CN219118708U - Vertical surface construction machine - Google Patents

Abstract

The utility model relates to the technical field of port and wharf construction equipment, in particular to an upright surface construction machine. Including erectting face subassembly, construction subassembly, extension subassembly, the one end of firm bottom plate is connected with the bottom plate connecting block, construction subassembly includes the construction board, the one end of construction board is connected with the organic board fixture block, the inboard of construction board has seted up the organic board inside groove, extension subassembly is including extending the horizontal pole, the one end of extension horizontal pole is connected with the horizontal pole fixture block. The beneficial effects are as follows: after the vertical face vertical plate and the port wharf vertical face are connected, the stable bottom plate is placed on the ground, then the bottom plate connecting block is stably inserted into the vertical plate bottom groove until the stable bottom plate and the vertical face vertical plate are in contact and fit with each other, the contact area of the vertical face vertical plate and the ground can be increased through the arrangement of the stable bottom plate, and the use stability of the vertical face vertical plate is improved, so that the use safety of the device is improved.

Description

Vertical surface construction machine

Technical Field

The utility model relates to the technical field of port and wharf construction equipment, in particular to an upright surface construction machine.

Background

The port is a transportation hub which is positioned at the coast of the sea, the river, the lake and the reservoir and has the amphibious transportation equipment and the conditions for the safe access and berthing of the ship. The port is a collection point and a junction of the amphibious traffic, is a collection and distribution place of industrial and agricultural products and foreign trade import and export materials, and is also a place for berthing ships, loading and unloading cargoes, loading and unloading passengers and supplementing supply.

In the harbor and wharf construction process, the scaffold is directly used for construction due to the influence of sea wind, so that the scaffold has certain danger, and the scaffold is easy to shake due to the fact that the contact area between the scaffold and the ground is small, and then certain potential safety hazards exist.

Disclosure of Invention

In view of the above problems, an object of the present utility model is to: the utility model provides a face construction machine erects, it is less to solve because scaffold frame and the area of contact on ground, when receiving the sea wind influence, scaffold frame produces easily and rocks, and then exists certain potential safety hazard, after accomplishing the connection of vertical face riser and harbour pier vertical face, will stabilize the steady place in ground of bottom plate connecting block steady, then insert to the riser undercut with the bottom plate connecting block steady, and until firm bottom plate and the mutual contact laminating of vertical face riser, through setting up of firm bottom plate, can increase the area of contact of vertical face riser and ground, and then improve the steadiness that vertical face riser used, thereby improve the problem of the security that the device used.

In order to achieve the above purpose, the utility model adopts the technical scheme that: the utility model provides a erect face construction machine, includes erects facade subassembly, construction subassembly, extension subassembly, erect the face subassembly and include erects the facade riser, stabilize the bottom plate, erect the inboard of face riser and seted up riser side groove, the inboard of riser side groove is provided with the balancing weight, erect the inboard on face riser upper portion and seted up riser roof groove, erect the inboard of face riser lower part and seted up riser base groove, erect the inboard at face riser top and seted up the riser connecting hole, stabilize the one end of bottom plate and be connected with the bottom plate connecting block, construction subassembly includes the construction machine board, the one end of construction machine board is connected with the organic board fixture block, the inboard of construction machine board has been seted up the organic board inside groove, the construction machine board is far away from the inboard of machine board fixture block one end and has been seted up the organic board connecting hole, extend the subassembly and including extending the horizontal pole, extend the one end of horizontal pole and be connected with the fixture block, the horizontal pole connecting hole has been seted up to the inboard of horizontal pole fixture block.

The beneficial effects of the utility model are as follows: when using the device, firstly, carry out stable connection through connecting piece with the face of erecting of riser and harbour pier, after the stability of guaranteeing riser and harbour pier face of erecting is connected, according to the needs that have the use, select the quantity of using the balancing weight, through the setting of riser, be used for being connected with harbour pier face of erecting, and then realize the device and be connected of harbour pier riser, through the setting of balancing weight, be used for increasing the weight of riser, and then realize the increase of the whole weight of device through the weight of increasing riser, thereby ensure the stability of device use, after accomplishing the connection of riser and harbour pier riser, place steady bottom plate steady in ground, then insert the bottom plate connecting block steady to the riser kerve, and until firm bottom plate and the laminating of erect face riser contact each other, through the setting of firm bottom plate, can increase the area of contact of riser and ground, and then improve the steadiness of riser use, thereby improve the security of device use.

In order to ensure the stability of the device in use:

as a further improvement of the above technical scheme: the vertical face vertical plate is in a rectangular structure, five vertical plate side grooves are formed in total, and the size and the number of the vertical plate side grooves are matched with those of the balancing weights.

The beneficial effects of this improvement are: when the device is used, the vertical face vertical plate and the port and dock vertical face are stably connected through the connecting piece, after the stability of connection between the vertical face vertical plate and the port and dock vertical face is guaranteed, the number of balancing weights is selected to be used according to the use requirement, the vertical face vertical plate is arranged to be connected with the port and dock vertical face, the device and the port and dock vertical face are further connected, the weight of the vertical face vertical plate is increased through the balancing weights, the whole weight of the device is increased through the weight of the vertical face vertical plate, and therefore the use stability of the device is guaranteed.

In order to ensure the depth of the machine board clamping block inserted into the vertical plate top groove:

as a further improvement of the above technical scheme: the vertical plate top groove is a groove body with a rectangular structure, two vertical plate connecting holes are formed in the vertical plate top groove, the two vertical plate connecting holes are communicated with the vertical plate top groove, and the width of the vertical plate top groove is identical to that of the vertical plate.

The beneficial effects of this improvement are: through the setting of riser roof groove for the insertion of board fixture block, the width through riser roof groove is the same with the width of standing the face riser for guarantee board fixture block inserts the degree of depth of riser roof groove, after steadily inserting the riser roof groove with the board fixture block, inserts the riser connecting hole with the connecting piece, thereby realizes the connection of riser and board fixture block.

In order to increase the contact area of the vertical plate and the ground:

as a further improvement of the above technical scheme: the vertical plate bottom groove is a concave groove with a rectangular structure, the size of the vertical plate bottom groove is matched with the size of the bottom plate connecting block, the side view cross section of the stable bottom plate is in an isosceles right triangle structure, and the length of the stable bottom plate is identical to that of the vertical plate.

The beneficial effects of this improvement are: after the vertical face vertical plate and the port wharf vertical face are connected, the stable bottom plate is placed on the ground, then the bottom plate connecting block is stably inserted into the vertical plate bottom groove until the stable bottom plate and the vertical face vertical plate are in contact and fit with each other, the contact area of the vertical face vertical plate and the ground can be increased through the arrangement of the stable bottom plate, and the use stability of the vertical face vertical plate is improved, so that the use safety of the device is improved.

In order to realize the connection of the vertical face vertical plate and the machine plate clamping block:

as a further improvement of the above technical scheme: the construction machine board is rectangular in structure, the length of the construction machine board is identical to that of the vertical plate, the machine board clamping block and the construction machine board are integrally formed, two machine board connecting holes with identical sizes are formed in the inner side of the machine board clamping block, and the size of the machine board clamping block is matched with that of the vertical plate jacking groove.

The beneficial effects of this improvement are: after the connection of the vertical face vertical plate and the vertical face of the port and wharf is completed, the stable bottom plate is placed, the machine plate clamping block is stably inserted into the top groove of the vertical plate until the construction machine plate and the vertical face vertical plate are in contact with each other, then the connecting piece is used for sequentially inserting the vertical plate connecting hole and the machine plate connecting hole, and further the connection of the vertical face vertical plate and the machine plate clamping block is realized, so that the vertical face vertical plate and the construction machine plate are connected.

In order to realize the connection of the extension cross bar and the construction machine plate:

as a further improvement of the above technical scheme: two board connecting holes formed in the construction board are communicated with corresponding board inner grooves, two board inner grooves are formed in the board inner grooves, the size of each board inner groove is matched with that of each cross rod clamping block, and the size of each cross rod connecting hole is the same as that of each board connecting hole.

The beneficial effects of this improvement are: after the construction machine board is connected with the vertical plate, the two cross rod clamping blocks are sequentially and stably inserted into the machine board inner groove, and then the connecting pieces are sequentially inserted into the machine board connecting holes and the cross rod connecting holes, so that the connection between the extending cross rod and the construction machine board is realized.

Drawings

Fig. 1 is a schematic diagram of a front view structure of the present utility model.

Fig. 2 is a schematic perspective view of the standing surface riser of the present utility model.

FIG. 3 is a schematic cross-sectional view of a stabilizing base plate of the present utility model.

Fig. 4 is a schematic perspective view of a construction assembly according to the present utility model.

Fig. 5 is a schematic perspective view of an extension assembly according to the present utility model.

In the figure: 1. a standing surface assembly; 11. a vertical face and a vertical plate; 12. a vertical plate side groove; 13. balancing weight; 14. a vertical plate top groove; 15. a vertical plate bottom groove; 16. stabilizing the bottom plate; 17. a vertical plate connecting hole; 18. a bottom plate connecting block; 2. a construction assembly; 21. a construction machine plate; 22. a machine plate clamping block; 23. an inner groove of the machine plate; 24. a machine plate connecting hole; 3. an extension assembly; 31. an extension rail; 32. a cross bar clamping block; 33. and a cross rod connecting hole.

Detailed Description

In order that those skilled in the art may better understand the technical solutions of the present utility model, the following detailed description of the present utility model with reference to the accompanying drawings is provided for exemplary and explanatory purposes only and should not be construed as limiting the scope of the present utility model.

Example 1:

as shown in fig. 1-5, an upright surface construction machine comprises an upright surface assembly 1, a construction assembly 2 and an extension assembly 3, wherein the upright surface assembly 1 comprises an upright surface upright plate 11 and a stable bottom plate 16, an upright plate side groove 12 is formed in the inner side of the upright surface upright plate 11, a balancing weight 13 is arranged in the inner side of the upright plate side groove 12, a vertical plate top groove 14 is formed in the inner side of the upper part of the upright surface upright plate 11, a vertical plate bottom groove 15 is formed in the inner side of the lower part of the upright surface upright plate 11, a vertical plate connecting hole 17 is formed in the inner side of the top of the upright surface upright plate 11, a bottom plate connecting block 18 is connected to one end of the stable bottom plate 16, the construction assembly 2 comprises a construction machine plate 21, a machine plate inner groove 23 is formed in the inner side of the construction machine plate 21, a machine plate connecting hole 24 is formed in the inner side of one end of the construction machine plate 21, which is far away from a machine plate clamping block 22, a cross bar 31 is connected to one end of the extension assembly 3, a cross bar 32 is connected to one end of the extension bar 31, and a cross bar 32 is connected to one end of the extension bar 32.

Example 2:

as shown in fig. 1 and 2, as a further optimization of the above embodiment, an upright surface construction machine includes an upright surface component 1, a construction component 2 and an extension component 3, where the upright surface component 1 includes an upright surface upright plate 11 and a stable bottom plate 16, a vertical plate side groove 12 is formed on the inner side of the upright surface upright plate 11, a counterweight 13 is disposed on the inner side of the vertical plate side groove 12, a vertical plate top groove 14 is formed on the inner side of the upper portion of the upright surface upright plate 11, a vertical plate bottom groove 15 is formed on the inner side of the lower portion of the upright surface upright plate 11, a vertical plate connecting hole 17 is formed on the inner side of the top of the upright surface upright plate 11, a bottom plate connecting block 18 is connected to one end of the stable bottom plate 16, the construction component 2 includes a construction machine plate 21, one end of the construction machine plate 21 is connected to a machine plate clamping block 22, a machine plate inner groove 23 is formed on the inner side of the construction machine plate 21, a machine plate connecting hole 24 is formed on the inner side of one end far from the machine plate 22, the extension component 3 includes an extension cross bar 31, and one end of the extension bar 32 is connected to the cross bar 32; the vertical surface vertical plates 11 are arranged in a rectangular structure, five vertical plate side grooves 12 are formed in total, and the size and the number of the vertical plate side grooves 12 are matched with those of the balancing weights 13.

Example 3:

as shown in fig. 2, as a further optimization of the above embodiment, an upright surface construction machine includes an upright surface component 1, a construction component 2 and an extension component 3, wherein the upright surface component 1 includes an upright surface upright plate 11 and a stable bottom plate 16, a vertical plate side groove 12 is formed on the inner side of the upright surface upright plate 11, a balancing weight 13 is arranged on the inner side of the vertical plate side groove 12, a vertical plate top groove 14 is formed on the inner side of the upper portion of the upright surface upright plate 11, a vertical plate bottom groove 15 is formed on the inner side of the lower portion of the upright surface upright plate 11, a vertical plate connecting hole 17 is formed on the inner side of the top of the upright surface upright plate 11, a bottom plate connecting block 18 is connected to one end of the stable bottom plate 16, the construction component 2 includes a construction machine plate 21, one end of the construction machine plate 21 is connected to an organic plate 22, a machine plate inner groove 23 is formed on the inner side of the construction machine plate 21 and is far away from the inner side of one end of a machine plate clamping block 22, a machine plate connecting hole 24 is formed on the inner side of one end of the construction machine plate 21, the extension component 3 includes a clamping block 31, one end of the extension transverse rod 32 is connected to the inner side of the transverse rod 32, and one end of the transverse rod 32 is connected to the transverse rod 32; the vertical plate top groove 14 is a rectangular groove body, two vertical plate connecting holes 17 are arranged, the two vertical plate connecting holes 17 are communicated with the vertical plate top groove 14, and the width of the vertical plate top groove 14 is the same as that of the vertical plate 11.

Example 4:

as shown in fig. 3, as a further optimization of the above embodiment, an upright surface construction machine includes an upright surface component 1, a construction component 2 and an extension component 3, wherein the upright surface component 1 includes an upright surface upright plate 11 and a stable bottom plate 16, a vertical plate side groove 12 is formed on the inner side of the upright surface upright plate 11, a balancing weight 13 is arranged on the inner side of the vertical plate side groove 12, a vertical plate top groove 14 is formed on the inner side of the upper portion of the upright surface upright plate 11, a vertical plate bottom groove 15 is formed on the inner side of the lower portion of the upright surface upright plate 11, a vertical plate connecting hole 17 is formed on the inner side of the top of the upright surface upright plate 11, a bottom plate connecting block 18 is connected to one end of the stable bottom plate 16, the construction component 2 includes a construction machine plate 21, one end of the construction machine plate 21 is connected to an organic plate 22, a machine plate inner groove 23 is formed on the inner side of the construction machine plate 21 and is far away from the inner side of one end of a machine plate clamping block 22, a machine plate connecting hole 24 is formed on the inner side of one end of the construction machine plate 21, the extension component 3 includes a clamping block 31, one end of the extension transverse rod 32 is connected to the inner side of the transverse rod 32, and one end of the transverse rod 32 is connected to the transverse rod 32; the vertical plate bottom groove 15 is a concave groove with a rectangular structure, the size of the vertical plate bottom groove 15 is matched with the size of the bottom plate connecting block 18, the side view cross section of the stable bottom plate 16 is in an isosceles right triangle structure, and the length of the stable bottom plate 16 is the same as that of the vertical plate 11.

Example 5:

as shown in fig. 4, as a further optimization of the above embodiment, an upright surface construction machine includes an upright surface component 1, a construction component 2 and an extension component 3, wherein the upright surface component 1 includes an upright surface upright plate 11 and a stable bottom plate 16, a vertical plate side groove 12 is formed on the inner side of the upright surface upright plate 11, a balancing weight 13 is arranged on the inner side of the vertical plate side groove 12, a vertical plate top groove 14 is formed on the inner side of the upper portion of the upright surface upright plate 11, a vertical plate bottom groove 15 is formed on the inner side of the lower portion of the upright surface upright plate 11, a vertical plate connecting hole 17 is formed on the inner side of the top of the upright surface upright plate 11, a bottom plate connecting block 18 is connected to one end of the stable bottom plate 16, the construction component 2 includes a construction machine plate 21, one end of the construction machine plate 21 is connected to an organic plate 22, a machine plate inner groove 23 is formed on the inner side of the construction machine plate 21 and is far away from the inner side of one end of a machine plate clamping block 22, a machine plate connecting hole 24 is formed on the inner side of one end of the construction machine plate 21, the extension component 3 includes a clamping block 31, one end of the extension transverse rod 32 is connected to the inner side of the transverse rod 32, and one end of the transverse rod 32 is connected to the transverse rod 32; the construction machine board 21 is rectangular, the length of the construction machine board 21 is identical to that of the vertical plate 11, the machine board clamping block 22 and the construction machine board 21 are integrally formed, two machine board connecting holes 24 with identical dimensions are formed in the inner side of the machine board clamping block 22, and the dimensions of the machine board clamping block 22 are matched with those of the vertical plate top groove 14.

Example 6:

as shown in fig. 4 and 5, as a further optimization of the above embodiment, an upright surface construction machine includes an upright surface component 1, a construction component 2 and an extension component 3, where the upright surface component 1 includes an upright surface upright plate 11 and a stable bottom plate 16, a vertical plate side groove 12 is formed on the inner side of the upright surface upright plate 11, a counterweight 13 is disposed on the inner side of the vertical plate side groove 12, a vertical plate top groove 14 is formed on the inner side of the upper portion of the upright surface upright plate 11, a vertical plate bottom groove 15 is formed on the inner side of the lower portion of the upright surface upright plate 11, a vertical plate connecting hole 17 is formed on the inner side of the top of the upright surface upright plate 11, a bottom plate connecting block 18 is connected to one end of the stable bottom plate 16, the construction component 2 includes a construction machine plate 21, one end of the construction machine plate 21 is connected to a machine plate clamping block 22, a machine plate inner groove 23 is formed on the inner side of the construction machine plate 21, a machine plate connecting hole 24 is formed on the inner side of one end far from the machine plate 22, the extension component 3 includes an extension cross bar 31, and one end of the extension bar 32 is connected to the cross bar 32; the two machine board connecting holes 24 formed in the construction machine board 21 are communicated with the corresponding machine board inner grooves 23, the two machine board inner grooves 23 are arranged, the size of the machine board inner grooves 23 is matched with that of the cross bar clamping blocks 32, and the size of the cross bar connecting holes 33 is the same as that of the machine board connecting holes 24.

The working principle of the utility model is as follows: when the device is used, the vertical surface vertical plate 11 is firstly stably connected with the vertical surface of the port and dock through the connecting piece, after the stability of the connection of the vertical surface vertical plate 11 and the vertical surface of the port and dock is ensured, the number of the balancing weights 13 is selected to be used according to the use requirement, the vertical surface vertical plate 11 is used for being connected with the vertical surface of the port and dock so as to realize the connection of the device and the vertical surface of the port and dock, the balancing weights 13 are used for increasing the weight of the vertical surface vertical plate 11 and further realizing the increase of the integral weight of the device through the weight of the vertical surface vertical plate 11, so that the use stability of the device is ensured, the vertical plate jacking groove 14 is used for inserting the machine plate clamping blocks 22, the width of the vertical plate jacking groove 14 is the same as the width of the vertical surface vertical plate 11, the depth of the machine plate clamping blocks 22 inserted into the vertical plate jacking groove 14 is ensured, after the machine plate clamping block 22 is stably inserted into the vertical plate jacking groove 14, the connecting piece is used for inserting the vertical plate connecting hole 17, so that the connection between the vertical plate 11 and the machine plate clamping block 22 is realized, after the connection between the vertical plate 11 and the vertical surface of a port and dock is completed, the stable bottom plate 16 is stably placed on the ground, then the bottom plate connecting block 18 is stably inserted into the vertical plate jacking groove 15 until the stable bottom plate 16 and the vertical plate 11 are in contact and fit with each other, the contact area between the vertical plate 11 and the ground can be increased through the arrangement of the stable bottom plate 16, the stability of the use of the vertical plate 11 is further improved, the use safety of the device is improved, after the connection between the vertical plate 11 and the vertical surface of the port and dock is completed, and after the stable bottom plate 16 is placed, the machine plate clamping block 22 is stably inserted into the vertical plate jacking groove 14 until the construction machine plate 21 and the vertical plate 11 are in contact with each other, then, the connecting pieces are sequentially inserted into the vertical plate connecting holes 17 and the machine plate connecting holes 24, so that the vertical plate 11 and the machine plate clamping blocks 22 are connected, the vertical plate 11 and the construction machine plate 21 are connected, after the construction machine plate 21 and the vertical plate 11 are connected, the two transverse rod clamping blocks 32 are sequentially and stably inserted into the machine plate inner groove 23, then the connecting pieces are sequentially inserted into the machine plate connecting holes 24 and the transverse rod connecting holes 33, so that the connection of the extending transverse rods 31 and the construction machine plate 21 is realized, the vertical plate 11 achieves the aim of being connected with the vertical surface of a port wharf, the related principle of the vertical plate 11 equipment related to the structure is the disclosed prior art, the components are all universal standard components or components known to a person skilled in the art, and the structure and principle of the components are all known by the person through technical manuals or through a conventional experimental method.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The principles and embodiments of the present utility model have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present utility model and its core ideas. The foregoing is merely illustrative of the preferred embodiments of the utility model, and it is noted that there is virtually no limit to the specific structure which may be imposed by those skilled in the art without departing from the spirit of the utility model, and that modifications, adaptations, or variations of the foregoing features may be combined in a suitable manner; such modifications, variations and combinations, or the direct application of the inventive concepts and aspects to other applications without modification, are contemplated as falling within the scope of the present utility model.

Claims (6)

1. The utility model provides a face construction machine erects, includes upright face subassembly (1), construction assembly (2), extension subassembly (3), upright face subassembly (1) is including upright face riser (11), firm bottom plate (16), riser side groove (12) have been seted up to the inboard of upright face riser (11), the inboard of riser side groove (12) is provided with balancing weight (13), riser roof groove (14) have been seted up to the inboard on upright face riser (11) upper portion, riser kerve (15) have been seted up to the inboard of upright face riser (11) lower part, riser connecting hole (17) have been seted up to the inboard at upright face riser (11) top, the one end of firm bottom plate (16) is connected with bottom plate connecting block (18), its characterized in that: construction subassembly (2) are including construction machine board (21), organic board fixture block (22) are connected to the one end of construction machine board (21), interior groove (23) of board have been seted up to the inboard of construction machine board (21), interior board connecting hole (24) have been seted up to the inboard that construction machine board (21) were kept away from machine board fixture block (22) one end, extension subassembly (3) are including extending horizontal pole (31), the one end of extending horizontal pole (31) is connected with horizontal pole fixture block (32), horizontal pole connecting hole (33) have been seted up to the inboard of horizontal pole fixture block (32).

2. The machine for constructing an erect surface of claim 1, wherein: the vertical face vertical plate (11) is in a rectangular structure, five vertical plate side grooves (12) are formed in total, and the size and the number of the vertical plate side grooves (12) are matched with those of the balancing weights (13).

3. The machine for constructing an erect surface of claim 1, wherein: the vertical plate top groove (14) is a groove body with a rectangular structure, two vertical plate connecting holes (17) are formed in the vertical plate top groove (14), the two vertical plate connecting holes (17) are communicated with the vertical plate top groove (14), and the width of the vertical plate top groove (14) is the same as that of the vertical plate (11).

4. The machine for constructing an erect surface of claim 1, wherein: the vertical plate bottom groove (15) is a concave groove with a rectangular structure, the size of the vertical plate bottom groove (15) is matched with the size of the bottom plate connecting block (18), the side view cross section of the stable bottom plate (16) is in an isosceles right triangle structure, and the length of the stable bottom plate (16) is identical to that of the vertical plate (11).

5. The machine for constructing an erect surface of claim 1, wherein: the construction machine board (21) is rectangular, the length of the construction machine board (21) is identical to that of the vertical plate (11), the machine board clamping block (22) and the construction machine board (21) are integrally formed, two machine board connecting holes (24) with the same size are formed in the inner side of the machine board clamping block (22), and the size of the machine board clamping block (22) is matched with that of the vertical plate jacking groove (14).

6. The machine for constructing an erect surface of claim 1, wherein: two board connecting holes (24) formed in the construction board (21) are communicated with corresponding board inner grooves (23), two board inner grooves (23) are formed in total, the size of each board inner groove (23) is matched with that of a cross rod clamping block (32), and the size of each cross rod connecting hole (33) is identical to that of each board connecting hole (24).

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