CN108716179B

CN108716179B - Municipal administration pavement ceramic tile gap relative height detects and real equipment of hammer

Info

Publication number: CN108716179B
Application number: CN201810466598.1A
Authority: CN
Inventors: 王瞳
Original assignee: Ma'anshan Jinwag Machinery Technology Co Ltd
Current assignee: Binzhou High Tech Zone State Owned Capital Investment And Operation Co ltd
Priority date: 2018-05-16
Filing date: 2018-05-16
Publication date: 2020-09-22
Anticipated expiration: 2038-05-16
Also published as: CN108716179A

Abstract

The invention relates to a height difference detection device for gaps of tiles of municipal buildings, in particular to a device for detecting the relative height of the gaps of the tiles of municipal sidewalks and hammering the gaps of the tiles into real objects. The technical problem is as follows: the municipal sidewalk tile gap relative height detection and hammering equipment is capable of rapidly detecting tiles, saving time and labor in the detection process and accurately repairing height differences among the tiles. The technical scheme of the invention is as follows: a municipal sidewalk ceramic tile gap relative height detection and hammering device comprises a first placing plate, a second placing plate, a first guide rail, a first guide sleeve, a first nut, a first bearing seat, a screw rod, a support, a second guide rail, a second guide sleeve and the like; the first board and the second of placing are all connected with first guide rail. The ceramic tile height difference detection device and the detection method have the advantages that the ceramic tiles can be detected quickly, time and labor are saved in the detection process, and the height difference between the ceramic tiles can be repaired accurately.

Description

Municipal administration pavement ceramic tile gap relative height detects and real equipment of hammer

Technical Field

The invention relates to a height difference detection device for gaps of tiles of municipal buildings, in particular to a device for detecting the relative height of the gaps of the tiles of municipal sidewalks and hammering the gaps of the tiles into real objects.

Background

The municipal facilities refer to various buildings, structures, equipment and the like which are arranged in the planning and construction range of urban areas and towns (villages) and provide paid or unpaid public products and services for residents based on government responsibilities and obligations. Various public infrastructure construction supporting urban life belongs to municipal engineering categories, such as common urban roads, bridges and subways, and various pipelines closely related to life: rainwater, sewage, water supply, reclaimed water, electric power (parts except red lines), telecommunication, heating power, gas and the like, and construction of squares, urban greening and the like belong to the municipal engineering category.

At present at the ceramic tile laying process to municipal administration pavement, the great phenomenon of difference in height between two ceramic tiles can appear unavoidably, but this kind of phenomenon is difficult to detect visually, lead to the pedestrian probably to be stumbled when walking in the ceramic tile pavement, very dangerous, and at the in-process that detects, because the ceramic tile is huge in quantity, the testing process wastes time and energy, even detect with present technique, also difficult to restore it to the great position of relative difference in height between two ceramic tiles, also be exactly that relative difference in height also can hardly accomplish accurate the equal after repairing.

Therefore, the municipal sidewalk tile gap relative height detection and hammering equipment which can quickly detect tiles, save time and labor in the detection process and accurately repair the height difference between the tiles is urgently needed to be researched and developed to overcome the defects that visual detection is difficult to carry out on the tiles, the detection process wastes time and energy, and the height difference between the tiles cannot be accurately repaired when the relative height difference detection of two tiles is carried out on the municipal sidewalk.

Disclosure of Invention

In order to overcome the shortcoming that at present there is the difference in height between very difficult restoration ceramic tile visual detection, the testing process wastes time and energy, can't be accurate to the ceramic tile when carrying out two ceramic tile relative altitude differences and detect to municipal administration ceramic tile pavement, the technical problem is: the municipal sidewalk tile gap relative height detection and hammering equipment is capable of rapidly detecting tiles, saving time and labor in the detection process and accurately repairing height differences among the tiles.

The technical scheme of the invention is as follows: a municipal sidewalk tile gap relative height detection and hammering device comprises a first placing plate, a second placing plate, a first guide rail, a first guide sleeve, a first nut, a first bearing seat, a screw rod, a support, a second guide rail, a second guide sleeve, a connecting block, a third guide sleeve, a third guide rail, a first spring, a roller, a pointer, a fixed block, a scale plate, an installation block, a first slide rail, a first slide block, an L-shaped rod, a first screw rod and a first pressing block, wherein the upper sides of the first placing plate and the second placing plate are respectively connected with the first guide rail, the first guide sleeve is connected on the first guide rail in a sliding manner, the outer side of the first guide sleeve is respectively connected with the first nut, the lower part of the outer side of the first guide rail is respectively connected with the first bearing seat, the screw rod is respectively connected in the first bearing seats, the screw rod respectively penetrates through the first nuts on the left side and the right side, the screw rod is matched with the, the middle part of the right side of the left bracket and the upper part of the left side of the right bracket are both connected with a second guide rail, the second guide rail is connected with a second guide sleeve in a sliding way, the second guide sleeves are fixedly connected, the right side of the lower side of the second guide sleeve is connected with a connecting block, the lower end of the connecting block is connected with a third guide sleeve, the third guide sleeve is connected with a third guide rail in an inner sliding way, the lower side of the third guide sleeve is connected with a first spring, the lower end of the first spring is connected with the lower side of the third guide rail, the lower end of the third guide rail is connected with a roller in a rotating way, the upper side of the left side of the third guide sleeve is connected with a fixed block, the left end of the fixed block is connected with a scale plate, the pointer points on the scale plate, the upper side of the right bracket is connected with an installation block, the upper, the right side of the L-shaped rod is provided with a threaded hole, a first screw rod is screwed in the threaded hole, and the lower end of the first screw rod is rotatably connected with a first pressing block.

In one embodiment, the device further comprises a level gauge, and the level gauge is connected to the upper side of the L-shaped rod.

In one embodiment, the automatic advancing and detection result recognition and stopping device further comprises an automatic advancing and detection result recognition and stopping device, the automatic advancing and detection result recognition and stopping device comprises a sliding sleeve, a sliding rod, a mounting rod, a third nut, a third screw rod, a top block, a rack, a connecting rod, a first gear, a first rotating wheel, a first transmission strip, a second sliding rail, a second sliding block, a supporting block, an electric wheel, a second gear, an electromagnet, a second nut, a second screw rod, a moving rod and a switch, the automatic advancing and detection result recognition and stopping device is arranged on the left side of the second guide sleeve, the sliding sleeve is connected on the left side of the front side of the lower second guide rail in a sliding manner, the sliding sleeve is connected with the sliding rod in a sliding manner, the mounting rod is connected on the upper end of the sliding rod, the third nut is connected on the left side of the front side of the lower second guide rail in a rotating manner, racks are connected to the upper side of the second guide rail and the upper side of the installation rod, a connecting rod is connected to the upper side of the left side of the second guide sleeve, a first gear is connected to the left side of the front side of the connecting rod in a rotating mode, a first rotating wheel is connected to the front side of the first gear, a first transmission strip is connected between the first rotating wheels, a second sliding rail is connected to the front side of the second guide sleeve, a second sliding block is connected to the second sliding rail in an inward sliding mode, a supporting block is connected to the left end of the second sliding block, an electric wheel is connected to the left side of the front side of the supporting block, a second gear is connected to the front side of the electric wheel and can be meshed with the first gear on the lower side, an electromagnet is connected to the upper side of the front side of the second guide sleeve on the lower side, the upper side of the rear side of an electromagnet armature is connected to the lower side of, the movable rod is located the scale plate front side, and the movable rod right-hand member is connected with the switch, and the switch passes through circuit connection with the electro-magnet.

In one embodiment, the device further comprises a switching hammering device, the switching hammering device comprises a fourth guide sleeve, a fourth guide rail, a hammering block, a second spring, a contact rod, a cam, an extension block, a third gear, a second rotating wheel and a second transmission bar, the switching hammering device is arranged on the front side of the third guide sleeve, the fourth guide sleeve is connected below the front side of the third guide sleeve, the fourth guide rail is connected in a sliding manner in the fourth guide sleeve, the lower end of the fourth guide rail is connected with the hammering block, the upper side of the fourth guide sleeve is connected with the second spring, the upper end of the second spring is connected to the upper side of the fourth guide rail, the contact rod is connected to the upper end of the fourth guide rail, the cam is rotatably connected below the right side of the front side of the third guide sleeve, the cam can be in contact with the contact rod, the extension block is connected below the front side of the second guide sleeve on the upper side, the third gear is rotatably connected below, the front side of the third gear and the front side of the cam are both connected with second rotating wheels, and a second transmission strip is connected between the second rotating wheels.

In one embodiment, the vehicle body further comprises wheels, a fourth nut, a fourth screw and a second pressing block, the wheels are arranged on the lower sides of the first placing plate and the second placing plate, the fourth nut is connected to the inner sides of the first placing plate and the second placing plate, the fourth screw is screwed in the fourth nut, and the second pressing block is connected to the lower end of the fourth screw in a rotating mode.

When a user needs to detect the relative height between two tiles of the municipal sidewalk, the user can place the equipment on the sidewalk, then the user can move the left side support to the left to enable the lower side second guide rail to be separated from the lower side second guide sleeve, the left side support and the lower side second guide rail move to the left in the first slide rail through the L-shaped rod and the first slide block to enable the first slide block to move to the left in the first slide rail, then the user can rotate the first screw rod, the first screw rod is screwed downwards through matching with the threaded hole, the first screw rod drives the first pressing block to move downwards, so that the first pressing block fixes the positions of the L-shaped rod and the first slide block on the first slide rail, then the user can rotate the screw rods on the left side and the right side, the screw rods drive the first guide sleeves on the left side and the right side to move upwards and downwards through matching with the first nuts, so as to drive the supports, so that the roller contacts the ground, at the moment, the user also needs to rotate the screw rod to finely adjust the height of the first guide sleeve to enable the two second guide rails to be parallel to the ground, at the moment, the user can move the second guide sleeve leftwards, the second guide sleeve drives the connecting block, the third guide sleeve and the third guide rail to move leftwards, so as to drive the roller to move leftwards, and further enable the roller to roll on the ceramic tile, if the relative height between the ceramic tiles is higher, the roller will move up and down, the roller drives the third guide rail to move up and down through the first spring, the third guide rail drives the pointer to move up and down, thereby leading the pointer to point at different positions on the scale plate, leading the user to be capable of intuitively detecting the relative height of the ceramic tile, and when the second guide sleeve on the upper side moves leftwards to be separated from the second guide rail on the upper side, the second guide sleeve on the lower side is sleeved on the second guide rail on the lower side at the moment, so that the ceramic tile can be detected in a long distance.

Because still including the spirit level, L shape pole upside is connected with the spirit level, when the user needs the accurate levelness of adjusting second guide rail and ground, the user can rotate the lead screw according to the registration of spirit level and adjust to can be accurate carry out the regulation of levelness to the second guide rail.

Because the device also comprises an automatic advancing and detection result recognition and stop device, the automatic advancing and detection result recognition and stop device comprises a sliding sleeve, a sliding rod, an installation rod, a third nut, a third screw rod, a top block, a rack, a connecting rod, a first gear, a first rotating wheel, a first transmission strip, a second sliding rail, a second sliding block, a supporting block, an electric wheel, a second gear, an electromagnet, a second nut, a second screw rod, a moving rod and a switch, the automatic advancing and detection result recognition and stop device is arranged on the left side of the second guide sleeve, the sliding sleeve is connected on the left side of the front side of the lower second guide rail, the sliding sleeve is connected with the sliding rod in a sliding way, the upper end of the sliding rod is connected with the installation rod, the third nut is connected on the left side of the front side of the lower second guide rail, the third screw rod is screwed in the third nut, the third screw rod is matched with the third nut, the top block is, a connecting rod is connected above the left side of the second guide sleeve, a first gear is rotatably connected to the left side of the front side of the connecting rod, a first rotating wheel is connected to the front side of the first gear, a first transmission strip is connected between the first rotating wheels, a second sliding rail is connected to the front side of the second guide sleeve, a second sliding block is connected to the second sliding rail in an inward sliding manner, a supporting block is connected to the left end of the second sliding block, an electric wheel is connected to the left side of the front side of the supporting block, a second gear is connected to the front side of the electric wheel, the second gear can be meshed with the first gear on the lower side, an electromagnet is connected above the front side of the second guide sleeve on the lower side, an electromagnet armature is connected below the front side of the second sliding block on the upper side of the rear side, a second nut is connected to the upper side of the left side of the scale plate, a second screw is screwed in the second, the switch is connected with the electromagnet through a circuit, when a user needs to automatically make the roller move leftwards and automatically stop moving leftwards when the relative height between the tiles reaches a certain degree in the detection process, the user can accurately know the position with large height difference of the relative height of the tiles, the user can rotate the second screw rod, the second screw rod moves upwards and downwards through the matching with the second nut so as to drive the moving rod to move upwards and downwards, the moving rod drives the switch to move upwards and downwards, the user can adjust the position between the switch and the pointer, the position is the relative height difference of the tiles appointed by the user, if the user needs to move the left side support and the lower side second guide rail leftwards, the user can rotate the third screw rod, the third screw rod is screwed downwards through the matching with the third nut, the third screw rod drives the jacking block to move downwards, and at the moment, the user can move the installation rod downwards, the mounting rod drives the lower rack to move downwards, so that the lower rack is disengaged from the lower first gear, at the moment, a user can move the left bracket and the lower second guide rail leftwards to change the length between the second guide rails, after the movement is finished, the user can rotate the third screw, the third screw pushes the jacking block to move upwards to drive the mounting rod to move upwards, so that the lower rack and the lower first gear are positioned at a position capable of being engaged, then the user can start the electric wheel, the electric wheel drives the second gear to rotate clockwise, the second gear drives the lower first gear to rotate anticlockwise, the lower first gear drives the upper first gear to rotate anticlockwise through the first rotating wheel and the first driving strip, the upper first rotating wheel drives the upper first gear to rotate anticlockwise, so that the upper first gear rotates on the upper rack to drive the second guide sleeve to move leftwards, when the second guide sleeve moves leftwards to the intersection between the second guide rails, the upper first gear is separated from the engagement with the upper rack, and the lower first gear enters the engagement with the lower rack, so as to continuously drive the second guide sleeve to move leftwards, and when the second guide sleeve drives the roller to move leftwards, the roller drives the third guide rail to move upwards, so that the pointer moves upwards to contact the switch, so that the switch is triggered, the electromagnet is controlled to trigger, the electromagnet is attracted, so that the electromagnet armature drives the second sliding block to move rightwards, the second sliding block drives the supporting block to move rightwards, so as to drive the electric wheel and the second gear to move rightwards, so that the second gear is separated from the engagement with the lower first gear, so as to stop the second guide sleeve moving leftwards, the user just can know the relative height of the ceramic tile of this position and reach appointed level this moment to carry out the detection of accurate position to it, after the user detects the completion to the relative height of ceramic tile, the user can close electronic round.

Because the device also comprises a switching hammering device which comprises a fourth guide sleeve, a fourth guide rail, a hammering block, a second spring, a contact rod, a cam, an extension block, a third gear, a second rotating wheel and a second transmission strip, the switching hammering device is arranged on the front side of the third guide sleeve, the fourth guide sleeve is connected below the front side of the third guide sleeve, the fourth guide rail is connected in a sliding way in the fourth guide sleeve, the lower end of the fourth guide rail is connected with the hammering block, the upper side of the fourth guide sleeve is connected with the second spring, the upper end of the second spring is connected on the upper side of the fourth guide rail, the contact rod is connected on the upper end of the fourth guide rail, the cam is connected on the right lower side of the front side of the third guide sleeve in a rotating way and can be contacted with the contact rod, the extension block is connected below the front side of the second guide sleeve on the upper side, the third gear is connected below the front side of the extension block in a rotating way and can be meshed with the second, a second transmission bar is connected between the second rotating wheels, when a user needs to hammer between tiles of which the relative height difference is detected to reach a specified level, when the roller moves to the left above the tiles at the position so that the electromagnet is triggered to control the second gear to move rightwards, the second gear is meshed with the third gear, so that the second gear drives the third gear to rotate, the third gear drives the cam to rotate through the second rotating wheel and the second transmission bar, when the cam rotates to be in contact with the contact rod, the contact rod is moved upwards by the cam, the contact rod drives the fourth guide rail and the hammering block to move upwards, the second spring is stretched at the moment, when the cam rotates to be out of contact with the contact rod, the second spring is recovered from a stretching state to push the contact rod, the fourth guide rail and the hammering block to move downwards, so that the hammering block hammers the tiles, and the tiles to hammer downwards, when the tile is hammered to a certain height, the roller follows the height between the tiles, so that the roller moves downwards to be separated from the contact with the switch, the switch is disconnected, the electromagnet is disconnected, the armature of the electromagnet resets and moves leftwards, the second gear is separated from the meshing with the third gear and enters the meshing with the first gear, and the roller continues to move leftwards.

Because still including the wheel, the fourth nut, fourth screw rod and second briquetting, first board and the second of placing is placed the board downside and all is equipped with the wheel, first board and the second of placing is placed the inboard and all is connected with the fourth nut, the fourth screw rod has been revolved in the fourth nut, fourth screw rod lower extreme rotation type is connected with the second briquetting, when the user need be when detecting ceramic tile relative height need quick change position with stabilize this equipment, the user can pass through wheel removal this equipment, when removing required position, the user can rotate the fourth screw rod, the fourth screw rod is through the cooperation with the fourth nut precession downwards, the fourth screw rod drives second briquetting downwardly moving, thereby make the second briquetting contact ground and stabilize this equipment.

The invention achieves the effects of quickly detecting ceramic tiles, saving time and labor in the detection process and accurately repairing the height difference between the ceramic tiles, can accurately and intuitively display the height difference of one position by adopting a mode of adjusting the second guide rail to enable the second guide rail to be parallel to the ground, enabling the roller to move up and down when encountering the height difference and detecting on the scale plate through the pointer finger, thereby quickly detecting the height difference between the ceramic tiles, and can accurately know the position with larger height difference and accurately repairing the ceramic tiles by adopting a mode of contacting the roller with a switch when encountering the position with larger height difference to control the roller to stop at the position and controlling the hammering block to move up and down to work.

Drawings

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is a schematic view of the front view of the level of the present invention.

Fig. 3 is a schematic view of a first front view of the automatic moving and detection result recognition stopping device according to the present invention.

Fig. 4 is a schematic diagram of a second front view of the automatic moving and detection result recognition stopping device according to the present invention.

Fig. 5 is a schematic front view of the switching hammering device of the present invention.

Fig. 6 is a right-side view structural schematic diagram of the switching hammering device of the invention.

Fig. 7 is a front view schematically showing the structure of the wheel of the present invention.

Description of reference numerals: 1: first placing plate, 2: second placement plate, 3: first guide rail, 4: first guide sleeve, 5: first nut, 6: first bearing seat, 7: screw rod, 8: support, 9: second guide rail, 10: second guide bush, 11: connecting block, 12: third guide bush, 13: third guide rail, 14: first spring, 15: roller, 16: pointer, 17: fixed block, 18: scale plate, 19: mounting block, 20: first slide rail, 21: first slider, 22: l-shaped rod, 23: threaded hole, 24: first screw, 25: first compact, 101: level gauge, 30: automatic travel and detection result recognition stopping device, 300: sliding sleeve, 3001: slide bar, 3002: mounting rod, 3003: third nut, 3004: third screw, 3005: top block, 301: rack, 302: connecting rod, 303: first gear, 304: first wheel, 305: first drive strap, 306: second slide rail, 307: second slider, 308: support block, 309: electric wheel, 3010: second gear, 3011: electromagnet, 3012: second nut, 3013: second screw, 3014: travel bar, 3015: switch, 31: switching hammer device, 311: fourth guide bush, 312: fourth guide rail, 313: hammer block, 314: second spring, 315: contact lever, 316: cam, 317: extension block, 318: third gear, 319: second wheel, 3110: second drive bar, 3121: wheel, 3122: fourth nut, 3123: fourth screw, 3124: and a second pressing block.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

Example 1

A municipal sidewalk tile gap relative height detection and hammering device is shown in figures 1-7 and comprises a first placing plate 1, a second placing plate 2, a first guide rail 3, a first guide sleeve 4, a first nut 5, a first bearing seat 6, a screw rod 7, a bracket 8, a second guide rail 9, a second guide sleeve 10, a connecting block 11, a third guide sleeve 12, a third guide rail 13, a first spring 14, a roller 15, a pointer 16, a fixing block 17, a scale plate 18, a mounting block 19, a first slide rail 20, a first slide block 21, an L-shaped rod 22, a first screw rod 24 and a first press block 25, wherein the first guide rail 3 is connected to the upper sides of the first placing plate 1 and the second placing plate 2, the first guide rail 3 is connected with the first guide sleeve 4 in a sliding manner, the first nut 5 is connected to the outer side of the first guide sleeve 4, the first bearing seat 6 is connected to the lower side of the outer side of the first guide rail 3, the first bearing seat 6 is connected with the screw rod 7, the screw rod 7 respectively passes through the first nuts 5 on the left side and the right side, the screw rod 7 is matched with the first nuts 5, the inner sides of the first guide sleeves 4 are respectively connected with a bracket 8, the middle part of the right side of the left bracket 8 and the upper part of the left side of the right bracket 8 are respectively connected with a second guide rail 9, the second guide rails 9 are respectively connected with a second guide sleeve 10 in a sliding way, the second guide sleeves 10 are fixedly connected with each other, the right side of the lower side of the second guide sleeve 10 is connected with a connecting block 11, the lower end of the connecting block 11 is connected with a third guide sleeve 12, the third guide sleeve 12 is connected with a third guide rail 13 in an inner sliding way, the lower side of the third guide sleeve 12 is connected with a first spring 14, the lower end of the first spring 14 is connected with the lower side of the third guide rail 13, the lower end of the third guide rail 13 is rotatably connected with a roller, the upper portion of the right side support 8 is connected with an installation block 19, the upper end of the installation block 19 is connected with a first slide rail 20, the first slide rail 20 is connected with a first slide block 21 in an inner sliding mode, the upper end of the first slide block 21 is connected with an L-shaped rod 22, the lower end of the left wall of the L-shaped rod 22 is connected to the upper portion of the left side of the lower side second guide rail 9, a threaded hole 23 is formed in the right side of the L-shaped rod 22, a first screw rod 24 is screwed in the threaded hole 23, and a first.

Example 2

The device also comprises a level 101, and the level 101 is connected to the upper side of the L-shaped rod 22.

Example 3

The automatic advancing and detection result recognition and stopping device 30 further comprises an automatic advancing and detection result recognition and stopping device 30, the automatic advancing and detection result recognition and stopping device 30 comprises a sliding sleeve 300, a sliding rod 3001, an installation rod 3002, a third nut 3003, a third screw 3004, a top block 3005, a rack 301, a connecting rod 302, a first gear 303, a first rotating wheel 304, a first driving strip 305, a second sliding rail 306, a second sliding block 307, a supporting block 308, an electric wheel 309, a second gear 3010, an electromagnet 3011, a second nut 3012, a second screw 3013, a moving rod 3014 and a switch 3015, the automatic advancing and detection result recognition and stopping device 30 is arranged on the left of the second guide sleeve 10, the sliding sleeve 300 is connected on the front side of the second guide rail 9 on the lower side, the sliding sleeve 300 is connected with the sliding rod 3001 in a sliding manner, the installation rod 3002 is connected on the upper end of the left of the sliding rod 3001, the third nut 3003 is connected on the left of the front side of the second guide rail 9 on the lower side, the third screw, the upper end of the third screw 3004 is rotatably connected with a top block 3005, the upper side of the second guide rail 9 and the upper side of the installation rod 3002 are both connected with a rack 301, the upper side of the left side of the second guide sleeve 10 is both connected with a connecting rod 302, the left side of the front side of the connecting rod 302 is both rotatably connected with a first gear 303, the front side of the first gear 303 is both connected with a first rotating wheel 304, a first transmission bar 305 is connected between the first rotating wheels 304, the front side of the second guide sleeve 10 is connected with a second sliding rail 306, the second sliding rail 306 is internally and slidably connected with a second sliding block 307, the left end of the second sliding block 307 is connected with a supporting block 308, the left side of the front side of the supporting block 308 is connected with an electric wheel 309, the front side of the electric wheel 309 is connected with a second gear 3010, the second gear 3010 can be meshed with the first gear 303 at the lower side, the upper side of the front side of the second guide sleeve, a second screw 3013 is screwed in the second nut 3012, the second screw 3013 is matched with the second nut 3012, the lower end of the second screw 3013 is connected with a moving rod 3014 in a rotating manner, the moving rod 3014 is located at the front side of the scale plate 18, the right end of the moving rod 3014 is connected with a switch 3015, and the switch 3015 is connected with the electromagnet 3011 through a circuit.

Example 4

The switching hammer device 31 is further included, the switching hammer device 31 includes a fourth guide sleeve 311, a fourth guide rail 312, a hammering block 313, a second spring 314, a contact rod 315, a cam 316, an extension block 317, a third gear 318, a second rotating wheel 319 and a second transmission bar 3110, the switching hammer device 31 is arranged at the front side of the third guide sleeve 12, the fourth guide sleeve 311 is connected below the front side of the third guide sleeve 12, the fourth guide rail 312 is connected in a sliding manner in the fourth guide sleeve 311, the lower end of the fourth guide rail 312 is connected with the hammering block 313, the second spring 314 is connected on the upper side of the fourth guide sleeve 311, the upper end of the second spring 314 is connected on the upper side of the fourth guide rail 312, the upper end of the fourth guide rail 312 is connected with the contact rod 315, the cam 316 is rotatably connected at the lower right side of the front side of the third guide sleeve 12, the cam 316 can be contacted with the contact rod 315, the extension block 317 is connected below the front side of the second guide sleeve 10 on the upper side, the, the third gear 318 may be engaged with the second gear 3010, a second pulley 319 is connected to both the front side of the third gear 318 and the front side of the cam 316, and a second driving bar 3110 is connected between the second pulley 319.

Still including wheel 3121, fourth nut 3122, fourth screw 3123 and second briquetting 3124, the first board 1 and the second of placing all are equipped with wheel 3121 with the second board 2 downside of placing, the first board 1 and the second of placing all are connected with fourth nut 3122 inboard, fourth nut 3122 internal rotation has fourth screw 3123, fourth screw 3123 lower extreme rotation type is connected with second briquetting 3124.

When a user needs to detect the relative height between two tiles of the municipal sidewalk, the user can place the equipment on the sidewalk, then the user can move the left bracket 8 leftwards to separate the lower second guide rail 9 from the lower second guide sleeve 10, the left bracket 8 and the lower second guide rail 9 move leftwards in the first slide rail 20 through the L-shaped rod 22 and the first slider 21, so that the first slider 21 moves to the left side in the first slide rail 20, then the user can rotate the first screw 24, the first screw 24 is screwed downwards through the matching with the threaded hole 23, the first screw 24 drives the first pressing block 25 to move downwards, so that the first pressing block 25 fixes the positions of the L-shaped rod 22 and the first slider 21 on the first slide rail 20, then the user can rotate the screw rods 7 on the left side and the right side, the screw rods 7 drive the first guide sleeves 4 on the left side and the right side to move upwards and downwards through the matching with the first nuts 5, thereby driving the bracket 8 to move up and down, thereby driving the roller 15 to move up and down, thereby making the roller 15 contact the ground, at this time, the user also needs to rotate the lead screw 7, finely adjust the height of the first guide sleeve 4, so that the two second guide rails 9 are parallel to the ground, at this time, the user can move the second guide sleeve 10 to the left, the second guide sleeve 10 drives the connecting block 11, the third guide sleeve 12 and the third guide rail 13 to move to the left, thereby driving the roller 15 to move to the left, thereby making the roller 15 roll on the tile, if there is a relative height between the tiles, the roller 15 will move up and down, the roller 15 drives the third guide rail 13 to move up and down through the first spring 14, the third guide rail 13 drives the pointer 16 to move up and down, thereby making the pointer 16 point to different positions on the scale plate 18, thereby making the user able to intuitively detect the relative height of the tile, and when the second guide, at this time, the lower second guide sleeve 10 is sleeved on the lower second guide rail 9, so that the tile can be detected for a long distance.

Because still including spirit level 101, L-shaped pole 22 upside is connected with spirit level 101, when the user needs the level degree of accurate regulation second guide rail 9 and ground, the user can rotate lead screw 7 according to the registration of spirit level 101 and adjust to can be accurate carry out the regulation of level degree to second guide rail 9.

Because the automatic advancing and detection result recognition and stopping device 30 is further included, the automatic advancing and detection result recognition and stopping device 30 includes a sliding sleeve 300, a sliding rod 3001, a mounting rod 3002, a third nut 3003, a third screw 3004, a top block 3005, a rack 301, a connecting rod 302, a first gear 303, a first rotating wheel 304, a first driving strip 305, a second sliding rail 306, a second sliding block 307, a supporting block 308, an electric wheel 309, a second gear 3010, an electromagnet 3011, a second nut 3012, a second screw 3013, a moving rod 3014 and a switch 3015, the automatic advancing and detection result recognition and stopping device 30 is disposed on the left of the second guiding sleeve 10, the sliding sleeve 300 is connected to the front side of the second guiding rail 9 on the lower side, the sliding sleeve 300 is connected to the sliding sleeve 3001 in a sliding manner, the mounting rod 3002 is connected to the upper end of the sliding rod 3001, the third nut 3003 is connected to the left of the front side of the second guiding rail 9 on the lower side, the third screw, the third screw 3004 is matched with the third nut 3003, the upper end of the third screw 3004 is rotatably connected with a top block 3005, the upper sides of the second guide rail 9 and the installation rod 3002 are both connected with a rack 301, the upper side of the left side of the second guide sleeve 10 is connected with a connecting rod 302, the left side of the front side of the connecting rod 302 is rotatably connected with a first gear 303, the front side of the first gear 303 is connected with a first rotating wheel 304, a first transmission bar 305 is connected between the first rotating wheels 304, the front side of the second guide sleeve 10 is connected with a second sliding rail 306, the inner sliding of the second sliding rail 306 is connected with a second sliding block 307, the left end of the second sliding block 307 is connected with a supporting block 308, the left side of the front side of the supporting block 308 is connected with an electric wheel 309, the front side of the electric wheel 309 is connected with a second gear 3010, the second gear 3010 can be meshed with the first gear 303 at the lower side, the upper side of the, a second nut 3012 is connected above the left side of the scale plate 18, a second screw 3013 is screwed in the second nut 3012, the second screw 3013 is matched with the second nut 3012, the lower end of the second screw 3013 is rotatably connected with a moving rod 3014, the moving rod 3014 is located at the front side of the scale plate 18, the right end of the moving rod 3014 is connected with a switch 3015, the switch 3015 is connected with the electromagnet 3011 through a circuit, when a user needs to automatically move the roller 15 to the left and the relative height between tiles reaches a certain degree in the detection process, the moving rod 3014 is automatically stopped moving to the left, so that the user can accurately know the position where the height difference between the relative heights of the tiles is large, the user can rotate the second screw 3013, the second screw 3013 moves up and down through the matching with the second nut 3012, thereby driving the moving rod 3014 to move up and down, the moving rod 3014 drives the switch 3015 to move up and down, and the user, if the user needs to move the left bracket 8 and the lower second rail 9 to the left, the user can rotate the third screw 3004, the third screw 3004 is screwed out downward by engaging with the third nut 3003, the third screw 3004 drives the top block 3005 to move downward, the user can move the mounting rod 3002 downward, the mounting rod 3002 drives the lower rack 301 to move downward, so that the lower rack 301 is disengaged from the lower first gear 303, the user can move the left bracket 8 and the lower second rail 9 leftward, so that the length between the second rails 9 is changed, after the movement is completed, the user can rotate the third screw 3004, the third screw 3004 pushes the top block 3005 to move upward, so that the mounting rod 3002 is driven to move upward, so that the lower rack 301 and the lower first gear 303 are in a position where they can engage, and then the user can activate the electric wheel 309, the electric wheel 309 drives the second gear 3010 to rotate clockwise, the second gear 3010 drives the lower first gear 303 to rotate counterclockwise, the lower first gear 303 drives the upper first gear 304 to rotate counterclockwise through the first wheel 304 and the first transmission bar 305, the upper first wheel 304 drives the upper first gear 303 to rotate counterclockwise, so that the upper first gear 303 rotates on the upper rack 301, so as to drive the second guide sleeve 10 to move leftward, so as to drive the roller 15 to move leftward for detection, when the second guide sleeve 10 moves leftward to an intersection between the second guide rails 9, the upper first gear 303 will be disengaged from the upper rack 301, and the lower first gear 303 will enter into engagement with the lower rack 301, so as to continue to drive the second guide sleeve 10 to move leftward, and when the second guide sleeve 10 drives the roller 15 to move leftward, the height difference between tiles is large, the roller 15 will drive the third rail 13 to move upwards, so that the pointer 16 moves upwards to contact the switch 3015, so that the switch 3015 is triggered, thereby controlling the electromagnet 3011 to trigger, the electromagnet 3011 will be attracted, so that the electromagnet 3011 armature drives the second slider 307 to move rightwards, the second slider 307 drives the supporting block 308 to move rightwards, thereby driving the electric wheel 309 and the second gear 3010 to move rightwards, so that the second gear 3010 is disengaged from the first gear 303 at the lower side, thereby stopping the second guide sleeve 10 from moving leftwards, at this time, the user can know that the relative height of the tile at this position reaches a specified level, thereby detecting the accurate position of the tile, and when the user finishes detecting the relative height of the tile, the user can close the electric wheel 309.

Because the switching hammer device 31 is further included, the switching hammer device 31 includes a fourth guide sleeve 311, a fourth guide rail 312, a hammering block 313, a second spring 314, a contact rod 315, a cam 316, an extension block 317, a third gear 318, a second rotating wheel 319 and a second transmission bar 3110, the switching hammer device 31 is disposed at the front side of the third guide sleeve 12, the fourth guide sleeve 311 is connected below the front side of the third guide sleeve 12, the fourth guide rail 312 is connected in a sliding manner in the fourth guide sleeve 311, the lower end of the fourth guide rail 312 is connected with the hammering block 313, the second spring 314 is connected above the fourth guide sleeve 311, the upper end of the second spring 314 is connected above the fourth guide rail 312, the upper end of the fourth guide rail 312 is connected with the contact rod 315, the cam 316 is rotatably connected below the right side of the front side of the third guide sleeve 12, the cam 316 can be in contact with the contact rod 315, the extension block 317 is connected below the front side of the second guide sleeve 10 on the upper side, the lower side of the extension block 317 is, the third gear 318 can mesh with the second gear 3010, the front side of the third gear 318 and the front side of the cam 316 are both connected with the second rotating wheel 319, the second rotating wheel 319 is connected with the second transmission bar 3110, when a user needs to hammer between tiles of which the relative height difference reaches a specified level, when the roller 15 moves to the left above the tile position to trigger the electromagnet 3011 to control the second gear 3010 to move to the right, the second gear 3010 will mesh with the third gear 318 to make the second gear 3010 drive the third gear 318 to rotate, the third gear 318 drives the cam 316 to rotate through the second rotating wheel 319 and the second transmission bar 3110, when the cam 316 rotates to contact with the contact lever 315, the contact lever 315 will be moved upwards by the cam 316, the contact lever 315 drives the fourth guide rail 312 and the hammering block 313 to move upwards, at this time, the second spring 314 will be stretched, when the cam 316 rotates to be out of contact with the contact lever 315, the second spring 314 will return from the extended state and push the contact rod 315, the fourth guide rail 312 and the hammering block 313 to move downwards, so that the hammering block 313 hammers the space between the tiles, so that the tiles are hammered downwards, when the tiles are hammered to a certain height, the roller 15 will follow the height between the tiles, so that the roller 15 moves downwards to be out of contact with the switch 3015, so that the switch 3015 is turned off, so that the electromagnet 3011 is turned off, so that the armature of the electromagnet 3011 moves leftwards again, so that the second gear 3010 is out of engagement with the third gear 318 and enters into engagement with the first gear 303, so that the roller 15 continues to move leftwards.

Because the device further comprises a wheel 3121, a fourth nut 3122, a fourth screw 3123 and a second pressing block 3124, the wheels 3121 are provided at the lower sides of the first placing plate 1 and the second placing plate 2, the fourth nut 3122 is connected to the inner sides of the first placing plate 1 and the second placing plate 2, the fourth screw 3123 is screwed into the fourth nut 3122, the second pressing block 3124 is rotatably connected to the lower end of the fourth screw 3123, when a user needs to quickly change positions and stabilize the device when detecting the relative height of a tile, the user can move the device through the wheel 3121, when the user moves to a desired position, the user can rotate the fourth screw 3123, the fourth screw 3123 is screwed downwards through the cooperation with the fourth nut 3122, the fourth screw 3123 drives the second pressing block 3124 to move downwards, so that the second pressing block 3124 contacts the ground to stabilize the device.

The above description is only an example of the present invention and is not intended to limit the present invention. All equivalents which come within the spirit of the invention are therefore intended to be embraced therein. Details not described herein are well within the skill of those in the art.

Claims

1. The municipal sidewalk tile gap relative height detection and hammering equipment is characterized by comprising a first placing plate (1), a second placing plate (2), a first guide rail (3), a first guide sleeve (4), a first nut (5), a first bearing seat (6), a screw rod (7), a support (8), a second guide rail (9), a second guide sleeve (10), a connecting block (11), a third guide sleeve (12), a third guide rail (13), a first spring (14), a roller (15), a pointer (16), a fixing block (17), a scale plate (18), a mounting block (19), a first slide rail (20), a first slide block (21), an L-shaped rod (22), a first screw rod (24) and a first pressing block (25), wherein the first guide rail (3) is connected on the upper sides of the first placing plate (1) and the second placing plate (2), the first guide sleeve (4) is connected on the first guide rail (3) in a sliding manner, the outer side of each first guide sleeve (4) is connected with a first nut (5), the lower part of the outer side of each first guide rail (3) is connected with a first bearing seat (6), each first bearing seat (6) is internally connected with a lead screw (7), the lead screws (7) respectively penetrate through the first nuts (5) on the left side and the right side, the lead screws (7) are matched with the first nuts (5), the inner side of each first guide sleeve (4) is connected with a support (8), the middle part of the right side of the left support (8) and the upper part of the left side of the right support (8) are connected with a second guide rail (9), the second guide rails (9) are connected with second guide sleeves (10) in a sliding mode, the second guide sleeves (10) are fixedly connected, the right side of the lower side of the second guide sleeve (10) is connected with a connecting block (11), the lower end of the connecting block (11) is connected with, a first spring (14) is connected to the lower side of the third guide sleeve (12), the lower end of the first spring (14) is connected to the lower side of the third guide rail (13), the lower end of the third guide rail (13) is rotatably connected with a roller (15), a pointer (16) is connected to the upper left side of the third guide rail (13), a fixed block (17) is connected to the upper left side of the third guide sleeve (12), a scale plate (18) is connected to the left end of the fixed block (17), the pointer (16) is pointed on the scale plate (18), a mounting block (19) is connected to the upper right side of the right side bracket (8), a first slide rail (20) is connected to the upper end of the mounting block (19), a first slide block (21) is connected to the first slide rail (20) in an inner sliding manner, an L-shaped rod (22) is connected to the upper end of the first slide block (21), the lower end of the left wall of the, a first screw rod (24) is screwed in the threaded hole (23), and the lower end of the first screw rod (24) is rotatably connected with a first pressing block (25); the device also comprises a level gauge (101), wherein the level gauge (101) is connected to the upper side of the L-shaped rod (22); the automatic traveling and detection result recognition and stopping device (30) is further included, the automatic traveling and detection result recognition and stopping device (30) comprises a sliding sleeve (300), a sliding rod (3001), an installation rod (3002), a third nut (3003), a third screw (3004), a top block (3005), a rack (301), a connecting rod (302), a first gear (303), a first rotating wheel (304), a first transmission strip (305), a second sliding rail (306), a second sliding block (307), a supporting block (308), an electric wheel (309), a second gear (3010), an electromagnet (3011), a second nut (3012), a second screw (3013), a moving rod (3014) and a switch (3015), the automatic traveling and detection result recognition and stopping device (30) is arranged on the left side of the second guide sleeve (10), the sliding sleeve (300) is connected on the left side of the front side of the second guide rail (9) on the lower side, the sliding sleeve (300) is internally connected with the sliding rod (3001) in a, the upper end of the sliding rod (3001) is connected with a mounting rod (3002), the left side of the front side of the second guide rail (9) at the lower side is connected with a third nut (3003), the third nut (3003) is internally screwed with a third screw (3004), the third screw (3004) is matched with the third nut (3003), the upper end of the third screw (3004) is rotatably connected with a top block (3005), the upper side of the second guide rail (9) and the upper side of the mounting rod (3002) are both connected with a rack (301), the upper side of the left side of the second guide sleeve (10) is both connected with a connecting rod (302), the left side of the front side of the connecting rod (302) is both rotatably connected with a first gear (303), the front side of the first gear (303) is both connected with a first rotating wheel (304), a first driving strip (305) is connected between the first rotating wheels (304), the front side of the second guide sleeve (10) is connected with a second sliding rail, the left end of the second sliding block (307) is connected with a supporting block (308), the left side of the front side of the supporting block (308) is connected with an electric wheel (309), the front side of the electric wheel (309) is connected with a second gear (3010), the second gear (3010) can be meshed with the first gear (303) on the lower side, the upper side of the front side of the second guide sleeve (10) on the lower side is connected with an electromagnet (3011), the upper side of the rear side of an armature of the electromagnet (3011) is connected to the lower side of the front side of the second sliding block (307), the upper side of the left side of the scale plate (18) is connected with a second nut (3012), a second screw (3013) is screwed into the second nut (3012), the lower end of the second screw (3013) is rotatably connected with a moving rod (3014), the moving rod (3014) is located on the front side of the scale plate (18), the right end of the moving rod (3014) is connected with a switch (3015), and the switch (301.

2. The municipal sidewalk tile gap relative height detection and compaction device according to claim 1, further comprising a switching compaction device (31), wherein the switching compaction device (31) comprises a fourth guide sleeve (311), a fourth guide rail (312), a compaction block (313), a second spring (314), a contact rod (315), a cam (316), an extension block (317), a third gear (318), a second rotating wheel (319) and a second transmission bar (3110), the switching compaction device (31) is arranged on the front side of the third guide sleeve (12), the fourth guide sleeve (311) is connected below the front side of the third guide sleeve (12), the fourth guide rail (312) is connected in a sliding manner in the fourth guide sleeve (311), the lower end of the fourth guide rail (312) is connected with the compaction block (313), the second spring (314) is connected on the upper side of the fourth guide sleeve (311), the upper end of the second spring (314) is connected on the upper side of the fourth guide rail (312), the upper end of the fourth guide rail (312) is connected with a contact rod (315), the right lower part of the front side of the third guide sleeve (12) is rotatably connected with a cam (316), the cam (316) can be contacted with the contact rod (315), the lower part of the front side of the second guide sleeve (10) on the upper side is connected with an extension block (317), the lower part of the front side of the extension block (317) is rotatably connected with a third gear (318), the third gear (318) can be meshed with a second gear (3010), the front side of the third gear (318) and the front side of the cam (316) are both connected with a second rotating wheel (319), and a second transmission strip (3110) is connected between the second rotating wheels (319).

3. The municipal sidewalk tile gap relative height detecting and hammering device according to claim 2, further comprising wheels (3121), fourth nuts (3122), fourth screws (3123) and a second pressing block (3124), wherein the wheels (3121) are respectively arranged at the lower sides of the first placing plate (1) and the second placing plate (2), the fourth nuts (3122) are respectively connected to the inner sides of the first placing plate (1) and the second placing plate (2), the fourth screws (3123) are screwed in the fourth nuts (3122), and the second pressing block (3124) is rotatably connected to the lower ends of the fourth screws (3123).