CN214504798U - Teaching model device for slope type independent foundation building construction - Google Patents

Abstract

A teaching model device for slope type independent foundation building construction belongs to the field of teaching model devices, a model body, a manufacturing schematic diagram, a construction flow chart and corresponding micro-class two-dimensional codes matched with the model body are fixedly installed on a practical training platform mechanism, the micro-class two-dimensional codes are associated with micro-classes developed under the support of a virtual simulation teaching system, and an online mobile terminal scans the micro-class two-dimensional codes and triggers autonomous learning which is not limited by time and space; the top of a bottom plate in the model body is provided with a transverse bottom rib, the top of the transverse bottom rib is fixedly connected with a longitudinal bottom rib, the top of the bottom plate is fixedly connected with a foundation plate, the top of the foundation plate is fixedly connected with an inclined plate, and the top of the inclined plate is fixedly connected with a stand column; this model body utilizes the shell of the preceding formation model of bottom plate, foundatin plate, swash plate and the stand of ya keli panel, and horizontal end muscle, vertical end muscle, stand reinforcing bar and the formation of supplementary branch form a firm skeleton to pour the shaping through the concrete filler to this model body.

Description

Teaching model device for slope type independent foundation building construction

Technical Field

The utility model belongs to the technical field of teaching model device, concretely relates to slope type is teaching model device for independent foundation building construction.

Background

The teaching of the building structure and the construction process refers to the teaching activities of teaching, visiting and manual practice to construct the building structure requirements and the construction process of students.

The building construction is a production activity in an engineering construction implementation stage, is a construction process of various buildings, can be also a process of changing various lines on a design drawing into a real object in a specified place, comprises basic engineering construction, main structure construction, roofing engineering construction, decoration engineering construction and the like, and generally needs to use a teaching model to show and explain students in the building construction teaching process; however, most of the existing teaching models are formed by splicing and adhering paper boards, and are easy to deform or fall off and separate due to pressure in the long-term use process, so that the service life of the teaching model is short.

In addition, the existing simulation training model is generally poor in display effect and cannot meet the requirement of providing a clear teaching process for students in a classroom; in addition, teaching activities of building construction and construction processes have the defects that teachers are difficult to teach clearly in classroom and students are difficult to understand, so that the teaching difficulty is high and the effect is poor, therefore, the teaching research on how to improve the teaching efficiency and effect is particularly valuable because the cognition and practice ability of students can be accurately and effectively constructed only by adopting a new method and a new tool to improve participation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a teaching model device for slope type independent foundation building construction, which can improve the service life of the teaching model and ensure the structural reliability of the teaching model; meanwhile, the display effect, the teaching efficiency and the teaching effect can be effectively improved.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a slope type is teaching model device for independent foundation building construction, include: the training platform mechanism is fixedly provided with a model body;

real standard platform mechanism includes: the practical training platform comprises a practical training platform body, wherein a movable support is fixedly mounted at the bottom of the practical training platform body, a sliding hole is formed in the top of the practical training platform body, a threaded column is arranged in the sliding hole in a sliding manner, a fixed column is fixedly mounted at the top end of the threaded column, a fixed groove is formed in one end of the fixed column, an adjusting column is connected in the fixed groove in a sliding manner, a monitor is rotatably mounted at one end of the adjusting column and located in the top area of the model body, a display screen is fixedly mounted at one side of the practical training platform body, the display screen and the monitor are both electrically connected with a controller, a first belt wheel is connected to the threaded column in a threaded manner, the first belt wheel is rotatably connected to the bottom of the practical training platform body, and the first belt wheel is used for driving the threaded column to move up and down through rotating;

the top of the practical training platform body is fixedly connected with a motor, an output shaft of the motor is fixedly connected with a second belt wheel, and the second belt wheel and the first belt wheel are meshed with a same belt;

the model ontology includes: the bottom plate, the top of bottom plate is provided with horizontal end muscle, the top of horizontal end muscle is fixedly connected with vertical end muscle, the top of bottom plate is fixedly connected with the foundatin plate, the top of foundatin plate is fixedly connected with the swash plate, the top of swash plate is fixedly connected with the stand, the top of vertical end muscle is provided with the stand reinforcing bar, the top of stand reinforcing bar is fixedly connected with the support bar through a binding wire, the top of support bar is fixedly connected with the support plate, the outside of stand reinforcing bar is clamped with the cardboard, the inside of cardboard is clamped with the auxiliary strut, and the outside of cardboard contacts with the inside of stand, the cavity that bottom plate, foundatin plate, swash plate and stand construct is provided with the filler, the top of stand is provided with the fixed slot, the inside of fixed slot is clamped with the fixed block, the top of fixed block is fixedly connected with the spliced pole, the top end of the connecting column is fixedly connected with a top plate.

As a preferred embodiment, the transverse bottom rib and the longitudinal bottom rib are fixedly connected through a second binding wire, and the diameter value of the transverse bottom rib is equal to the diameter value of the longitudinal bottom rib.

As a preferred embodiment, the base plate is rectangular, the base plates are acrylic plates, the number of the base plates is four, and the sizes of the four base plates are equal.

In a preferred embodiment, the inclined plates are acrylic plates, the number of the inclined plates is four, and the four inclined plates are equal in size.

In a preferred embodiment, the support plate is inclined, and the top of the support plate is in contact with the bottom of the inclined plate.

As a preferred embodiment, the auxiliary supporting rod is a waste electric wire, the diameter value of the auxiliary supporting rod is smaller than that of the steel bar of the upright post, and the outer part of the auxiliary supporting rod is fixedly connected with the inner wall of the clamping plate through a rubber pad.

In a preferred embodiment, the filler is concrete, and the filler is poured into the cavity formed by the bottom plate, the foundation plate, the sloping plate and the upright column.

As a preferred embodiment, the middle part of the top end of the fixing block is perpendicular to the bottom end of the connecting column, and the fixing block is matched with the fixing groove.

Compared with the prior art, the beneficial effects of the utility model are that:

according to the teaching model device for the slope type independent foundation building construction, the monitor can shoot and record the practical training operation process in the model body, the picture shot on the monitor is transmitted to the display screen through the controller, students can intensively watch the operation video in the display screen to learn, the motor drives the second belt wheel to rotate, the belt drives the first belt wheel to rotate, the threaded column drives the fixed column to move, and the shooting height of the monitor can be adjusted; meanwhile, the micro-class two-dimensional code can be associated with a micro-class developed under the support of a virtual simulation teaching system, the online mobile terminal can scan the micro-class two-dimensional code and trigger autonomous learning free from space-time limitation, the operation is convenient, the display effect is good, and the requirement of providing a clear teaching process for students in a classroom can be met.

The teaching model device for slope type independent foundation building construction is characterized in that a bottom plate, a transverse bottom rib, a longitudinal bottom rib, a foundation plate, an inclined plate, a stand column reinforcing steel bar, an auxiliary supporting rod and a filler are arranged, in the process of manufacturing the teaching model, the bottom plate, the foundation plate, the inclined plate and the stand column of an acrylic plate are used for forming a model shell firstly, then the transverse bottom rib, the longitudinal bottom rib, the stand column reinforcing steel bar and the auxiliary supporting rod are used for forming a firm framework, and the teaching model is poured and formed through the concrete filler, so that the problem that the teaching model manufactured by splicing of the traditional paperboard is easy to deform or fall off and separate due to pressure in the process of long-term use is solved, and the service life of the teaching model is prolonged;

according to the teaching model device for slope type independent foundation building construction, the supporting steel bars and the supporting plates are arranged, so that auxiliary supporting can be conveniently carried out on the inclined plate in the process of splicing and fixing the inclined plate, the inclined plate is simpler and more convenient to splice and fix, and waste electric wires are used as materials of the auxiliary supporting rods, so that waste utilization can be carried out, and the manufacturing cost of the teaching model can be reduced;

this teaching model device is used in construction of independent foundation of slope type, through setting up the cardboard, can be at the in-process that this teaching model cylinder subassembly skeleton was built, be convenient for firmly fix stand reinforcing bar and supplementary branch, avoided the tradition to utilize to tie the silk and bind fixed and complex operation's problem, make the process that cylinder subassembly skeleton was built simple and convenient and labour saving and time saving more, accelerated the speed that cylinder subassembly skeleton was built, thereby improved the work efficiency that this teaching model made.

Drawings

FIG. 1 is a schematic structural view of a teaching model device for construction of a slope-type independent foundation building provided by the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

fig. 3 is a schematic structural view of a model body in the building construction teaching model device provided by the utility model;

fig. 4 is an enlarged schematic view of a portion B in fig. 3.

Reference numbers:

1-a training platform mechanism; 101-a training platform body; 102-a movable support; 104-a threaded post; 105-a fixed column; 106-a conditioning column; 107-a monitor; 108-a display screen; 109-a first pulley; 110-a motor; 111-a second pulley; 112-a belt;

2-model ontology; 201-a backplane; 202-transverse bottom ribs; 203-longitudinal bottom ribs; 204-a base plate; 205-a sloping plate; 206-upright post; 207-column reinforcement; 208-supporting the reinforcing steel bars; 209-support plate; 210-a card board; 211-auxiliary struts; 212-a filler; 213-fixed groove; 214-a fixed block; 215-connecting column; 216-top plate.

Detailed Description

The present invention will be further described with reference to the following examples.

The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention. The condition in the embodiment can be further adjusted according to concrete condition the utility model discloses a it is right under the design prerequisite the utility model discloses a simple improvement of method all belongs to the utility model discloses the scope of claiming.

Referring to fig. 1-4, an embodiment of the present invention provides a teaching model device for slope type independent foundation building construction, including: the training platform mechanism 1 is characterized in that a model body 2, a schematic drawing of a method and a construction flow chart matched with the model body 2 and corresponding micro-class two-dimensional codes are fixedly installed on the training platform mechanism 1, the micro-class two-dimensional codes can be associated with a micro-class developed under the support of a virtual simulation teaching system, and an online mobile terminal can trigger autonomous learning which is not limited by time and space by scanning the micro-class two-dimensional codes;

real standard platform mechanism 1 includes: the practical training platform comprises a practical training platform body 101, a movable support 102 is fixedly mounted at the bottom of the practical training platform body 101, a sliding hole is formed in the top of the practical training platform body 101, a threaded column 104 is slidably mounted in the sliding hole, a fixed column 105 is fixedly mounted at the top end of the threaded column 104, a fixed groove is formed in one end of the fixed column 105, an adjusting column 106 is slidably connected in the fixed groove, a monitor 107 is rotatably mounted at one end of the adjusting column 106, the monitor 107 is located in the top area of the model body 2, a display screen 108 is fixedly mounted on one side of the practical training platform body 101, the display screen 108 and the monitor 107 are both electrically connected with a controller, a first belt pulley 109 is in threaded connection with the threaded column 104, the first belt pulley 109 is rotatably connected to the bottom of the practical training platform body 101, a motor 110 is fixedly connected to the top of the practical training platform body 101, a second belt pulley 111 is fixedly connected to an output shaft of the motor 110, and the second belt pulley 111 and the first belt 112 are meshed with the first belt pulley 109;

the model body 2 includes: the steel plate comprises a bottom plate 201, wherein a transverse bottom rib 202 is arranged at the top of the bottom plate 201, a longitudinal bottom rib 203 is fixedly connected to the top of the transverse bottom rib 202, a foundation plate 204 is fixedly connected to the top of the bottom plate 201, an inclined plate 205 is fixedly connected to the top of the foundation plate 204, a stand column 206 is fixedly connected to the top of the inclined plate 205, a stand column steel bar 207 is arranged at the top of the longitudinal bottom rib 203, a support steel bar 208 is fixedly connected to the bottom of the stand column steel bar 207 through a one-number binding wire, a support plate 209 is fixedly connected to the top end of the support steel bar 208, and a clamping plate 210 is clamped outside the stand column steel bar 207; the inside joint of cardboard 210 has auxiliary strut 211, and the outside of cardboard 210 contacts with the inboard of stand 206, is provided with filler 212 in the cavity that bottom plate 201, foundatin plate 204, swash plate 205 and stand 206 constructed, and fixed slot 213 has been seted up at the top of stand 206, and the inside joint of fixed slot 213 has fixed block 214, and the top fixedly connected with spliced pole 215 of fixed block 214, the top fixedly connected with roof 216 of spliced pole 215.

As a preferred embodiment, the micro lesson associated with the micro lesson two-dimensional code can realize the functions of playing, rotating, enlarging and reducing on the mobile terminal. In addition, the virtual simulation teaching system can be composed of a construction process resource subsystem, a micro-class, a database subsystem and an interaction engine subsystem, and an automatic demonstration mode and a human-computer interaction mode are realized by using a system developed by 3DMAX + UNIT3, a server with certain configuration and a PC (personal computer) terminal.

Above-mentioned bottom plate 201 is the ya keli board, and for the stability of reinforcing model body 2 bottom, can set up horizontal end muscle 202 at the top of bottom plate 201, muscle 203 at the vertical end of the top fixed connection of horizontal end muscle 202, through No. two bundle silk fixed connection between horizontal end muscle 202 and the vertical end muscle 203, and the diameter value of horizontal end muscle 202 equals with the diameter value size of vertical end muscle 203.

When placing horizontal end muscle 202 equidistance at the top of bottom plate 201, place vertical end muscle 203 equidistance again at the top of horizontal end muscle 202 in proper order to utilize No. two to prick the silk and fix between horizontal end muscle 202 and vertical end muscle 203, make horizontal end muscle 202 and vertical end muscle 203 form a firm square at the top of bottom plate 201, thereby strengthened the stability of 2 bottoms of this model body.

In order to make the bottom of the model body 2 capable of being cast better, the foundation plate 204 can be fixedly connected to the top of the bottom plate 201, the foundation plate 204 is rectangular, the foundation plate 204 is an acrylic plate, the number of the foundation plates 204 is four, and the sizes of the four foundation plates 204 are equal. Four foundatin plates 204 can enclose into a square, and the bottom of four foundatin plates 204 all with the top fixed bonding of bottom plate 201 to make the shaping of pouring that can be better in the bottom of this model body 2, and the concrete strength grade between four foundatin plates 204 and the bottom plate 201 should not be less than C20.

In order to make the base of the model body 2 more firm, the inclined plate 205 may be fixedly connected to the top of the base plate 204, the inclined plate 205 is an acrylic plate, the number of the inclined plates 205 is four, and the four inclined plates 205 are equal in size. At the top fixed connection stand 206 of swash plate 205, four swash plates 205 correspond with four foundatin plates 204 respectively each other, and the bottom of four swash plates 205 respectively with the top fixed bonding of four foundatin plates 204, and can constitute the base model subassembly of a middle part fretwork between four swash plates 205 and four foundatin plates 204 and the bottom plate 201, and also be convenient for water the concrete and form the base subassembly of this model body 2, utilize the design of slope form simultaneously can make and can stably combine between stand 206 and the base subassembly, thereby make the base of this model body 2 more firm.

In order to facilitate the splicing of the inclined plate 205 and support the inclined plate 205, the top of the longitudinal bottom rib 203 is provided with an upright column reinforcing steel bar 207, the bottom of the upright column reinforcing steel bar 207 is fixedly connected with the supporting reinforcing steel bar 208 through a binding wire, the top end of the supporting reinforcing steel bar 208 is fixedly connected with a supporting plate 209, the supporting plate 209 is inclined, the top of the supporting plate 209 is in contact with the bottom of the inclined plate 205, and after the transverse bottom rib 202 and the longitudinal bottom rib 203 are fixed, the spliced upright column reinforcing steel bar 207 is placed at the top of the longitudinal bottom rib 203; the bottom of four stand reinforcing bars 207 can contact with the top of vertical end muscle 203 this moment, puts supporting reinforcement 208 at the top of stand reinforcing bar 207 bottom again for closely laminating between the backup pad 209 on supporting reinforcement 208 top and the swash plate 205, it fixes between supporting reinforcement 208 and the stand reinforcing bar 207 to recycle a bundle silk, thereby be convenient for when the swash plate 205 splices, carry out the auxiliary stay to swash plate 205.

In order to fix the materials of the column body assembly conveniently, the clamping plate 210 can be clamped outside the upright column steel bar 207, the auxiliary support rod 211 is clamped inside the clamping plate 210, the auxiliary support rod 211 is a waste electric wire, the diameter value of the auxiliary support rod 211 is smaller than that of the upright column steel bar 207, and the outside of the auxiliary support rod 211 is fixedly connected with the inner wall of the clamping plate 210 through a rubber pad; a draw-in groove and No. two draw-in grooves have been seted up respectively to this cardboard 210's inboard, a draw-in groove and No. two draw-in grooves respectively with stand reinforcing bar 207 and auxiliary strut 211 looks adaptation, through utilizing cardboard 210, can fix stand reinforcing bar 207 and auxiliary strut 211 on the coplanar to be convenient for fix the material of cylinder subassembly.

Meanwhile, waste electric wires are used as the material of the auxiliary supporting rod 211, so that waste can be utilized, and the manufacturing cost of the teaching model can be reduced.

In order to increase the service life of the model body 2, the outer part of the clamping plate 210 is in contact with the inner side of the upright post 206, and a filler 212 is arranged in the cavity formed by the bottom plate 201, the base plate 204, the sloping plate 205 and the upright post 206.

The filler 212 is preferably concrete, and the filler 212 is poured into a cavity formed by the bottom plate 201, the foundation plate 204, the sloping plate 205 and the upright column 206; utilize the concrete as filler 212, after the shell of this model body 2 was made, can pour the inside at model body 2 shell from the top of stand 206 with the concrete, make the concrete can be better with horizontal end muscle 202, vertical end muscle 203, stand reinforcing bar 207, support bar 208, backup pad 209, firmly combine between auxiliary strut 211 and the model body 2 shell, can form a hard model body 2, the problem of traditional teaching model deformation or separation that drops because of the atress takes place for a long time in-process of using has been avoided, thereby the life of this teaching model has been improved.

In order to seal the top of the model body 2 conveniently, a fixing groove 213 can be formed in the top of the upright column 206, a fixing block 214 is clamped inside the fixing groove 213, a connecting column 215 is fixedly connected to the top of the fixing block 214, the middle of the top end of the fixing block 214 is perpendicular to the bottom end of the connecting column 215, and the fixing block 214 is matched with the fixing groove 213; top fixed connection roof 216 at spliced pole 215, this roof 216 is the ya keli board, after the concrete placement of model body 2 inside is accomplished, place roof 216 in the top at stand 206 top, and promote roof 216 downwards, make spliced pole 215 drive fixed block 214 take place to move down, make fixed block 214 enter into the inside to fixed slot 213, and spliced pole 215 also can enter into the inside to fixed slot 213 along with fixed block 214 together, the top of bottom and stand 206 up to roof 216 contacts, be convenient for utilize roof 216 to seal the top of this model body 2, thereby make this model body 2 can form and carry out perfect whole.

The utility model discloses a theory of operation and use flow: firstly, when the transverse bottom ribs 202 are equidistantly placed at the top of the bottom plate 201, the longitudinal bottom ribs 203 are sequentially equidistantly placed at the top of the transverse bottom ribs 202, and the transverse bottom ribs 202 and the longitudinal bottom ribs 203 are fixed by using a second binding wire, so that the transverse bottom ribs 202 and the longitudinal bottom ribs 203 form a firm square at the top of the bottom plate 201, and the stability of the bottom of the model body 2 is enhanced; then, the four upright post steel bars 207 are firmly clamped inside the clamping plate 210, and the auxiliary struts 211 are sequentially clamped inside the clamping plate 210, so that the framework of the cylinder assembly is conveniently built, and the built framework of the cylinder assembly is placed at the top of the base framework, so that the bottoms of the four upright post steel bars 207 can be contacted with the top of the longitudinal bottom rib 203; the supporting steel bars 208 are placed at the top of the bottom ends of the upright post steel bars 207, and the supporting steel bars 208 and the upright post steel bars 207 are fixed through a first binding wire, so that the inclined plate 205 is supported in an auxiliary manner when the inclined plate 205 is spliced;

then, the four foundation plates 204 are encircled into a square, the bottoms of the four foundation plates 204 are fixedly bonded with the top of the bottom plate 201, and the bottoms of the four inclined plates 205 are fixedly bonded with the tops of the four foundation plates 204 respectively; a base model assembly with a hollow middle part can be formed among the four inclined plates 205, the four foundation plates 204 and the bottom plate 201, the upright column 206 is sleeved outside the framework of the column body assembly, so that the bottom of the upright column 206 is fixedly bonded with the top of the inclined plates 205, and finally, after the shell of the model body 2 is manufactured, concrete can be poured into the shell of the model body 2 from the top end of the upright column 206, so that the concrete can be well and firmly combined with the transverse bottom rib 202, the longitudinal bottom rib 203, the upright column reinforcing steel bars 207, the supporting steel bars 208, the supporting plate 209, the auxiliary supporting rod 211 and the shell of the teaching model, and a hard teaching model body 2 can be formed; the teaching model body 2 avoids the problem that the traditional teaching model is deformed or falls off and separates due to stress in the long-term use process, thereby prolonging the service life of the teaching model;

simultaneously when the inside concrete placement of teaching model accomplishes the back, place roof 216 in the top at stand 206 top, and promote roof 216 downwards, make spliced pole 215 drive fixed block 214 and take place to move down, make fixed block 214 enter into the inside to fixed slot 213, and spliced pole 215 also can enter into the inside to fixed slot 213 along with fixed block 214, contact with the top of stand 206 up to the bottom of roof 216, be convenient for utilize roof 216 to seal the top of this model body 2, thereby make this teaching model body 2 can form and carry out perfect whole.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a slope type is teaching model device for independent foundation building construction which characterized in that: the method comprises the following steps: the training platform mechanism (1), wherein a model body (2) is fixedly installed on the training platform mechanism (1);

the practical training platform mechanism (1) comprises: the practical training platform comprises a practical training platform body (101), a movable support (102) is fixedly mounted at the bottom of the practical training platform body (101), a slide hole is formed in the top of the practical training platform body (101), a threaded column (104) is slidably mounted in the slide hole, a fixed column (105) is fixedly mounted at the top end of the threaded column (104), a fixed groove is formed in one end of the fixed column (105), an adjusting column (106) is slidably connected in the fixed groove, a monitor (107) is rotatably mounted at one end of the adjusting column (106), the monitor (107) is located in the top area of the model body (2), a display screen (108) is fixedly mounted on one side of the practical training platform body (101), the display screen (108) and the monitor (107) are both electrically connected with a controller, a first belt wheel (109) is in threaded connection with the threaded column (104), and the first belt wheel (109) is rotatably connected to the bottom of the practical training platform body (101), the first belt wheel (109) is used for driving the threaded column (104) to move up and down through a rotating action;

the top of the practical training platform body (101) is fixedly connected with a motor (110), an output shaft of the motor (110) is fixedly connected with a second belt wheel (111), and the second belt wheel (111) and the first belt wheel (109) are meshed with a same belt (112);

the model body (2) comprises: the steel plate comprises a bottom plate (201), wherein a transverse bottom rib (202) is arranged at the top of the bottom plate (201), a longitudinal bottom rib (203) is fixedly connected to the top of the transverse bottom rib (202), a foundation plate (204) is fixedly connected to the top of the bottom plate (201), an inclined plate (205) is fixedly connected to the top of the foundation plate (204), a stand column (206) is fixedly connected to the top of the inclined plate (205), a stand column steel bar (207) is arranged at the top of the longitudinal bottom rib (203), a support steel bar (208) is fixedly connected to the bottom of the stand column steel bar (207) through a binding wire, a support plate (209) is fixedly connected to the top of the support steel bar (208), and a clamping plate (210) is clamped outside the stand column steel bar (207);

the inside joint of cardboard (210) has supplementary branch (211), just the outside of cardboard (210) with the inboard of stand (206) contacts, bottom plate (201) foundatin plate (204) swash plate (205) with be provided with filler (212) in the cavity that stand (206) constructed, fixed slot (213) have been seted up at the top of stand (206), the inside joint of fixed slot (213) has fixed block (214), the top fixedly connected with spliced pole (215) of fixed block (214), the top fixedly connected with roof (216) of spliced pole (215).

2. The teaching model device for construction of a slope type independent foundation according to claim 1, characterized in that: the transverse bottom rib (202) is fixedly connected with the longitudinal bottom rib (203) through a second binding wire, and the diameter value of the transverse bottom rib (202) is equal to that of the longitudinal bottom rib (203).

3. The teaching model device for construction of a slope type independent foundation according to claim 1, characterized in that: the shape of foundatin plate (204) is the rectangle, just foundatin plate (204) are the ya keli board, the quantity of foundatin plate (204) is four, and the size of four foundatin plates (204) equals.

4. The teaching model device for construction of a slope type independent foundation according to claim 1, characterized in that: the inclined plates (205) are acrylic plates, the number of the inclined plates (205) is four, and the four inclined plates (205) are equal in size.

5. The teaching model device for construction of a slope type independent foundation according to claim 1, characterized in that: the supporting plate (209) is inclined, and the top of the supporting plate (209) is in contact with the bottom of the inclined plate (205).

6. The teaching model device for construction of a slope type independent foundation according to claim 1, characterized in that: auxiliary stay (211) are old and useless electric wire, just the diameter value of auxiliary stay (211) is less than the diameter value of stand reinforcing bar (207), the inner wall fixed connection of rubber pad and cardboard (210) is passed through to the outside of auxiliary stay (211).

7. The teaching model device for construction of a slope type independent foundation according to claim 1, characterized in that: the filler (212) is concrete, and the filler (212) is poured in a cavity constructed by the bottom plate (201), the foundation plate (204), the inclined plate (205) and the upright post (206).

8. The teaching model device for construction of a slope type independent foundation according to claim 1, characterized in that: the middle part of the top end of the fixing block (214) is perpendicular to the bottom end of the connecting column (215), and the fixing block (214) is matched with the fixing groove (213).

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