CN113074310A - Adjustable building equipment mounting bracket and use method thereof - Google Patents

Abstract

The invention discloses an adjustable building equipment mounting bracket and a use method thereof, belonging to the technical field of building equipment mounting, and the technical scheme is characterized by comprising a connecting assembly, a hoisting assembly and a bracket assembly, wherein the hoisting assembly is mounted on a wall body through the connecting assembly; the support component is used for supporting and placing the construction equipment and comprises a support body, and the support body is of a hollow shell structure with a hollow interior. The adjustable building equipment mounting support has strong universality, can be adapted to various building equipment of different models and brands, has simple and labor-saving lifting adjustment steps, and greatly improves the firmness of a connecting structure with a building wall surface.

Description

Adjustable building equipment mounting bracket and use method thereof

Technical Field

The invention relates to the technical field of building equipment installation, in particular to an adjustable building equipment installation support and a using method thereof.

Background

The building equipment is an important component of a building and comprises facility equipment such as water supply, drainage, heating, ventilation, an air conditioner, electricity, an elevator, communication, building intellectualization and the like, most of the building equipment is installed by means of an installation support, the installation support needs to be highly matched with the shape and the size of the building equipment so as to realize the stable installation of the building equipment, the safety and the reliability of a building equipment installation structure are also determined, the installation is not negligible in the process of installing the building equipment, but the current building equipment installation support has the following defects:

1. the installation support of equipment of different brands is difficult to mutually use due to high customization, and even the installation supports of equipment of the same brand and different models are difficult to mutually use, so that the installation firmness and stability of the installation support are greatly reduced due to forced universal use, and the potential safety hazard is greatly improved;

2. the lifting adjustment steps are complicated and laborious;

3. the connecting structure with the building wall is simpler, and the firmness is to be strengthened.

Disclosure of Invention

The invention aims to provide an adjustable mounting bracket for building equipment and a using method thereof, the adjustable mounting bracket for building equipment has strong universality, can be adapted to various building equipment with different models and brands, has simple and labor-saving lifting adjustment steps, and greatly improves the firmness of a connecting structure between the adjustable mounting bracket for building equipment and a building wall surface.

The technical purpose of the invention is realized by the following technical scheme: an adjustable mounting bracket for construction equipment, which comprises a connecting component, a hoisting component and a bracket component, wherein the hoisting component is mounted on a wall body through the connecting component, the bracket component is mounted on the hoisting component, and the bracket component can be adjusted up and down by means of the hoisting component;

the support component is used for supporting and placing construction equipment and comprises a support body, the support body is of a hollow shell structure, a string rod fixedly penetrates through the support body along the length direction of the support body, two ends of the string rod extend outwards from the interior of the support body, one end of the string rod is provided with a material injection groove, the side wall of the material injection groove is provided with a material outlet, the string rod enters the material injection groove from the exterior of the support body and penetrates through the material outlet to enter the interior of the support body, the other end of the string rod is provided with a pressure stabilizing groove, the side wall of the pressure stabilizing groove is provided with a pressure stabilizing port, the string rod enters the pressure stabilizing groove from the exterior of the support body and penetrates through the pressure stabilizing port to enter the interior of the support body, a plug is plugged in the pressure stabilizing groove, a plurality of movable pieces which are tightly attached to each other are arranged on the string rod, and the movable pieces are of, its middle part embedding is provided with the flexure strip, the center department of flexure strip seted up with cluster pole external diameter assorted through hole, the cluster pole is followed a plurality of the movable plate run through perpendicularly in the through hole, it is a plurality of the downside of movable plate all is located this internal, and a plurality of the upside of movable plate is then all followed the outside activity of inside of support body runs through, and is a plurality of the movable plate is when not receiving external force, and its upper and lower both sides all flush, and this moment on the movable plate the flexure strip also all does not take place deformation.

Furthermore, the connecting assembly comprises two top plates, each top plate is fixedly arranged on a wall body through a plurality of expansion bolts, and a ball head is fixedly hung at the bottom of each top plate;

the hoisting assembly comprises two hanger rods with threads on the outer surfaces, a ball seat is fixedly mounted at the top end of each hanger rod, the outer diameter of each ball seat is larger than that of each hanger rod, the two ball heads are movably embedded into the two ball seats in a one-to-one correspondence manner, and the two ball heads are hinged together;

each hanging rod is provided with a hanging plate, the hanging plate is formed by integrally constructing two plate-shaped structures which are vertical to each other, the hanging plate is L-shaped as a whole, one plate-shaped structure of the hanging plate is vertically penetrated by the hanging rod and is connected with the hanging rod in a rotating shaft sleeve mode, the other plate-shaped structure of the hanging plate is provided with a placing opening, the upper side and the lower side of the inner wall of the placing opening are provided with flexible pads, and two limiting rods are vertically fixed on the plate-shaped structure of the hanging plate penetrated by the hanging rod and penetrate through the plate-shaped structure;

each hanging rod is sleeved with a movable block in a threaded manner, the movable blocks are penetrated through by the two limiting rods, and two ends of the support body penetrate through the two placing openings respectively and lean against the two movable blocks;

an adjusting rod is connected between the bottom ends of the two hanging rods, the bottom ends of the hanging rods are in transmission connection with the end of the adjusting rod through a gear transmission mechanism, and the two hanging rods can rotate simultaneously through rotating the adjusting rod under the transmission action of the gear transmission mechanism.

Furthermore, an annular groove is formed in the bottom of the top plate around the ball head, and the vertical section of the annular groove is T-shaped;

the jib is close to the one end axis of rotation cover of ball seat is connected with the lantern ring, the many connecting rods of the lateral wall fixedly connected with of the lantern ring, the connecting rod is kept away from the one end of the lantern ring is equipped with the dop, the dop with the tip of connecting rod constitutes "T" type structure, and this "T" type structure card is gone into extremely in the ring channel, just the dop can along the ring channel slides.

Furthermore, both ends of the limiting rod are fixedly provided with limiting heads, and the limiting heads and the limiting rods form an I-shaped structure.

Furthermore, the gear transmission mechanism comprises a shell, a first bevel gear and a second bevel gear which are arranged in the shell and are meshed with each other, the suspender extends into the shell and is coaxially and fixedly connected with the first bevel gear, and the adjusting rod extends into the shell and is coaxially and fixedly connected with the second bevel gear.

Furthermore, a multi-edge sleeve is fixedly sleeved on the adjusting rod.

Furthermore, a plurality of clamping grooves are formed in the outer side wall of the support body, and the inner side of the placing opening is embedded into the clamping grooves.

A method of using an adjustable construction equipment mounting bracket, comprising the steps of:

1) measurement: measuring the external dimension of the building equipment, and recording the measured data;

2) prefabricating a base:

a. according to the size of the construction equipment, marking out the area which needs to be occupied by the construction equipment to be placed on the plurality of movable sheets;

b. manually pressing down the plurality of movable sheets in the area marked out in the step a to enable the plurality of movable sheets in the area to be downwards sunken and ensure that the shape and the size of the sunken part are matched with those of the construction equipment, and meanwhile, continuously pressing down the plurality of movable sheets in the area by means of a heavy object to enable the plurality of movable sheets in the area to be kept in a downwards sunken state, wherein the side, positioned inside the bracket body, of the pressed down movable sheet is kept in an outwards convex state;

c. injecting a solidification material into the material injection groove, wherein the solidification material flows into the bracket body through the discharge hole after entering the material injection groove until the inner space of the bracket body is filled up, at the moment, the parts of the movable sheets positioned in the bracket body are all wrapped by the solidification material, and the plug is opened during the process, so that the outside can be communicated with the inside of the bracket body through the pressure stabilizing groove and the pressure stabilizing port to play a role in stabilizing the pressure;

d. standing for a period of time until the solidification material in the bracket body is completely solidified, and then shaping the plurality of movable plates by the solidification material;

e. removing the weight pressed on the movable sheet;

3) installing a support: firstly, the hoisting assembly is installed on a wall body by means of the connecting assembly, and then the bracket assembly is installed on the hoisting assembly until the bracket body in the bracket assembly is kept horizontally stable;

4) lifting adjustment: the lifting adjustment is carried out on the support assembly by means of the hoisting assembly, so that the lifting adjustment of the support body is realized until the distance between the support body and the wall meets the size condition of the building equipment;

5) placing equipment: and placing the construction equipment on the bracket body, and embedding the lower part of the construction equipment into the concave parts formed on the plurality of movable sheets.

Furthermore, the bottom surface of the support body is of a detachable structure.

Furthermore, the inside of support body is equipped with the barrier cloth, the barrier cloth will the movable plate covers but will not the discharge gate with the steady voltage mouth covers, the barrier cloth is used for with the movable plate is kept apart with the solidification material.

In conclusion, the invention has the following beneficial effects:

1. the adjustable type building equipment mounting support is characterized in that a support component is mounted on a hoisting component, the hoisting component is mounted on a wall body through a connecting component, building equipment is supported and placed through a support body in the support component, a plurality of movable sheets are arranged on the support body and can be sunken towards the inside of the support body when being vertically extruded, when the building equipment is mounted, the building equipment is placed on the support body and can be extruded to form corresponding sunken parts when being extruded, and the sunken parts just fit with the size and shape of the building equipment to play a role in positioning the building equipment, so that a positioning base does not need to be additionally customized according to the size and shape of the building equipment, the building equipment only needs to be placed on the movable sheets when being mounted, and the positioning sunken parts which have the same functions as the positioning base and are completely matched with the building equipment are automatically formed at the moment, to sum up, this kind of adjustable type architectural equipment installing support has very strong commonality, can the all kinds of architectural equipment of different models, different brands of adaptation.

2. This kind of adjustable type construction equipment installing support, when twisting the regulation pole, can drive two jibs simultaneously rotatory with the help of two sets of gear drive, the jib is when rotatory, because the movable block is spacing by two gag lever posts, it can't rotate together along with the jib, consequently along with the rotation of jib, the movable block will be along the axial displacement of jib, the jib removes towards the direction of difference with control movable block towards the rotation of different directions, realized from this that coming the elevating movement of two movable blocks of simultaneous control through the rotation regulation pole, and because the both ends of support body are taken respectively and lean on two movable blocks, consequently the lift of support body and even whole bracket component is adjusted to the accessible rotation regulation pole, whole accommodation process is simple laborsaving, and is stable and reliable.

3. The adjustable mounting bracket for the construction equipment comprises a ball head on a top plate, wherein the ball head is embedded into a ball seat arranged on a hanging rod, a spherical hinge structure is formed between the ball head and the ball seat, so that the connection between the hanging rod and the top plate is realized, the primary connection between a connecting assembly and a hoisting assembly is realized, a lantern ring is connected to a rotating shaft sleeve at one end of the hanging rod close to the ball seat, a plurality of connecting rods are fixedly connected to the side wall of the lantern ring, one end of each connecting rod, which is far away from the lantern ring, is provided with a clamping head, the clamping head and the end part of each connecting rod form a T-shaped structure, the T-shaped structure is clamped into an annular groove, the clamping head can slide along the annular groove, so that the top plate and the hanging rod are further connected through the plurality of connecting rods, the connecting rods cannot influence the normal rotation of the hanging rod, the firmness of the connection structure between the two is extremely strong, so that the firmness of the adjustable building equipment mounting bracket and the building wall surface connection structure is greatly improved.

4. According to the using method of the adjustable building equipment mounting support, the positioning depressions are extruded on the plurality of movable sheets in advance according to the size data of the building equipment to be mounted, the extruded movable sheets are shaped in a manner of pouring the solidified materials into the support body, and therefore the shaping of the positioning depressions is achieved.

Drawings

FIG. 1 is a front view of an embodiment of an adjustable construction equipment mounting bracket of the present invention;

FIG. 2 is an enlarged sectional view of the structure of FIG. 1A;

FIG. 3 is an isometric view of a bracket assembly embodiment of an adjustable construction equipment mounting bracket of the present invention;

FIG. 4 is an internal construction view of a bracket assembly embodiment of an adjustable construction equipment mounting bracket of the present invention;

FIG. 5 is an enlarged sectional view of the structure of FIG. 4B;

FIG. 6 is an enlarged sectional view of the structure of FIG. 4C;

FIG. 7 is an isometric view of a movable plate embodiment of an adjustable construction equipment mounting bracket of the present invention;

FIG. 8 is an isometric view of a hanger plate embodiment of an adjustable construction equipment mounting bracket of the present invention;

fig. 9 is an internal configuration view of a gear transmission mechanism of an adjustable construction equipment mounting bracket of the present invention.

In the figure: 1. a top plate; 2. an expansion bolt; 3. an annular groove; 4. a ball head; 5. a boom; 6. a ball seat; 7. a collar; 8. a connecting rod; 9. clamping a head; 10. a hanger plate; 11. a placement port; 12. a flexible pad; 13. a limiting rod; 14. a limiting head; 15. a movable block; 16. a gear transmission mechanism; 1601. a housing; 1602. a first bevel gear; 1603. a second bevel gear; 17. adjusting a rod; 18. a multi-edge bushing; 19. a stent body; 20. a card slot; 21. a stringing rod; 2101. a material injection groove; 2102. a discharge port; 2103. a pressure stabilizing tank; 2104. a pressure stabilizing port; 2105. a plug; 22. a movable plate; 2201. an elastic sheet; 2202. a through hole; 23. and (4) a separation cloth.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, an adjustable mounting bracket for construction equipment comprises a connecting assembly, a hoisting assembly and a bracket assembly, wherein the hoisting assembly is mounted on a wall body through the connecting assembly, the bracket assembly is mounted on the hoisting assembly, and the bracket assembly can be adjusted in a lifting manner by means of the hoisting assembly; the bracket component is used for supporting and placing construction equipment and comprises a bracket body 19, the bracket body 19 is a hollow shell structure with a hollow interior, a string rod 21 is fixedly arranged in the bracket body 19 in a penetrating way along the length direction, two ends of the string rod 21 extend outwards from the interior of the bracket body 19, one end of the string rod 21 is provided with a material injection groove 2101, the side wall of the material injection groove 2101 is provided with a material outlet 2102, the material injection groove 2101 enters the material injection groove 2101 from the exterior of the bracket body 19 and then passes through the material outlet 2102 to enter the interior of the bracket body 19, the other end of the string rod 21 is provided with a pressure stabilizing groove 2103, the side wall of the pressure stabilizing groove 2103 is provided with a pressure stabilizing port 2104, the material enters the pressure stabilizing groove 2103 from the exterior of the bracket body 19 and then passes through the pressure stabilizing port 2104 to enter the interior of the bracket body 19, a plug 2105 is plugged in the pressure stabilizing groove 2103, the string, the middle part embedding is provided with elastic sheet 2201, elastic sheet 2201's center department seted up with cluster pole 21 external diameter assorted through hole 2202, cluster pole 21 runs through perpendicularly in the through hole 2202 of a plurality of movable pieces 22, a plurality of movable pieces 22's downside all is located support body 19, and the upside of a plurality of movable pieces 22 then all runs through from support body 19's inside outside activity, and a plurality of movable pieces 22 are when not receiving external force, its upper and lower both sides all flush, and the elastic sheet 2201 on the movable piece 22 also all does not take place deformation this moment.

Through the above technical solution, as shown in fig. 3, 4 and 7, the string rod 21 passes through the elastic sheet 2201 on the movable sheet 22 through the through hole 2202, because the elastic sheet 2201 is compressible and extendable, each movable sheet 22 can be pressed down within the elastic range of its own elastic sheet 2201, during the pressing down, the elastic sheet 2201 will generate an elastic force opposite to the pressing direction, and also the whole movable sheet 22 will generate an opposite elastic force when being pressed, the elastic sheet 2201 hoops on the string rod 21, in addition to making the movable sheet 22 have elasticity, it also plays a role in positioning the movable sheet 22, one end of the movable sheet 22 is left inside the bracket body 19, and the other end of the movable sheet 22 penetrates outwards from the inside of the bracket body 19, the movable sheet 22 is positioned by the string rod 21, and also positioned by the bracket body 19, under the combined action of the string rod 21, the elastic sheet 2201 and the bracket body 19, the elastic moving range and the moving direction of all the movable plates 22 are consistent, the situation that all the movable plates 22 are turned over and laid down is avoided, the movable plates 22 are preferably made of stainless steel sheets, the materials are corrosion-resistant and deformation-resistant, the friction force between the movable plates is small, when the building equipment is installed, the building equipment is placed on the support body 19, meanwhile, the movable plates 22 are extruded, when the building equipment is extruded, the movable plates 22 extend towards the inside of the support body 19, so that corresponding depressions are formed on all the movable plates 22 which are tightly attached, the depressions just fit the size and shape of the building equipment, the positioning effect on the building equipment is achieved, in this way, extra customized manufacturing of a positioning base aiming at the size and shape of the building equipment is not needed, and the building equipment only needs to be placed on the movable plates 22 when being installed, at this moment, the automatic forming function is the same as the positioning base and is sunken with the positioning of the complete adaptation of the construction equipment, so that the adjustable construction equipment mounting bracket has strong universality and can adapt to various construction equipment of different models and brands.

Further, as shown in fig. 1 and 2, the connecting assembly comprises two top plates 1, each top plate 1 is fixedly installed on a wall body through a plurality of expansion bolts 2, a ball head 4 is fixedly installed at the bottom of each top plate 1 in a hoisting mode, the hoisting assembly comprises two hoisting rods 5 with threads on the outer surfaces, a ball seat 6 is fixedly installed at the top end of each hoisting rod 5, the outer diameter of each ball seat 6 is larger than that of each hoisting rod 5, the two ball heads 4 are movably embedded into the two ball seats 6 in a one-to-one correspondence mode and are hinged together, so that the connection between the hoisting rods 5 and the top plates 1 is realized, and the primary connection between the connecting assembly and the hoisting assembly is realized;

as shown in fig. 1 and 8, each suspension rod 5 is provided with a suspension plate 10, the suspension plate 10 is formed by integrally constructing two plate-shaped structures which are perpendicular to each other, the whole suspension plate is L-shaped, one of the plate-shaped structures which forms the suspension plate 10 is perpendicularly penetrated by the suspension rod 5 and is connected with the suspension rod by a rotating shaft sleeve, the other plate-shaped structure which forms the suspension plate 10 is provided with a placing opening 11, the upper and lower sides of the inner wall of the placing opening 11 are respectively provided with a flexible pad 12, the plate-shaped structure through which the suspension plate 10 is penetrated by the suspension rod 5 is also perpendicularly and fixedly penetrated with two limiting rods 13, each suspension rod 5 is sleeved with a movable block 15 by screw threads, the movable block 15 is simultaneously penetrated by the two limiting rods 13, two ends of a support body 19 respectively penetrate through the two placing openings 11 and abut against the two movable blocks 15, an adjusting rod 17 is connected between the bottom ends of the two suspension rods 5, the bottom ends of the suspension rods, under the transmission action of the gear transmission mechanism 16, the two suspenders 5 can be simultaneously rotated by rotating the adjusting rod 17, according to the structure, when the adjusting rod 17 is screwed, the two suspenders 5 can be driven to simultaneously rotate by virtue of the two gear transmission mechanisms 16, when the suspenders 5 rotate, the movable block 15 is limited by the two limiting rods 13 and cannot rotate along with the suspenders 5, so that along with the rotation of the suspenders 5, the movable block 15 moves along the axial direction of the suspenders 5, and the suspenders 5 rotate towards different directions to control the movable blocks 15 to move towards different directions, thereby realizing the simultaneous control of the lifting motion of the two movable blocks 15 by rotating the adjusting rod 17, and because the two ends of the bracket body 19 respectively abut against the two movable blocks 15, the lifting of the bracket body 19 and even the whole bracket assembly can be adjusted by rotating the adjusting rod 17, the whole adjusting process is simple and labor-saving, It is reliable and stable, wherein flexible pad 12 has played the cushioning effect to support body 19, and flexible pad 12 is the rubber pad preferably, has the advantage that use low price, workable, longe-lived, corrosion-resistant.

Further, as shown in fig. 1 and 2, an annular groove 3 is formed at the bottom of the top plate 1 around the ball head 4, the vertical section of the annular groove 3 is "T" shaped, one end of the suspension rod 5, which is close to the ball seat 6, is rotatably and axially connected with a lantern ring 7, the side wall of the lantern ring 7 is fixedly connected with a plurality of connecting rods 8, one end of each connecting rod 8, which is far away from the lantern ring 7, is provided with a chuck 9, the chuck 9 and the end of each connecting rod 8 form a "T" shaped structure, the "T" shaped structure is clamped into the annular groove 3, and the chuck 9 can slide along the annular groove 3, so that further connection between the top plate 1 and the suspension rod 5 is realized through the plurality of connecting rods 8, and the connecting rods 8 cannot influence the normal rotation of the suspension rod 5, thereby the lifting motion of the movable block 15 cannot be limited, and further connection between the connection, the firmness of the connection structure between the two is extremely strong, so that the firmness of the adjustable building equipment mounting bracket and the building wall surface connection structure is greatly improved.

Further, as shown in fig. 1, both ends of the limiting rod 13 are fixedly provided with limiting heads 14, the two limiting heads form an i-shaped structure, and the limiting heads 14 play a role in limiting the movable block 15 so as to prevent the movable block 15 from being disconnected from the limiting rod 13.

Further, as shown in fig. 1 and 9, the gear transmission mechanism 16 includes a housing 1601, and a first bevel gear 1602 and a second bevel gear 1603 which are disposed in the housing 1601 and engaged with each other, the suspension rod 5 extends into the housing 1601 and is coaxially and fixedly connected with the first bevel gear 1602, the adjustment rod 17 extends into the housing 1601 and is coaxially and fixedly connected with the second bevel gear 1603, and the gear transmission mechanism 16 uses the engagement transmission of the bevel gears to realize the vertical transmission of the suspension rod 5 and the adjustment rod 17.

Further, as shown in fig. 1, the adjusting rod 17 is fixedly sleeved with a multi-edge sleeve 18, the multi-edge sleeve 18 is convenient for manually holding the rotating adjusting rod 17, so that the adjusting rod 17 is not easy to slip when the adjusting rod 17 is manually rotated, and the electric tool (such as an electric wrench) is convenient for grabbing the adjusting rod 17, so that the adjusting rod 17 is convenient to rotate by means of the electric tool, and the lifting adjustment of the bracket assembly is further convenient.

Further, as shown in fig. 1, fig. 3 and fig. 8, a plurality of slots 20 are formed in an outer side wall of the bracket body 19, an inner side of the placing opening 11 is embedded into the slots 20, and the bracket body 19 can be stably positioned by means of the slots 20, so that the bracket body 19 is prevented from slipping off the hanger plate 10.

Referring to fig. 1, 3, 4, 5 and 6, a method of using an adjustable construction equipment mounting bracket comprising the steps of:

1) measurement: measuring the external dimension of the building equipment, and recording the measured data;

2) prefabricated base (i.e. positioning recess):

a. according to the size of the construction equipment, marking the area occupied by the construction equipment placed on the movable sheets 22;

b. manually pressing down the movable sheets 22 in the area marked out in the step a to make the movable sheets 22 in the area sunken downwards and ensure that the shape and the size of the sunken part are matched with those of the construction equipment, and simultaneously continuously pressing down the movable sheets 22 in the area by means of a heavy object to make the movable sheets 22 in the area keep a downward sunken state, wherein the side, positioned inside the bracket body 19, of the pressed-down movable sheet 22 keeps an outward convex state;

c. injecting a solidification material into the material injection groove 2101, wherein the solidification material flows into the bracket body 19 through the discharge hole 2102 after entering the material injection groove 2101 until the inner space of the bracket body 19 is filled, at the moment, the parts of the plurality of movable plates 22 positioned inside the bracket body 19 are all wrapped by the solidification material, and during the process, the plug 2105 is opened, so that the outside can be communicated with the inside of the bracket body 19 through the pressure stabilizing groove 2103 and the pressure stabilizing port 2104 to play a role in stabilizing the pressure, the solidification material is more easily injected into the bracket body 19, and as shown in fig. 5, the bottom of the inner side of the material injection groove 2101 is provided with a slope facing the discharge hole 2102, so that the solidification material can be prevented from being detained in the material injection groove 2101, and the material injection is smoother;

the setting material can be selected from cement, gypsum, resin and the like, and an operator can select the setting material according to actual requirements.

d. Standing for a period of time until the solidification material in the bracket body 19 is completely solidified, and at the moment, the plurality of movable plates 22 are all shaped by the solidification material;

e. removing the weight pressed on the movable piece 22;

3) installing a support: firstly, mounting a hoisting assembly on a wall by virtue of a connecting assembly, and then mounting a bracket assembly on the hoisting assembly until a bracket body 19 in the bracket assembly is kept horizontally stable;

4) lifting adjustment: the lifting adjustment of the support component is carried out by means of the hoisting component, so that the lifting adjustment of the support body 19 is realized until the distance between the support body 19 and the wall body meets the size condition of the building equipment;

5) placing equipment: the construction equipment is placed on the bracket body 19 with its lower portion embedded in the recessed portions formed on the plurality of movable pieces 22.

Through the steps, the positioning depressions are extruded on the movable pieces 22 in advance according to the size data of the building equipment to be installed, and the extruded movable pieces 22 are shaped by pouring the solidified materials into the support body 19, so that the shaping of the positioning depressions is realized.

Further, the bottom surface of support body 19 is detachable construction (not shown in the figure), demolish the bottom surface of support body 19 after, can demolish the solidification material that has solidified inside support body 19 (demolish the method and include that physics is demolishd and chemistry is demolishd, belong to conventional technical means, this embodiment is no longer repeated, demolish the back, a plurality of movable plates 22 just are no longer stereotyped by solidification material, under the elastic action, all originally undercut movable plates 22 all reset to initial condition, can prefabricate the location again on a plurality of movable plates 22 at this moment and cave in, realized this kind of adjustable type architectural equipment installing support's reuse many times from this.

Further, as shown in fig. 4, an isolation cloth 23 is disposed inside the bracket body 19, the isolation cloth 23 covers the movable piece 22 but does not cover the discharge hole 2102 and the pressure stabilizing hole 2104, the isolation cloth 23 is used for isolating the movable piece 22 from the solidified material so as to prevent the movable piece 22 from being adhered with too much solidified material, so as to facilitate the subsequent removal of the solidified material, and the isolation cloth 23 is made of an air-permeable material, preferably gauze, so as to prevent the isolation cloth 23 from bulging when the solidified material is injected into the bracket body 19, so that air bubbles are generated between the solidified material and the movable piece 22.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (10)

1. An adjustable mounting bracket for construction equipment, comprising:

the lifting assembly is arranged on a wall body through the connecting assembly, and the support assembly is arranged on the lifting assembly and can be adjusted in a lifting manner by means of the lifting assembly;

the bracket component is used for supporting and placing construction equipment and comprises a bracket body (19), the bracket body (19) is of a hollow shell structure, a string rod (21) penetrates through the bracket body (19) in the bracket body in a fixed mode along the length direction of the bracket body, two ends of the string rod (21) extend outwards from the inside of the bracket body (19), one end of the string rod (21) is provided with a material injection groove (2101), the side wall of the material injection groove (2101) is provided with a material outlet (2104), the material injection groove (2101) enters the material injection groove (2101) from the outside of the bracket body (19) and then can enter the inside of the bracket body (19) after penetrating through the material outlet (2102), the other end of the string rod (21) is provided with a pressure stabilizing groove (2103), the side wall of the pressure stabilizing groove (2103) is provided with a pressure stabilizing port (2104), the material enters the pressure stabilizing groove (2103) from the outside of the bracket body (19) and then passes through the pressure stabilizing port (2104) and, a plug (2105) is plugged in the pressure stabilizing groove (2103), a plurality of movable sheets (22) which are mutually clung together are arranged on the string rod (21), the movable sheets (22) are of rigid sheet structures, an elastic sheet (2201) is embedded in the middle of the elastic sheet (2201), a through hole (2202) matched with the outer diameter of the string rod (21) is arranged in the center of the elastic sheet (2201), the string rod (21) vertically penetrates through the through holes (2202) of the movable sheets (22), the lower sides of the movable sheets (22) are all positioned in the bracket body (19), the upper sides of the movable sheets (22) are movably penetrated through the bracket body (19) from the inside outwards, and when the movable sheets (22) are not subjected to external force, the upper side and the lower side of the elastic piece are flush, and the elastic piece (2201) on the movable piece (22) is not deformed.

2. An adjustable construction equipment mounting bracket according to claim 1, wherein:

the connecting assembly comprises two top plates (1), each top plate (1) is fixedly arranged on a wall body through a plurality of expansion bolts (2), and a ball head (4) is fixedly hung at the bottom of each top plate (1);

the hoisting assembly comprises two hanger rods (5) with threads on the outer surfaces, a ball seat (6) is fixedly mounted at the top end of each hanger rod (5), the outer diameter of each ball seat (6) is larger than that of each hanger rod (5), the two ball heads (4) are movably embedded into the two ball seats (6) in a one-to-one correspondence manner, and the two ball heads are hinged together;

each hanging rod (5) is provided with a hanging plate (10), the hanging plate (10) is integrally constructed by two plate-shaped structures which are vertical to each other, the whole hanging plate is L-shaped, one plate-shaped structure of the hanging plate (10) is vertically penetrated by the hanging rod (5) and is connected with the hanging rod through a rotating shaft sleeve, the other plate-shaped structure of the hanging plate (10) is provided with a placing opening (11), the upper side and the lower side of the inner wall of the placing opening (11) are provided with flexible pads (12), and two limiting rods (13) are vertically fixed and penetrated on the plate-shaped structure of the hanging plate (10) penetrated by the hanging rod (5);

each suspender (5) is sleeved with a movable block (15) in a threaded manner, the movable blocks (15) are penetrated through by the two limiting rods (13), and two ends of the support body (19) penetrate through the two placing openings (11) respectively and lean against the two movable blocks (15);

an adjusting rod (17) is connected between the bottom ends of the two hanging rods (5), the bottom ends of the hanging rods (5) are in transmission connection with the end portion of the adjusting rod (17) through a gear transmission mechanism (16), and the two hanging rods (5) can rotate simultaneously by rotating the adjusting rod (17) under the transmission action of the gear transmission mechanism (16).

3. An adjustable construction equipment mounting bracket according to claim 2, wherein:

an annular groove (3) is formed in the bottom of the top plate (1) around the ball head (4), and the vertical section of the annular groove (3) is T-shaped;

jib (5) are close to the one end rotation axle sleeve of ball seat (6) is connected with the lantern ring (7), many connecting rods of the lateral wall fixedly connected with (8) of the lantern ring (7), keep away from connecting rod (8) the one end of the lantern ring (7) is equipped with dop (9), dop (9) with the tip of connecting rod (8) constitutes "T" type structure, and this "T" type structure card goes into extremely in ring channel (3), just dop (9) can along ring channel (3) slide.

4. An adjustable construction equipment mounting bracket according to claim 2, wherein: limiting heads (14) are fixedly arranged at two ends of the limiting rod (13) and form an I-shaped structure.

5. An adjustable construction equipment mounting bracket according to claim 2, wherein: the gear transmission mechanism (16) comprises a shell (1601) and a first bevel gear (1602) and a second bevel gear (1603) which are arranged in the shell (1601) and meshed together, the suspension rod (5) extends into the shell (1601) and is coaxially and fixedly connected with the first bevel gear (1602), and the adjusting rod (17) extends into the shell (1601) and is coaxially and fixedly connected with the second bevel gear (1603).

6. An adjustable construction equipment mounting bracket according to claim 2, wherein: the adjusting rod (17) is fixedly sleeved with a multi-edge sleeve (18).

7. An adjustable construction equipment mounting bracket according to claim 2, wherein: the outer side wall of the support body (19) is provided with a plurality of clamping grooves (20), and the inner side of the placing opening (11) is embedded into the clamping grooves (20).

8. A method of using an adjustable construction equipment mounting bracket to which is applied an adjustable construction equipment mounting bracket according to any one of claims 1 to 7, wherein:

the method comprises the following steps:

1) measurement: measuring the external dimension of the building equipment, and recording the measured data;

2) prefabricating a base:

a. according to the size of the construction equipment, drawing out the area occupied by the construction equipment placed on a plurality of movable sheets (22);

b. manually pressing down a plurality of movable sheets (22) in the area marked out in the step a, making the plurality of movable sheets (22) in the area sunken downwards, ensuring that the shape and the size of the sunken area are matched with those of the construction equipment, and continuously pressing down the plurality of movable sheets (22) in the area by a weight to keep the plurality of movable sheets (22) in the area in a downward sunken state, wherein the side, positioned inside the bracket body (19), of the pressed-down movable sheet (22) is kept in an outward convex state;

c. injecting a solidification material into the material injection groove (2101), allowing the solidification material to flow into the bracket body (19) through the discharge hole (2102) after entering the material injection groove (2101) until the inner space of the bracket body (19) is filled, wherein the parts of the movable plates (22) positioned in the bracket body (19) are all wrapped by the solidification material, and the plug (2105) is opened during the process, so that the outside can be communicated with the inside of the bracket body (19) through the pressure stabilizing groove (2103) and the pressure stabilizing port (2104) to achieve the effect of pressure stabilization;

d. standing for a period of time until the solidification material in the bracket body (19) is completely solidified, and at the moment, the movable plates (22) are all shaped by the solidification material;

e. removing the weight pressed on the movable sheet (22);

3) installing a support: firstly, the hoisting assembly is installed on a wall body by means of the connecting assembly, and then the bracket assembly is installed on the hoisting assembly until the bracket body (19) in the bracket assembly is kept horizontally stable;

4) lifting adjustment: the support assembly is adjusted in a lifting mode through the hoisting assembly, so that the support body (19) is adjusted in a lifting mode until the distance between the support body (19) and the wall meets the size condition of the building equipment;

5) placing equipment: and placing the construction equipment on the bracket body (19), and embedding the lower part of the construction equipment into concave parts formed on the plurality of movable sheets (22).

9. The method of using an adjustable construction equipment mounting bracket according to claim 8, wherein: the bottom surface of the bracket body (19) is of a detachable structure.

10. The method of using an adjustable construction equipment mounting bracket according to claim 8, wherein: the inside of support body (19) is equipped with insulating cloth (23), insulating cloth (23) will movable plate (22) cover but will not discharge gate (2102) with voltage stabilizing port (2104) cover, insulating cloth (23) are used for with movable plate (22) and solidification material are kept apart.

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