CN112495883B - Environment-friendly immersion oil device is used in chain production - Google Patents

Abstract

The invention relates to an oil immersion device, in particular to an environment-friendly oil immersion device for chain production. The invention provides an environment-friendly oil immersion device for chain production, which can remove rust on a chain, wipe off water on the chain, convey the chain to a specified position, and immerse and drag the chain. The utility model provides an environment-friendly immersion oil device is used in chain production, including: the top of the base is symmetrically and fixedly connected with the first supporting rods; the material storage frame is connected between the two first supporting rods, the number of the material storage frames is one, and the shape of the material storage frames is square. The chain cleaning device is provided with the rust remover soaking and fishing mechanism which is matched with the automatic fishing and wiping conveying rotating mechanism, so that chains in the material storage frame can be fished out; the water wiping mechanism is matched with the automatic fishing and wiping conveying rotating mechanism, and the work of wiping the rust remover on the chain can be realized.

Description

Environment-friendly immersion oil device is used in chain production

Technical Field

The invention relates to an oil immersion device, in particular to an environment-friendly oil immersion device for chain production.

Background

The chain is generally a metal chain link or a metal ring, and is used for mechanical transmission and traction, but in order to prolong the service life of the chain, workers in a chain factory generally can manually polish and immerse the chain, and after the chain is immersed in oil, the workers need to manually scoop up the chain from the oil.

Therefore, to above-mentioned prior art problem, we have designed one kind and can remove rust to the chain, can wipe off the water on the chain simultaneously, can carry the chain to assigned position moreover to can carry out the immersion oil to the chain and with the chain environment-friendly immersion oil device for chain production that drags for.

Disclosure of Invention

In order to overcome the defects that great labor is required for manual derusting of the chain by workers, long time is required for the workers to dip the oil into the chain, and the manual fishing process of the chain by the workers is complicated, the technical problems of the invention are as follows: the utility model provides a can remove rust to the chain, can wipe the water on the chain simultaneously, can carry the chain to assigned position moreover to can carry out the immersion oil to the chain and drag for the chain production with environment-friendly immersion oil device.

The technical scheme is as follows: the utility model provides an environment-friendly immersion oil device is used in chain production, including:

the top of the base is symmetrically and fixedly connected with the first supporting rods;

the material storage frame is connected between the two first supporting rods, the number of the material storage frames is one, and the material storage frames are square;

the rust remover soaking and fishing mechanism is arranged in the material storage frame in a sliding mode;

the water wiping mechanism is arranged on the material storage frame and matched with the rust remover soaking and fishing mechanism;

the top of the base is provided with a conveying mechanism;

the oil soaking mechanism is positioned below the water wiping mechanism, the oil soaking mechanism is welded at the top of the base and is positioned below the conveying mechanism.

Preferably, the rust remover soaking and fishing mechanism comprises:

the two sides of the material storage frame are symmetrically provided with the first sliding sleeves;

the hopper-shaped screening frame is arranged in the material storage frame in a sliding mode, and two sides of the hopper-shaped screening frame are in sliding fit with the first sliding sleeve;

the funnel-shaped screening frame is sleeved with a first spring, and two ends of the first spring are connected to the funnel-shaped screening frame and the first sliding sleeve respectively.

Preferably, the water wiping mechanism comprises:

the material storage frame is provided with a connecting frame;

the first rotating shafts are rotatably connected between the two sides of the connecting frame, and the number of the first rotating shafts is four;

the rotating wiping rod is installed on the first rotating shaft and matched with the rotating wiping rod.

Preferably, the conveying mechanism includes:

the top of the base is symmetrically provided with two second support rods;

the top ends of the two second support rods are rotatably provided with two second rotating shafts, and the number of the second rotating shafts is two;

the conveying assembly is connected between the two second rotating shafts;

the baffle, the connecting frame bottom symmetry is equipped with the baffle, and the bottom and the conveying subassembly top contact of baffle.

Preferably, the oil soaking mechanism comprises:

the oil drain frame is welded at the top of the base, and the number of the oil drain frames is one;

the oil drain frame is provided with a scraper runner, and the lower part of the scraper runner is positioned below the conveying assembly;

the bottom end of the scraper runner is fixedly connected with the collecting frame.

Preferably, the device further comprises a decontamination mechanism, wherein the decontamination mechanism comprises:

the middle of the top of the base is welded with the connecting fixed plate;

the bottom of the oil drainage frame is symmetrically and fixedly connected with second sliding sleeves, the two second sliding sleeves are internally provided with first connecting rods in a sliding manner, and the upper parts of the first connecting rods are in sliding fit with the connecting fixing plate;

the first connecting rod is sleeved with a first spring, and two ends of the first spring are respectively connected to the first sliding sleeve and the first connecting rod;

the fixed frame, stock frame bottom are equipped with fixed frame, and fixed frame slidable formula is equipped with the push away hole pole, push away the hole pole and leak hopper-shaped screening frame slidable formula cooperation.

Preferably, still including automatic dragging for and wiping and carry rotary mechanism, automatic dragging for and wiping and carry rotary mechanism including:

the lower parts of the two first connecting rods are fixedly connected with the wedge-shaped push block;

the wedge-shaped pushing block is fixedly connected with a first rack;

the bottom ends of the two-sided wedge blocks and the funnel-shaped screening frame are fixedly connected with the two-sided wedge blocks;

the top end of the first rack is welded with a second rack;

the transmission assembly is connected between the first rotating shafts;

the end part of the first rotating shaft is provided with a first straight gear;

the end part of the first rotating shaft is provided with a fourth straight gear, the first straight gear is in contact fit with the fourth straight gear, and the second rack is in contact fit with the first straight gear and the fourth straight gear;

and the end part of the second rotating shaft is fixedly connected with a second straight gear, and the first rack is in contact fit with the second straight gear.

Preferably, the device also comprises a self-fishing mechanism, wherein the self-fishing mechanism comprises:

the end part of the wedge-shaped push block is welded with the bevel driving block;

the top of the base is symmetrically and fixedly connected with the first stop block;

the connecting frame is symmetrically provided with a third sliding sleeve;

the oil drain frame is internally provided with a screening material carrying plate in a sliding manner, and connecting blocks are symmetrically arranged on two sides of the top of the screening material carrying plate;

the second connecting rods are arranged in the two third sliding sleeves in a sliding mode, and the bottom ends of the second connecting rods are rotatably connected with the corresponding connecting blocks;

the bottom ends of the two second connecting rods are symmetrically sleeved with a first torsion spring, and two ends of the first torsion spring are respectively connected to the second connecting rods and the connecting block;

the upper parts of the two second connecting rods are sleeved with third springs, and two ends of each third spring are connected to the third sliding sleeve and the second connecting rod respectively;

the pushing bending rods are fixedly connected to the two third sliding sleeves and are in contact fit with the screening belt material plate;

the lower part of the second connecting rod is rotatably provided with a first rotating wedge-shaped block which is in contact fit with the inclined plane driving block;

the lower part of the second connecting rod is sleeved with a second torsion spring, and two ends of the second torsion spring are respectively connected to the second connecting rod and the first rotating wedge-shaped block;

and the screening belt material plates are rotatably provided with rotary material sliding plates, and the rotary material sliding plates are in contact fit with the oil drainage frame.

Preferably, the automatic residue collecting device further comprises an automatic residue collecting mechanism, wherein the automatic residue collecting mechanism comprises:

the wedge-shaped push block is welded with a third rack;

the residue collecting box is fixedly connected with the bottom of the connecting fixed plate, the rotating plate is rotatably arranged between the middle parts of the connecting fixed plates;

and the end part of the rotating plate is provided with a third straight gear, and the third straight gear is in contact fit with the third rack.

Preferably, the automatic constant pressure device further comprises an automatic constant pressure mechanism, wherein the automatic constant pressure mechanism comprises:

the lower part of the first connecting rod is fixedly connected with a wedge-shaped pushing block;

the lower part of the fixed frame is fixedly connected with a second stop block;

the bottom end of the fixed frame is rotatably provided with a second rotating wedge block;

and the bottom end of the fixing frame is sleeved with a third torsion spring, and two ends of the third torsion spring are respectively connected to the fixing frame and the second rotating wedge block.

Compared with the prior art, the invention has the following advantages:

1. the chain cleaning device is provided with the rust remover soaking and fishing mechanism which is matched with the automatic fishing and wiping conveying rotating mechanism, so that chains in the material storage frame can be fished out;

2. the water wiping mechanism is matched with the automatic fishing and wiping conveying rotating mechanism, so that the work of wiping the rust remover on the chain can be realized;

3. the conveying mechanism is matched with the automatic fishing and wiping conveying rotating mechanism, so that the conveying work of the chain can be realized;

4. the oil soaking mechanism is matched with the self-fishing mechanism, so that the chain can be fished up after oil immersion, and the probability of cleaning hands of workers is reduced.

Drawings

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

Fig. 2 is a schematic view of the three-dimensional structure of the rust remover soaking and fishing mechanism.

Fig. 3 is a schematic three-dimensional structure diagram of the water wiping mechanism of the invention.

Fig. 4 is a schematic perspective view of the conveying mechanism of the present invention.

Fig. 5 is a schematic perspective view of the oil-soaking mechanism of the present invention.

Fig. 6 is a perspective view of a first portion of the decontamination mechanism of the present invention.

Fig. 7 is a perspective view of a second portion of the decontamination mechanism of the present invention.

Fig. 8 is a schematic perspective view of the first part of the automatic scooping and wiping conveying rotating mechanism of the present invention.

Fig. 9 is a schematic perspective view of the second part of the automatic scooping and wiping conveying rotating mechanism of the present invention.

FIG. 10 is a perspective view of a first portion of the self-scooping mechanism of the present invention.

FIG. 11 is a perspective view of a second portion of the self-scooping mechanism of the present invention.

Fig. 12 is a schematic perspective view of the automatic residue collection mechanism of the present invention.

Fig. 13 is a schematic perspective view of the automatic constant pressure mechanism of the present invention.

Number designation in the figure: 1: base, 2: first support rod, 3: material storage frame, 4: rust remover soaks drags for mechanism, 41: first runner, 42: funnel-shaped screening frame, 43: first spring, 5: water wiping mechanism, 51: connection frame, 52: first rotating shaft, 53: rotating the wiping rod, 6: conveying mechanism, 61: second support bar, 62: second rotation shaft, 63: transfer assembly, 64: baffle, 7: oil bubbling mechanism, 71: oil drain frame, 72: scraper flow passage, 73: collection frame, 8: decontamination mechanism, 81: connection fixing plate, 82: second runner, 83: first connecting rod, 84: second spring, 85: fixing frame, 86: push rod, 9: automatic drag for and wipe transport rotary mechanism, 91: wedge-shaped push block, 92: first rack, 93: two-sided wedge block, 94: second rack, 95: transmission assembly, 96: first straight gear, 97: fourth spur gear, 98: second spur gear, 10: self-bailing mechanism, 101: bevel drive block, 102: first stopper, 103: third sliding sleeve, 104: screening area flitch, 105: connection block, 106: second connecting rod, 107: first torsion spring, 108: third spring, 109: push bending rod, 1010: second torsion spring, 1011: first rotating wedge block, 1012: rotating material sliding plate, 11: automatic residue collection mechanism, 1101: third rack, 1102: residue collection box, 1103: rotating plate, 1104: third spur gear, 12: automatic constant pressure mechanism, 1201: wedge-shaped push block, 1202: second stopper, 1203: second rotating wedge block, 1204: a third torsion spring.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

Example 1

The utility model provides an environment-friendly immersion oil device for chain production, as shown in figure 1, including base 1, first bracing piece 2, stock frame 3, the rust remover soaks drags up mechanism 4, wipe water mechanism 5, conveying mechanism 6 and bubble oily mechanism 7, base 1 top front side symmetry rigid coupling has first bracing piece 2, be connected with stock frame 3 between two first bracing pieces 2, stock frame 3 internal sliding type is equipped with the rust remover and soaks drags up mechanism 4, stock frame 3 front side is installed and is wiped water mechanism 5, wipe water mechanism 5 and the cooperation of rust remover soaks up mechanism 4, conveying mechanism 6 is installed to base 1 top front side, conveying mechanism 6 is located and wipes water mechanism 5 below, base 1 top front side welded connection has bubble oily mechanism 7, bubble oily mechanism 7 is located conveying mechanism 6 below.

When a worker needs to remove rust on a chain, the worker firstly needs to pour a proper amount of rust remover into the material storage frame 3, then the worker needs to place the chain on the rust remover soaking and scooping mechanism 4, at the moment, the rust remover in the material storage frame 3 can remove rust on the chain, after the rust remover finishes the rust removal of the chain, the worker needs to pull the rust remover soaking and scooping mechanism 4 upwards, the rust remover soaking and scooping mechanism 4 moves upwards to drive the chain to move upwards, when the chain moves upwards to be temporarily not located in the material storage frame 3, the device realizes the work of scooping up the chain in the material storage frame 3, the scooped chain can slide into the water wiping mechanism 5, the worker needs to control the water wiping mechanism 5 to rotate, the water wiping mechanism 5 can wipe off the rust remover on the chain, the chain after wiping can fall onto the conveying mechanism 6, and the worker controls the conveying mechanism 6 to rotate, the conveying mechanism 6 rotates to drive the chain to move towards the front side, the chain moves towards the front side and can fall into the oil soaking mechanism 7, the oil soaking mechanism 7 can soak the chain, a worker needs to manually fish the chain after oil soaking, if the worker needs to continue to derust and soak another chain, the worker needs to put another chain into the derusting agent soaking and fishing mechanism 4, then the worker needs to rapidly loosen the derusting agent soaking and fishing mechanism 4, the derusting agent soaking and fishing mechanism 4 can slide downwards to reset, the derusting agent soaking and fishing mechanism 4 can drive the chain to move downwards when sliding downwards, so that the chain is located in the material storage frame 3, the derusting agent in the material storage frame 3 can derusting agent the chain, and the device can continuously derust and soak the chain.

Example 2

In a preferred embodiment of the present invention, as shown in fig. 2, the rust remover soaking and scooping mechanism 4 includes a first sliding sleeve 41, a funnel-shaped screening frame 42 and a first spring 43, the first sliding sleeve 41 is symmetrically disposed on the left and right sides of the storage frame 3, the funnel-shaped screening frame 42 is slidably disposed in the storage frame 3, the left and right sides of the funnel-shaped screening frame 42 are slidably engaged with the first sliding sleeve 41, the funnel-shaped screening frame 42 is sleeved with the first spring 43, and two ends of the first spring 43 are respectively connected to the funnel-shaped screening frame 42 and the first sliding sleeve 41.

When the chain is positioned on the funnel-shaped screening frame 42, the chain can be derusted by the rust remover in the material storage frame 3, when the rust remover finishes the derusting work of the chain and the chain needs to be fished out of the rust remover, the worker can pull the funnel-shaped screening frame 42 to slide upwards in the first sliding sleeve 41, the first spring 43 is compressed, the upward sliding of the funnel-shaped screening frame 42 can drive the chain to move upwards, when the chain moves upwards until the chain is temporarily not positioned in the material storage frame 3, the device can realize the fishing work of the chain in the material storage frame 3, when the worker needs to continue the derusting work of the chain, the worker can put another chain on the funnel-shaped screening frame 42, when the chain is positioned on the funnel-shaped screening frame 42, the worker needs to quickly release the funnel-shaped screening frame 42, and the first spring 43 is reset, first spring 43 can promote hourglass hopper-shaped screening frame 42 and slide downwards in first sliding sleeve 41, and hourglass hopper-shaped screening frame 42 slides downwards can drive the chain and move down, and when the chain moved down and was located the rust remover, the rust remover can continue to carry out the work of removing rust to the chain again, and the workman repeats above-mentioned operation just can continuously carry out the work of removing rust to the chain like this.

Example 3

In a preferred embodiment of the present invention, as shown in fig. 1 and fig. 3-13, the water wiping mechanism 5 includes a connecting frame 51, a first rotating shaft 52, and a rotating wiping rod 53, the connecting frame 51 is installed on the front side of the storage frame 3, the first rotating shaft 52 is rotatably connected between the left and right sides of the connecting frame 51, the rotating wiping rod 53 is installed on the first rotating shaft 52, and the rotating wiping rods 53 are engaged with each other.

Because of can leaving some rust remover on the chain that the rust cleaning was accomplished, the rust remover on the chain can influence the chain immersion oil work, so the chain that is dragged for by funnel-shaped screening frame 42 can slide to the link frame 51 in, the chain in the link frame 51 can slide to rotating between the wiping bar 53, the workman need control first pivot 52 at the link frame 51 internal rotation this moment, first pivot 52 is rotatory can drive to rotate wiping bar 53 rotatory, it can clean to rotate the rust remover on the chain to rotate wiping bar 53 rotatory, when the workman need not wipe the work to the rust remover on the chain temporarily, the workman stops control first pivot 52 temporarily in link frame 51 internal rotation can, so the device just can wipe the rust remover on the chain clean, further the immersion oil efficiency of chain has been increased.

Conveying mechanism 6 is including second bracing piece 61, second pivot 62, conveying subassembly 63 and baffle 64, and base 1 top front side right part symmetry is equipped with second bracing piece 61, and two second bracing pieces 61 top rotary types are equipped with second pivot 62, are connected with conveying subassembly 63 between two second pivots 62, and the link frame 51 bottom bilateral symmetry is equipped with baffle 64, and the bottom and the conveying subassembly 63 top contact of baffle 64.

The chain after the wiping is completed can drop to the conveying assembly 63, a worker needs to control the second rotating shaft 62 to rotate in the second supporting rod 61, the second rotating shaft 62 rotates to drive the conveying assembly 63 to rotate, the conveying assembly 63 rotates to drive the chain to move towards the front side, when the worker does not need to move the chain towards the front side temporarily, the worker stops rotating the second rotating shaft 62, therefore, the conveying work of the chain is achieved through the device, and the baffle plate 64 is used for preventing the chain from dropping from the conveying assembly 63.

The oil soaking mechanism 7 comprises an oil discharging frame 71, a scraper runner 72 and a collecting frame 73, the oil discharging frame 71 is welded on the front side of the top of the base 1, the scraper runner 72 is arranged on the rear side of the oil discharging frame 71, the lower part of the scraper runner 72 is positioned below the conveying assembly 63, and the collecting frame 73 is fixedly connected to the bottom end of the scraper runner 72.

The chain moves towards the front side and can fall into the oil drainage frame 71 to perform oil immersion operation, in order to avoid the possibility that the rust remover falls into the oil drainage frame 71 due to the rotation of the conveying assembly 63 and can pollute the oil in the oil drainage frame 71, the rust remover on the conveying assembly 63 can flow into the collecting frame 73 through the scraper runner 72 to be collected, and thus the oil pollution in the oil drainage frame 71 due to the rust remover is effectively avoided.

Still including decontamination mechanism 8, decontamination mechanism 8 is including connecting fixed plate 81, second sliding sleeve 82, head rod 83, second spring 84, fixed frame 85 and push rod 86, the welding has connecting fixed plate 81 in the middle of the base 1 top, the symmetry rigid coupling in oil drain frame 71 bottom has second sliding sleeve 82, two second sliding sleeve 82 internal sliding formula are equipped with head rod 83, head rod 83 upper portion and connecting fixed plate 81 slidingtype cooperation, the cover is equipped with second spring 84 on the head rod 83, the both ends of second spring 84 are connected respectively on second sliding sleeve 82 and head rod 83, stock frame 3 bottom is equipped with 85, fixed frame 85 internal sliding formula is equipped with push rod 86, push rod 86 and the cooperation of leaking hopper-shaped screening frame 42 slidingtype.

In order to prevent rust from blocking the funnel-shaped screening frame 42, the worker pushes the hole pushing rod 86 to slide upward in the storage frame 3, the hole pushing rod 86 moves upward to push the rust in the funnel-shaped screening frame 42 open, meanwhile, the first connecting rod 83 is pushed to slide forwards in the connecting fixing plate 81 and the second sliding sleeve 82, the second spring 84 is compressed, then the worker is required to quickly release the first connecting rod 83, the second spring 84 is reset, the second spring 84 pushes the first connecting rod 83 to slide backwards in the connecting fixing plate 81 and the second sliding sleeve 82, the first connecting rod 83 moves backwards to scrape the rust on the funnel-shaped screening frame 42 onto the connecting fixing plate 81, and the connecting fixing plate 81 can temporarily store the rust, after the worker cleans the rust, the worker needs to loosen the hole pushing rod 86, and the hole pushing rod 86 is moved downwards to be reset under the action of gravity.

The automatic fishing and wiping conveying rotating mechanism 9 is further included, the automatic fishing and wiping conveying rotating mechanism 9 comprises a wedge-shaped pushing block 91, a first rack 92, a two-sided wedge block 93, a second rack 94, a transmission assembly 95, a first straight gear 96, a fourth straight gear 97 and a second straight gear 98, the rear sides of the lower portions of two first connecting rods 83 are fixedly connected with the wedge-shaped pushing block 91, the right side of the left wedge-shaped pushing block 91 is fixedly connected with the first rack 92, the bottom end of a funnel-shaped screening frame 42 is fixedly connected with the two-sided wedge block 93, the top end of the first rack 92 is welded with the second rack 94, the transmission assembly 95 is connected between first rotating shafts 52, the first straight gear 96 is installed at the left end of the rear first rotating shaft 52, the fourth straight gear 97 is installed at the left end of the front first rotating shaft 52, the first straight gear 96 is in contact fit with the fourth straight gear 97, the second rack 94 is in contact with the first straight gear 96 and the fourth straight gear 97, a second spur gear 98 is fixedly connected to the left end of the second rotating shaft 62 at the rear side, and the first rack 92 is in contact fit with the second spur gear 98.

The process that the funnel-shaped screening frame 42 slides in the first sliding sleeve 41 is controlled manually by a worker only, when the first connecting rod 83 moves towards the front side, the first connecting rod 83 can drive the wedge-shaped pushing block 91 to move towards the front side, the wedge-shaped pushing block 91 moves towards the front side and can drive the first rack 92 to move towards the front side, when the wedge-shaped pushing block 91 moves towards the front side to be contacted with the two-sided wedge block 93, the wedge-shaped pushing block 91 can push the two-sided wedge block 93 to move upwards, the two-sided wedge block 93 moves upwards to drive the funnel-shaped screening frame 42 to slide upwards, when the second rack 94 moves towards the front side to be contacted with the first straight gear 96 and the fourth straight gear 97, the second rack 94 can drive the first straight gear 96 and the fourth straight gear 97 to rotate, the first straight gear 96 and the fourth straight gear 97 rotate to drive the transmission assembly 95 to rotate, the transmission assembly 95 rotates to drive the first rotating shaft 52 to rotate, and when the first rack 92 moves towards the front side to be contacted with the second straight gear 98, the first rack 92 can drive the second straight gear 98 to rotate, the first rack 92 can drive the second rotating shaft 62 to rotate, the device can realize that no worker is required to manually rotate the second rotating shaft 62 and push the funnel-shaped screening frame 42 upwards, when the first connecting rod 83 moves towards the rear side, the first connecting rod 83 can drive the wedge-shaped push block 91 to move towards the rear side, the wedge-shaped push block 91 moves towards the rear side and can drive the first rack 92 to move towards the rear side, when the wedge-shaped push block 91 moves towards the rear side and temporarily stops contacting with the two-sided wedge block 93, the first spring 43 has the resetting function, the first spring 43 can push the funnel-shaped screening frame 42 to slide downwards, the funnel-shaped screening frame 42 slides downwards and can drive the wedge-shaped push block 91 to move downwards, the two-sided wedge block 93 can be pushed to move downwards by the downward movement of the wedge-shaped push block 91, and when the second rack 94 moves towards the rear side and temporarily stops contacting with the first straight gear 96 and the fourth straight gear 97, the transmission assembly 95 stops rotating temporarily, the first rotating shaft 52 stops rotating along with the transmission assembly, the second rotating shaft 62 stops rotating along with the first rack 92 when the first rack 92 moves to the rear side and stops contacting with the second straight gear 98 temporarily, and therefore the device can control the second rotating shaft 62 to rotate in the process of pushing the funnel-shaped screening frame 42 to move upwards, and the derusting efficiency is further improved.

The self-fishing device further comprises a self-fishing mechanism 10, the self-fishing mechanism 10 comprises an inclined plane driving block 101, a first blocking block 102, a third sliding sleeve 103, a screening material carrying plate 104, a connecting block 105, a second connecting rod 106, a first torsion spring 107, a third spring 108, a pushing bending rod 109, a second torsion spring 1010, a first rotating wedge 1011 and a rotating sliding plate 1012, the inclined plane driving block 101 is welded at the left end of the left wedge pushing block 91, the first blocking block 102 is symmetrically and fixedly connected to the front side of the top of the base 1, the third sliding sleeve 103 is symmetrically arranged on the front side of the connecting frame 51, the screening material carrying plate 104 is arranged in the oil discharge frame 71 in a sliding manner, the connecting blocks 105 are symmetrically arranged on the left side and the right side of the top of the screening material carrying plate 104, the second connecting rods 106 are arranged in the sliding manner in the two third sliding sleeves 103, the bottom ends of the second connecting rods 106 are rotatably connected with the corresponding connecting blocks 105, the first torsion springs 107 are symmetrically sleeved at the bottom ends of the two second connecting rods 106, two ends of a first torsion spring 107 are respectively connected to the second connecting rod 106 and the connecting block 105, a third spring 108 is sleeved on the upper portions of the two second connecting rods 106, two ends of the third spring 108 are respectively connected to the third sliding sleeves 103 and the second connecting rod 106, a pushing bending rod 109 is fixedly connected to the front sides of the two third sliding sleeves 103, the pushing bending rod 109 is in contact fit with the screening belt material plate 104, a first rotating wedge-shaped block 1011 is rotatably arranged on the lower portion of the left side of the second connecting rod 106, the first rotating wedge-shaped block 1011 is in contact fit with the inclined belt material plate 101, a second torsion spring 1010 is sleeved on the lower portion of the left side of the second connecting rod 106, two ends of the second torsion spring 1010 are respectively connected to the second connecting rod 106 and the first rotating wedge-shaped block 1011, a rotating material plate is rotatably arranged between the front sides of the screening belt material plates 104, and the rotating material plate 1012 is in contact fit with the oil drain frame 71.

The worker manually drags out the chain soaked in the oil discharging frame 71, the oil can be adhered to the hand of the worker, the process of cleaning the hand of the worker is complicated, the wedge-shaped push block 91 moves forwards to drive the inclined surface driving block 101 to move forwards, when the inclined surface driving block 101 moves forwards to be in contact with the first rotating wedge-shaped block 1011, the inclined surface driving block 101 can push the first rotating wedge-shaped block 1011 to move upwards, the first rotating wedge-shaped block 1011 moves upwards to drive the second connecting rod 106 to slide upwards in the third sliding sleeve 103, the third spring 108 is compressed, the second torsion spring 1010 is stretched, the second connecting rod 106 slides upwards to drive the connecting block 105 and the first torsion spring 107 to move upwards, the connecting block 105 moves upwards to drive the screening material plate 104 to move upwards, the screening material plate 104 moves upwards to drive the rotating material plate 1012 to move upwards, the screening material plate 104 moves upwards to drags out the chain soaked in the oil, when the screening material carrying plate 104 moves upwards to contact with the pushing bending rod 109, the pushing bending rod 109 can push the rotating material sliding plate 1012 and the screening material carrying plate 104 to rotate, the first torsion spring 107 is stretched, when the rotating material sliding plate 1012 rotates to be incapable of continuing to rotate, the chain on the screening material carrying plate 104 can slide out through the rotating material sliding plate 1012, the first blocking block 102 plays a limiting role, when the wedge-shaped pushing block 91 moves backwards, the inclined plane driving block 101 can be driven to move backwards, when the inclined plane driving block 101 moves backwards to be temporarily separated from the contact with the first rotating wedge 1011, the second torsion spring 1010 and the third spring 108 reset, the second connecting rod 106 can slide downwards in the third sliding sleeve 103, the second connecting rod 106 slides downwards, the connecting block 105 can drive the connecting block 105 and the first torsion spring 107 to move downwards, the connecting block 105 moves downwards, the screening material carrying plate 104 can drive the rotating material sliding plate 1012 to move downwards, flitch 104 downstream can be driven the chain and move down in the screening, the chain downstream can drive to appear being located oil drain frame 71, oil drain frame 71 can continue to carry out the immersion oil work to the chain again, flitch 104 downstream is taken in the screening to and when temporary stopping and promoting the contact of crooked pole 109, second connecting rod 106 can promote rotatory sliding plate 1012 and screening to take flitch 104 to rotate and reset, so the device can realize automatic fishing out the chain that the immersion oil was accomplished, need not that the workman is manual to fish out the chain, the immersion oil efficiency of the device has further been improved.

The automatic residue collection device is characterized by further comprising an automatic residue collection mechanism 11, wherein the automatic residue collection mechanism 11 comprises a third rack 1101, a residue collection box 1102, a rotation plate 1103 and a third straight gear 1104, the third rack 1101 is welded on the left side of the wedge-shaped push block 91, the residue collection box 1102 is fixedly connected to the bottom of the connecting fixing plate 81, the rotation plate 1103 is rotatably arranged between the middle portions of the connecting fixing plate 81, the third straight gear 1104 is installed at the left end of the rotation plate 1103, and the third straight gear 1104 is in contact fit with the third rack 1101.

In order to avoid the situation that when the amount of iron rust in the connecting and fixing plate 81 is large, iron rust may fall onto the device from the connecting and fixing plate 81, the wedge-shaped pushing block 91 moves forward to drive the third rack 1101 to move forward, when the third rack 1101 moves forward to contact with the third spur gear 1104, the third rack 1101 drives the third spur gear 1104 to rotate, the third spur gear 1104 rotates to drive the rotating plate 1103 to rotate, and at the same time, iron rust falls into the residue collecting box 1102 to be collected, when the wedge-shaped pushing block 91 moves backward to drive the third rack 1101 to move backward, when the third rack 1101 moves backward to contact with the third spur gear 1104, the third rack 1101 drives the third spur gear 1104 to rotate, the rotating plate 1103 rotates to drive the rotating plate 1103 to temporarily block the connecting and fixing plate 81, and at the same time, iron rust may not temporarily fall into the residue collecting box 1102 to be collected, thus, there is no possibility that rust may fall from the inside of the connection fixing plate 81 to the device.

The automatic constant pressure mechanism 12 comprises a wedge-shaped pushing block 1201, a second blocking block 1202, a second rotating wedge 1203 and a third torsion spring 1204, the wedge-shaped pushing block 1201 is fixedly connected to the lower portion of the rear side of the left first connecting rod 83, the second blocking block 1202 is fixedly connected to the lower portion of the fixed frame 85, the second rotating wedge 1203 is rotatably arranged at the bottom end of the hole pushing rod 86, the third torsion spring 1204 is sleeved at the bottom end of the hole pushing rod 86, and two ends of the third torsion spring 1204 are connected to the hole pushing rod 86 and the second rotating wedge 1203 respectively.

Because it is fully considered that great strength is needed when workers manually push the hole pushing rod 86 upwards, when the first connecting rod 83 moves towards the front side, the first connecting rod 83 drives the wedge-shaped pushing block 1201 to move towards the front side, when the wedge-shaped pushing block 1201 moves towards the front side to be contacted with the second blocking block 1202, the wedge-shaped pushing block 1203 is driven to rotate by wedge-shaped pushing, the third torsion spring 1204 is compressed, the second rotating wedge 1203 rotates to push the hole pushing rod 86 to slide upwards, the second blocking block 1202 plays a limiting role, when the first connecting rod 83 moves towards the rear side, the first connecting rod 83 drives the wedge-shaped pushing block 1201 to move towards the rear side, when the wedge-shaped pushing block 1201 moves towards the rear side to temporarily stop being contacted with the second blocking block 1202, the third torsion spring 1204 presses the resetting function, the third torsion spring 1204 drives the second rotating wedge 1203 to rotate to reset, and the hole pushing rod 86 slides downwards to reset, the device realizes that the hole pushing rod 86 can be pushed upwards without great labor consumption of workers, and effectively lightens the labor intensity of the workers.

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 within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (3)

1. The utility model provides an environment-friendly immersion oil device is used in chain production which characterized by: comprises the following steps:

the device comprises a base (1) and first supporting rods (2), wherein the first supporting rods (2) are symmetrically and fixedly connected to the top of the base (1);

the material storage frame (3) is connected between the two first supporting rods (2), the number of the material storage frames (3) is one, and the shape of each material storage frame (3) is square;

the rust remover soaking and fishing mechanism (4) is arranged in the storage frame (3) in a sliding manner;

the water wiping mechanism (5) is arranged on the material storage frame (3), and the water wiping mechanism (5) is matched with the rust remover soaking and fishing mechanism (4);

the conveying mechanism (6) is arranged at the top of the base (1);

the oil soaking mechanism (7), the conveying mechanism (6) is positioned below the water wiping mechanism (5), the oil soaking mechanism (7) is welded at the top of the base (1), and the oil soaking mechanism (7) is positioned below the conveying mechanism (6);

the rust remover soaking and fishing mechanism (4) comprises:

the two sides of the material storage frame (3) are symmetrically provided with the first sliding sleeves (41);

the hopper-shaped screening frame (42) is arranged in the material storage frame (3) in a sliding mode, and two sides of the hopper-shaped screening frame (42) are in sliding fit with the first sliding sleeve (41);

the funnel-shaped screening frame (42) is sleeved with the first spring (43), and two ends of the first spring (43) are respectively connected to the funnel-shaped screening frame (42) and the first sliding sleeve (41);

the water wiping mechanism (5) comprises:

the connecting frame (51) is installed on the material storage frame (3);

the first rotating shafts (52) are rotatably connected between the two sides of the connecting frame (51), and the number of the first rotating shafts (52) is four;

the rotary wiping rod (53), the rotary wiping rod (53) is arranged on the first rotating shaft (52), and the rotary wiping rods (53) are mutually matched;

the conveying mechanism (6) comprises:

the top of the base (1) is symmetrically provided with two second support rods (61), and the number of the second support rods (61) is two;

the top ends of the two second support rods (61) are rotatably provided with two second rotating shafts (62), and the number of the second rotating shafts (62) is two;

the transmission assembly (63) is connected between the two second rotating shafts (62);

the bottom of the connecting frame (51) is symmetrically provided with the baffle plates (64), and the bottom ends of the baffle plates (64) are contacted with the top of the conveying assembly (63);

the oil soaking mechanism (7) comprises:

the oil drain frame (71), the oil drain frame (71) is welded at the top of the base (1), and the number of the oil drain frames (71) is one;

the scraper flow channel (72) is arranged on the oil drain frame (71), and the lower part of the scraper flow channel (72) is positioned below the conveying assembly (63);

the bottom end of the scraper runner (72) is fixedly connected with the collecting frame (73);

still including decontamination mechanism (8), decontamination mechanism (8) including:

the connecting fixing plate (81) is welded in the middle of the top of the base (1);

the bottom of the oil drainage frame (71) is symmetrically and fixedly connected with second sliding sleeves (82), the two second sliding sleeves (82) are internally provided with first connecting rods (83) in a sliding manner, and the upper parts of the first connecting rods (83) are in sliding fit with the connecting fixing plate (81);

the second spring (84) is sleeved on the first connecting rod (83), and two ends of the second spring (84) are respectively connected to the second sliding sleeve (82) and the first connecting rod (83);

the bottom of the storage frame (3) is provided with a fixed frame (85), the fixed frame (85) is internally provided with a hole pushing rod (86) in a sliding manner, and the hole pushing rod (86) is matched with the funnel-shaped screening frame (42) in a sliding manner;

still including automatic dragging for and clean transport rotary mechanism (9), drag for automatically and clean transport rotary mechanism (9) including:

the lower parts of the two first connecting rods (83) are fixedly connected with the wedge-shaped push block (91);

the wedge-shaped push block (91) is fixedly connected with a first rack (92);

the bottom ends of the two-sided wedge blocks (93) and the funnel-shaped screening frame (42) are fixedly connected with the two-sided wedge blocks (93);

the top end of the first rack (92) is welded with the second rack (94);

the transmission assembly (95) is connected between the first rotating shafts (52);

the end part of the first rotating shaft (52) is provided with a first straight gear (96);

the end part of the first rotating shaft (52) is provided with a fourth straight gear (97), the first straight gear (96) is in contact fit with the fourth straight gear (97), and the second rack (94) is in contact fit with the first straight gear (96) and the fourth straight gear (97);

the end part of the second rotating shaft (62) is fixedly connected with a second straight gear (98), and the first rack (92) is in contact fit with the second straight gear (98);

still including self-bailing mechanism (10), self-bailing mechanism (10) including:

the end part of the wedge-shaped push block (91) is welded with the inclined surface driving block (101);

the top of the base (1) is symmetrically and fixedly connected with the first stop block (102);

the third sliding sleeve (103) is symmetrically arranged on the connecting frame (51);

the screening material carrying plate (104), the oil drain frame (71) is internally provided with the screening material carrying plate (104) in a sliding manner, and the two sides of the top of the screening material carrying plate (104) are symmetrically provided with connecting blocks (105);

the second connecting rods (106) are arranged in the two third sliding sleeves (103) in a sliding manner, and the bottom ends of the second connecting rods (106) are rotatably connected with the corresponding connecting blocks (105);

the bottom ends of the two second connecting rods (106) are symmetrically sleeved with the first torsion springs (107), and two ends of each first torsion spring (107) are respectively connected to the second connecting rods (106) and the connecting blocks (105);

the upper parts of the two second connecting rods (106) are sleeved with the third spring (108), and two ends of the third spring (108) are respectively connected to the third sliding sleeve (103) and the second connecting rods (106);

the pushing bent rods (109) are fixedly connected to the two third sliding sleeves (103), and the pushing bent rods (109) are in contact fit with the screening material carrying plate (104);

the lower part of the second connecting rod (106) is rotatably provided with a first rotating wedge-shaped block (1011), and the first rotating wedge-shaped block (1011) is in contact fit with the inclined plane driving block (101);

the lower part of the second connecting rod (106) is sleeved with a second torsion spring (1010), and two ends of the second torsion spring (1010) are respectively connected to the second connecting rod (106) and the first rotating wedge block (1011);

rotatory sliding material board (1012), rotary type are equipped with rotatory sliding material board (1012) between screening area flitch (104), and rotatory sliding material board (1012) and oil drain frame (71) contact cooperation.

2. The environment-friendly oil immersion device for chain production as claimed in claim 1, wherein: still including automatic collection residue mechanism (11), automatic collection residue mechanism (11) including:

the wedge-shaped pushing block (91) is welded with a third rack (1101);

the residue collecting box (1102), the residue collecting box (1102) is fixedly connected to the bottom of the connecting fixing plate (81), the rotating plate (1103) is arranged between the middle parts of the connecting fixing plate (81) in a rotating mode;

and a third spur gear (1104), wherein the end part of the rotating plate (1103) is provided with the third spur gear (1104), and the third spur gear (1104) is in contact fit with the third rack (1101).

3. The environment-friendly oil immersion device for chain production as claimed in claim 2, wherein: still including automatic level pressure mechanism (12), automatic level pressure mechanism (12) including:

the lower part of the first connecting rod (83) is fixedly connected with the wedge-shaped pushing block (1201);

the lower part of the fixed frame (85) is fixedly connected with the second stop block (1202);

the bottom end of the fixed frame (85) is rotatably provided with a second rotating wedge block (1203);

and the bottom end of the fixed frame (85) is sleeved with a third torsion spring (1204), and two ends of the third torsion spring (1204) are respectively connected to the fixed frame (85) and the second rotating wedge block (1203).

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