CN107101661B - Multifunctional combined test device mounting frame - Google Patents

Abstract

The invention discloses a multifunctional combined test device mounting frame, which comprises upright post assemblies and horizontally arranged beam assemblies for connecting the upright post assemblies, wherein the upright post assemblies and the beam assemblies are detachably connected through bolts to form a rectangular frame body with five layers of wallboard supporting beams, and wallboard connecting pieces are respectively arranged on each layer of wallboard supporting beams through bolts; wherein, the wallboard supporting beam of top layer still passes through bolted connection's support subassembly and connects top cap supporting beam. The parts are all connected by bolts, so that the assembly and the disassembly are convenient; the hanging piece is uniformly and reasonably stressed, and the overall stability is good; the whole device is convenient to detach, replace and install; the frame is adjustable in three directions of length, width and height, can be combined according to the needs, and has strong modularity and variability.

Description

Multifunctional combined test device mounting frame

Technical Field

The invention relates to the technical field of equipment installation frames, in particular to a multifunctional combined test device installation frame.

Background

The special test device for fire control in the thermal processing industry comprises 40 wallboards and furnace tops, is used for testing fire-fighting products such as fireproof doors or fireproof columns, is placed in 5 layers when in use, is divided into an upper wallboard and a lower wallboard, 4 wallboards are placed on the upper layer and the lower layer respectively, 40 wallboards are placed on a frame independently, wallboards with different layers are installed according to different tests, if a first layer is needed to be tested, 8 wallboards with the first layer are installed, if the first layer and the second layer are needed to be tested, 16 wallboards with the first layer and the second layer are needed to be installed, and the like. There is currently no easy to use mounting frame to mount the wallboard.

Disclosure of Invention

The invention aims at overcoming the technical defects in the prior art and provides a multifunctional combined test device mounting frame.

The technical scheme adopted for realizing the purpose of the invention is as follows:

the multifunctional combined test device mounting frame comprises upright post assemblies and horizontally arranged beam assemblies which are connected with the upright post assemblies, wherein the upright post assemblies and the beam assemblies are detachably connected through bolts to form a rectangular frame body with five layers of wallboard supporting beams, and wallboard connecting pieces are respectively arranged on each layer of wallboard supporting beams through bolts; wherein, the wallboard supporting beam of top layer still passes through bolted connection's support subassembly and connects top cap supporting beam.

The upright post assembly comprises eight upright posts, and each upright post is formed by detachably connecting a plurality of upright post sections; the upright post comprises an H-shaped plate and two T-shaped plates, and the T-shaped plates and the H-shaped plates are welded and connected in a cross structure; each layer of the wallboard supporting beam and the top cover supporting beam comprise eight sections of beams, and each section of beam is connected with corresponding upright posts on two sides; the bottom of stand demountable installation has the base.

The base comprises an upper base plate, a lower base plate and a middle vertical connecting plate which is arranged in a cross shape between the upper base plate and the lower base plate, and the bottom of the lower base plate is connected to the supporting block through bolts.

The wallboard connecting piece includes last wallboard connecting piece and lower wallboard connecting piece.

Each upright post comprises an upper upright post section, three middle upright post sections and a lower upright post section, wherein the upper upright post sections are connected with the top cover supporting beam and the wallboard supporting beam of the top layer, the middle upright post sections are respectively connected with the three-layer wallboard supporting beams of the middle part, and the lower upright post sections are connected with the wallboard supporting beams of the bottom layer.

The butt joint ends of the upper upright post section, the middle upright post section and the lower upright post section are respectively in butt joint with a connecting plate, and the upper upright post section, the middle upright post section and the lower upright post section are connected through an outer fixing plate arranged at the outer side of the butt joint position by fixing bolts after being in butt joint; the bottom of the lower upright post section is fixedly connected with the base through a bottom connecting plate by bolts.

Two ends of each section of cross beam are respectively provided with a column connecting plate with a bolt hole, and the positions of the columns corresponding to the column connecting plates are provided with corresponding connecting bolt holes; the beam comprises an upper beam plate and a lower beam plate, a plurality of vertical supporting plates are arranged between the upper beam plate and the lower beam plate, upper reinforcing plates and lower reinforcing plates are respectively arranged in the middle of the upper surface and the lower surface of the upper beam plate and the lower beam plate near the two ends, and the outer side ends of the upper reinforcing plates and the lower reinforcing plates are respectively connected with the vertical column connecting plates on the corresponding sides.

The support assembly comprises a plurality of supports, each support comprises an upper plate, a lower plate and a vertical plate which is connected and arranged between the upper plate and the lower plate and is arranged in a cross shape.

The upper wallboard connecting piece comprises a beam fixing plate and a vertical plate connected with the beam fixing plate; the both sides of riser are equipped with riser and diaphragm, every side the riser is connected with diaphragm T shape structure, just the other end of diaphragm is connected with last wallboard bolt fastening board.

The lower wallboard connecting piece comprises a beam fixing plate and a vertical plate connected with the beam fixing plate; the both sides of riser are equipped with riser and diaphragm, every side the riser is connected with diaphragm T shape structure, just the other end of diaphragm is connected with lower wallboard bolt fastening board.

The parts are all connected by bolts, so that the assembly and the disassembly are convenient; the suspension parts are uniformly and reasonably stressed, and the overall stability is good; the whole device is convenient to detach, replace and install; the frame is adjustable in three directions of length, width and height, can be combined according to the needs, and has strong modularity and variability.

Drawings

FIG. 1 is a schematic front view of a multifunctional combined test apparatus mounting frame of the present invention;

FIG. 2 is a side view schematic of FIG. 1;

FIG. 3 is a schematic top view of the panel with the test device installed;

FIG. 4 is an enlarged schematic view of section I of FIG. 2;

FIG. 5 is an enlarged schematic view of section II of FIG. 2;

FIGS. 6-8 are schematic illustrations of the connection of the upper and lower wall panel connectors to the upper and lower wall panels;

FIGS. 9-10 are front and top schematic views, respectively, of a base;

FIGS. 11-12 are front and side views, respectively, of a post;

FIG. 13 is a schematic top view of the connection plate of FIG. 11;

FIG. 14 is a schematic cross-sectional view taken along line A-A of FIG. 11;

FIG. 15 is a schematic view of a cross beam;

FIGS. 16-17 are front and top schematic views of a bracket for connecting a header to a cross beam, respectively;

figures 18-20 are front, side and top schematic views, respectively, of an upper wall panel connector;

fig. 21-23 are front, side and top schematic views, respectively, of a lower wall panel connector.

Detailed Description

The invention is described in further detail below with reference to the drawings and the specific examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

As shown in fig. 1-22, a multifunctional combined test apparatus mounting frame comprises:

the vertical column assembly 2 and the horizontal beam assembly which are used for connecting the vertical column assemblies are detachably connected through bolts to form a rectangular frame body with five layers of wallboard supporting beams 5, and wallboard connecting pieces are respectively arranged on each layer of wallboard supporting beams through bolts; wherein, the wallboard supporting beam of top layer still connects top cap supporting beam 3 through bolted connection's support subassembly 4.

Wherein, the upright post component 2 comprises eight upright posts, and each upright post is formed by detachably connecting a plurality of upright post sections; referring to fig. 11-14, the upright 2 includes an H-shaped plate 201 and two T-shaped plates, where the T-shaped plates and the H-shaped plates are welded in a cross structure; each layer of the wallboard supporting beam and the top cover supporting beam comprise eight sections of beams, and each section of beam is connected with corresponding upright posts on two sides; the bottom of stand demountable installation has base 1.

Wherein, the base includes the upper base plate 11 with the bolt hole 17, the lower base plate 14 with the bolt hole 15 and is located the middle vertical connecting plate that cross set up between upper base plate, the lower base plate, and middle vertical connecting plate includes horizontal board 13 and vertical board 12, the bottom of lower base plate passes through bolted connection on supporting shoe 16, see fig. 9-10 shows.

Wherein, the wallboard connecting piece is used for the connection of equipment wallboard 8, including last wallboard connecting piece 6 and lower wallboard connecting piece 7 for realize being connected between wallboard supporting beam 5 and the last wallboard 80, the lower wallboard 81 of equipment. See fig. 2-3.

Each upright comprises an upper upright section 20, three middle upright sections 21 and a lower upright section 22, wherein the upper upright sections are connected with the top cover supporting beam 3 and the top wall plate supporting beam 5, the middle upright sections are respectively and correspondingly connected with the three middle wall plate supporting beams 5, and the lower upright sections are connected with the bottom wall plate supporting beams 5.

The butt ends of the upper, middle and lower column sections are respectively butt-jointed with a joint plate 203, see fig. 11-13; the upper upright post section, the middle upright post section and the lower upright post section are connected through an outer fixing plate 23 arranged at the outer side of the butt joint position by a fixing bolt 24 after being butted; the bottom of the lower upright post section is fixedly connected with the base 1 through a bottom connecting plate by bolts.

Referring to fig. 15, two ends of each section of cross beam are respectively provided with a column connecting plate 51 with a bolt hole, and the positions of the columns corresponding to the column connecting plates are provided with corresponding connecting bolt holes, so that the cross beam and the columns can be connected by bolts 56; the crossbeam includes two beam plates 52 that set up from top to bottom, be equipped with a plurality of upright backup pads 53 between two beam plates that set up from top to bottom, the upper surface at nearly both ends of two beam plates that set up from top to bottom, the middle part of lower surface are equipped with reinforcing plate 54 and lower reinforcing plate 55 respectively, the outside end of upper reinforcing plate and lower reinforcing plate is connected with the stand connecting plate of corresponding side respectively.

As shown in fig. 16, the support assembly includes a plurality of supports, each of which includes an upper plate 41, a lower plate 42, and a cross-shaped vertical plate connected between the upper plate and the lower plate, and includes a transverse vertical plate 43 and a longitudinal vertical plate 44.

Referring to fig. 18 to 20, the upper wall plate connector includes a beam fixing plate 62 having bolt holes, a vertical plate 63 connected to the beam fixing plate; the both sides of riser are equipped with riser 64 and diaphragm 61, and each side the riser is connected with diaphragm T shape structure, just the other end of diaphragm is connected with last wallboard bolt fastening plate 65.

Referring to fig. 21 to 23, the lower wall plate connector includes a beam fixing plate 71 having bolt holes, a vertical plate 73 connected to the beam fixing plate; the two sides of the vertical plate are provided with a vertical plate 75 and a transverse plate 74, the vertical plate on each side is connected with a T-shaped structure of the transverse plate, and the other end of the transverse plate is connected with a bolt fixing plate 72 of the lower wall plate.

The invention is applied to a detachable multifunctional combined device, the device matched with the frame is five layers, and the load of the top cover of the device is also placed on the frame, so the frame is also considered as five layers, and a top cover beam unit is added at the uppermost part to support the top cover of the device.

When the base is manufactured, firstly, all parts are manufactured and processed, the base 1 is fixedly installed by bolts reserved on the bottom surface of equipment, and the flatness can be conveniently adjusted; secondly, the column, the wallboard supporting beam and the wallboard connecting piece with five layers of structures are installed and connected, and the column, the wallboard supporting beam and the wallboard connecting piece are connected and assembled to form a firm whole, and the column is specifically installed as follows:

1. installing a lower column section of a first layer, namely installing and fixing the bottom of the lower column section with a base 1 through bolts, connecting each lower column section through bolts by using a bottom wall board supporting beam 5 after the lower column section of the first layer is installed, and then connecting an upper wall board connecting piece 6 between a wall board supporting beam 5 and an upper wall board of the bottom layer and a lower wall board connecting piece 7 between the wall board supporting beam 5 and a lower wall board on the wall board supporting beam 5 of the bottom layer through bolts, so as to keep an upper wall board 80 and a lower wall board 81 of installation equipment;

2. corresponding column sections of the second layer, the third layer, the fourth layer and the fifth layer are installed in the same way, each column section is connected by bolts, and the wallboard support cross beam 5, the upper wallboard connecting piece 6 and the lower wallboard connecting piece 7 are arranged;

3. finally, a plurality of supports 4 and a top cover supporting beam 3 of the support assembly are installed, and the supports are used for connecting a wall plate supporting beam 5 and a top cover supporting beam 3 of a fifth layer, so that the strength of the top cover supporting beam 3 is increased. The roof support rail 3 is used to support the equipment roof. After all the components are installed, a firm frame structure is formed.

The parts are all connected by bolts, so that the assembly and the disassembly are convenient; the suspension parts are uniformly and reasonably stressed, and the overall stability is good; the whole device is convenient to detach, replace and install; the frame is adjustable in three directions of length, width and height, can be combined according to the needs, and has strong modularity and variability. The hanger can be suitable for hanging various hanger equipment, and is especially suitable for the aspect of multifunctional combined devices.

The foregoing is merely a preferred embodiment of the invention, and it should be noted that modifications and variations could be made by those skilled in the art without departing from the principles of the invention, and such modifications and variations should also be considered as being within the scope of the invention.

Claims (8)

1. The multifunctional combined test device mounting frame is characterized in that all parts are connected by bolts, the frame is adjustable in three directions of length, width and height, the multifunctional combined test device mounting frame comprises a stand column assembly and a horizontally arranged beam assembly which connects the stand column assembly, the stand column assembly and the beam assembly are detachably connected through bolts to form a rectangular frame body with five layers of wallboard supporting beams, and wallboard connecting pieces are respectively arranged on each layer of beam units through bolts; the top-layer wallboard supporting beam is also connected with the top cover supporting beam through a support assembly connected with the top cover supporting beam through bolts; the upright post assembly comprises eight upright posts, and each upright post is formed by detachably connecting a plurality of upright post sections; the upright post comprises an H-shaped plate and two T-shaped plates, and the T-shaped plates and the H-shaped plates are welded and connected in a cross structure; each layer of the wallboard supporting beam and the top cover supporting beam comprise eight sections of beams, and each section of beam is connected with corresponding upright posts on two sides; the bottom of the upright post is detachably provided with a base; each upright post comprises an upper upright post section, three middle upright post sections and a lower upright post section, wherein the upper upright post sections are connected with the top cover supporting beam and the wallboard supporting beam of the top layer, the middle upright post sections are respectively connected with the three-layer wallboard supporting beam of the middle part, and the lower upright post sections are connected with the wallboard supporting beams of the bottom layer.

2. The multifunctional combined test device mounting frame of claim 1, wherein the base comprises an upper base plate, a lower base plate and a middle vertical connecting plate which is arranged in a cross shape between the upper base plate and the lower base plate, and the bottom of the lower base plate is connected to the supporting block through bolts.

3. The multi-functional unit test device mounting frame of claim 1, wherein the wallboard connector comprises an upper wallboard connector and a lower wallboard connector.

4. The multifunctional combined test device mounting frame according to claim 1, wherein the butt ends of the upper column section, the middle column section and the lower column section are respectively butted with connecting plates, and the upper column section, the middle column section and the lower column section are connected with each other by fixing bolts through an outer fixing plate arranged outside the butt joint position after being butted; the bottom of the lower upright post section is fixedly connected with the base through a bottom connecting plate by bolts.

5. The multifunctional combined test device mounting frame according to claim 1, wherein two ends of each section of cross beam are respectively provided with a column connecting plate with a bolt hole, and the column is provided with a corresponding connecting bolt hole corresponding to the column connecting plate; the beam comprises an upper beam plate and a lower beam plate, a plurality of vertical supporting plates are arranged between the upper beam plate and the lower beam plate, upper reinforcing plates and lower reinforcing plates are respectively arranged in the middle of the upper surface and the lower surface of the upper beam plate and the lower beam plate near the two ends, and the outer side ends of the upper reinforcing plates and the lower reinforcing plates are respectively connected with the vertical column connecting plates on the corresponding sides.

6. The multifunctional combined test apparatus mounting frame of claim 1, wherein said support assembly comprises a plurality of supports, each of said supports comprising an upper plate, a lower plate, and a cross-shaped vertical plate disposed between said upper and lower plates.

7. The multifunctional combined test apparatus mounting frame of claim 3, wherein the upper wallboard connector comprises a beam fixing plate and a vertical plate connected with the beam fixing plate; the both sides of riser are equipped with riser and diaphragm, every side the riser is connected with diaphragm T shape structure, just the other end of diaphragm is connected with last wallboard bolt fastening board.

8. The multifunctional combined test apparatus mounting frame of claim 3, wherein the lower wall plate connector comprises a beam fixing plate and a vertical plate connected with the beam fixing plate; the both sides of riser are equipped with riser and diaphragm, every side the riser is connected with diaphragm T shape structure, just the other end of diaphragm is connected with lower wallboard bolt fastening board.