CN215212511U - Self-walking type pushing and sliding device - Google Patents
Self-walking type pushing and sliding device Download PDFInfo
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- CN215212511U CN215212511U CN202120911248.9U CN202120911248U CN215212511U CN 215212511 U CN215212511 U CN 215212511U CN 202120911248 U CN202120911248 U CN 202120911248U CN 215212511 U CN215212511 U CN 215212511U
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Abstract
A self-walking type pushing and sliding device comprises an I-shaped sliding rail, a sliding supporting platform which can be in relative sliding nested fit with the I-shaped sliding rail, an installation groove body fixedly installed on the sliding supporting platform, a supporting piece which is slidably accommodated in the installation groove body and used for supporting a building, a pushing oil cylinder which is respectively connected with the I-shaped sliding rail and the installation groove body and used for driving the installation groove body to slide along the I-shaped sliding rail, and a deviation rectifying oil cylinder which is respectively connected with the installation groove body and the supporting piece and used for driving the supporting piece to slide relative to the installation groove body; the sliding support platform is provided with a through hole; the self-walking type pushing and sliding device further comprises a jacking oil cylinder which is arranged at the bottom of the installation groove body and penetrates through the through hole. The self-walking pushing and sliding device of the utility model can realize the self-walking effect of the self-walking pushing and sliding device; the shearing stress borne by the pushing oil cylinder is weakened through the technical characteristic that the sliding supporting platform and the I-shaped sliding rail can be matched in a nested mode in a relatively sliding mode, and the damage risk is reduced.
Description
Technical Field
The utility model relates to a top pushes away technical field, especially relates to a push away slider from walking.
Background
Chinese patent CN201821766698.8 discloses a walker device, which comprises a jacking cylinder, a pushing cylinder, a sliding seat and a base; the top of the jacking oil cylinder is connected with a building through a top connecting plate; the bottom of the jacking oil cylinder is fixed on the sliding seat; the walking device also comprises a pushing oil cylinder which is respectively connected with the base and the sliding seat and is used for pushing the sliding seat. The multiple walking device devices act together to realize the integral translation or rotation of the building. However, in practical use, the pushing cylinder is horizontally arranged, and under the action of the gravity of the base, the pushing cylinder can be subjected to shearing stress, which easily causes damage to the walking device.
SUMMERY OF THE UTILITY MODEL
The utility model aims at the above-mentioned technical problem, a self-propelled top pushes away slide device is proposed.
The utility model provides a following technical scheme:
the utility model provides a self-walking type pushing and sliding device, which comprises an I-shaped slide rail, a sliding support platform which can slide relatively and be nested with the I-shaped slide rail, an installation groove body fixedly installed on the sliding support platform, a supporting piece which can be slidably accommodated in the installation groove body and is used for supporting a building, a pushing oil cylinder which is respectively connected with the I-shaped slide rail and the installation groove body and is used for driving the installation groove body to slide along the I-shaped slide rail, and a deviation rectifying oil cylinder which is respectively connected with the installation groove body and the supporting piece and is used for driving the supporting piece to slide relative to the installation groove body; the sliding support platform is provided with a through hole; the self-walking type pushing and sliding device also comprises a jacking oil cylinder which is arranged at the bottom of the installation groove body and penetrates through the through hole; when the jacking oil cylinder is in a retraction state, the bottom surface of the jacking oil cylinder is positioned above the bottom surface of the I-shaped slide rail; when the jacking oil cylinder is in an extending state, the bottom surface of the I-shaped slide rail is positioned above the bottom surface of the jacking oil cylinder.
In the self-propelled pushing and sliding device of the present invention, the sliding support platform includes a support plate, and the through hole is disposed on the support plate; the mounting groove body is fixedly mounted on the support plate;
the sliding support platform further comprises a C-shaped groove steel bar fixedly arranged at the bottom of the support plate, and the C-shaped groove steel bar and the I-shaped sliding rail can be in nesting fit in a relatively sliding mode.
The utility model discloses among the foretell from walking top pushes away the sliding device, push away the sliding device from walking still includes fixed mounting at the first end of I-shaped slide rail one end and the second end of fixed mounting at the I-shaped slide rail other end.
In the self-propelled pushing and sliding device of the present invention, the pushing cylinder includes a first cylinder body and a first piston rod telescopically and slidably disposed on the first cylinder body; first cylinder body is installed on first end, and first piston rod is connected on the installation cell body.
In the self-walking push-and-slide device of the present invention, there are two i-shaped slide rails, the slide support platform has two C-shaped channel steel bars, and the i-shaped slide rails and the C-shaped channel steel bars are in one-to-one correspondence; the C-shaped groove steel bars and the corresponding I-shaped sliding rails can be in relatively sliding nested fit;
the two pushing oil cylinders are arranged, the two first end heads are arranged, the first end heads correspond to the I-shaped sliding rails one by one, and the two pushing oil cylinders correspond to the first end heads one by one; the first end heads are fixedly arranged on the corresponding I-shaped slide rails, and the pushing oil cylinders are arranged on the corresponding first end heads;
the self-walking pushing sliding device also comprises a first connecting piece which connects the two first ends together.
In the self-walking push-sliding device of the present invention, there are two second ends, the second ends correspond to the i-shaped slide rails one by one, and the second ends are fixedly mounted on the corresponding i-shaped slide rails;
the self-propelled incremental launching glide also includes a second connecting member connecting the two second ends together.
In the self-propelled jacking and sliding device of the present invention, the jacking cylinder includes a second cylinder and a second piston rod telescopically and slidably disposed on the second cylinder; the second cylinder body is arranged at the bottom of the installation groove body.
In the self-propelled jacking and sliding device of the present invention, the deviation-correcting cylinder further comprises a third cylinder and a third piston rod telescopically and slidably disposed on the third cylinder; the third cylinder body is arranged on the installation groove body, and the third piston rod is arranged on the supporting piece.
The self-walking pushing and sliding device of the utility model can realize the self-walking effect of the self-walking pushing and sliding device; the shearing stress borne by the pushing oil cylinder is weakened through the technical characteristic that the sliding supporting platform and the I-shaped sliding rail can be matched in a nested mode in a relatively sliding mode, and the risk of damage to the self-walking pushing sliding device is reduced.
Drawings
The present invention will be further explained with reference to the accompanying drawings:
FIG. 1 shows a schematic structural view of a self-propelled jacking glide assembly in accordance with a preferred embodiment of the present invention;
FIG. 2 shows a schematic view of the self-propelled jacking skid of FIG. 1 in another orientation;
FIG. 3 shows a schematic view of the self-propelled jacking glide shown in FIG. 1 in a further orientation;
FIG. 4 shows a reference view of the self-propelled jacking glide shown in FIG. 1 in use.
Detailed Description
In order to make the technical solutions, technical objects, and technical effects of the present invention clearer, so as to enable those skilled in the art to understand and implement the present invention, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
As shown in fig. 1-4, fig. 1 is a schematic structural view of a self-propelled jacking sliding device according to a preferred embodiment of the present invention; FIG. 2 shows a schematic view of the self-propelled jacking skid of FIG. 1 in another orientation; FIG. 3 shows a schematic view of the self-propelled jacking glide shown in FIG. 1 in a further orientation; FIG. 4 shows a reference view of the self-propelled jacking glide shown in FIG. 1 in use.
The self-walking type pushing sliding device comprises an I-shaped sliding rail 510, a sliding support platform 100 which can be in relatively sliding nested fit with the I-shaped sliding rail 510, an installation groove body 200 fixedly installed on the sliding support platform 100, a supporting piece 700 which is slidably accommodated in the installation groove body 200 and is used for supporting a building 900, a pushing oil cylinder 600 which is respectively connected with the I-shaped sliding rail 510 and the installation groove body 200 and is used for driving the installation groove body 200 to slide along the I-shaped sliding rail 510, and a deviation-correcting oil cylinder 300 which is respectively connected with the installation groove body 200 and the supporting piece 700 and is used for driving the supporting piece 700 to slide relative to the installation groove body 200;
the sliding support platform 100 is provided with a through hole; the self-walking type pushing and sliding device also comprises a jacking oil cylinder 400 which is arranged at the bottom of the installation groove body 200 and penetrates through the through hole;
when the jacking oil cylinder 400 is in a retraction state, the bottom surface of the jacking oil cylinder 400 is positioned above the bottom surface of the I-shaped sliding rail 510;
when the jacking cylinder 400 is in the extended state, the bottom surface of the i-shaped slide rail 510 is located above the bottom surface of the jacking cylinder 400.
The above technical solution is a basic solution, when the jacking cylinder 400 is in a retracted state, the i-shaped slide rail 510 is supported on the reference surface, and under the action of the jacking cylinder 600, the installation groove body 200 can slide relative to the i-shaped slide rail 510. When the jacking cylinder 400 is in an extended state, the mounting groove body 200 is supported on the reference surface through the jacking cylinder 400, and the i-shaped slide rail 510 can slide relative to the mounting groove body 200 under the action of the jacking cylinder 600. The self-walking effect of the self-walking type pushing and sliding device can be realized by the fact that the installation trough body 200 slides relative to the I-shaped sliding rail 510 and the I-shaped sliding rail 510 slides relative to the installation trough body 200; the shearing stress borne by the pushing oil cylinder is weakened through the technical characteristic that the sliding supporting platform and the I-shaped sliding rail can be matched in a nested mode in a relatively sliding mode, and the risk of damage to the self-walking pushing sliding device is reduced. Here, the building 900 may be a bridge or a member such as a house. Additionally, a self-propelled jacking skid is typically required to be used with a lift apparatus 800, as shown in FIG. 4. The lifting device 800 may be a jack or a pushing device integrating pushing, jacking and deviation correction.
Further, the sliding support platform 100 includes a support plate 110, and the through hole is opened on the support plate 110; and the installation tank 200 is fixedly installed on the support plate 110;
the sliding support platform 100 further comprises a C-shaped channel steel bar 120 fixedly disposed at the bottom of the support plate 110, and the C-shaped channel steel bar 120 and the i-shaped slide rail 510 are slidably nested and matched with each other.
Here, stable support and sliding fit of the mounting bracket 200 can be achieved by means of the i-shaped sliding rail 510.
Further, the self-propelled pushing sliding device further comprises a first end 520 fixedly mounted at one end of the i-shaped sliding rail 510 and a second end 540 fixedly mounted at the other end of the i-shaped sliding rail 510; here, the first end 520 and the second end 540 prevent the mounting bracket 200 from slipping off the i-shaped sliding rail 510.
Further, the jacking cylinder 600 comprises a first cylinder 620 and a first piston rod 610 telescopically and slidably disposed on the first cylinder 620;
the first cylinder 620 is installed on the first end 520, and the first piston rod 610 is connected to the installation groove 200.
Here, the jacking cylinder 600 is indirectly mounted on the i-shaped rail 510 through the first end 520. It is understood that the jacking cylinder 600 may also be mounted directly on the i-shaped rail 510.
Further, in the present embodiment, the first cylinder 620 is hinged to the first end 520, and the first piston rod 610 is hinged to the mounting groove 200. Preferably, in this embodiment, a first ear plate is formed on the mounting slot 200, a second ear plate is formed on the first piston rod 610, and the first ear plate and the second ear plate are hinged.
Further, the jacking cylinder 600 may be disposed horizontally or obliquely.
Further, in the present embodiment, there are two i-shaped slide rails 510, the sliding support platform 100 has two C-shaped channel steel bars 120, and the i-shaped slide rails 510 correspond to the C-shaped channel steel bars 120 one by one; the C-shaped groove steel bar 120 and the corresponding I-shaped slide rail 510 can be in relative sliding nested fit;
two jacking oil cylinders 600 are provided, two first end heads 520 are provided, the first end heads 520 correspond to the I-shaped slide rails 510 one by one, and the jacking oil cylinders 600 correspond to the first end heads 520 one by one; the first end 520 is fixedly arranged on the corresponding I-shaped slide rail 510, and the jacking oil cylinder 600 is arranged on the corresponding first end 520;
the self-propelled jacking glide also includes a first connecting member 530 connecting the two first ends 520 together. The first connector 530 and the first head 520 may be connected by welding, screwing, riveting, or the like.
Furthermore, there are two second end heads 540, the second end heads 540 correspond to the i-shaped sliding rails 510 one by one, and the second end heads 540 are fixedly mounted on the corresponding i-shaped sliding rails 510;
the self-propelled jacking glide also includes a second connector 550 connecting the two second ends 540 together. The second connector 550 and the second header 540 may be connected by welding, screwing, riveting, or the like.
Further, the lift cylinder 400 includes a second cylinder body 420 and a second piston rod 410 telescopically slidably disposed on the second cylinder body 420; the second cylinder 420 is installed at the bottom of the installation tank 200.
Further, the deviation rectifying cylinder 300 further includes a third cylinder 320 and a third piston rod 310 telescopically and slidably disposed on the third cylinder 320; the third cylinder 320 is installed on the installation groove 200, and the third piston rod 310 is installed on the support member 700.
While the embodiments of the present invention have been described with reference to the accompanying drawings, the present invention is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many modifications may be made by one skilled in the art without departing from the spirit and scope of the present invention as defined in the appended claims.
Claims (8)
1. A self-walking type pushing and sliding device is characterized by comprising an I-shaped sliding rail (510), a sliding supporting platform (100) which can be in relative sliding nested fit with the I-shaped sliding rail (510), an installation groove body (200) fixedly installed on the sliding supporting platform (100), a supporting piece (700) which is slidably accommodated in the installation groove body (200) and is used for supporting a building (900), a pushing oil cylinder (600) which is respectively connected with the I-shaped sliding rail (510) and the installation groove body (200) and is used for driving the installation groove body (200) to slide along the I-shaped sliding rail (510), and a deviation rectifying oil cylinder (300) which is respectively connected with the installation groove body (200) and the supporting piece (700) and is used for driving the supporting piece (700) to slide relative to the installation groove body (200); a through hole is formed in the sliding support platform (100); the self-walking type pushing sliding device also comprises a jacking oil cylinder (400) which is arranged at the bottom of the installation groove body (200) and penetrates through the through hole; when the jacking oil cylinder (400) is in a retraction state, the bottom surface of the jacking oil cylinder (400) is positioned above the bottom surface of the I-shaped sliding rail (510); when the jacking oil cylinder (400) is in an extending state, the bottom surface of the I-shaped sliding rail (510) is positioned above the bottom surface of the jacking oil cylinder (400).
2. The self-propelled jacking glide of claim 1 wherein the sliding support platform (100) includes a support plate (110), said through hole opening in the support plate (110); the installation groove body (200) is fixedly installed on the support plate (110);
the sliding support platform (100) further comprises a C-shaped groove steel bar (120) fixedly arranged at the bottom of the support plate (110), and the C-shaped groove steel bar (120) and the I-shaped sliding rail (510) can be in nested fit in a relatively sliding mode.
3. The self-propelled jacking glide of claim 2 further comprising a first end (520) fixedly mounted to one end of the i-shaped rail (510) and a second end (540) fixedly mounted to the other end of the i-shaped rail (510).
4. The self-propelled jacking skid of claim 3, wherein the jacking cylinder (600) comprises a first cylinder (620) and a first piston rod (610) telescopically slidably disposed on the first cylinder (620); the first cylinder (620) is installed on the first end (520), and the first piston rod (610) is connected to the installation groove body (200).
5. The self-propelled incremental launching glide device of claim 4 wherein there are two I-shaped rails (510), the sliding support platform (100) has two C-channel steel bars (120), and the I-shaped rails (510) are in one-to-one correspondence with the C-channel steel bars (120); the C-shaped groove steel bars (120) and the corresponding I-shaped sliding rails (510) can be in relatively sliding nested fit;
two jacking oil cylinders (600) are provided, two first end heads (520) are provided, the first end heads (520) correspond to the I-shaped sliding rails (510) one by one, and the jacking oil cylinders (600) correspond to the first end heads (520) one by one; the first end heads (520) are fixedly arranged on the corresponding I-shaped sliding rails (510), and the pushing oil cylinders (600) are arranged on the corresponding first end heads (520);
the self-propelled jacking glide also includes a first connecting member (530) connecting the two first ends (520) together.
6. The self-propelled jacking glide of claim 5 wherein there are two second ends (540), the second ends (540) corresponding one-to-one to the I-shaped rails (510), the second ends (540) being fixedly mounted to the corresponding I-shaped rails (510);
the self-propelled jacking glide also includes a second connecting member (550) connecting the two second ends (540) together.
7. The self-propelled jacking skid of claim 1, wherein the jacking cylinder (400) includes a second cylinder (420) and a second piston rod (410) telescopically slidably disposed on the second cylinder (420); the second cylinder body (420) is arranged at the bottom of the installation groove body (200).
8. The self-propelled jacking skid of claim 1, wherein the deviation-correcting cylinder (300) further comprises a third cylinder (320) and a third piston rod (310) telescopically slidably disposed on the third cylinder (320); the third cylinder (320) is arranged on the mounting groove body (200), and the third piston rod (310) is arranged on the supporting piece (700).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202120911248.9U CN215212511U (en) | 2021-04-29 | 2021-04-29 | Self-walking type pushing and sliding device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202120911248.9U CN215212511U (en) | 2021-04-29 | 2021-04-29 | Self-walking type pushing and sliding device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN215212511U true CN215212511U (en) | 2021-12-17 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202120911248.9U Active CN215212511U (en) | 2021-04-29 | 2021-04-29 | Self-walking type pushing and sliding device |
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| Country | Link |
|---|---|
| CN (1) | CN215212511U (en) |
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2021
- 2021-04-29 CN CN202120911248.9U patent/CN215212511U/en active Active
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Denomination of utility model: A self-propelled pushing and sliding device Effective date of registration: 20230515 Granted publication date: 20211217 Pledgee: Bank of China Limited Wuhan Hanyang sub branch Pledgor: Wuhan Jingjie Heavy Engineering Co.,Ltd. Registration number: Y2023980040504 |