CN217931139U - Isolation telescopic belt testing machine - Google Patents

Abstract

The utility model discloses an keep apart telescopic band test machine, including slide rail, mobile device and counting assembly. The moving device comprises a first moving mechanism and a second moving mechanism which are arranged on the sliding rail, the first moving mechanism comprises a first sliding table, a first clamp and a first driving assembly, the second moving mechanism comprises a second sliding table, a second clamp and a second driving assembly, and the second clamp is positioned on the second sliding table and is used for installing a clamping strip for isolating the telescopic belt; the counting device comprises a first sensor and a second sensor which are arranged on the sliding rail side by side, the first sensor is close to one side of the first moving mechanism, the first sliding table stops and records when arriving at the first sensor, the second sensor is close to one side of the second moving mechanism, the second sliding table stops and records when arriving at the second sensor, and then the first sliding table and the second sliding table move in opposite directions. The utility model discloses an isolation telescopic band test machine can improve the test speed of isolation telescopic band, practices thrift test time.

Description

Isolation telescopic belt test machine

Technical Field

The utility model relates to a telescopic band equipment field, in particular to keep apart telescopic band test machine.

Background

The isolation telescopic belt is also called a rice noodle, a railing seat, a warning line, a movable guard rail and the like, can isolate people regionally so as to meet the requirement of practical application, and is widely applied to places such as airports, banks, post offices, hotels, offices, enterprises and the like.

The isolation telescopic belt generally comprises a telescopic seat and a telescopic belt, and a clamping strip is arranged at one end of the telescopic belt, which is exposed out of the telescopic seat. After the isolation telescopic belt is produced, the telescopic times of the isolation telescopic belt need to be tested so as to meet the corresponding service life requirement, however, the test speed of the existing telescopic belt test equipment is slower.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides an keep apart telescopic band test machine can improve the test speed of keeping apart the telescopic band, practices thrift test time.

The utility model provides a technical scheme that its technical problem adopted is:

an isolation telescopic belt testing machine comprises a slide rail, a moving device and a counting device; the moving device comprises a first moving mechanism and a second moving mechanism which are arranged on the sliding rail, the first moving mechanism comprises a first sliding table, a first clamp and a first driving assembly, the first clamp is positioned on the first sliding table and used for installing a telescopic seat for isolating a telescopic belt, the first driving assembly is used for driving the first sliding table to move back and forth along one end of the sliding rail, the second moving mechanism comprises a second sliding table, a second clamp and a second driving assembly, the second clamp is positioned on the second sliding table and used for installing a clamping strip for isolating the telescopic belt, and the second driving assembly is used for driving the second sliding table to move back and forth along the other end of the sliding rail; counting assembly is including setting up side by side the first sensor and the second sensor of slide rail, first sensor is close to first moving mechanism one side, first slip table reachs first sensor department stops and the record, the second sensor is close to second moving mechanism one side, the second slip table reachs second sensor department stops and the record, then first slip table with the second slip table is toward opposite direction motion.

According to the utility model discloses keep apart telescopic band test machine has following beneficial effect at least: when the device works, the first sliding table of the first moving mechanism is provided with the telescopic seat for isolating the telescopic belt, the second clamp of the second moving mechanism is provided with the clamping strip for isolating the telescopic belt, the first driving assembly drives the first sliding table to move back and forth along one end of the sliding rail, the second driving assembly drives the second sliding table to move back and forth along the other end of the sliding rail, when the first sliding table reaches the first sensor, the first sliding table is sensed to stop immediately and complete recording, when the second sliding table reaches the second sensor, the second sliding table is sensed to stop immediately and complete recording, and the stopping process is that the first sensor and the second sensor respectively send instructions to the first driving assembly and the second driving assembly, so that the first moving mechanism and the second moving mechanism are prevented from colliding together and complete counting simultaneously, then the first sliding table and the second sliding table move in opposite directions, and the processes of stretching, shrinking and counting are repeated. Because this process, keep apart the flexible seat of telescopic band and block the strip and move to both sides simultaneously respectively, compare in the equipment that moves to one side, can improve the test speed of keeping apart the telescopic band, practice thrift test time.

According to the utility model discloses a some embodiments still include buffer, buffer sets up to include baffle, setting between the first sensor with the second sensor are in the buffering post of baffle both sides, the buffering post be used for with first slip table with the side butt buffering of second slip table.

The beneficial results are: by providing the baffle and the cushion column, the first moving mechanism and the second moving mechanism can be physically prevented from colliding when the first sensor or the second sensor fails.

According to some embodiments of the utility model, the inboard of slide rail is equipped with the rack, first drive assembly include with rack toothing's first gear, drive first gear pivoted first motor, first motor is installed on the first slip table.

The beneficial results are: first drive assembly passes through the rack rotation of first gear edge slide rail inboard of first motor drive to make first slip table along the slide rail motion, the operation is stable, easily controls.

According to some embodiments of the utility model, the second drive assembly include with rack toothing's second gear, drive second gear pivoted second motor, the second motor is installed on the second slip table.

The beneficial results are: the second driving assembly drives the second gear to rotate along the rack on the inner side of the sliding rail through the second motor, so that the second sliding table moves along the sliding rail, the operation is stable, the control is easy, and meanwhile, the first sliding table and the second sliding table can keep synchronous movement towards the two ends of the sliding rail easily.

According to the utility model discloses a some embodiments, first anchor clamps are in including erectting the setting the first fixed plate of first slip table, be equipped with on the first fixed plate and be used for compressing tightly the flexible seat of keeping apart the telescopic band to the first clamp plate of first slip table top surface.

The beneficial results are: first anchor clamps are installed on first slip table through first fixed plate, compress tightly the top surface of first slip table through the flexible seat of first clamp plate with keeping apart the telescopic band, and is fixed reliable and stable like this.

According to the utility model discloses a some embodiments, be equipped with the bar hole of vertical direction on the first fixed plate, first clamp plate is the L type, including the straight plate portion of vertical setting, the flat plate portion of horizontal downward sloping, the straight plate portion be equipped with the bolt hole that the bar hole corresponds, the flat plate portion is used for compressing tightly the expansion bracket of keeping apart the telescopic band.

The beneficial results are: first clamp plate adopts bolt fixed connection for L shape and bolt hole through straight plate portion and the bar hole on the first fixed plate, then the flat plate portion compresses tightly the expansion seat of keeping apart the telescopic band, can adapt to not unidimensional expansion seat like this, and the flat plate portion level is inclined downwards and is favorable to the fixed process to compress tightly the expansion seat.

According to the utility model discloses a some embodiments, the second anchor clamps are in including erectting the setting the second fixed plate of second slip table, the second fixed plate is equipped with the bayonet socket that is used for keeping apart the card strip joint of telescopic band with the installation.

The beneficial results are: the arrangement structure is simple, and the device is closer to a real use scene.

According to the utility model discloses a some embodiments, the side of slide rail is equipped with the horizontal pole that the level set up, first sensor with second sensor movable mounting be in on the horizontal pole.

The beneficial results are: the position of first sensor and second sensor on the horizontal pole can be adjusted in setting like this to the position that first slip table of control and second slip table stopped is favorable to adjusting.

According to the utility model discloses a some embodiments, the side of slide rail is equipped with the baffle of outside extension, be equipped with on the baffle with first nylon tow chain that first drive assembly connects, with the second nylon tow chain that second drive assembly connects, first nylon tow chain with second nylon tow chain all is used for holding the wire.

The beneficial results are: set up first nylon tow chain and second nylon tow chain and can fix the wire, be favorable to first drive assembly and second drive assembly to be connected with the wire, prevent that the winding from taking place for the wire in the motion process.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a top view of an embodiment of the present invention;

FIG. 2 is a front view of FIG. 1;

FIG. 3 is a left side view of FIG. 1;

FIG. 4 is a right side view of FIG. 1;

fig. 5 is a schematic view of an isolation telescopic strap.

Reference numerals: the sliding track type sliding table comprises a sliding track 100, a first moving mechanism 110, a second moving mechanism 120, a first sliding table 130, a first clamp 140, a first driving assembly 150, a telescopic seat 160, a second sliding table 170, a second clamp 180, a second driving assembly 190, a clamping strip 200, a counting device 210, a first sensor 220, a second sensor 230, a buffer device 240, a baffle plate 250, a buffer column 260, a rack 270, a first gear 280, a first motor 290, a second gear 300, a second motor 310, a first fixing plate 320, a first pressing plate 330, a strip-shaped hole 340, a straight plate part 350, a flat plate part 360, a bolt hole 370, a second fixing plate 380, a bayonet 390, a cross bar 400, a guide plate 410, a first nylon drag chain 420 and a second nylon drag chain 430.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it should be understood that the directional descriptions, such as the directions or positional relationships indicated by upper, lower, front, rear, left, right, etc., are based on the directions or positional relationships shown in the drawings, and are only for convenience of description and simplification of the description, but not for indicating or implying that the device or element referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present invention.

In the description of the present invention, a plurality of meanings are one or more, a plurality of meanings are two or more, and the terms greater than, smaller than, exceeding, etc. are understood as excluding the number, and the terms greater than, lower than, within, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

An isolation stretchable band tester is described in detail below in one specific embodiment with reference to fig. 1-5. It is to be understood that the following description is illustrative only and is not intended as a specific limitation on the invention.

As shown in fig. 1 to 5, an isolation stretchable belt testing machine includes a slide rail 100, a moving device, and a counting device 210.

The moving device comprises a first moving mechanism 110 and a second moving mechanism 120 which are arranged on the slide rail 100, the first moving mechanism 110 comprises a first sliding table 130, a first clamp 140 and a first driving assembly 150, the first clamp 140 is positioned on the first sliding table 130 and used for installing a telescopic base 160 of an isolation telescopic belt, the first driving assembly 150 is used for driving the first sliding table 130 to reciprocate along one end of the slide rail 100, the second moving mechanism 120 comprises a second sliding table 170, a second clamp 180 and a second driving assembly 190, the second clamp 180 is positioned on the second sliding table 170 and used for installing a clamping strip 200 of the isolation telescopic belt, and the second driving assembly 190 is used for driving the second sliding table 170 to reciprocate along the other end of the slide rail 100; the counting device 210 includes a first sensor 220 and a second sensor 230 disposed side by side on the slide rail 100, the first sensor 220 is close to one side of the first moving mechanism 110, the first sliding table 130 reaches the first sensor 220 to stop and record, the second sensor 230 is close to one side of the second moving mechanism 120, the second sliding table 170 reaches the second sensor 230 to stop and record, and then the first sliding table 130 and the second sliding table 170 move in opposite directions.

During operation, the first sliding table 130 of the first moving mechanism 110 is provided with the telescopic seat 160 for isolating the telescopic belt, the second clamp 180 of the second moving mechanism 120 is provided with the clamping strip 200 for isolating the telescopic belt, the first driving assembly 150 drives the first sliding table 130 to reciprocate along one end of the slide rail 100, the second driving assembly 190 drives the second sliding table 170 to reciprocate along the other end of the slide rail 100, when the first sliding table 130 reaches the first sensor 220, the first sliding table is sensed to stop immediately and complete recording, when the second sliding table 170 reaches the second sensor 230, the second sliding table is sensed to stop immediately and complete recording, the stopping process is that the first sensor 220 and the second sensor 230 respectively send instructions to the first driving assembly 150 and the second driving assembly 190, so that the first moving mechanism 110 and the second moving mechanism 120 are prevented from colliding with each other, counting is completed simultaneously, and then the first sliding table 130 and the second sliding table 170 move in opposite directions, and the processes of stretching, shrinking and counting are repeated. Due to the process, the telescopic seat 160 and the clamping strip 200 of the isolation telescopic belt move towards two sides simultaneously respectively, and compared with equipment moving towards one side, the test speed of the isolation telescopic belt can be increased, and the test time is saved.

As shown in fig. 1 and 2, the device further includes a buffer device 240, the buffer device 240 includes a baffle 250 between the first sensor 220 and the second sensor 230, and buffer posts 260 disposed on both sides of the baffle 250, and the buffer posts 260 are used for abutting against and buffering the side surfaces of the first sliding table 130 and the second sliding table 170. By providing the baffle 250 and the buffer post 260, it is possible to physically prevent the first moving mechanism 110 and the second moving mechanism 120 from colliding in the event of a failure of the first sensor 220 or the second sensor 230.

In addition, as shown in fig. 1 and 3, a rack 270 is disposed on an inner side of the slide rail 100, the first driving assembly 150 includes a first gear 280 engaged with the rack 270, and a first motor 290 driving the first gear 280 to rotate, and the first motor 290 is mounted on the first sliding table 130. The first driving assembly 150 drives the first gear 280 to rotate along the rack 270 inside the slide rail 100 through the first motor 290, so that the first sliding table 130 moves along the slide rail 100, and the operation is stable and easy to control.

Further, as shown in fig. 4, the second driving assembly 190 includes a second gear 300 engaged with the rack 270, and a second motor 310 driving the second gear 300 to rotate, and the second motor 310 is mounted on the second sliding table 170. The second driving assembly 190 drives the second gear 300 to rotate along the rack 270 inside the slide rail 100 through the second motor 310, so that the second sliding table 170 moves along the slide rail 100, the operation is stable, the control is easy, and the first sliding table 130 and the second sliding table 170 can keep synchronous movement towards the two ends of the slide rail 100 easily.

As shown in fig. 1 and 2, the first clamp 140 includes a first fixing plate 320 vertically disposed on the first sliding table 130, and a first pressing plate 330 for pressing the telescopic base 160 of the isolation telescopic belt to the top surface of the first sliding table 130 is disposed on the first fixing plate 320. The first clamp 140 is mounted on the first sliding table 130 through the first fixing plate 320, and the first pressing plate 330 presses the telescopic base 160 of the isolation telescopic belt to the top surface of the first sliding table 130, so that the fixing is stable and reliable.

Specifically, be equipped with the bar hole 340 of vertical direction on the first fixed plate 320, first clamp plate 330 is the L type, including vertical straight plate portion 350, the flat plate portion 360 of horizontal downward sloping of setting, and straight plate portion 350 is equipped with the bolt hole 370 that corresponds with bar hole 340, and flat plate portion 360 is used for compressing tightly the expansion bracket 160 of keeping apart the telescopic band. First clamp plate 330 is L-shaped and adopts bolt fixed connection through the bolt hole 370 of straight plate portion 350 and the bar hole 340 on first fixed plate 320, then flat plate portion 360 compresses tightly the expansion bracket 160 of keeping apart the telescopic band, can adapt to the not unidimensional expansion bracket 160 like this, and the horizontal downward sloping of flat plate portion 360 is favorable to the fixed process to compress tightly expansion bracket 160.

Correspondingly, as shown in fig. 4, the second fixture 180 includes a second fixing plate 380 vertically disposed on the second sliding table 170, and the second fixing plate 380 is provided with a bayonet 390 for clamping with the clamping strip 200 for mounting the isolation telescopic band. The arrangement structure is simple, and the device is closer to a real use scene.

It should be noted that, as shown in fig. 1 and fig. 2, a horizontally disposed cross bar 400 is disposed on a side surface of the slide rail 100, and the first sensor 220 and the second sensor 230 are movably mounted on the cross bar 400. The arrangement can adjust the positions of the first sensor 220 and the second sensor 230 on the cross bar 400, thereby controlling the stop positions of the first sliding table 130 and the second sliding table 170, and facilitating the adjustment.

It should be mentioned that, a guide plate 410 extending outward is disposed on a side surface of the slide rail 100, a first nylon drag chain 420 connected to the first driving assembly 150 and a second nylon drag chain 430 connected to the second driving assembly 190 are disposed on the guide plate 410, and both the first nylon drag chain 420 and the second nylon drag chain 430 are used for accommodating a wire. The first nylon tow chain 420 and the second nylon tow chain 430 are arranged to fix wires, so that the first driving assembly 150 and the second driving assembly 190 can be connected with the wires conveniently, and the wires are prevented from being wound in the movement process.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (9)

1. The utility model provides an keep apart telescopic band test machine which characterized in that includes:

a slide rail (100);

the moving device comprises a first moving mechanism (110) and a second moving mechanism (120) which are arranged on the sliding rail (100), wherein the first moving mechanism (110) comprises a first sliding table (130), a first clamp (140) and a first driving assembly (150), the first clamp (140) is positioned on the first sliding table (130) and is used for installing a telescopic seat (160) of an isolation telescopic belt, the first driving assembly (150) is used for driving the first sliding table (130) to move back and forth along one end of the sliding rail (100), the second moving mechanism (120) comprises a second sliding table (170), a second clamp (180) and a second driving assembly (190), the second clamp (180) is positioned on the second sliding table (170) and is used for installing a clamping strip (200) of the isolation telescopic belt, and the second driving assembly (190) is used for driving the second sliding table (170) to move back and forth along the other end of the sliding rail (100);

counting assembly (210), including setting up side by side first sensor (220) and second sensor (230) of slide rail (100), first sensor (220) are close to first moving mechanism (110) one side, first slip table (130) reach first sensor (220) department stops and the record, second sensor (230) are close to second moving mechanism (120) one side, second slip table (170) reach second sensor (230) department stops and the record, then first slip table (130) with second slip table (170) are toward opposite direction motion.

2. The isolated telescopic belt testing machine as claimed in claim 1, further comprising a buffer device (240), wherein the buffer device (240) comprises a baffle (250) between the first sensor (220) and the second sensor (230), and buffer columns (260) arranged on two sides of the baffle (250), and the buffer columns (260) are used for abutting against and buffering the side faces of the first sliding table (130) and the second sliding table (170).

3. The isolated telescopic belt testing machine as claimed in claim 1, wherein a rack (270) is disposed on an inner side of the sliding rail (100), the first driving assembly (150) includes a first gear (280) engaged with the rack (270), and a first motor (290) driving the first gear (280) to rotate, and the first motor (290) is mounted on the first sliding table (130).

4. The machine according to claim 3, wherein the second driving assembly (190) comprises a second gear (300) engaged with the rack (270), and a second motor (310) for driving the second gear (300) to rotate, and the second motor (310) is mounted on the second sliding table (170).

5. The isolation telescopic belt testing machine as claimed in claim 1, wherein the first clamp (140) comprises a first fixing plate (320) vertically arranged on the first sliding table (130), and a first pressing plate (330) for pressing the telescopic base (160) of the isolation telescopic belt to the top surface of the first sliding table (130) is arranged on the first fixing plate (320).

6. The testing machine of the isolation telescopic belt of claim 5, wherein a strip-shaped hole (340) is formed in the first fixing plate (320), the first pressing plate (330) is L-shaped and comprises a straight plate portion (350) which is vertically arranged and a flat plate portion (360) which horizontally inclines downwards, the straight plate portion (350) is provided with a bolt hole (370) corresponding to the strip-shaped hole (340), and the flat plate portion (360) is used for pressing the telescopic seat (160) of the isolation telescopic belt.

7. The isolation telescopic belt testing machine as claimed in claim 1, wherein the second clamp (180) comprises a second fixing plate (380) vertically arranged on the second sliding table (170), and the second fixing plate (380) is provided with a bayonet (390) for clamping with a clamping strip (200) for installing the isolation telescopic belt.

8. The machine according to claim 1, wherein a horizontally disposed cross bar (400) is disposed on a side of the slide rail (100), and the first sensor (220) and the second sensor (230) are movably mounted on the cross bar (400).

9. The isolated telescopic belt testing machine as claimed in claim 1, wherein a guide plate (410) extending outwards is arranged on a side surface of the sliding rail (100), a first nylon drag chain (420) connected with the first driving assembly (150) and a second nylon drag chain (430) connected with the second driving assembly (190) are arranged on the guide plate (410), and the first nylon drag chain (420) and the second nylon drag chain (430) are both used for accommodating a lead.

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