CN110146380B

CN110146380B - Automatic collecting equipment for detecting compressive strength and flexural strength of cement test block

Info

Publication number: CN110146380B
Application number: CN201910513270.5A
Authority: CN
Inventors: 林克慧
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-06-14
Filing date: 2019-06-14
Publication date: 2022-03-25
Anticipated expiration: 2039-06-14
Also published as: CN110146380A

Abstract

The invention discloses automatic collection equipment for detecting the compression resistance and the bending resistance of a cement test block, which comprises an equipment main body, a compression resistance and bending resistance integrated detection device, a data acquisition intelligent base and an embedded storage drawer, wherein the bottom of the equipment main body is fixedly connected with the data acquisition intelligent base, the inner side of the data acquisition intelligent base is movably connected with the compression resistance and bending resistance integrated detection device, two sides inside a pressure detection groove are electrically connected with an anti-accidental touch and pressing damage induction lamp, the anti-accidental touch and pressing damage induction lamp embodies the safety of the collection equipment, a real-time display screen of collected data embodies the real-time performance of the collection equipment, a lubricating buffer layer prolongs the service life of the collection equipment, the compression resistance and bending resistance integrated detection device embodies the detection integrity of the collection equipment, the data acquisition intelligent base embodies the adjustability and the intelligence of the collection equipment and is suitable for the use of a cement strength detection test, has wide development prospect in the future.

Description

Automatic collecting equipment for detecting compressive strength and flexural strength of cement test block

Technical Field

The invention relates to the technical field of cement strength detection tests, in particular to automatic collection equipment for detecting compressive strength and flexural strength of a cement test block.

Background

With the construction background of a large number of houses, bridges and public facilities, the using amount of cement is continuously increased, the cement detection work is more and more frequent, and the equipment for detecting the strength is the automatic acquisition equipment for detecting the compressive strength and the flexural strength of the cement test block.

Most of the existing detection devices can not adjust detection and acquisition parameters according to different cement test blocks, the adjustability is limited, most of the existing compression-resistant and bending-resistant equipment is independent devices, the compression-resistant and bending-resistant equipment is used separately, the integration degree is not enough, extra trouble is added to the acquisition work, when the worker acquires, the pressure generated by the lower pressing plate is extremely large, the lower pressing plate carelessly stretches into the easy-to-press cavity to be affected safely, and the safety is not enough.

Therefore, how to design an automatic acquisition device for detecting the compressive strength and the flexural strength of the cement test block becomes a problem to be solved at present.

Disclosure of Invention

The invention aims to provide automatic acquisition equipment for detecting compressive strength and flexural strength of a cement test block, which aims to solve the problems of limited adjustability, insufficient integration degree and insufficient safety of the automatic acquisition equipment for detecting compressive strength and flexural strength of the cement test block, which is provided in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: an automatic collecting device for detecting the compression resistance and the bending resistance of a cement test block comprises a device main body, a compression-resistance and bending-resistance integrated detecting device, a data acquisition intelligent base and an embedded storage drawer, wherein the bottom of the device main body is fixedly connected with the data acquisition intelligent base, the inner side of the data acquisition intelligent base is movably connected with the compression-resistance and bending-resistance integrated detecting device, one side of the device main body is movably connected with the embedded storage drawer, the middle part of the inner top of the compression-resistance and bending-resistance integrated detecting device is movably connected with a pressing detection collision plate, the top end of the pressing detection collision plate is fixedly connected with a pressure increasing and decreasing groove, two sides of the compression-resistance and bending-resistance integrated detecting device are movably connected with a pressing movable rod, the middle part of the bottom of the compression-resistance and bending-resistance integrated detecting device is fixedly connected with a cement test block placing groove, and the middle part of the inner part of the cement test block placing groove is movably connected with a breaking simulation pillar, the inner side of the broken simulation strut is movably connected with a strut horizontal position conversion hole, the inner bottom of the cement test block placing groove is connected with a position limiting bolt in a penetrating way, the inner middle part of the data acquisition intelligent base is electrically connected with a data acquisition display, the top end of the data acquisition display is fixedly connected with a pressure detection groove, the bottom end of the pressure detection groove is electrically connected with a pressure sensor, one end of the data acquisition display is movably connected with a press-down frequency adjusting knob, the other end of the press-down frequency adjusting knob is electrically connected with a resistance adjusting rod, the other end of the resistance adjusting rod is electrically connected with a press-down circuit resistor, the inner bottom of the multifunctional protection base is fixedly connected with a lower cushion surface gathering groove, the two sides of the top of the lower cushion surface gathering groove are movably connected with lower cushion surface stretching rollers, and the bottom end of the lower cushion surface stretching rollers is movably connected with a strong-pressure-proof protective lower cushion surface, the utility model discloses a multi-functional protection base, including multi-functional protection base, folding universal wheel in inside one side swing joint of multi-functional protection base has a left side, the inside opposite side swing joint of multi-functional protection base has the folding universal wheel in the right side, one side top embedding of the folding universal wheel in a left side is connected with folding spacing bayonet lock.

Preferably, the front electric connection of the data acquisition and acquisition intelligent base is provided with a data acquisition real-time display screen.

Preferably, the bottom end of the downward pressing movable rod is fixedly connected with a lubricating buffer layer.

Preferably, the two sides of the interior of the pressure detection groove are electrically connected with an induction lamp for preventing accidental touch and pressure injury.

Preferably, the embedded inside bottom swing joint who accomodates the steamer tray has embedded gyro wheel, the embedded inside inboard embedding of accomodating the steamer tray is connected with the activity and accomodates the chamber.

Preferably, the inside top embedding of multi-functional protection base is connected with buffering connection pad.

Preferably, the anti integration detection device that rolls over of resistance to compression is by the board is hit in the detection of pushing down of inside top middle part, and the pressure increase and decrease groove that hits the board top is detected to pushing down, the movable rod that pushes down of both sides, the cement test block standing groove of bottom middle part, the rupture simulation pillar of the inside middle part of cement test block standing groove, the inside inboard pillar horizontal position transform hole of rupture simulation pillar and the spacing bolt in position of the inside bottom of cement test block standing groove combine together and form, it hits the board to push down to detect simultaneously, the pressure increase and decrease groove, the movable rod pushes down, the cement test block standing groove, the rupture simulation pillar, pillar horizontal position transform hole and the spacing bolt in position from the top down arrange in proper order.

Preferably, the data acquisition obtains intelligent base and is acquireed the display by the data acquisition of inside middle part, the pressure detection groove on data acquisition display top, the pressure sensor of pressure detection tank bottom, the frequency adjustment knob that pushes down of data acquisition display one end, the resistance adjusting lever of the frequency adjustment knob other end that pushes down and the circuit resistance that pushes down of the resistance adjusting lever other end make up jointly and form, data acquisition display simultaneously, the pressure detection groove, pressure sensor, push down frequency adjustment knob, resistance adjusting lever and circuit resistance that pushes down arrange in proper order from the top down.

Preferably, the multifunctional protection base is gathered the groove by the underlying surface of inside bottom, the underlying surface gathers the tensile gyro wheel of underlying surface of groove top both sides, the bottom swing joint of the tensile gyro wheel of underlying surface has the protective underlying surface of preventing the high pressure, inside one side swing joint of multifunctional protection base has the folding universal wheel in a left side, the inside opposite side swing joint of multifunctional protection base has the folding universal wheel in the right side, the embedding of one side top of the folding universal wheel in a left side is connected with folding spacing bayonet lock, the underlying surface gathers the groove simultaneously, the tensile gyro wheel of underlying surface, prevent the protective underlying surface of high pressure, the folding universal wheel in a left side, the folding universal wheel in the right side, folding spacing bayonet lock from left to right is arranged in proper order.

Compared with the prior art, the invention has the beneficial effects that:

1. this kind of cement test block resistance to compression, anti rupture strength detect automatic acquisition equipment through setting up the anti integrative detection device of rolling over of resistance to compression, thereby the staff can alternate the position of the broken simulation pillar with the pillar horizontal position transform hole that the spacing bolt in position inserted different positions, fine embodiment the detection wholeness of collection equipment.

2. This kind of cement test block resistance to compression, rupture strength detect automatic acquisition equipment acquires intelligent base through setting up data acquisition, and the pressure sensor who sets up bears the pressure production pressure data that receives through the pressure detection inslot cement test block to real-time transmission shows to data acquisition display in real time, thereby fine embodiment collection equipment's adjustability and intelligence.

3. This kind of cement test block resistance to compression, rupture strength detect automatic acquisition equipment through setting up multi-functional protection base, when acquisition equipment stands the high pressure and strikes, operating personnel can put down the tensile gyro wheel of underlying surface according to actual need and fix or put to the horizontality and fix through folding spacing bayonet lock, fine embodiment acquisition equipment's protectiveness and mobility.

Drawings

FIG. 1 is an overall schematic view of the present invention;

FIG. 2 is a schematic cross-sectional view of the pressure-resistant and fracture-resistant integrated detecting device of the present invention;

FIG. 3 is a schematic cross-sectional view of a data acquisition smart mount of the present invention;

FIG. 4 is a schematic cross-sectional view of an internally embedded storage drawer according to the present invention;

fig. 5 is a schematic cross-sectional view of the built-in storage drawer according to the present invention.

In the figure: 1. the device comprises a device main body, a pressure-resistant and bending-resistant integrated detection device, a 201, a pressing-down detection collision plate, a 202, a pressure increase and decrease groove, a 203, a pressing-down movable rod, a 204, a lubricating buffer layer, a 205, a cement test block placing groove, a 206, a breaking simulation supporting column, a 207, a supporting column horizontal position conversion hole, a 208, a position limiting bolt, a 3, a data acquisition intelligent base, a 301, a data acquisition display, a 302, a pressure detection groove, a 302, a pressure sensor, a 304, a pressing-down frequency adjusting knob, a 305, a resistance adjusting rod, a 306, a pressing-down circuit resistor, a 307, an accidental touch and pressure injury prevention induction lamp, a 4, an embedded storage drawer, a 401, an embedded roller, a 402, a movable storage cavity, a 5, a collected data real-time display screen, a 6, a multifunctional protection base, a 601, a lower cushion surface gathering groove, a 602, a lower cushion surface stretching roller, a 603, a strong pressure prevention protective lower cushion surface, a 604, a left folding universal wheel, 605. right folding universal wheel 606, folding spacing bayonet lock 607, buffering connecting pad.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-5, the present invention provides a technical solution: an automatic collecting device for detecting the compression strength and the bending strength of a cement test block comprises a device main body 1, a compression-resistant and bending-resistant integrated detection device 2, a data acquisition intelligent base 3 and an embedded storage drawer 4, wherein the bottom of the device main body 1 is fixedly connected with the data acquisition intelligent base 3, the inner side of the data acquisition intelligent base 3 is movably connected with the compression-resistant and bending-resistant integrated detection device 2, one side of the device main body 1 is movably connected with the embedded storage drawer 4, the middle part of the inner top of the compression-resistant and bending-resistant integrated detection device 2 is movably connected with a pressing detection collision plate 201, the top end of the pressing detection collision plate 201 is fixedly connected with a pressure increasing and decreasing groove 202, the two sides of the compression-resistant and bending-resistant integrated detection device 2 are movably connected with pressing movable rods 203, the middle part of the bottom of the compression-resistant and bending-resistant integrated detection device 2 is fixedly connected with a cement test block placing groove 205, inside middle part swing joint of cement test block standing groove 205 has rupture simulation pillar 206, the inside inboard swing joint of rupture simulation pillar 206 has pillar horizontal position transform hole 207, the inside bottom through connection of cement test block standing groove 205 has the spacing bolt 208 in position, data acquisition acquires intelligent base 3's inside middle part electric connection has data acquisition display 301, data acquisition display 301's top fixedly connected with pressure detection groove 302, the bottom electric connection of pressure detection groove 302 has pressure sensor 303, the one end swing joint that data acquisition display 301 has pushes down frequency adjust knob 304, the other end electric connection that pushes down frequency adjust knob 304 has resistance adjusting rod 305, the other end electric connection of resistance adjusting rod 305 has circuit resistance 306 that pushes down.

Preferably, the preceding electric connection that data acquisition acquireed intelligent base 3 has data acquisition real-time display screen 5, because the data of gathering are more, the staff need look over different data in real time through real-time recording, do not possess the real-time, through establishing data acquisition real-time display screen 5, the data that the staff can look over the collection equipment through data acquisition real-time display screen 5 and gather out in real time, convenient and fast need not staff's real-time recording, thereby fine embodiment the real-time of collection equipment.

Preferably, the bottom fixedly connected with of pushing down the movable rod 203 lubricates the buffer layer 204, and after pushing down the movable rod 203 and being in high-efficient compression operation or running for a long time, the movable rod 203 that pushes down can appear wearing and tearing, influences life, and through setting up lubricated buffer layer 204, lubricated buffer layer 204 is fine lubricated buffer structure, can reduce the wearing and tearing that push down the friction production of movable rod 203 to fine extension collection equipment's life.

Preferably, the inside both sides electric connection of pressure measurement groove 302 has prevents that accidental touch from pressing the inductive lamp 307, when the staff gathers, because the pressure that the holding down plate produced is very big, thereby it receives the safety influence to stretch into easy pressurized carelessly, prevent accidental touch from pressing the inductive lamp 307 and be infrared induction device, when the staff hand stretched into, can trigger and prevent accidental touch from pressing the response that damages the inductive lamp 307, thereby produce the alarm, the fine security that has embodied the collection equipment.

Preferably, the embedded inside bottom swing joint who accomodates steamer tray 4 has embedded gyro wheel 401, the embedded inside inboard embedding of accomodating steamer tray 4 is connected with the activity and accomodates chamber 402, when the staff carries out real-time data acquisition, need carry partial instrument part, the trouble that has increased the staff has hand-carried, accomodate chamber 402 through setting up the activity, the activity is accomodate the embedding structure of chamber 402 for the activity, the staff can be with relevant instrument part put into the activity accomodate the chamber 402 in, make things convenient for the staff to take at any time, thereby the fine convenience that embodies collection equipment.

Preferentially, the inside top embedding of multi-functional protection base 6 is connected with buffering connection pad 607, at the junction of collection equipment and base, the strong pressure difference of production is the biggest, the most buffering bradyseism ability of current equipment is not enough, through setting up buffering connection pad 607, buffering connection pad 607 is fine buffering rubber material, and set up in the junction of equipment and base, the pressure that buffering that can be fine is strong to press the production, thereby fine play the effect of buffering, fine embodiment the buffering protectiveness of collection equipment.

Preferably, the pressure-resistant and bending-resistant integrated detecting device 2 is formed by combining a pressing-down detecting collision plate 201 at the middle part of the top inside, a pressure increasing and decreasing groove 202 at the top end of the pressing-down detecting collision plate 201, pressing-down movable rods 203 at two sides, a cement test block placing groove 205 at the middle part of the bottom, a breaking simulation strut 206 at the middle part of the inside of the cement test block placing groove 205, a strut horizontal position conversion hole 207 at the inner side of the breaking simulation strut 206 and a position limiting bolt 208 at the bottom inside the cement test block placing groove 205, and the pressing-down detecting collision plate 201, the pressure increasing and decreasing groove 202, the pressing-down movable rods 203, the cement test block placing groove 205, the breaking simulation strut 206, the strut horizontal position conversion hole 207 and the position limiting bolt 208 are sequentially arranged from top to bottom, most of the existing pressure-resistant and bending devices are independent devices and are used separately, the integration degree is insufficient, and extra trouble is added to the collecting work, through setting up resistance to compression anti-folding integration detection device 2, when examining, it carries out the resistance to compression test to the cement test block in the cement test block standing groove 205 along with the movable rod 203 that pushes down the activity to push down the detection and hit board 201, be provided with rupture simulation pillar 206 in the cement test block standing groove 205 simultaneously, thereby the staff can insert the position of the pillar horizontal position transform hole 207 of different positions with the spacing bolt 208 in position and alternate to the position of rupture simulation pillar 206, in order to reach the function of simulating different rupture points, thereby fine resistance to the cement test block has been detected, fine detection wholeness that has embodied collection equipment.

Preferably, the data acquisition and acquisition intelligent base 3 is formed by combining a data acquisition display 301 at the middle part inside, a pressure detection groove 302 at the top end of the data acquisition display 301, a pressure sensor 303 at the bottom end of the pressure detection groove 302, a press-down frequency adjustment knob 304 at one end of the data acquisition display 301, a resistance adjustment rod 305 at the other end of the press-down frequency adjustment knob 304 and a press-down circuit resistor 306 at the other end of the resistance adjustment rod 305, and the data acquisition display 301, the pressure detection groove 302, the pressure sensor 303, the press-down frequency adjustment knob 304, the resistance adjustment rod 305 and the press-down circuit resistor 306 are sequentially arranged from top to bottom, because the test properties of cement test blocks are different, most of the existing detection devices cannot adjust detection and acquisition parameters according to different cement test blocks, the adjustability is limited, and the intelligent base 3 is acquired by setting data acquisition, staff's accessible manual regulation pushes down frequency adjust knob 304 and drives resistance adjusting rod 305 thereby to the resistance value of pushing down circuit resistance 306 adjust, thereby circuit resistance through changing the depression bar carries out fine adjustment to the frequency of pushing down, the pressure sensor 303 that sets up simultaneously carries the pressure production pressure data that the cement test block received through pressure detection groove 302, and real-time transmission shows to data acquisition display 301 in real time, thereby fine embodiment collection equipment's adjustability and intelligent.

Preferably, the multifunctional protection base 6 is composed of a lower cushion surface gathering groove 601 at the bottom inside, lower cushion surface stretching rollers 602 at two sides of the top of the lower cushion surface gathering groove 601, a strong pressure prevention protective lower cushion surface 603 movably connected to the bottom end of the lower cushion surface stretching rollers 602, a left folding universal wheel 604 movably connected to one side inside the multifunctional protection base 6, a right folding universal wheel 605 movably connected to the other side inside the multifunctional protection base 6, a folding limit bayonet 606 embedded and connected to the top of one side of the left folding universal wheel 604, the lower cushion surface gathering groove 601, the lower cushion surface stretching rollers 602, the strong pressure prevention protective lower cushion surface 603, the left folding universal wheel 604, the right folding universal wheel 605 and the folding limit bayonet 606 sequentially arranged from left to right, because the collection equipment can generate larger impact during the compression test, the bearing capacity of the bottom bearing piece of the existing collection equipment is poorer, and the function is single, and the moving ability can not be well carried out when in need, by arranging the multifunctional protective base 6, when the collecting device is impacted by strong pressure, an operator can stretch and extend the anti-strong pressure protective lower cushion surface 603 along the lower cushion surface stretching roller 602 from the lower cushion surface gathering groove 601, when the pressure-resistant high-pressure-resistant rubber belt extends to a larger area, the pressure borne by the lower cushion surface can be well transferred and released from the high-pressure-resistant protective lower cushion surface 603, so that the damage of high pressure to the acquisition equipment is prevented, thereby fine guard action has played collection equipment, and simultaneously 6 both sides of multi-functional protection base are provided with the tensile gyro wheel 602 of underlying surface that can freely move, and operating personnel can put down the tensile gyro wheel 602 of underlying surface according to actual need and fix or put to the horizontality and fix through folding spacing bayonet lock 606, to sum up, multi-functional protection base 6 fine embodiment collection equipment's protectiveness and mobility.

The working principle is as follows: firstly, through setting up lubricated buffer layer 204, lubricated buffer layer 204 is fine lubricated buffer structure, can reduce the wearing and tearing that push down movable rod 203 friction and produce to fine extension collection equipment's life.

Then, prevent accidental touch and crush injury response lamp 307 through the setting, prevent that accidental touch and crush injury response lamp 307 is infrared ray induction system, when the staff hand stretched into, can trigger and prevent accidental touch and crush injury response lamp 307's response to produce the alarm, the fine security that has embodied collection equipment.

Then, through setting up activity and taking in chamber 402, activity is taken in chamber 402 and is the embedding structure of activity, and the staff can put into activity and take in chamber 402 with relevant instrument part, makes things convenient for the staff to take at any time to the fine convenience that has embodied collection equipment.

Next, through setting up resistance to compression anti-folding integration detection device 2, when examining, it carries out the resistance to compression test to the cement test block in the cement test block standing groove 205 along with the movable rod 203 that pushes down the activity to push down the board 201 that detects, be provided with rupture simulation pillar 206 in the cement test block standing groove 205 simultaneously, thereby the staff can insert the position of the pillar horizontal position transform hole 207 of different positions with position spacing bolt 208 and alternate to the position of rupture simulation pillar 206, in order to reach the function of simulating different rupture points, thereby fine resistance to the cement test block has been detected, fine embodiment the detection wholeness of collection equipment.

Finally, acquire intelligent base 3 through setting up data acquisition, staff's accessible manual regulation pushes down frequency adjust knob 304 and drives resistance adjusting rod 305 thereby to the resistance value of circuit resistance 306 adjusts pushing down, thereby circuit resistance through changing the depression bar carries out fine adjustment to the frequency of pushing down, the pressure sensor 303 that sets up simultaneously bears the pressure production pressure data that the cement test block received through pressure detection inslot 302, and real-time transmission shows to data acquisition display 301 in real time, thereby fine embodiment collection equipment's adjustability and intellectuality, this kind of cement test block resistance to compression, the theory of operation of bending strength detection automatic collection equipment.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a cement test block resistance to compression, anti rupture strength detect automatic acquisition equipment, includes equipment principal (1), the anti integrative detection device (2) of rolling over of resistance to compression, data acquisition acquire intelligent base (3) and embedded drawer (4) of accomodating, its characterized in that: the intelligent base (3) is acquired by fixedly connecting the bottom of the equipment main body (1) with data acquisition, the intelligent base (3) is acquired by the data acquisition through the internal inner side swing joint of the intelligent base (3), the embedded storage drawer (4) is movably connected to one side of the equipment main body (1), the internal top middle part of the integrated detection device (2) is movably connected with a downward-pressing detection collision plate (201), the top end of the downward-pressing detection collision plate (201) is fixedly connected with a pressure increasing and decreasing groove (202), the two sides of the integrated detection device (2) are movably connected with downward-pressing movable rods (203), the cement test block placing groove (205) is fixedly connected to the bottom middle part of the integrated detection device (2), and the fracture simulation supporting column (206) is movably connected to the internal middle part of the cement test block placing groove (205), the inner side of the broken simulation support column (206) is movably connected with a support column horizontal position conversion hole (207), the inner bottom of the cement test block placing groove (205) is connected with a position limiting bolt (208) in a penetrating manner, the middle part of the inner part of the data acquisition intelligent base (3) is electrically connected with a data acquisition display (301), the top end of the data acquisition display (301) is fixedly connected with a pressure detection groove (302), the bottom end of the pressure detection groove (302) is electrically connected with a pressure sensor (303), one end of the data acquisition display (301) is movably connected with a press-down frequency adjusting knob (304), the other end of the press-down frequency adjusting knob (304) is electrically connected with a resistance adjusting rod (305), the other end of the resistance adjusting rod (305) is electrically connected with a press-down circuit resistor (306), and the inner bottom of the multifunctional protection base (6) is fixedly connected with a lower cushion surface gathering groove (601), the utility model discloses a folding universal wheel of multi-functional protection base, including the groove (601) is gathered to the underlying surface, the top both sides swing joint of underlying surface gathers groove (601) has underlying surface tensile gyro wheel (602), the bottom swing joint of underlying surface tensile gyro wheel (602) has prevents that to press protectiveness underlying surface (603), inside one side swing joint of multi-functional protection base (6) has left folding universal wheel (604), the inside opposite side swing joint of multi-functional protection base (6) has right folding universal wheel (605), one side top embedding of left folding universal wheel (604) is connected with folding spacing bayonet lock (606).

2. The automatic collecting equipment for detecting the compression strength and the bending strength of the cement test block according to claim 1, which is characterized in that: the front electric connection of the data acquisition intelligent base (3) is provided with a data acquisition real-time display screen (5).

3. The automatic collecting equipment for detecting the compression strength and the bending strength of the cement test block according to claim 1, which is characterized in that: and a lubricating buffer layer (204) is fixedly connected to the bottom end of the downward pressing movable rod (203).

4. The automatic collecting equipment for detecting the compression strength and the bending strength of the cement test block according to claim 1, which is characterized in that: and two sides inside the pressure detection groove (302) are electrically connected with an induction lamp (307) for preventing accidental touch and pressure injury.

5. The automatic collecting equipment for detecting the compression strength and the bending strength of the cement test block according to claim 1, which is characterized in that: the embedded storage drawer is characterized in that the bottom of the inside of the embedded storage drawer (4) is movably connected with an embedded roller (401), and the inner side of the inside of the embedded storage drawer (4) is connected with a movable storage cavity (402) in an embedded mode.

6. The automatic collecting equipment for detecting the compression strength and the bending strength of the cement test block according to claim 1, which is characterized in that: the inside top embedding of multi-functional protection base (6) is connected with buffering connecting pad (607).

7. The automatic collecting equipment for detecting the compression strength and the bending strength of the cement test block according to claim 1, which is characterized in that: resistance to compression and folding integrated detection device (2) are by the push down of inside top middle part detect and hit board (201), push down detect and hit pressure increase and decrease groove (202) on board (201) top, push down movable rod (203) of both sides, cement test block standing groove (205) of bottom middle part, the fracture simulation pillar (206) of inside middle part of cement test block standing groove (205), the inside inboard pillar horizontal position transform hole (207) of fracture simulation pillar (206) and the spacing bolt in position (208) of cement test block standing groove (205) inside bottom make up jointly and form, push down simultaneously and detect and hit board (201), pressure increase and decrease groove (202), push down movable rod (203), cement test block standing groove (205), fracture simulation pillar (206), pillar horizontal position transform hole (207) and the spacing bolt in position (208) from the top down arrange in proper order.

8. The automatic collecting equipment for detecting the compression strength and the bending strength of the cement test block according to claim 1, which is characterized in that: data acquisition acquires intelligent base (3) and is acquireed display (301) by the data of inside middle part, data acquisition display (301) top pressure detection groove (302), pressure sensor (303) of pressure detection groove (302) bottom, data acquisition display (301) push down frequency control knob (304) of one end, push down frequency control knob (304) resistance adjusting rod (305) of the other end and resistance adjusting rod (305) push down circuit resistance (306) the other end and make up jointly and form, data acquisition display (301) simultaneously, pressure detection groove (302), pressure sensor (303), push down frequency control knob (304), resistance adjusting rod (305) and push down circuit resistance (306) from the top down arrange in proper order.

9. The automatic collecting equipment for detecting the compression strength and the bending strength of the cement test block according to claim 1, which is characterized in that: multifunctional protection base (6) are by the underlying surface of inside bottom gather groove (601), underlying surface gathers groove (601) top both sides's underlying surface tensile gyro wheel (602), the bottom swing joint of underlying surface tensile gyro wheel (602) has prevents that the protection nature of forcing fills up down face (603), inside one side swing joint of multifunctional protection base (6) has left folding universal wheel (604), the inside opposite side swing joint of multifunctional protection base (6) has right folding universal wheel (605), one side top embedding of left folding universal wheel (604) is connected with folding spacing bayonet lock (606), underlying surface gathers groove (601) simultaneously, underlying surface tensile gyro wheel (602), prevent that the protection nature of forcing fills up down face (603), left folding universal wheel (604), right folding universal wheel (605), folding spacing bayonet lock (606) from left to right arrange in proper order.