CN117124218B - Steel structure surface polishing equipment with high applicability - Google Patents

Abstract

The invention provides steel structure surface polishing equipment with high applicability, and relates to the polishing field. Before polishing, the collecting assembly is controlled to be sleeved outside the ejector rod, the connecting rod is fixedly positioned and inserted into the slot, after redundant polishing agent and polished impurities are discharged, the connecting rod is contacted with the baffle, the baffle blocks the polishing agent and the impurities, the impurities and the polishing agent are prevented from splashing to the ground, and the polishing agent and the impurities fall into the collecting assembly to be conveniently collected and stored. The problem of current steel construction surface polishing equipment superfluous polishing agent and the impurity of throwing remove when using can discharge, and the easy spill falls subaerial after the discharge, later stage needs hard cleanness is solved.

Description

Steel structure surface polishing equipment with high applicability

Technical Field

The invention relates to the technical field of polishing, in particular to steel structure surface polishing equipment with high applicability.

Background

After the steel structure is produced, the outer part of the steel structure needs to be polished to enable the outer part of the steel structure to be smoother, and polishing equipment is needed.

The existing steel structure surface polishing equipment is low in applicability when being used, continuous polishing is laborious when encountering a longer steel structure, fixing is required to be released firstly, limiting and fixing are required again, the polishing agent is required to be added manually in the polishing process, manpower is wasted, meanwhile, redundant polishing agent and polished impurities in the polishing process can be discharged, the polishing agent is easy to splash on the ground after being discharged, and the polishing equipment is laborious to clean in later period.

Disclosure of Invention

In view of the above, the invention provides a steel structure surface polishing device with high applicability, so as to solve the problems that the existing steel structure surface polishing device is easy to splash on the ground after being discharged and requires laborious cleaning in the later period.

The invention provides steel structure surface polishing equipment with high applicability, which comprises polishing equipment in particular; the polishing device comprises a polishing device, a motor, two square grooves, two elongated grooves, a pull rod, a storage component, a storage groove, a baffle rod, a feeding pipeline, an inner plate and an inner plate, wherein the two square grooves are respectively arranged on the two sides of the polishing device; the sliding component is arranged at the bottom of the polishing equipment, the collecting component is arranged at the top end of the sliding component, two sides of the inside of the collecting component are of inclined structures, two square holes are formed in the inside of the collecting component, two baffles are respectively arranged at the two sides of the top end of the collecting component, and arc-shaped grooves which are uniformly arranged are formed in the inner side of each baffle; the polishing device comprises a bearing component, wherein the bearing component is arranged in polishing equipment and a sliding component, a long guide groove is formed in the bearing component, the sliding component is inserted into the long guide groove in a sliding mode, two guide plates are respectively fixed at two ends of the bearing component, a pressing plate is inserted between every two guide plates in a sliding mode, two round holes are respectively formed in two ends of each pressing plate, two pressing rods are respectively arranged on two sides of each pressing plate, a pressing rod is welded to two ends of each pressing plate respectively, and the cross section of the middle position of each pressing rod is of a round structure.

Optionally, two fixing pieces are fixed in the polishing device, the bottom ends of the fixing pieces are of rectangular frame structures, the top ends of the fixing pieces are of T-shaped structures, the two fixing pieces are symmetrically arranged, the interiors of the two fixing pieces are fixedly connected with a motor, the bottom of the motor is in transmission connection with a driving shaft, and the driving shaft is of a Z-shaped shaft structure; the bottom of the polishing device is slidably provided with a moving part, the moving part is a polishing block, the top end of the moving part is fixedly provided with a stressed part, the bottom end of the stressed part is inserted into the long groove, the top end of the stressed part is provided with a sliding groove, the inside of the sliding groove is inserted with a driving shaft, the left side and the right side of the top end of the stressed part are respectively provided with a pushing rod in a staggered manner, and the position of the pushing rod at the right end corresponds to the side edge of the outer end of the inner plate; the storage assembly comprises a storage assembly, wherein two sides of the storage assembly are respectively fixed with a plugboard, the plugboards are inserted into square grooves of polishing equipment, the outer end of each plugboard is fixed with a clamping plate, the outer end of each clamping plate is of a wedge-shaped structure, the inner sides of the clamping plates are provided with arc grooves, and the clamping plates are connected with a pull rod in a clamping mode and are made of elastic metal materials.

Optionally, rotating rods are embedded and installed in two ends of the bottom of the sliding component, two ejector rods are respectively fixed on two sides of the top end of the sliding component, the ejector rods are inserted into the square holes, and the ejector rods are inserted into the fixing pieces; two sides of the sliding component are respectively fixed with a protective piece, each protective piece consists of an elastic metal rod, and the outside of the top end of each protective piece is fixed with a control rod; the two ends of the collecting assembly are respectively provided with a slot, the slots are respectively provided with four slots, the two ends of the inner side of each baffle are respectively welded with a connecting rod, and the connecting rods are inserted into the slots.

Optionally, four supporting blocks are respectively fixed at two ends of the bearing assembly, every two supporting blocks are symmetrically arranged, a supporting groove is respectively arranged in each supporting block and at the top end, the top ends of the guide plates are of wedge-shaped structures, every two guide plates are symmetrically arranged, a guide rod is arranged outside each guide plate, a spring is sleeved outside each guide rod, the guide rod is inserted into a round hole of the pressing plate, and the top ends of the springs are in contact with the bottom of the pressing plate; an outer piece is inserted into the supporting groove of each supporting block in a sliding manner, a fixed block is fixed at the inner end of each outer piece, an inclined structure is arranged above the outer end of each fixed block, and the upper part of the outer end of each fixed block is in sliding contact with the pressing rod; every push down pole sliding connection has two supporting heads, and the supporting head is the slope form structure, and the inner slip of supporting head inserts in the inside of accepting subassembly and deflector, and the inside of every supporting head is equipped with a drive slot, and the drive slot is Z shape structure, and the inside intermediate position in drive slot is the slope form structure, and every two drive slot inside slip inserts has a push down pole.

The steel structure surface polishing equipment with high applicability provided by the invention has the following beneficial effects:

1. through setting up storage module and inner panel, the in-process of polishing, motor control drive shaft is rotatory, drive shaft control removes and atress spare reciprocating displacement, the atress spare drives the catch bar and reciprocates together, the catch bar is at reciprocating motion's in-process, after removing the inner panel outer end, with the outer end side sliding contact of inner panel, promote the inner panel reciprocal displacement from top to bottom, the inner panel is inside to be pushed up by the jack-up after, falls down with the help of gravity, the circulation in-process of removing, promotes the inside polishing agent of storage module and conveniently discharges, make the convenient interpolation of polishing agent, reduce manpower output.

2. Through setting up collection subassembly and baffle, before the polishing, the outside at the ejector pin is collected to the control earlier, and the polishing equipment suit is outside at the ejector pin is controlled again, then the control baffle installation, the connecting rod location inserts the slot inside fixedly, the baffle is in and collects subassembly top both sides and use, after the unnecessary polishing agent of polishing in-process is discharged, and after the impurity of throwing is discharged, contact with the baffle, the baffle blocks polishing agent and impurity, avoid impurity and polishing agent to splash subaerial, polishing agent and impurity fall into the inside convenient collection storage of collection subassembly.

3. Through setting up clamp plate and depression bar, during the polishing, control steel construction earlier places in two clamp plates top, press the clamp plate downward displacement with the help of gravity, the clamp plate drives down the depression bar and presses the pole downward movement displacement, the depression bar is at the inside displacement of actuating groove, because actuating groove intermediate position is the tilting structure, support head automatic outside displacement, automatic increase supporting effect, the clamp plate drives the pole displacement of pressing simultaneously, press the pole and the outer top sliding contact of fixed block, promote the fixed block inwards to remove, the fixed block centre gripping is fixed steel construction, make the steel construction with the help of self gravity polishing, if the steel construction is longer, can directly stimulate the steel construction and rise, then direct control lateral displacement, convenient switch fixed position and polishing, when the steel construction removes, drive polishing equipment and remove together, make this device improve the suitability, carry out continuous polishing.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

fig. 1 is a schematic perspective view of a polishing apparatus according to an embodiment of the present invention;

FIG. 2 is a partial interfacial bottom view schematic structure of a polishing apparatus according to an embodiment of the present invention;

FIG. 3 is a schematic view of a partially exploded, interfacial, perspective view of a polishing apparatus according to an embodiment of the present invention;

FIG. 4 is a partially exploded bottom view of a polishing apparatus according to an embodiment of the present invention;

FIG. 5 is a partially exploded perspective view of a polishing apparatus according to an embodiment of the present invention;

fig. 6 is an exploded perspective view of a slide assembly of a polishing apparatus according to an embodiment of the present invention;

FIG. 7 is a partially exploded perspective view of the interface of the receiving assembly of the polishing apparatus according to the embodiment of the present invention;

fig. 8 is a partially exploded bottom view of the carrier assembly of the polishing apparatus according to an embodiment of the present invention.

List of reference numerals

1. A polishing apparatus; 101. a fixing member; 102. a drive shaft; 103. a moving member; 104. a force-bearing member; 105. a storage component; 106. an inner plate; 107. inserting plate; 108. a clamping plate;

2. a sliding assembly; 201. a rotating rod; 202. a push rod; 203. a guard; 204. a control lever; 205. a collection assembly; 206. a slot; 207. a connecting rod; 208. a baffle;

3. a receiving assembly; 301. a support block; 302. a guide plate; 303. a pressing plate; 304. pressing down a rod; 305. a fixed block; 306. an outer member; 307. a support head; 308. and a driving groove.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples.

Embodiment one: please refer to fig. 1 to 8:

the invention provides a steel structure surface polishing device with high applicability, comprising a polishing device 1; the polishing device comprises a polishing device 1, wherein a motor is arranged at the top end of the polishing device 1, two square grooves are respectively arranged at two side edges of the polishing device 1, a long groove is respectively arranged in two side edges of the polishing device 1, a pull rod is respectively fixed at two sides of the top end of the polishing device 1, the polishing device 1 is conveniently pulled to be lifted and taken down, a storage component 105 is inserted and arranged at the side edge of the polishing device 1, a storage groove is arranged in the top end of the storage component 105, polishing agents are stored in the storage groove, a uniformly arranged liquid outlet head is arranged at the bottom of the storage component 105, the polishing agents are enabled to pass through the discharge, the inside of the liquid outlet head is communicated with the inside of the storage groove, a baffle rod is arranged at the side edge of the top end of the storage component 105, a feeding pipeline is arranged at the side edge of the storage component 105, an inner plate 106 is inserted into the storage groove and is arranged at the side edge of the baffle rod, the inner plate 106 is in an up-down movable structure, the polishing agents are extruded and discharged when the inner plate 106 is lifted and taken down, the convenience of the addition is improved, the two sides of the bottom of the outer end of the inner plate 106 are in an inverted U-shaped structure, and the bottom of the inner plate 106 is in an inclined structure for sliding contact with the push rod, and the inner plate 106 is displaced up and down; the polishing device comprises a sliding component 2, wherein the sliding component 2 is arranged at the bottom of the polishing device 1, a collecting component 205 is arranged at the top end of the sliding component 2, the two sides of the inside of the collecting component 205 are of an inclined structure, polishing agent and impurities fall down and then fall into the collecting component 205 for storage, two square holes are formed in the inside of the collecting component 205, a baffle 208 is respectively arranged at the two sides of the top end of the collecting component 205, and arc-shaped grooves which are uniformly arranged are formed in the inner side of each baffle 208 and used for blocking the polishing agent and the impurities, so that the polishing agent and the impurities are prevented from splashing on the ground; the bearing assembly 3, the inside at polishing equipment 1 and slip subassembly 2 is installed to the bearing assembly 3, the inside of bearing assembly 3 is equipped with a long guide slot, slip subassembly 2 has been inserted in the inside slip of long guide slot, the both ends of bearing assembly 3 are fixed with two deflector 302 respectively, slip inserts a clamp plate 303 between every two deflector 302, the both ends of every clamp plate 303 are equipped with a round hole respectively, the both sides of every clamp plate 303 are equipped with two respectively and press the pole, press fixed block 305 lateral displacement, fixed block 305 centre gripping fixed steel structure, the both ends of every clamp plate 303 welded fastening respectively have a depression bar 304, the intermediate position cross-section of depression bar 304 is circular structure, insert the inside displacement of drive groove 308, drive supporting head 307 automatic lateral displacement, automatic increase supporting area.

Referring to fig. 5, two fixing members 101 are fixed in the polishing apparatus 1, the bottom ends of the fixing members 101 are rectangular frame structures for inserting ejector rods 202, the top ends of the fixing members 101 are T-shaped structures, the two fixing members 101 are symmetrically arranged and support a motor for use, the interiors of the two fixing members 101 are fixedly connected with the motor, the bottom of the motor is in transmission connection with a driving shaft 102, the driving shaft 102 is of a Z-shaped shaft structure, and the driving shaft 102 is inserted into a chute for rotation to drive a stressed member 104 to reciprocate; the bottom of the polishing device 1 is slidably provided with a moving part 103, the moving part 103 is a polishing block and is used for contacting and polishing with a steel structure, the top end of the moving part 103 is fixedly provided with a stressed part 104, the bottom end of the stressed part 104 is inserted into a long groove and slides in a guiding way, the top end of the stressed part 104 is provided with a sliding groove, a driving shaft 102 is inserted into the sliding groove, the left side and the right side of the top end of the stressed part 104 are respectively provided with a push rod in a staggered manner, and the position of the push rod at the right end corresponds to the side edge position of the outer end of the inner plate 106; the two sides of the storage component 105 are respectively fixed with a plugboard 107, the plugboards 107 are inserted into square grooves of the polishing equipment 1 to drive the storage component 105 to be positioned and installed, the outer end of each plugboard 107 is fixed with a clamping plate 108, the outer end of each clamping plate 108 is of a wedge-shaped structure, the inner sides of the clamping plates 108 are provided with arc grooves, the clamping plates 108 are clamped with the pull rods, the clamping plates 108 are firmly connected and fixed, and the clamping plates 108 are made of elastic metal and are clamped with the aid of elastic clamps.

Referring to fig. 6, rotating rods 201 are embedded and installed inside two ends of the bottom of the sliding component 2, so that the sliding component 2 can slide smoothly, two ejector rods 202 are respectively fixed on two sides of the top end of the sliding component 2, the ejector rods 202 are inserted into square holes, the ejector rods 202 are inserted into the fixing pieces 101, and the collecting component 205 and the polishing equipment 1 are controlled to be positioned and installed; the two sides of the sliding component 2 are respectively fixed with a protective piece 203, the protective pieces 203 are composed of elastic metal rods and play a role in protection, the outside of the top end of each protective piece 203 is fixed with a control rod 204, and the protective pieces 203 and the polishing equipment 1 are pulled to move and polish; the two outer sides of the two ends of the collecting assembly 205 are respectively provided with a slot 206, the slots 206 are respectively provided with four slots, two connecting rods 207 are respectively welded at the two inner ends of each baffle 208, and the connecting rods 207 are inserted into the slots 206 to drive the baffles 208 to be conveniently spliced.

Referring to fig. 7 and 8, four supporting blocks 301 are respectively fixed at two ends of the receiving assembly 3, each two supporting blocks 301 are symmetrically arranged, a supporting groove is respectively arranged in each supporting block 301 and at the top end, an outer piece 306 is inserted to guide and move the fixing block 305, the top ends of the guide plates 302 are in a wedge-shaped structure, the steel structures are guided and put in, each two guide plates 302 are symmetrically arranged, a guide rod is arranged outside each guide plate 302, a spring is sleeved outside each guide rod, the pressing plate 303 is pushed to ascend and reset, the guide rods are inserted into round holes of the pressing plate 303, and the top ends of the springs are in contact with the bottom of the pressing plate 303; an outer piece 306 is inserted into the supporting groove of each supporting block 301 in a sliding manner, a fixed block 305 is fixed at the inner end of each outer piece 306, an inclined structure is arranged above the outer end of the fixed block 305, the upper part of the outer end of the fixed block 305 is in sliding contact with a pressing rod, and after the pressing rod moves downwards, the fixed block 305 is driven to move inwards to clamp a fixed steel structure; each pressing rod 304 is slidably connected with two supporting heads 307, the supporting heads 307 are of an inclined structure, the supporting area is enlarged, the inner ends of the supporting heads 307 are slidably inserted into the bearing assembly 3 and the guide plate 302, a driving groove 308 is formed in each supporting head 307, the driving groove 308 is of a Z-shaped structure, the middle position of the inside of each driving groove 308 is of an inclined structure, one pressing rod 304 is slidably inserted into each two driving grooves 308, and after the pressing rods 304 move downwards, the supporting heads 307 are controlled to move transversely, so that the supporting area is enlarged.

Embodiment two: when the polishing agent is not required to be added, the storage component 105 is pulled to move, so that the clamping plate 108 is separated from the clamping connection and fixation with the pull rod.

Specific use and action of the embodiment: in the invention, firstly, the bearing component 3 is controlled to drive the sliding component 2 to move to a proper position, then the collecting component 205 is controlled to be installed, the ejector rod 202 is inserted into the square hole, the two baffles 208 are controlled to be installed, the connecting rod 207 is inserted into the slot 206, the steel structure to be polished is controlled to be placed above the two pressing plates 303, the pressing plates 303 are pressed by gravity to move downwards, the pressing plates 303 drive the pressing rods 304 and the pressing rods to move downwards, the pressing rods 304 move inside the driving grooves 308, the supporting heads 307 automatically move outwards, the supporting effect is increased, the pressing plates 303 simultaneously drive the pressing rods to move, the pressing rods are in sliding contact with the upper parts of the outer ends of the fixed blocks 305, the fixed blocks 305 are pushed to move inwards, the fixed blocks 305 clamp the steel structure, the polishing equipment 1 is controlled to be installed above the sliding component 2, the ejector rod 202 is inserted into the fixed parts 101, the polishing equipment 1 moves downwards by means of gravity, the bottom of the moving part 103 is prevented from being contacted with a steel structure, the storage component 105 is controlled to be installed on the side edge of the polishing equipment 1, the clamping plate 108 is clamped with the pull rod, the polishing agent is controlled to be added into the storage component 105, the motor control switch is turned on, the motor control drive shaft 102 rotates, the driving shaft 102 controls the moving part 103 and the stress part 104 to reciprocate to polish, then the control rod 204 is pulled to drive the sliding component 2 and the polishing equipment 1 to reciprocate to polish, the polishing position is adjusted, when the stress part 104 reciprocates, the pushing rod pushes the inner plate 106 to reciprocate, the inner plate 106 extrudes the polishing agent to automatically discharge and add, after the redundant polishing agent and the thrown impurities are discharged, the redundant polishing agent and the impurities are blocked by the baffle 208, so that the redundant polishing agent and the impurities fall into the collection component 205 to be collected, and the polishing agent and the impurities are prevented from falling on the ground.

Claims (8)

1. The steel structure surface polishing device with high applicability comprises a polishing device (1); the polishing device is characterized in that a storage component (105) is installed on the side edge of the polishing device (1) in an inserting mode, a storage groove is formed in the top end of the storage component (105), liquid outlet heads which are uniformly arranged are arranged at the bottom of the storage component (105), the liquid outlet heads are communicated with the inside of the storage groove, a baffle rod is arranged on the side edge of the top end of the storage component (105), a feeding pipeline is arranged on the side edge of the storage component (105), an inner plate (106) is installed in the storage groove in an inserting mode, the inner plate (106) is of an up-down movable structure, the outer end of the inner plate (106) is of an inverted U-shaped structure, and the two sides of the bottom of the outer end of the inner plate (106) are of an inclined structure; the polishing device comprises a sliding component (2), wherein the sliding component (2) is arranged at the bottom of polishing equipment (1), a collecting component (205) is arranged at the top end of the sliding component (2), two inclined structures are arranged at two sides of the inside of the collecting component (205), two square holes are formed in the collecting component (205), a baffle plate (208) is respectively arranged at two sides of the top end of the collecting component (205), and arc-shaped grooves which are uniformly arranged are formed in the inner side of each baffle plate (208); the polishing device comprises a bearing component (3), wherein the bearing component (3) is arranged in polishing equipment (1) and a sliding component (2), a long guide groove is formed in the bearing component (3), the sliding component (2) is inserted into the long guide groove in a sliding mode, two guide plates (302) are respectively fixed at two ends of the bearing component (3), a pressing plate (303) is inserted between each two guide plates (302) in a sliding mode, a round hole is formed in each of two ends of each pressing plate (303), two pressing rods are respectively arranged on two sides of each pressing plate (303), a pressing rod (304) is respectively welded and fixed at two ends of each pressing plate (303), and the cross section of the middle position of each pressing rod (304) is of a round structure; two fixing pieces (101) are fixed in the polishing equipment (1), the bottom ends of the fixing pieces (101) are of rectangular frame structures, the top ends of the fixing pieces (101) are of T-shaped structures, the two fixing pieces (101) are symmetrically arranged, the inside of the two fixing pieces (101) is fixedly connected with a motor, a driving shaft (102) is connected to the bottom of the motor in a transmission manner, and the driving shaft (102) is of a Z-shaped shaft structure; the bottom slidable mounting of polishing equipment (1) has moving part (103), and moving part (103) is polishing grinding piece, and the top of moving part (103) is fixed with atress spare (104), and the bottom of atress spare (104) inserts inside the elongated slot, and the top of atress spare (104) is equipped with the spout, and drive shaft (102) have been inserted to the inside of spout, and a catch bar is alternately installed respectively on the top left and right sides of atress spare (104), and the catch bar position of right-hand member corresponds with the outer end side position of inner panel (106).

2. The high applicability steel structure surface polishing apparatus according to claim 1, wherein: two sides of the storage component (105) are respectively fixed with a plugboard (107), the plugboards (107) are inserted into square grooves of the polishing equipment (1), the outer end of each plugboard (107) is fixed with a clamping board (108), the outer end of each clamping board (108) is of a wedge-shaped structure, the inner sides of the clamping boards (108) are provided with arc grooves, the clamping boards (108) are connected with the pull rods in a clamping mode, and the clamping boards (108) are made of elastic metal materials.

3. The high applicability steel structure surface polishing apparatus according to claim 1, wherein: rotating rods (201) are embedded and installed in the two ends of the bottom of the sliding component (2), two ejector rods (202) are respectively fixed on two sides of the top end of the sliding component (2), the ejector rods (202) are inserted into the square holes, and the ejector rods (202) are inserted into the fixing pieces (101).

4. The high applicability steel structure surface polishing apparatus according to claim 1, wherein: two sides of the sliding component (2) are respectively fixed with a protective piece (203), the protective pieces (203) are composed of elastic metal rods, and an operating rod (204) is fixed outside the top end of each protective piece (203).

5. The high applicability steel structure surface polishing apparatus according to claim 1, wherein: two outer sides of two ends of the collecting assembly (205) are respectively provided with a slot (206), the number of the slots (206) is four, two connecting rods (207) are welded at two inner sides of each baffle plate (208) respectively, and the connecting rods (207) are inserted into the slots (206).

6. The high applicability steel structure surface polishing apparatus according to claim 1, wherein: four supporting blocks (301) are respectively fixed at two ends of the bearing assembly (3), every two supporting blocks (301) are symmetrically arranged, a supporting groove is respectively formed in the inner portion and the top end of each supporting block (301), the top ends of the guide plates (302) are of wedge-shaped structures, every two guide plates (302) are symmetrically arranged, a guide rod is arranged outside each guide plate (302), a spring is sleeved outside each guide rod, the guide rod is inserted into a round hole of the pressing plate (303), and the top ends of the springs are in contact with the bottom of the pressing plate (303).

7. The high applicability steel structure surface polishing apparatus according to claim 6, wherein: an outer piece (306) is inserted into the supporting groove of each supporting block (301) in a sliding mode, a fixing block (305) is fixed at the inner end of each outer piece (306), an inclined structure is arranged above the outer end of each fixing block (305), and the upper portion of the outer end of each fixing block (305) is in sliding contact with the pressing rod.

8. The high applicability steel structure surface polishing apparatus according to claim 1, wherein: every push down pole (304) sliding connection has two supporting heads (307), and supporting head (307) are slope form structure, and the inside of supporting head (307) is slided and is inserted in the inside of accepting subassembly (3) and deflector (302), and the inside of every supporting head (307) is equipped with one drive groove (308), and drive groove (308) are Z shape structure, and the inside intermediate position of drive groove (308) is slope form structure, and every two drive groove (308) inside slides and has inserted a push down pole (304).