CN213481200U - Insulation layer thickness detection device for building engineering - Google Patents

Abstract

The utility model discloses an insulation layer thickness detection device for building engineering, including the fixed knot of removable formula thimble assembly, casing, the automatic resilient mounting of thimble and the main casing body, removable formula thimble assembly block slides and locates in the main casing body, the casing is fixed to be detained and is located on the main casing body, the automatic resilient mounting of thimble is located on the removable formula thimble assembly. The utility model belongs to the technical field of building construction, in particular to a thermal insulation layer thickness detection device for building engineering; the utility model discloses use removable formula's thimble, only need change the syringe needle after long-term use takes place wearing and tearing and can continue to use, insert the heat preservation with the syringe needle earlier, press the casing to the surface of heat preservation again, read data from the scale department of depths, effectively solved the problem that can't be changed after heat preservation thickness detection device scale on the existing market is easy to wear and tear, syringe needle damage.

Description

Insulation layer thickness detection device for building engineering

Technical Field

The utility model belongs to the technical field of the construction, specifically indicate a heat preservation thickness detection device for building engineering.

Background

At present, in the building construction of China, in order to ensure the construction quality, the thickness of the heat-insulating layer needs to be detected during acceptance check, and a certain standard is set for the thickness of the heat-insulating layer. The thickness detection device of the heat preservation layer that currently generally adopts the method of boring the experimental data collection of core to obtain the thickness of heat preservation layer, and this method operation is complicated, has destroyed the heat preservation moreover, need repair the heat preservation layer after the measurement finishes, and measurement efficiency is low, and measurement cost is high. There are some simple and easy needle type measuring device now, mark the scale on the measuring needle, can directly penetrate the heat preservation and measure, nevertheless carry inconveniently, have certain potential safety hazard, and the scale leads to the reading difficulty through long-term use easy wearing and tearing.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a heat preservation thickness detection device for building engineering uses removable formula's thimble, only needs to change the syringe needle after long-term the use takes place wearing and tearing and can continue to use, inserts the heat preservation earlier with the syringe needle, presses the casing to the surface of heat preservation again, reads data from the scale department of depths, has effectively solved the problem that heat preservation thickness detection device scale on the existing market is easy to wear and tear, can't change after the syringe needle damages.

The utility model adopts the following technical scheme: the utility model relates to a thickness detection device of insulation layer for building engineering, including removable formula thimble subassembly, casing fixed knot, the automatic resilient mounting of thimble and main casing body, removable formula thimble subassembly block slides and locates in the main casing body, casing fixed knot locates on the main casing body, the automatic resilient mounting of thimble locates on removable formula thimble subassembly; the replaceable thimble assembly comprises a measuring thimble, a thimble fixing seat and a thimble fixing sheet, wherein a T-shaped fixing head and a needle point are arranged on the measuring thimble, a T-shaped groove is formed in the thimble fixing seat, the T-shaped fixing head is clamped in the T-shaped groove, a graduated scale is arranged at the upper end of the thimble fixing seat, fixing seat shoulders are arranged on two sides of the graduated scale, a countersunk cylindrical hole is formed in the side surface of the thimble fixing seat, the thimble fixing sheet is arranged on the thimble fixing seat, and the thimble fixing sheet is connected with the thimble fixing seat through bolts.

Further, the casing is fixed to be detained including rotating base, lever rotor, spacer pin and fixed knot reset spring, the rotation base is located on the main casing body, be equipped with the base round hole on the rotation base, the centre of lever rotor is equipped with the axis of rotation, the axis of rotation is rotated and is located in the base round hole, one section of lever rotor is located to the spacer pin, the fixed other end of detaining the reset spring and locating the lever rotor, in the countersunk head cylindric lock was located to the other end of spacer pin, the diameter of spacer pin is less than the diameter of countersunk head cylindric lock, the fixed other end of detaining reset spring is located on the main casing body.

Further, the automatic resilient mounting of thimble includes thimble reset spring and spring guide holder, the spring guide holder is located on the fixing base shoulder, on the spring guide holder was located to thimble reset spring's one end block, on the main casing body was located to thimble reset spring's the other end.

Furthermore, the main shell comprises a first shell and a second shell, the thimble fixing seat is clamped and slidably arranged in the first shell, the first shell is provided with a first shell upper notch, the graduated scale is clamped and slidably arranged in the first shell upper notch, the first shell body is provided with a first shell lower round hole which is coaxially arranged with the needle point, the first shell side round hole is arranged on the first shell body and is arranged on the outer side of the limiting pin, the second shell is connected with the first shell through a bolt, the thimble fixing seat is clamped and slidably arranged in the second shell, the second shell is provided with a second shell upper notch, the scale ruler is arranged in the second shell upper notch in a clamping and sliding manner, the second shell body is provided with a second lower shell circular hole which is coaxially arranged with the needle point, and the shell I is provided with a shell side round hole II, and the shell side round hole II is arranged on the outer side of the limiting pin.

Furthermore, two groups of thimble automatic rebounding devices are symmetrically arranged.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: this scheme is a heat preservation thickness detection device for building engineering, the thimble stationary blade passes through the bolt fastening on the thimble fixing base, thereby fix and measure the thimble, the scale notch is on the shell notch one and the shell on the notch two block slide, not with heat preservation direct contact, the wearing and tearing of graduation apparatus have been avoided, measure the thimble and be detachable design, after long-term use wearing and tearing, the measurement thimble that updates can continue to use, the main casing body is split type design, casing one and two use bolted connection of casing, the equipment of being convenient for.

Drawings

FIG. 1 is a perspective view of the heat-insulating layer thickness detecting device for construction engineering of the present invention;

FIG. 2 is a right side view of the heat insulation layer thickness detecting device for construction engineering of the present invention;

FIG. 3 is a cross-sectional view of the heat-insulating layer thickness detecting device for construction engineering of the present invention;

FIG. 4 is an exploded view of the thermal insulation layer thickness detecting device for construction engineering of the present invention;

FIG. 5 is a partial view of a heat-insulating layer thickness detecting device for construction engineering of the present invention;

fig. 6 is the utility model relates to a heat preservation thickness detection device local view for building engineering two.

The device comprises a replaceable thimble assembly 1, a replaceable thimble assembly 2, a shell fixing buckle 3, an automatic thimble rebounding device 4, a main shell 5, a measuring thimble 6, a thimble fixing seat 7, a thimble fixing piece 8, a T-shaped fixing head 9, a needle point 10, a T-shaped groove 11, a fixing seat shoulder 12, a graduated scale 13, a countersunk cylindrical hole 14, a rotating base 15, a lever rotating piece 16, a limiting pin 17, a fixing buckle return spring 18, a base round hole 19, a rotating shaft 20, a thimble return spring 21, a spring guide seat 22, a shell I, a shell II, a shell 24, a shell upper notch I, a shell upper notch 25, a shell lower round hole I, a shell side notch 27, a shell upper notch II, a shell lower round hole 29 and a shell side round hole II.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-6, the utility model relates to a thickness detection device for insulation layer for building engineering, which comprises a replaceable thimble assembly 1, a shell fixing buckle 2, an automatic thimble rebounding device 3 and a main shell 4, wherein the replaceable thimble assembly 1 is slidably engaged with the main shell 4, the shell fixing buckle 2 is arranged on the main shell 4, and the automatic thimble rebounding device 3 is arranged on the replaceable thimble assembly 1; the replaceable thimble assembly 1 comprises a measuring thimble 5, a thimble fixing seat 6 and a thimble fixing sheet 7, wherein a T-shaped fixing head 8 and a needle point 9 are arranged on the measuring thimble 5, a T-shaped groove 10 is formed in the thimble fixing seat 6, the T-shaped fixing head 8 is clamped in the T-shaped groove 10, a graduated scale 12 is arranged at the upper end of the thimble fixing seat 6, fixing seat shoulders 11 are arranged on two sides of the graduated scale 12, a countersunk head cylindrical hole 13 is formed in the side surface of the thimble fixing seat 6, the thimble fixing sheet 7 is arranged on the thimble fixing seat 6, and the thimble fixing sheet 7 is connected with the thimble fixing seat 6 through bolts.

The casing is fixed to be detained 2 and is detained reset spring 17 including rotating base 14, lever rotor plate 15, spacer pin 16 and fixed, rotating base 14 is located on main casing body 4, be equipped with base round hole 18 on rotating base 14, the centre of lever rotor plate 15 is equipped with axis of rotation 19, axis of rotation 19 rotates and locates in the base round hole 18, one section of lever rotor plate 15 is located to spacer pin 16, the other end of lever rotor plate 15 is located to fixed reset spring 17 of detaining, in countersunk head cylindrical hole 13 is located to spacer pin 16's the other end, spacer pin 16's diameter is less than the diameter of countersunk head cylindrical hole 13, the fixed other end of detaining reset spring 17 is located on main casing body 4.

The automatic thimble rebounding device 3 comprises a thimble return spring 20 and a spring guide seat 21, the spring guide seat 21 is arranged on the fixing seat shoulder 11, one end of the thimble return spring 20 is clamped on the spring guide seat 21, and the other end of the thimble return spring 20 is arranged on the main casing 4.

The main shell 4 comprises a first shell 22 and a second shell 23, the thimble fixing seat 6 is arranged in the first shell 22 in a clamping and sliding manner, the first shell 22 is provided with a first shell upper notch 24, the graduated scale 12 is arranged in the first shell upper notch 24 in a clamping and sliding manner, the first shell 22 is provided with a first shell lower round hole 25, the first shell lower round hole 25 and the needle point 9 are coaxially arranged, the first shell 22 is provided with a first shell side round hole 26, the first shell side round hole 26 is arranged on the outer side of the limiting pin 16, the second shell 23 is connected with the first shell 22 through a bolt, the thimble fixing seat 6 is arranged in the second shell 23 in a clamping and sliding manner, the second shell upper notch 27 is arranged on the second shell 23, the second shell upper round hole 27 is arranged on the second shell 23, the second shell lower round hole 28 and the needle point 9 are coaxially arranged, and a second shell side round hole 29 is formed in the first shell 22, and the second shell side round hole 29 is formed in the outer side of the limiting pin 16.

Two groups of thimble automatic rebounding devices 3 are symmetrically arranged.

When the thermal insulation device is used, a user firstly holds the main shell 4 by hand to insert the needle point 9 into the thermal insulation layer until the tip end of the needle point 9 contacts with a wall surface or a pipeline and other objects to be thermally insulated, then the user stops, the user presses down the lever rotating sheet 15 on one side of the fixing buckle return spring 17 by fingers, the lever rotating sheet 15 rotates by taking the rotating shaft 19 as a fulcrum to enable the limiting pin 16 to be separated from the countersunk cylindrical hole 13, then the user slides the main shell 4 by hand until the main shell 4 contacts with the surface of the thermal insulation layer, at the moment, the thimble return spring 20 is compressed, the graduated scale 12 is deep from the first notch 24 on the shell and the second notch 27 on the shell, the thickness value of the thermal insulation layer can be read from the graduated scale 12, after the measurement is completed, the pressing down is stopped, the first shell 22 and the second shell 23 rebound under the elastic force of the thimble return spring 20, when the straight limiting pin 16 and the countersunk cylindrical hole 13 are coaxial again, the limiting pin, accomplish to reset, it is above that the utility model discloses holistic work flow, repeat this step when using next time can.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (5)

1. The utility model provides a thermal insulation layer thickness detection device for building engineering which characterized in that: the replaceable ejector pin component is clamped and slidably arranged in the main shell, the shell is fixedly buckled on the main shell, and the ejector pin automatic rebounding device is arranged on the replaceable ejector pin component; the replaceable thimble assembly comprises a measuring thimble, a thimble fixing seat and a thimble fixing sheet, wherein a T-shaped fixing head and a needle point are arranged on the measuring thimble, a T-shaped groove is formed in the thimble fixing seat, the T-shaped fixing head is clamped in the T-shaped groove, a graduated scale is arranged at the upper end of the thimble fixing seat, fixing seat shoulders are arranged on two sides of the graduated scale, a countersunk cylindrical hole is formed in the side surface of the thimble fixing seat, the thimble fixing sheet is arranged on the thimble fixing seat, and the thimble fixing sheet is connected with the thimble fixing seat through bolts.

2. The insulation layer thickness detection device for building engineering according to claim 1, characterized in that: the casing is fixed to be detained including rotating base, lever rotor plate, spacer pin and fixed reset spring of detaining, the rotation base is located on the main casing body, be equipped with the base round hole on the rotation base, the centre of lever rotor plate is equipped with the axis of rotation, the axis of rotation rotates and locates in the base round hole, the one end of lever rotor plate is located to the spacer pin, the fixed other end of detaining the reset spring and locating the lever rotor plate, in the countersunk head cylindric hole was located to the other end of spacer pin, the diameter of spacer pin is less than the diameter of countersunk head cylindric hole, the fixed other end of detaining reset spring is located on the main casing body.

3. The insulation layer thickness detection device for building engineering according to claim 2, characterized in that: the automatic rebounding device for the ejector pin comprises an ejector pin reset spring and a spring guide seat, the spring guide seat is arranged on the shoulder of the fixing seat, one end of the ejector pin reset spring is clamped on the spring guide seat, and the other end of the ejector pin reset spring is arranged on the main shell.

4. The insulation layer thickness detection device for building engineering according to claim 3, characterized in that: the main shell comprises a first shell and a second shell, the thimble fixing seat is clamped and slidably arranged in the first shell, the first shell is provided with a first shell upper notch, the graduated scale is clamped and slidably arranged in the first shell upper notch, the first shell body is provided with a first shell lower round hole which is coaxially arranged with the needle point, the first shell side round hole is arranged on the first shell body and is arranged on the outer side of the limiting pin, the second shell is connected with the first shell through a bolt, the thimble fixing seat is clamped and slidably arranged in the second shell, the second shell is provided with a second shell upper notch, the scale ruler is arranged in the second shell upper notch in a clamping and sliding manner, the second shell body is provided with a second lower shell circular hole which is coaxially arranged with the needle point, and the shell I is provided with a shell side round hole II, and the shell side round hole II is arranged on the outer side of the limiting pin.

5. The insulation layer thickness detection device for building engineering according to claim 4, characterized in that: two groups of thimble automatic rebounding devices are symmetrically arranged.

Images