CN216049767U - Quality detection device for building decoration material - Google Patents

Abstract

The utility model relates to the field of quality detection of decorative materials, in particular to a quality detection device for building decorative materials, which comprises a thickness gauge host machine, a wire collecting part, a connecting wire, a probe and a fixing part, wherein the wire collecting part and the fixing part are arranged on the lower side of the thickness gauge host machine, the fixing part is used for fixing the probe, a wire collecting cavity is arranged in the wire collecting part, one end of the connecting wire is connected with the thickness gauge host machine in the wire collecting cavity, the other end of the connecting wire penetrates out of the wire collecting cavity through a wire collecting hole, the outer side of the wire collecting part is connected with the probe, and a wire collecting structure used for automatically collecting the connecting wire is arranged in the wire collecting cavity. Through set up the line structure of receiving that can accomodate the connecting wire automatically at receipts line intracavity, can use very convenient accomodating the connecting wire in the intracavity of accomodating after accomplishing like this, solve ultrasonic coating calibrator in the past need separate calibrator host computer and connecting wire and probe when accomodating, cause the problem that the connecting wire lost like this easily.

Description

Quality detection device for building decoration material

Technical Field

The utility model relates to the field of decorative material quality detection, in particular to a quality detection device for building decorative materials.

Background

Before the building decoration material is constructed on a construction site, the decoration material is always required to be detected, and hidden dangers caused by the use of unqualified decoration material are avoided. Wherein, when detecting the lacquer painting of materials such as some decoration panels, buckle, often can use ultrasonic coating calibrator.

For example, publication No. CN206019617U discloses a coating thickness gauge, which comprises a coating thickness gauge main body and a probe, wherein the probe is arranged in the coating thickness gauge main body, and is characterized in that: the coating thickness gauge main part is equipped with rotatable handheld pole, sets up the angle regulator of adjustable handheld pole angle between handheld pole and the coating thickness gauge main part.

The utility model discloses an increase the handheld pole that has scalable and rotatable angle in coating calibrator main part, facilitate the use. But at present most ultrasonic coating calibrator's calibrator host computer and probe link together through the connecting wire of plug-in, when needing to use, insert the connecting wire that has the probe on the calibrator host computer, still need extract the connecting wire from the calibrator host computer after using the completion, separately accomodate calibrator host computer and connecting wire and probe. This easily causes a problem that the connecting wire is lost and additional procurement is required.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a quality detection device for building decoration materials, which solves the problem that a traditional ultrasonic coating thickness gauge needs to separate a thickness gauge main machine from a connecting wire and a probe when being stored, so that the connecting wire is easy to lose.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a building decoration material's quality detection device, includes the calibrator host computer, receive line portion, the connecting wire, probe and fixed part, receive line portion and fixed part and all set up in the downside of calibrator host computer, the fixed part is used for fixed probe, receive to be provided with in the line portion and receive the line chamber, the one end of connecting wire is being received line intracavity and calibrator host computer and is linking to each other, the other end is worn out through receiving the line hole and is received the line chamber to link to each other with the probe in the outside of receiving line portion, it is provided with the line structure of receiving that is used for automatic the connecting wire of accomodating to receive the line intracavity.

The further technical scheme is that the wire collecting structure comprises a pressing column, a rotating plate, a rotating column, an elastic rope and a spring, wherein the rotating plate is rotatably arranged in the wire collecting cavity, the upper side and the lower side of the rotating plate are respectively in sliding fit with the upper cavity wall and the lower cavity wall of the wire collecting cavity, a connecting wire is coiled in the wire collecting cavity and is accommodated on the outer wall of the rotating plate, a rotating groove is formed in the upper side of the rotating plate, the rotating column is rotatably arranged in the rotating groove, the upper end of the rotating column is connected with the upper cavity wall of the wire collecting cavity, the lower end of the rotating column is in sliding fit with the groove bottom of the rotating groove, a first communicating hole communicated with the wire collecting cavity is formed in the lower side of the wire collecting part, a second communicating hole communicated with the groove bottom of the rotating groove is formed in the lower side of the rotating plate, a third communicating hole penetrating through the upper end and the lower end of the rotating column is formed in the lower end of the rotating column, the first communicating hole, the second communicating hole and the third communicating hole are sequentially aligned with the third communicating hole, the lower end of the pressing column is arranged below the wire collecting part, the upper end passes first intercommunicating pore in proper order, second intercommunicating pore and third intercommunicating pore, and link to each other with the lower extreme of spring in the third intercommunicating pore, the upper end of spring links to each other with the last cavity wall of receiving the line chamber, press the post including upper and lower continuous tooth mouth section and slip section, the outer wall that encircles the tooth mouth section is provided with first tooth mouth, be provided with the second tooth mouth on the pore wall of second intercommunicating pore, be provided with the third tooth mouth on the pore wall of third intercommunicating pore, first tooth mouth all meshes with second tooth mouth and third tooth mouth mutually, the cell wall that encircles the rotation groove is provided with the elastic groove, the one end of elasticity rope links to each other with the tank bottom of elastic groove, the other end links to each other with the outer wall of rotation post.

The other side of the fixing part is provided with a fourth communicating hole communicated with the bottom of the accommodating groove, the groove wall of the accommodating groove is attached to the outer wall of the probe, and one end, connected with the probe, of the connecting wire penetrates through the fourth communicating hole from the end, far away from the accommodating groove, of the fourth communicating hole to the other end of the connecting wire, and is connected with the probe in the accommodating groove.

The technical scheme is that a first magnetic part is arranged at the bottom of the accommodating groove, a second magnetic part is arranged at one end, connected with the probe and the connecting wire, of the accommodating groove, and the first magnetic part and the second magnetic part are magnetically connected.

The lower side of the fixing part is provided with a placing opening, and the upper side of the placing opening is communicated with the accommodating groove and the fourth communication hole in sequence, so that the connecting wire can enter the fourth communication hole and the accommodating groove from the lower side of the fixing part.

The technical scheme is that the lower end of the pressing column is connected with an anti-slip layer.

Compared with the prior art, the utility model has the beneficial effects that: the connecting wire can be conveniently stored by arranging the wire collecting part, and the probe can be conveniently stored by arranging the fixing part. The connecting wire is connected with the thickness gauge host in the accommodating cavity of the wire collecting part, so that the problem that the connecting wire needs to be plugged and pulled out when used at every time and the connecting port and the connecting head are easily damaged after long-term use is solved. Through set up the line structure of receiving that can accomodate the connecting wire automatically at receipts line intracavity, can use very convenient accomodating the connecting wire in the intracavity of accomodating after accomplishing like this, solve ultrasonic coating calibrator in the past need separate calibrator host computer and connecting wire and probe when accomodating, cause the problem that the connecting wire lost like this easily.

Drawings

Fig. 1 is a perspective view of a quality inspection apparatus for a building decoration material according to the present invention.

Fig. 2 is a schematic side sectional view of a quality inspection apparatus for a building decoration material according to the present invention.

Fig. 3 is a partially enlarged schematic view of a mark a in fig. 2.

Icon: 1-thickness gauge host, 2-wire collecting part, 201-wire collecting cavity, 202-wire collecting hole, 203-rotating plate, 204-rotating column, 205-elastic rope, 206-spring, 207-rotating groove, 208-first communicating hole, 209-second communicating hole, 210-third communicating hole, 211-tooth mouth section, 212-sliding section, 213-elastic groove, 3-connecting wire, 4-probe, 5-fixing part, 501-collecting groove, 502-fourth communicating hole and 503-releasing hole.

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 utility model and are not intended to limit the utility model.

Example (b):

the utility model provides a building decoration material's quality detection device, including thickness gauge host computer 1, receive line portion 2, connecting wire 3, probe 4 and fixed part 5, it all sets up in thickness gauge host computer 1's downside to receive line portion 2 and fixed part 5, fixed part 5 is used for fixed probe 4, it receives line chamber 201 to be provided with in the line portion 2 to receive, connecting wire 3's one end links to each other with thickness gauge host computer 1 in receiving line chamber 201, the other end wears out through receiving line hole 202 and receives line chamber 201, and link to each other with probe 4 in the outside of receiving line portion 2, it is provided with the line structure of receiving that is used for automatic the connecting wire 3 of accomodating to receive in the line chamber 201. The connecting wire 3 can be easily housed by providing the wire housing portion 2, and the probe 4 can be easily housed by providing the fixing portion 5. The connecting wire 3 is connected with the thickness gauge host 1 in the accommodating cavity 201 of the wire collecting part 2, so that the problem that the connecting wire 3 needs to be plugged and pulled out when used for each time and the connecting port and the connecting head are easily damaged after long-term use is solved. Through set up the line structure of receiving that can accomodate connecting wire 3 automatically in receiving line chamber 201, can very convenient accomodating connecting wire 3 in accomodating chamber 201 after the use is accomplished like this, solve ultrasonic coating calibrator in the past need part calibrator host 1 with connecting wire 3 and probe 4 when accomodating, cause the problem that connecting wire 3 loses easily like this.

The wire take-up structure comprises a pressing column, a rotating plate 203, a rotating column 204, an elastic rope 205 and a spring 206, wherein the rotating plate 203 is rotatably arranged in a wire take-up cavity 201, the upper side and the lower side of the rotating plate 203 are respectively in sliding fit with the upper cavity wall and the lower cavity wall of the wire take-up cavity 201, a connecting wire 3 is coiled in the wire take-up cavity 201 and is accommodated on the outer wall of the rotating plate 203, the upper side of the rotating plate 203 is provided with a rotating groove 207, the rotating column 204 is rotatably arranged in the rotating groove 207, the upper end of the rotating column 204 is connected with the upper cavity wall of the wire take-up cavity 201, the lower end of the rotating column 204 is in sliding fit with the groove bottom of the rotating groove 207, the lower side of the wire take-up part 2 is provided with a first communicating hole 208 communicated with the wire take-up cavity 201, the lower side of the rotating plate 203 is provided with a second communicating hole 209 communicated with the groove bottom of the rotating groove 207, the lower end of the rotating column 204 is provided with a third communicating hole 210 communicated with the upper and the lower end and the first communicating hole 208, the second communicating hole 209 and the third communicating hole 210 are sequentially communicated with each other, the lower end of the pressing column is arranged below the wire collecting part 2, the upper end of the pressing column sequentially penetrates through the first communicating hole 208, the second communicating hole 209 and the third communicating hole 210 and is connected with the lower end of the spring 206 in the third communicating hole 210, the upper end of the spring 206 is connected with the upper cavity wall of the wire collecting cavity 201, the pressing column comprises a tooth mouth section 211 and a sliding section 212 which are connected up and down, a first tooth mouth is arranged on the outer wall surrounding the tooth mouth section 211, a second tooth mouth is arranged on the hole wall of the second communicating hole 209, a third tooth mouth is arranged on the hole wall of the third communicating hole 210, the first tooth mouth is meshed with the second tooth mouth and the third tooth mouth, an elastic groove 213 is arranged on the groove wall surrounding the rotating groove 207, one end of the elastic rope 205 is connected with the groove bottom of the elastic groove 213, and the other end of the elastic rope is connected with the outer wall of the rotating column 204. Such setting, when not using calibrator host computer 1, connecting wire 3 coils on the outer wall of rotor plate 203, spring 206 promotes the pressing column through elasticity this moment, the first tooth mouth that makes the tooth mouth section 211 outer wall of pressing column simultaneously with the second tooth mouth on the second intercommunicating pore 209 pore wall and the third tooth mouth on the third intercommunicating pore 210 pore wall mesh mutually, like this because the upper end of rotating column 204 links to each other with the upper chamber wall of receiving line chamber 201, can not self rotate, just so can restrict the pressing column and can not rotate through third tooth mouth and the meshing of first tooth mouth mutually, and then come rotor plate 203 can not rotate through pressing the column. In this way, the connecting wire 3 cannot easily slip out of the wire take-up hole 202 when being wound on the outer wall of the rotating plate 203. The stability of receiving the line has been promoted. When the thickness gauge main body 1 needs to be used, the tooth opening section 211 of the pressing column completely enters the third communication hole 210 by pressing the pressing column and compressing the spring 206, so that the second tooth opening of the second communication hole 209 and the outer wall of the sliding section 212 can be connected in a sliding mode. At this time, the connecting wire 3 can be pulled out from the wire-rewinding chamber 201 by pulling the end of the connecting wire 3 connected with the pedal 4. During the pulling out of the connecting wire 3, the connecting wire 3 will drive the rotating plate 203 to rotate around the rotating column 204, and at the same time, the rotating plate 203 will stretch the elastic rope 205 in the elastic groove 213 during the rotation. After the connecting wire 3 is pulled out of the wire receiving cavity 201 by a proper length through the wire receiving hole 202, the pressing column is released. At this time, the spring 206 pushes the notch section 211 of the pressing column to enter the second communication hole 209 from the third communication hole 210, so that the rotating plate 203 can be limited to rotate continuously by the engagement of the first notch and the second notch, and the connecting wire 3 can be kept to pass through the wire-rewinding chamber 201. After the thickness gauge main body 1 is used, the tooth opening section 211 of the pressing column completely enters the third communication hole 210 by pressing the pressing column and compressing the spring 206, so that the second tooth opening of the second communication hole 209 can be connected with the outer wall of the sliding section 212 in a sliding manner. At this time, because the elastic cord 205 is in a stretched state, when the rotating plate 203 can rotate, the elastic cord 205 starts to contract and simultaneously drives the rotating plate 203 to rotate, so that the connecting cord 3 is retracted into the cord rewinding chamber 201 through the rotation of the rotating plate 203 and is wound on the outer wall of the rotating plate 203.

In a conventional arrangement, the connection mode of the connection line 3 and the thickness gauge main unit 1 may be that one end of the connection line 3, which is placed in the wire rewinding cavity 201, penetrates into the rotating plate 203, the upper side of the rotating plate 203 is connected with a sliding contact point, and meanwhile, an annular contact track matched with the sliding contact point is arranged on the upper cavity wall of the wire rewinding cavity 201, and the contact track is connected with the thickness gauge main unit 1. Therefore, when the rotating plate 203 rotates, the sliding contact point and the contact track can be always in sliding connection, and the probe 4 can be communicated with the thickness measuring instrument main machine 1 through the connecting wire 3.

One side of the fixing part 5, which is far away from the wire receiving part 2, is provided with a receiving groove 501, the other side is provided with a fourth communication hole 502 communicated with the groove bottom of the receiving groove 501, the groove wall of the receiving groove 501 is attached to the outer wall of the probe 4, one end of the connecting wire 3, which is connected with the probe 4, penetrates through the fourth communication hole 502 from the side, which is far away from the receiving groove 501, of the fourth communication hole 502 to one end, and is connected with the probe 4 in the receiving groove 501. Thus, when the thickness gauge body 1 is not used, the connecting wire 3 is coiled and stored on the rotating plate 203, when the thickness gauge body 1 needs to be used, the pressing column is pressed, and the probe is pulled simultaneously to pull out the probe from the storage groove 501, so that the thickness gauge body 1 can be used. After use, the probe is finally stored in the storage groove 501 while the connecting wire 3 is stored. Thus, the storage convenience is further improved.

The tank bottom of the accommodating tank 501 is provided with a first magnetic part, one end of the probe 4 connected with the connecting wire 3 is provided with a second magnetic part, and the first magnetic part and the second magnetic part are magnetically connected. Through setting up first magnetism portion of inhaling and second magnetism portion of inhaling, further promoted the convenient degree of accomodating of probe 4, can play fine stabilizing effect to probe 4 simultaneously, avoid rocking.

The fixing portion 5 is provided at a lower side thereof with a receiving opening 503, and an upper side of the receiving opening 503 is communicated with the receiving groove 501 and the fourth communication hole 502 in order to allow the connection cord 3 to enter the fourth communication hole 502 and the receiving groove 501 from the lower side of the fixing portion 5. With this arrangement, the connecting wire 3 can be inserted into the fourth communication hole 502 and the storage groove 501 from the insertion opening 503, so that the connecting wire 3 always slides through the fourth communication hole 502 when the connecting wire 3 is collected in the storage chamber 201, and the connecting wire is easily caught and blocked.

The lower end of the pressing column is connected with an anti-skid layer. By means of the arrangement, the comfort level of pressing the pressing column is improved.

Although the utility model has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this disclosure. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (6)

1. The utility model provides a building decoration material's quality detection device, its characterized in that, includes thickness gauge host computer (1), receives line portion (2), connecting wire (3), probe (4) and fixed part (5), receive line portion (2) and fixed part (5) and all set up in the downside of thickness gauge host computer (1), fixed part (5) are used for fixed probe (4), be provided with in receiving line portion (2) and receive line chamber (201), the one end of connecting wire (3) links to each other with thickness gauge host computer (1) in receiving line chamber (201), and the other end wears out through receiving line hole (202) and receives line chamber (201) to link to each other with probe (4) in the outside of receiving line portion (2), it is provided with the line structure of receiving that is used for automatic receiving connecting wire (3) in line chamber (201).

2. The quality inspection device for building decoration material according to claim 1, wherein: the wire take-up structure comprises a pressing column, a rotating plate (203), a rotating column (204), an elastic rope (205) and a spring (206), wherein the rotating plate (203) is rotatably arranged in a wire take-up cavity (201), the upper side and the lower side of the rotating plate are equally divided into an upper cavity wall and a lower cavity wall which are respectively in line take-up cavity (201), a connecting wire (3) is coiled in the wire take-up cavity (201) and is contained in the outer wall of the rotating plate (203), the upper side of the rotating plate (203) is provided with a rotating groove (207), the rotating column (204) is rotatably arranged in the rotating groove (207), the upper end of the rotating column (204) is connected with the upper cavity wall of the wire take-up cavity (201), the lower end of the rotating column is slidably attached with the groove bottom of the rotating groove (207), the lower side of the wire take-up part (2) is provided with a first communicating hole (208) communicated with the wire take-up cavity (201), the lower side of the rotating plate (203) is provided with a second communicating hole (209) communicated with the groove bottom of the rotating groove (207), the lower end of the rotating column (204) is provided with a third communicating hole (210) which penetrates through the upper end and the lower end of the rotating column, the first communicating hole (208), the second communicating hole (209) and the third communicating hole (210) are sequentially communicated in an aligned manner, the lower end of the pressing column is arranged below the wire collecting part (2), the upper end of the pressing column sequentially penetrates through the first communicating hole (208), the second communicating hole (209) and the third communicating hole (210) and is connected with the lower end of the spring (206) in the third communicating hole (210), the upper end of the spring (206) is connected with the upper cavity wall of the wire collecting cavity (201), the pressing column comprises a tooth opening section (211) and a sliding section (212) which are connected up and down, a first tooth opening is formed in the outer wall surrounding the tooth opening section (211), a second tooth opening is formed in the hole wall of the second communicating hole (209), and a third tooth opening is formed in the hole wall of the third communicating hole (210), first tooth mouth all meshes with second tooth mouth and third tooth mouth mutually, and the cell wall that encircles rotation groove (207) is provided with elasticity groove (213), the one end of elasticity rope (205) links to each other with the tank bottom of elasticity groove (213), and the other end links to each other with the outer wall that rotates post (204).

3. The quality inspection device for building decoration material according to claim 2, wherein: one side that receives line portion (2) is kept away from in fixed part (5) is provided with and accomodates groove (501), and the opposite side is provided with fourth intercommunicating pore (502) that is linked together with the tank bottom of accomodating groove (501), the cell wall of accomodating groove (501) and the outer wall of probe (4) are laminated mutually, one end that connecting wire (3) and probe (4) link to each other is kept away from fourth intercommunicating pore (502) and is accomodate groove (501) to one end and pass fourth intercommunicating pore (502) to link to each other with probe (4) in accomodating groove (501).

4. The quality inspection device for building decoration material according to claim 3, wherein: the tank bottom of accomodating groove (501) is provided with first magnetism and inhales the portion, the one end that probe (4) and connecting wire (3) link to each other is provided with the second magnetism and inhales the portion, first magnetism is inhaled portion and second magnetism and is inhaled the portion magnetism and inhale and link to each other.

5. The quality inspection device for building decoration material according to claim 3, wherein: the lower side of the fixing part (5) is provided with a placing opening (503), the upper side of the placing opening (503) is sequentially communicated with the accommodating groove (501) and the fourth communication hole (502), so that the connecting wire (3) can enter the fourth communication hole (502) and the accommodating groove (501) from the lower side of the fixing part (5).

6. The quality inspection device for building decoration material according to claim 2, wherein: the lower end of the pressing column is connected with an anti-skid layer.

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