CN220490651U - Mortar workability testing device - Google Patents

Abstract

The utility model discloses a mortar construction testing device which comprises a testing hack lever, a mortar testing head and a mortar storage area, wherein the testing hack lever, the mortar testing head and the mortar storage area are arranged on a mortar construction testing base, and the mortar testing head is arranged on the testing hack lever. This mortar workability testing arrangement, through being provided with spacing subassembly, before placing the action to the mortar stock district, through outer pull T shape handle, can drive the T shape handle when moving this moment, drive outer fly leaf and remove to the one end of keeping away from first cuff, wherein the connection frame is installed on first cuff, can tensile to the spring, will support the base and insert at this moment inside first cuff, after stopping the effort, it produces elastic deformation to drive the spring, insert the location inserts and establish inside the inner jack, can fix the support base, in order to fix the whole stability of assurance junction in mortar stock district, also avoid under external effort, can produce the problem of skew.

Description

Mortar workability testing device

Technical Field

The utility model relates to the field of testing equipment, in particular to a mortar construction property testing device.

Background

Mortar is a bonding substance used for brickwork on a building, and is formed by adding water into sand and cementing materials in a certain proportion, and before building, the mortar can be tested according to a corresponding testing flow to ensure the quality of the building, wherein the testing of the bonding degree is particularly important, a corresponding mortar construction testing device is adopted at the moment, and the standard can be obtained in the subsequent building engineering while the data of the mortar construction testing device is tested;

according to the patent document: the utility model provides a CN217521165U discloses a mortar workability testing arrangement, which comprises a main body, the inside rotation in top of main part is connected with the detection frame, the standing groove has been seted up to the inside top of detection frame, the inside of standing groove is equipped with the removal strip, the both ends outer wall rotation of removal strip is connected with the removal strip that contacts with the standing groove, the top of detection frame is equipped with the glass piece that extends to the main part inside. According to the utility model, the detection frame, the placement groove, the movable strip and the recording wheel are mutually matched, the detection frame is inclined to enable the mortar to extrude the movable strip, the recording wheel rolls along the inner wall of the placement groove, the number of rolling turns is converted into data through the swivel module, the bonding force data of the mortar is displayed through the display screen, the placement groove, the detection paper groove, the glass sheet and the scale strip are arranged, the detection paper is immersed in water in the mortar, the detection paper immersed area is compared with the scale strip, and the receipt with the water-retaining property of the mortar can be known.

At present, the traditional mortar construction testing device is mainly a device formed by combining structures such as a testing base, a testing hack lever, a testing head, a material storage area and the like, when the device is applied, after a certain proportion of sand and cementing materials are added with water and become, the sand and the cementing materials are moved to the material storage area, the testing head is adjusted to descend into the material storage area and connected with a wire so as to carry out subsequent data testing, but after the existing mixed materials are moved to the material storage area, after the mixed materials are placed on the base, a corresponding fixing structure is not arranged between the sand and the cementing materials, offset can be generated under the influence of subsequent standing or external force, stability cannot be ensured, and meanwhile the integral using effect of the device is reduced.

Disclosure of Invention

The utility model aims to provide a mortar construction testing device which is used for solving the problems that the traditional mortar construction testing device is mainly formed by combining structures such as a testing base, a testing hack lever, a testing head, a material storage area and the like, when the mortar construction testing device is applied, sand and cementing materials with a certain proportion are added with water and are mixed, then the sand and the cementing materials are moved to the material storage area, the testing head is regulated to descend into the material storage area and connected with a wire for subsequent data testing, but after the mixed materials are moved to the material storage area, after the mixed materials are placed on the base, a corresponding fixing structure is not arranged between the mixed materials, and under the influence of subsequent standing or external force, deflection is generated, so that the stability cannot be ensured, and the whole using effect of the device is reduced.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the mortar construction test device comprises a test rack rod, a mortar test head and a mortar storage area, wherein the test rack rod, the mortar test head and the mortar storage area are arranged on a mortar construction test base, the mortar storage area is arranged on the mortar construction test base, a limiting component is arranged between the mortar construction test base and the mortar storage area, and a stabilizing component is arranged at the bottom of the mortar construction test base;

the limiting assembly comprises a supporting base, the supporting base is arranged at the bottom of a mortar storage area, a first hoop is arranged on the upper surface of the mortar construction test base, the other end of the supporting base is inserted into the first hoop, a corresponding connecting frame is arranged at the front end and the rear end of one side of the outer wall of the first hoop, an outer movable plate is arranged on the outer side of the connecting frame, a corresponding spring is arranged in a groove of the outer movable plate and the connecting frame, a positioning inserting block is fixedly connected in the middle of the inner end of the outer movable plate, an inner inserting opening is formed in one end of the supporting base, the other end of the positioning inserting block is inserted into the inner portion of the inner inserting opening, and a T-shaped handle is arranged in the middle of the outer wall of the outer movable plate.

Preferably, the front end and the rear end of the inner surface of the outer movable plate are glued with inner angle convex blocks, and the other ends of the inner angle convex blocks are mutually attached to the outer wall of the first hoop.

Preferably, the outer rings of the supporting base are uniformly distributed and glued with a plurality of groups of inner elastic convex parts, and the other ends of the inner elastic convex parts and the inner wall of the first hoop are in a mutually extruded state.

Preferably, the bottom of the supporting base is provided with an inner hoop, the middle part of the top end of the mortar construction test base is provided with a circular insert, and the other end of the inner hoop is sleeved outside the circular insert.

Preferably, a plurality of groups of protection convex blocks are arranged between the round plug body and the support base, and the protection convex blocks are respectively glued at the corresponding positions at the bottom of the support base.

Preferably, the material of the protection lug is rubber, and the other end of the protection lug and the upper surface of the circular inserting body are in a mutually attached state.

Preferably, the stabilizing assembly comprises a stabilizing bottom plate, the stabilizing bottom plate sets up the lower extreme at mortar workability test base, the bottom of stabilizing bottom plate all glues has multiunit bump and anti-skidding protruding pad, the second cuff is installed at the top of stabilizing bottom plate, and the outside at mortar workability test base is established to the other pot head of second cuff, the opening part at second cuff top glues has the elastic collar, and the other end of elastic collar is in the state of laminating each other with mortar workability test base's upper surface, the outer cover board is all symmetrically installed at the both ends of stabilizing bottom plate outer wall, and the inside bolt hole has been seted up to the inside of outer cover board.

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

1. through being provided with spacing subassembly, before placing the action to the mortar storage area, through outer pull T shape handle, can drive the T shape handle when moving this moment, drive outer fly leaf to keeping away from the one end of first cuff and remove, wherein the connecting frame is installed on first cuff, can stretch the spring, insert the support base at this moment and establish in first cuff inside, after stopping effort, drive the spring and produce elastic deformation, insert the location inserted block and establish inside the inner jack, can fix the support base, in order to fix the whole mortar storage area, ensure the stability of junction, also avoid under external effort, can produce the problem of skew;

2. through being provided with stable subassembly, when wholly placing the work surface with mortar workability test base, through establishing the second cuff cover outside the mortar workability test base for the elastic collar is in mortar workability test base upper end, and the elastic collar has certain elasticity, can fix a position stable bottom plate overall structure, and the outer cover board is installed to stable bottom plate outer end, has seted up interior bolt hole in the outer cover board, can be in need, uses the bolt to fix it at the desktop, and stable bottom plate bottom is equipped with anti-skidding protruding pad and bump, and bump and anti-skidding protruding pad are the material design of rubber, when can improve and place the face frictional force, avoid the junction to produce the phenomenon of skidding.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic diagram of a front perspective cutaway structure of the present utility model;

FIG. 3 is a schematic top perspective cross-sectional view of the present utility model;

FIG. 4 is a schematic view of a front perspective cutaway partial structure of the present utility model;

FIG. 5 is an enlarged schematic view of the structure of FIG. 2A according to the present utility model;

FIG. 6 is an enlarged schematic view of the structure of FIG. 2B according to the present utility model;

fig. 7 is an enlarged schematic view of the structure of fig. 3C according to the present utility model.

In the figure: 1. a mortar workability test base; 101. a test rack bar; 102. a mortar testing head; 103. a mortar storage area; 2. a support base; 201. a first ferrule; 202. an inner elastic convex member; 203. an inner cuff; 204. a circular insert; 205. protecting the protruding block; 206. an outer movable plate; 207. a T-shaped handle; 208. a connection frame; 209. a spring; 210. inner angle protruding blocks; 211. positioning the insert block; 212. an inner socket; 3. stabilizing the bottom plate; 301. a bump; 302. an anti-slip convex pad; 303. an outer jacket plate; 304. an inner bolt hole; 305. a second ferrule; 306. an elastic collar.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1, 2, 3, 4, 5 and 7, the present utility model provides a technical solution: the utility model provides a mortar workability test device, including setting up the test hack lever 101 on the mortar workability test base 1, mortar test head 102 and mortar stock district 103, in order to avoid mortar stock district 103 to produce the problem of skew under external effort, mortar test head 102 sets up on test hack lever 101, mortar stock district 103 sets up on the mortar workability test base 1, be provided with spacing subassembly between mortar workability test base 1 and the mortar stock district 103, spacing subassembly includes supporting base 2, supporting base 2 installs the bottom in mortar stock district 103, the upper surface of mortar workability test base 1 installs first cuff 201, and the other end of supporting base 2 inserts and establishes in the inside of first cuff 201, the front and back end of first cuff 201 outer wall one side all installs corresponding connecting frame 208, the outside of connecting frame 208 is provided with outer movable plate 206, outer movable plate 206 and connecting frame 208 inslot are provided with corresponding spring 209, the middle part rigid coupling of outer movable plate 206 inner end has positioning insert 211, the one end in supporting base 2 has seted up inside socket 212, and the other end in-house inside of supporting base 2 installs inside handle 206 shape of inner and outer wall 206T of positioning insert 211 is installed inside; before placing the action to mortar storage area 103, through outer T handle 207 that draws, when can drive T handle 207 and remove this moment, drive outer fly leaf 206 to keeping away from the one end of first cuff 201 and remove, wherein connecting frame 208 installs on first cuff 201, can stretch spring 209, insert support base 2 at this moment in first cuff 201 inside, after stopping effort, drive spring 209 and produce elastic deformation, insert the locating insert piece 211 inside the internal socket 212, can fix support base 2, when fixing mortar storage area 103 is whole, ensure the stability of junction, also avoid under external effort, can produce the problem of skew.

Referring to fig. 3, 4, 5 and 7, in order to prevent the contact surface from being worn between the outer movable plate 206 and the first ferrule 201, the inner corner protrusion 210 is glued to the front and rear ends of the inner surface of the outer movable plate 206, and the other end of the inner corner protrusion 210 is in a mutually bonded state with the outer wall of the first ferrule 201; the outer rings of the supporting base 2 are uniformly distributed and glued with a plurality of groups of inner elastic convex pieces 202, and the other ends of the inner elastic convex pieces 202 and the inner wall of the first hoop 201 are in a mutually extruded state; an inner hoop 203 is arranged at the bottom of the supporting base 2, a circular inserting body 204 is arranged in the middle of the top end of the mortar construction test base 1, and the other end of the inner hoop 203 is sleeved outside the circular inserting body 204; a plurality of groups of protection convex blocks 205 are arranged between the circular plug 204 and the support base 2, and the protection convex blocks 205 are respectively glued at the corresponding positions of the bottom of the support base 2; the material of the protection lug 205 is designed to be rubber, and the other end of the protection lug 205 is in a mutually attached state with the upper surface of the circular insert 204; the inner corner protrusion 210 is disposed at the inner end of the outer movable plate 206, and contacts with the outer wall of the first ferrule 201 when the outer movable plate is in rest, wherein the inner corner protrusion 210 is made of rubber, so that abrasion between the outer movable plate 206 and the first ferrule 201 can be avoided, and the contact surface is protected; the inner elastic convex piece 202 has elasticity and is designed by rubber materials, after the support base 2 is inserted into the first hoop 201, the inner elastic convex piece 202 and the inner wall of the first hoop 201 generate larger friction force, so that the friction force of the connecting part can be improved, and the stability of the connecting part is ensured; after the support base 2 is positioned inside the first ferrule 201, the inner ferrule 203 is driven to be sleeved outside the circular insert 204, so that the whole support base 2 can be positioned, meanwhile, the protection convex block 205 and the upper surface of the circular insert 204 are in a bonding state, the protection convex block 205 is made of rubber, and the contact surface can be protected.

Referring to fig. 2, 3, 4 and 6, in order to improve the stability of the mortar construction test base 1 in time and avoid slipping, a stabilizing component is disposed at the bottom of the mortar construction test base 1, the stabilizing component includes a stabilizing bottom plate 3, the stabilizing bottom plate 3 is disposed at the lower end of the mortar construction test base 1, multiple groups of protruding points 301 and anti-slip protruding pads 302 are glued at the bottom of the stabilizing bottom plate 3, a second collar 305 is mounted at the top of the stabilizing bottom plate 3, the other end of the second collar 305 is sleeved outside the mortar construction test base 1, an elastic collar 306 is glued at an opening at the top end of the second collar 305, the other end of the elastic collar 306 and the upper surface of the mortar construction test base 1 are in a mutually attached state, an outer sleeve plate 303 is symmetrically mounted at both ends of the outer wall of the stabilizing bottom plate 3, and an inner bolt hole 304 is formed inside the outer sleeve plate 303; when the mortar construction test base 1 is integrally placed on a working table, the second hoop 305 is sleeved outside the mortar construction test base 1, so that the elastic clamping ring 306 is positioned at the upper end of the mortar construction test base 1, the elastic clamping ring 306 has certain elasticity, the integral structure of the stable bottom plate 3 can be positioned, the outer end of the stable bottom plate 3 is provided with the outer sleeve plate 303, the inner bolt hole 304 is formed in the outer sleeve plate 303, the stable bottom plate 3 can be fixed on a table top by using bolts when required, the bottom of the stable bottom plate 3 is provided with the anti-slip convex pad 302 and the convex point 301, the convex point 301 and the anti-slip convex pad 302 are designed by rubber materials, the friction force of the placing surface can be improved, and the phenomenon that the joint slips is avoided.

Working principle: firstly, the traditional mortar construction testing device is a device formed by combining structures such as a mortar construction testing base 1, a testing hack lever 101, a mortar testing head 102, a mortar storage area 103 and the like, after the mortar storage area 103 is placed on the mortar construction testing base 1 after the mixture is filled in the mixture, the height of the mortar testing head 102 on the testing hack lever 101 is adjusted, the mortar testing head 102 is settled into the mortar storage area 103, the adhesiveness of the mortar construction testing device is tested, at the moment, a supporting base 2 is installed at the bottom of the mortar storage area 103, a first hoop 201 and the mortar construction testing base 1 are of an integrated structural design, at the moment, before the mortar storage area 103 is placed, a T-shaped handle 207 is driven to move, at the moment, an outer movable plate 206 is driven to move towards one end far away from the first hoop 201, a connecting frame 208 is installed on the first hoop 201, at the moment, a supporting base 2 is inserted into the first hoop 201, after the elastic deformation is stopped, a positioning insert block 211 is driven to be inserted into the inner part of the supporting base 2, and at the same time, the external stability of the mortar storage area can be ensured, and the problem of the whole connection can be avoided;

when the mortar construction test base 1 is integrally placed on a working table, a stable bottom plate 3 is arranged at the bottom of the mortar construction test base 1, the stable bottom plate 3 and a second hoop 305 are designed into an integrated structure, at the moment, the second hoop 305 is sleeved outside the mortar construction test base 1, so that an elastic clamping ring 306 is positioned at the upper end of the mortar construction test base 1, the elastic clamping ring 306 has certain elasticity, the integral structure of the stable bottom plate 3 can be positioned, an outer sleeve plate 303 is arranged at the outer end of the stable bottom plate 3, an inner bolt hole 304 is formed in the outer sleeve plate 303, the stable bottom plate 3 can be fixed on the table surface when required, an anti-slip convex pad 302 and a convex point 301 are arranged at the bottom of the stable bottom plate 3, the convex point 301 and the anti-slip convex pad 302 are designed by rubber materials, the friction force of the placing surface can be improved, the phenomenon that a slipping phenomenon is generated at a connecting part is avoided, the whole working process is realized, and the content which is not described in detail in the specification belongs to the prior art known by a person skilled in the art.

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

Claims (7)

1. The utility model provides a mortar workability test device, includes test hack lever (101), mortar test head (102) and mortar stock district (103) that set up on mortar workability test base (1), its characterized in that: the mortar testing head (102) is arranged on the testing frame rod (101), the mortar storage area (103) is arranged on the mortar construction testing base (1), a limiting component is arranged between the mortar construction testing base (1) and the mortar storage area (103), and a stabilizing component is arranged at the bottom of the mortar construction testing base (1);

the limiting assembly comprises a supporting base (2), the supporting base (2) is installed at the bottom of a mortar storage area (103), a first hoop (201) is installed on the upper surface of a mortar construction test base (1), the other end of the supporting base (2) is inserted into the first hoop (201), a corresponding connecting frame (208) is installed at the front end and the rear end of one side of the outer wall of the first hoop (201), an outer movable plate (206) is arranged on the outer side of the connecting frame (208), a corresponding spring (209) is arranged in the groove of the outer movable plate (206) and the connecting frame (208), a positioning inserting block (211) is fixedly connected in the middle of the inner end of the outer movable plate (206), an inner inserting opening (212) is formed in one end of the supporting base (2), the other end of the positioning inserting block (211) is inserted into the inner opening (212), and a T-shaped handle (207) is installed in the middle of the outer wall of the outer movable plate (206).

2. The mortar workability testing apparatus of claim 1, wherein: inner angle convex blocks (210) are glued at the front end and the rear end of the inner surface of the outer movable plate (206), and the other end of the inner angle convex blocks (210) and the outer wall of the first hoop (201) are in a mutually attached state.

3. The mortar workability testing apparatus of claim 2, wherein: the outer rings of the supporting base (2) are uniformly distributed and glued with a plurality of groups of inner elastic convex parts (202), and the other ends of the inner elastic convex parts (202) and the inner wall of the first hoop (201) are in a mutually extruded state.

4. A mortar workability testing apparatus as claimed in claim 3, wherein: an inner hoop (203) is arranged at the bottom of the supporting base (2), a circular inserting body (204) is arranged in the middle of the top end of the mortar construction test base (1), and the other end of the inner hoop (203) is sleeved outside the circular inserting body (204).

5. The mortar workability testing apparatus of claim 4, wherein: a plurality of groups of protection convex blocks (205) are arranged between the round plug body (204) and the support base (2), and the protection convex blocks (205) are respectively glued at the corresponding positions of the bottom of the support base (2).

6. The mortar workability testing apparatus of claim 5, wherein: the material of the protection lug (205) is of rubber material design, and the other end of the protection lug (205) and the upper surface of the circular inserting body (204) are in a mutually attached state.

7. The mortar workability testing apparatus of claim 1, wherein: the utility model provides a stable subassembly is including stabilizing bottom plate (3), stabilizing bottom plate (3) set up the lower extreme at mortar workability test base (1), the bottom of stabilizing bottom plate (3) all glues has multiunit bump (301) and anti-skidding protruding pad (302), second cuff (305) are installed at the top of stabilizing bottom plate (3), and the outside at mortar workability test base (1) is established to the other end cover of second cuff (305), the opening part at second cuff (305) top glues has elastic collar (306), and the other end of elastic collar (306) is in the state of laminating each other with the upper surface of mortar workability test base (1), outer sleeve board (303) are all installed to the both ends of stabilizing bottom plate (3) outer wall, and interior bolt hole (304) have been seted up to the inside of outer sleeve board (303).