmetry, the second rotating shaft 602 is rotatably arranged between the two fixing blocks 601 on the same side, the clamping block 603 is arranged on the second rotating shaft 602, when the clamping block 603 rotates inward, a cement cylinder can be clamped, rubber pads are arranged on the inner side of the clamping block 603, the cement cylinder is prevented from sliding off, the first gear 604 is arranged on the inner side of the second rotating shaft 602, the two second guide rods 605 are welded on the lower portions of the front and rear sides of the placing table 4, the first rack 606 is slidably arranged between the two second guide rods 605 on the same side, the first racks 606 are engaged with the adjacent first gear 604, the second guide rod 605 is wound with a second spring 607, two ends of the second spring 607 are respectively connected with the second guide rod 605 and the first rack 606, the lower parts of the front side and the rear side of the placing table 4 are respectively provided with a protective shell 608, and the second guide rod 605 is positioned inside the adjacent protective shell 608.

Referring to fig. 1, 2, 3, 4, 10 and 11, the pushing assembly 7 includes a first support rod 701, a second sliding frame 702, a first pressing block 703, a third spring 704, a wedge-shaped rod 705, a second support rod 706, a pushing rod 707 and a fourth spring 708, the first support rod 701 is symmetrically arranged at the front and rear sides of the bottom in the connecting frame 507, the second sliding frame 702 is slidably arranged between the upper portions of the left and right first support rods 701 at the same side, the first pressing block 703 is symmetrically welded between the top of the second sliding frame 702, the third spring 704 is arranged between the second sliding frame 702 and the two first support rods 701 at the same side, the wedge-shaped rods 705 are arranged at the front and rear sides of the bottom of the first pressing block 507, the second support rod 706 is arranged at the middle portions of the left and right sides of the bottom in the connecting frame 703, the pushing rod 707 is symmetrically slidably arranged between the upper portions of the second support rods 706, the pushing rod 707 is in contact with the adjacent first rack 606, the wedge-shaped rods 705 are all in contact with the adjacent push rods 707, when the push rods 707 move inwards, the first racks 606 can be driven to move inwards, so that the clamping blocks 603 can be driven to rotate inwards to clamp the cement cylinders, and fourth springs 708 are arranged between the inner sides of the push rods 707 and the upper portions of the two second support rods 706.

When people need to use the equipment, firstly, a cement cylinder is placed between the tops of the placing tables 4, the anti-slip pads 506 play an anti-slip role, the cement cylinder can extrude the first pressing block 703 to move downwards, the first pressing block 703 drives the second sliding frame 702 and the wedge rod 705 to move downwards, the third spring 704 is compressed, the wedge rod 705 can extrude the push rod 707 to move inwards, the fourth spring 708 is compressed, the push rod 707 can extrude the first rack 606 to move inwards, the second spring 607 is compressed, the first rack 606 drives the first gear 604 to rotate, so as to drive the second rotating shaft 602 to rotate, the second rotating shaft 602 drives the clamping block 603 to rotate inwards, so that the clamping block 603 clamps the cement cylinder, then the equipment can be pushed to move, the wheels 2 can roll on the ground, the equipment is assisted to move, so as to finish the transportation work of the cement cylinder, when the cement cylinder is transported to a designated position, stopping pushing the device, stabilizing the device, rotating the turnover frame 501 up by 90 degrees, the turnover frame 501 driving the cement cylinder up by 90 degrees to make the cement cylinder perpendicular to the ground, then pushing down the placing table 4 to drive the first sliding frame 503 and the connecting frame 507 down, compressing the first spring 505 to drive the cement cylinder down to move and contact with the ground, at this time, the first pressing block 703 can not sense the pressure of the cement cylinder, the third spring 704 returns to the original state, driving the first pressing block 703, the second sliding frame 702 and the wedge rod 705 to move and return to the right, separating the wedge rod 705 from the pushing rod 707, the fourth spring 708 returning to the original state, driving the pushing rod 707 to move and return to the outside, separating the pushing rod 707 from the first rack 606, returning the second spring 607 to the original state, driving the first rack 606 to move and return to the outside, the first rack 606 driving the first gear 604 to rotate reversely, thereby drive the reversal of second rotation axis 602, second rotation axis 602 drives clamp splice 603 and rotates towards the outside and reset for clamp splice 603 loosens the cement cylinder, then loosens and place platform 4, and first spring 505 reconversion drives connection frame 507, first carriage 503 and places platform 4 and up moves and resets, and it resets to rotate 90 degrees with upset frame 501 down again, repeats above-mentioned operation, can transport the installation to the cement cylinder once more.

Example 2

On the basis of embodiment 1, referring to fig. 1, 3, 4, 12 and 13, the present invention further includes a clamping assembly 8, where the clamping assembly 8 includes a third support rod 801, a fixture block 802, a fifth spring 803, a first guide block 804, a top bar 805 and a sixth spring 806, the third support rod 801 is welded in front-back symmetry in the middle of the inner bottom of the connecting frame 507, the fixture block 802 is slidably disposed between the upper portions of the third support rod 801, the push rod 707 moves inward to contact the fixture block 802, then the fixture block 802 limits the push rod 707, the fifth spring 803 is wound around the third support rod 801, two ends of the fifth spring 803 are respectively connected to the fixture block 802 and the connecting frame 507, the first guide block 804 is welded in front-back symmetry on the right side of the inner bottom of the connecting frame 507, a top bar 805 is slidably disposed between the upper portions of the first guide block 804, the top bar 805 is slidably connected to the connecting frame 507, the top bar 805 moves leftward to contact the fixture block 802, and a sixth spring 806 is arranged between the middle part of the top rod 805 and the two first guide blocks 804.

When the push rod 707 moves inward, the push rod 707 contacts the fixture block 802, so that the fixture block 802 is pressed to move downward, the fifth spring 803 is compressed, when the push rod 707 passes over the fixture block 802, the fifth spring 803 returns to the original state, the fixture block 802 is driven to move upward and return, the fixture block 603 clamps the cement cylinder at the moment, the fixture block 802 clamps the push rod 707 to prevent the push rod 707 from returning, so that the position of the fixture block 603 can be fixed, the cement cylinder is prevented from sliding down when rotating, when the connecting frame 507 moves downward, the third support rod 801, the fixture block 802 and the ejector rod 805 are driven to move downward, when the ejector rod 805 contacts the turning frame 501, the ejector rod 805 stops moving, the connecting frame 507, the third support rod 801 and the fixture block 802 continue to move downward, the sixth spring 806 is compressed, when the fixture block 802 contacts the ejector rod 805, the fixture block 802 is pressed to move leftward, the fifth spring 803 is compressed, so that the fixture block 802 loosens the push rod 707, at this moment, the push rod 707 can move to the outside to reset, so that the clamping block 603 can loosen the cement cylinder, the installation work of the cement cylinder is completed, when the connecting frame 507 moves upward to reset, the third support rod 801 and the clamping block 802 are driven to move upward to reset, the sixth spring 806 is restored to the original state first, the clamping block 802 is separated from the ejector rod 805, the fifth spring 803 is restored to the original state, the clamping block 802 is driven to move rightward to reset, and then the connecting frame 507 drives the ejector rod 805 to move upward to reset.

Referring to fig. 1, 2, 3, 4, 5, 14 and 15, the present invention further comprises a driving assembly 9, the driving assembly 9 comprises a fourth support bar 901, a rocker 902, a third rotation shaft 903, a worm 904, a first support block 905, a worm wheel 906, a fourth rotation shaft 907, a second gear 908 and a toothed belt 909, the fourth support bar 901 is welded in the middle of the left support frame 1, the third rotation shaft 903 is rotatably arranged on the upper portion of the fourth support bar 901, the third rotation shaft 903 is rotatably connected with the support housing 3, the rocker 902 is arranged on the left side of the third rotation shaft 903, the worm 904 is arranged on the right side of the third rotation shaft 903, the first support block 905 is welded on the right side of the bottom portion in the support housing 3, the fourth rotation shaft 907 is rotatably arranged on the upper portion of the first support block 905, the worm wheel 906 is arranged in the middle portion of the fourth rotation shaft 907, the worm wheel 906 is engaged with the worm, the front and back sides of the fourth rotation shaft 907 and the inner side of the first rotation shaft 502 are provided with the second gear 908, a toothed belt 909 is wound between the two second gears 908 on the same side.

When people push the equipment to a specified position, a rocker 902 is rotated to drive a third rotating shaft 903 to rotate, so that a worm 904 is driven to rotate, the worm 904 drives a worm wheel 906 to rotate, the worm wheel 906 drives a fourth rotating shaft 907 to rotate, the fourth rotating shaft 907 can drive a first rotating shaft 502 to rotate through a second gear 908 and a toothed belt 909, so that the turnover frame 501 can be driven to rotate upwards, the turnover frame 501 drives a cement cylinder to rotate upwards, after the cement cylinder is perpendicular to the ground, the rocker 902 stops rotating, then the installation work of the cement cylinder can be completed, after the installation is completed, the rocker 902 is reversed to drive the third rotating shaft 903 to reverse, so that the worm 904 is driven to reverse, the worm 904 drives the worm wheel 906 to reverse, the worm wheel 906 drives the fourth rotating shaft 907 to reverse, the fourth rotating shaft 907 can drive the first rotating shaft 502 to reverse through the second gear 908 and the toothed belt 909, so that the turnover frame 501 can be driven to rotate downwards to reset, when the flipping frame 501 is completely reset, the rocker 902 is turned back.

Referring to fig. 1, 2, 3, 4, 5, 16 and 17, the anti-overturn device 10 further includes an anti-overturn device 10, the anti-overturn device 10 includes a fifth support rod 1001, a second pressing block 1002, a seventh spring 1003, a second guide block 1004, a slide rod 1005, an eighth spring 1006, a second rack 1007, a second support block 1008, a third gear 1009 and a rotary rod 1010, the fifth support rod 1001 is symmetrically arranged on the left side of the inner top of the support housing 3, the number of the fifth support rods is four, the second pressing block 1002 is slidably arranged between the lower portions of the two fifth support rods 1001 on the same side, the top of the second pressing block 1002 is in contact with the bottom of the overturn frame 501, the seventh spring 1003 is wound on the lower portion of the fifth support rod 1001, two ends of the seventh spring 1003 are respectively connected with the fifth support rod 1001 and the second pressing block 1002, the second guide block 1004 is symmetrically welded on the middle of the inner bottom of the support housing 3, the upper portion of the second guide block 1004 is slidably provided with a slide rod 1005, second briquetting 1002 all contacts with adjacent slide bar 1005, slide bar 1005 all with support shell 3 sliding type connection, all be equipped with eighth spring 1006 between slide bar 1005 and the adjacent second guide block 1004, slide bar 1005 right side all is equipped with second rack 1007, the symmetry is equipped with second supporting shoe 1008 around the support frame 1 lower part on right side, the equal rotary type in second supporting shoe 1008 lower part is equipped with rotary rod 1010, when rotary rod 1010 rotates down, can contact with ground, thereby can increase the area of contact with ground, stability is improved, rotary rod 1010 lower part all is equipped with third gear 1009, second rack 1007 all meshes with adjacent third gear 1009.

Initially, the seventh spring 1003 and the eighth spring 1006 are in a compressed state, when the flipping frame 501 rotates upward, the seventh spring 1003 returns to the original state to drive the second pressing block 1002 to move upward, so that the second pressing block 1002 is separated from the sliding rod 1005, the eighth spring 1006 returns to the original state to drive the sliding rod 1005 to move rightward, the sliding rod 1005 drives the second rack 1007 to move rightward, the second rack 1007 drives the third gear 1009 to rotate 90 degrees, the third gear 1009 drives the rotating rod 1010 to rotate downward 90 degrees, so that the rotating rod 1010 is in contact with the ground, the equipment is prevented from tilting, the stability is improved, when the flipping frame 501 rotates downward and returns, the equipment is in contact with the second pressing block 1002 to press the second pressing block 1002 to move downward, the seventh spring 1003 compresses, the second pressing block 1002 presses the sliding rod 1005 to move left, the eighth spring compresses, the sliding rod 1006 drives the second rack 1007 to move left, the second rack 1007 drives the third gear 1009 to rotate reversely by 90 degrees, and the third gear 1009 drives the rotating rod 1010 to rotate upwards by 90 degrees to reset, so that the rotating rod 1010 is separated from the ground, and then the device can be pushed to move again.

The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.

Claims (8)

1. The utility model provides a building cylinder support equipment, including support frame (1), wheel (2), support housing (3) and place platform (4), the left and right sides middle part of support housing (3) all is equipped with support frame (1), the equal rotary type in both sides is equipped with wheel (2) around support frame (1) lower part, it is used for placing the cement cylinder to place platform (4), a serial communication port, still including upset subassembly (5), clamping component (6) and promotion subassembly (7), be equipped with on support frame (1) on right side and be used for driving the cement cylinder and carry out pivoted upset subassembly (5), it installs on upset subassembly (5) to place platform (4), be equipped with on placing platform (4) and be used for carrying out the tight clamping component (6) of clamp to the cement cylinder, be equipped with on upset subassembly (5) and be used for driving promotion subassembly (7) that clamping component (6) worked.

2. The building cylinder supporting device as claimed in claim 1, wherein the turnover assembly (5) comprises a turnover frame (501), a first rotating shaft (502), a first sliding frame (503), first guide rods (504), a first spring (505), a non-slip mat (506) and a connecting frame (507), the first rotating shaft (502) is arranged on the upper portion of the supporting frame (1) on the right side in a front-back symmetrical and rotating mode, the turnover frame (501) is arranged between the inner sides of the first rotating shaft (502), the left side of the bottom of the turnover frame (501) is in contact with the top of the supporting frame (1) on the left side, two first guide rods (504) are arranged on the front side and the rear side of the interior of the turnover frame (501), the first sliding frame (503) is arranged between the four first guide rods (504) in a left-right symmetrical and sliding mode, the top of the first sliding frame (503) is connected with the adjacent placing platform (4), the first spring (505) is wound around the right portion of the first guide rods (504), two ends of the first spring (505) are respectively connected with the first sliding frame (503) on the left side and the overturning frame (501), the top of the placing table (4) is provided with an anti-skid pad (506), and a connecting frame (507) is arranged between the upper parts of the inner sides of the first sliding frame (503).

3. The building cylinder supporting device according to claim 2, characterized in that the clamping assembly (6) comprises a fixed block (601), a second rotating shaft (602), a clamping block (603), a first gear (604), a second guide rod (605), a first rack (606), a second spring (607) and a protective shell (608), the fixed block (601) is arranged on the upper portion of the front side and the rear side of the placing table (4) in bilateral symmetry, the second rotating shaft (602) is arranged between the two fixed blocks (601) on the same side in a rotating mode, the clamping block (603) is arranged on the second rotating shaft (602), the first gear (604) is arranged on the inner side of the second rotating shaft (602), the two second guide rods (605) are arranged on the lower portion of the front side and the rear side of the placing table (4), the first rack (606) is arranged between the two second guide rods (605) on the same side in a sliding mode, and the first racks (606) are engaged with the adjacent first gear (604), the second guide rod (605) is wound with a second spring (607), two ends of the second spring (607) are respectively connected with the second guide rod (605) and the first rack (606), the lower parts of the front side and the rear side of the placing table (4) are respectively provided with a protective shell (608), and the second guide rod (605) is positioned inside the adjacent protective shell (608).

4. The construction cylinder supporting apparatus as claimed in claim 3, wherein the pushing assembly (7) comprises a first supporting rod (701), a second sliding frame (702), a first pressing block (703), a third spring (704), a wedge-shaped rod (705), a second supporting rod (706), a pushing rod (707) and a fourth spring (708), the first supporting rod (701) is symmetrically arranged at the front and rear sides of the bottom in the connecting frame (507) at the left and right sides, the second sliding frame (702) is slidably arranged between the upper parts of the left and right first supporting rods (701) at the same side, the first pressing block (703) is symmetrically arranged at the left and right sides between the top of the second sliding frame (702), the third spring (704) is arranged between the second sliding frame (702) and the two first supporting rods (701) at the same side, the wedge-shaped rod (705) is arranged at the front and rear sides of the bottom of the first pressing block (703), the second supporting rod (706) is arranged at the middle parts of the left and right sides of the bottom in the connecting frame (507), push rods (707) are symmetrically arranged between the upper portions of the second support rods (706) in a sliding mode in a front-back mode, the push rods (707) are in contact with the adjacent first racks (606), the wedge-shaped rods (705) are in contact with the adjacent push rods (707), and fourth springs (708) are arranged between the inner sides of the push rods (707) and the upper portions of the two second support rods (706).

5. The building cylindrical supporting equipment according to claim 4, further comprising a clamping assembly (8) for limiting the push rod (707), wherein the clamping assembly (8) comprises a third supporting rod (801), a clamping block (802), a fifth spring (803), a first guide block (804), a push rod (805) and a sixth spring (806), the third supporting rod (801) is symmetrically arranged in the middle of the inner bottom of the connecting frame (507) in a front-back manner, the clamping block (802) is slidably arranged between the upper parts of the third supporting rod (801), the push rod (707) moves towards the inner side and can be contacted with the clamping block (802), the fifth spring (803) is wound on the third supporting rod (801), two ends of the fifth spring (803) are respectively connected with the clamping block (802) and the connecting frame (507), the first guide block (804) is symmetrically arranged in the front-back manner on the right side of the inner bottom of the connecting frame (507), the push rod (805) is slidably arranged between the upper parts of the first guide block (804), the top rod (805) is connected with the connecting frame (507) in a sliding mode, the top rod (805) moves leftwards and can be in contact with the clamping block (802), and sixth springs (806) are arranged between the middle of the top rod (805) and the two first guide blocks (804).

6. The building cylinder supporting device according to claim 5, further comprising a driving component (9) for driving the turning frame (501) to rotate, wherein the driving component (9) comprises a fourth supporting rod (901), a rocker (902), a third rotating shaft (903), a worm (904), a first supporting block (905), a worm wheel (906), a fourth rotating shaft (907), a second gear (908) and a toothed belt (909), the fourth supporting rod (901) is arranged in the middle of the supporting frame (1) on the left side, the third rotating shaft (903) is rotatably arranged on the upper portion of the fourth supporting rod (901), the third rotating shaft (903) is rotatably connected with the supporting shell (3), the rocker (902) is arranged on the left side of the third rotating shaft (903), the worm (904) is arranged on the right side of the third rotating shaft (903), the first supporting block (905) is arranged on the right side of the inner bottom of the supporting shell (3), a fourth rotating shaft (907) is rotatably arranged at the upper part of the first supporting block (905), a worm wheel (906) is arranged in the middle of the fourth rotating shaft (907), the worm wheel (906) is meshed with the worm (904), second gears (908) are arranged on the front side and the rear side of the fourth rotating shaft (907) and on the inner side of the first rotating shaft (502), and a toothed belt (909) is wound between the two second gears (908) on the same side.

7. The building cylinder supporting equipment according to claim 6, further comprising an anti-turnover component (10) for improving stability, wherein the anti-turnover component (10) comprises a fifth supporting rod (1001), a second pressing block (1002), a seventh spring (1003), a second guiding block (1004), a sliding rod (1005), an eighth spring (1006), a second rack (1007), a second supporting block (1008), a third gear (1009) and a rotating rod (1010), the fifth supporting rod (1001) is symmetrically arranged at the front and back of the left side of the inner top of the supporting shell (3), the number of the fifth supporting rods (1001) is four, the second pressing block (1002) is arranged between the lower parts of the two fifth supporting rods (1001) at the same side in a sliding manner, the top of the second pressing block (1002) is in contact with the bottom of the turnover frame (501), the seventh spring (1003) is wound around the lower part of the fifth supporting rod (1001), and two ends of the seventh spring (1003) are respectively connected with the fifth supporting rod (1001) and the second pressing block (1002), the middle of the inner bottom of the supporting shell (3) is symmetrically provided with a second guide block (1004) in a front-back mode, the upper portion of the second guide block (1004) is provided with a sliding rod (1005) in a sliding mode, the second pressing block (1002) is in contact with the adjacent sliding rod (1005), the sliding rod (1005) is in sliding connection with the supporting shell (3), an eighth spring (1006) is arranged between the sliding rod (1005) and the adjacent second guide block (1004), the right side of the sliding rod (1005) is provided with a second rack (1007), the lower portion of the supporting frame (1) on the right side is symmetrically provided with a second supporting block (1008) in a front-back mode, the lower portion of the second supporting block (1008) is rotatably provided with a rotating rod (1010), the lower portion of the rotating rod (1010) is provided with a third gear (1009), and the second rack (1007) is meshed with the adjacent third gear (1009).

8. The building cylinder support apparatus of claim 3, wherein the clamping blocks (603) are provided with rubber pads on the inner sides.

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