CN114279165A - Be applied to cooling arrangement that production hardware fitting used - Google Patents

Abstract

The invention relates to a cooling device, in particular to a cooling device applied to hardware fitting production. Need design one kind conveniently to cool off hardware fitting, work efficiency is high, and carry out the cooling arrangement who is applied to production hardware fitting usefulness of clearance to the oxide layer fast. A cooling device applied to hardware fitting production comprises: the supporting bottom box is provided with a supporting base; the protective cover is arranged on the supporting bottom box; the dust cover is hinged to the supporting bottom box. According to the invention, the electric push rod is started to contract, the electric push rod drives the lifting special-shaped frame to move downwards, the lifting special-shaped frame moves downwards to drive the placing transverse plate to move downwards, the placing transverse plate moves downwards to drive the fittings to move downwards, and the fittings move downwards and are immersed in clear water for cooling.

Description

Be applied to cooling arrangement that production hardware fitting used

Technical Field

The invention relates to a cooling device, in particular to a cooling device applied to hardware fitting production.

Background

Hardware fitting is pouring the shaping after, need cool off the cooling, there are two kinds of quenching and tempering usually, wherein the quenching is to reduce the temperature with hardware fitting rapidly through liquid, improve its hardness, and the tempering makes hardware fitting heat up the cooling repeatedly, improve its toughness, in present current quenching process, generally large-scale hardware fitting uses the instrument to carry out centre gripping hardware fitting usually, then directly put into clear water with hardware fitting, press from both sides out after cooling, so the operation is more troublesome, work efficiency is low, and hardware fitting surface can generate one deck oxide layer, follow-up still needs to clear up the oxide layer.

Therefore, a cooling device applied to hardware fitting production, which is convenient to cool hardware fittings, high in working efficiency and capable of rapidly cleaning an oxide layer, is needed to solve the problems in the prior art.

Disclosure of Invention

Put into the clear water in order to overcome hardware fitting, press from both sides out after cooling, so the operation is more troublesome, and work efficiency is low, and follow-up shortcoming, technical problem that still need clear up the oxide layer: the utility model provides a conveniently cool off hardware fitting, work efficiency is high, and carries out the cooling arrangement who is applied to production hardware fitting usefulness of clearance to the oxide layer fast.

The technical scheme of the invention is as follows: a cooling device applied to hardware fitting production comprises: the supporting bottom box is provided with a supporting base; the protective cover is arranged on the supporting bottom box; the dust cover is hinged on the supporting bottom box; the starting button is arranged on the supporting bottom box; the liquid changing button is arranged on the supporting bottom box; the cooling bottom cylinder is arranged on the supporting bottom box; the lifting mechanism is arranged on the supporting bottom box and is used for driving the accessories to lift; and the cooling mechanism is arranged between the cooling bottom cylinder and the supporting bottom box and is used for cooling the accessories.

Optionally, the lifting mechanism comprises: the electric push rod is arranged on the supporting bottom box; the photoelectric sensor is arranged on the supporting bottom box; the lifting special-shaped frame is arranged on the electric push rod; the number of the supporting guide columns is two, and the supporting guide columns are symmetrically arranged on the supporting bottom box; the placing transverse plate is arranged between the two supporting guide columns in a sliding manner; and the supporting spring is wound on the supporting guide pillar, one end of the supporting spring is connected with the placing transverse plate, and the other end of the supporting spring is connected with the supporting bottom box.

Optionally, the cooling mechanism comprises: the cooling liquid box is arranged on the supporting bottom box; the water pump is arranged on the cooling liquid tank; the liquid inlet pipe is arranged between the water pump and the cooling bottom cylinder; the liquid level sensor is arranged on the cooling bottom cylinder; the first pressure sensor is arranged on the cooling liquid tank; the floating plate is arranged on the first pressure sensor in a sliding manner; the spherical electromagnetic valve is arranged on the supporting bottom box and is connected with the cooling bottom cylinder; and the liquid outlet pipe is arranged on the spherical electromagnetic valve.

Optionally, the device further comprises a rotating mechanism, wherein the rotating mechanism comprises: the positioning transverse plate is arranged on the lifting special-shaped frame; the number of the first reset guide rods is two, and the first reset guide rods are symmetrically arranged on the positioning transverse plate; the driving rack is arranged between the two first reset guide rods in a sliding manner; the first reset spring is wound on the first reset guide rod, one end of the first reset spring is connected with the driving rack, and the other end of the first reset spring is connected with the positioning transverse plate; the limiting transverse plate is arranged on the supporting bottom box; the guide transverse plate is arranged on the support bottom box; the limiting idler wheel is rotatably arranged on the driving rack, and the driving rack is matched with the guide transverse plate; the positioning short shaft is rotatably arranged on the supporting bottom box; the driven gear is arranged on the positioning short shaft, and the driving rack moves downwards to drive the driven gear to rotate; the reversing bottom box is arranged on the supporting bottom box, the positioning short shaft penetrates through the reversing bottom box, and the positioning short shaft is rotatably connected with the reversing bottom box; the vertical rotating shaft is rotatably arranged on the supporting bottom box; the reversing bevel gear component is arranged between the positioning short shaft and the vertical rotating shaft; the number of the second reset guide rods is two, and the second reset guide rods are symmetrically arranged on the supporting bottom box; the number of the positioning bottom blocks is two, and the positioning bottom blocks are symmetrically arranged on the supporting bottom box; the stress circular plate is arranged on the second reset guide rod in a sliding manner; the second return spring is arranged between the stressed circular plate and the second return guide rod; the transmission short shaft is rotatably arranged on the supporting bottom box; the first transmission assembly is arranged between the transmission short shaft and the vertical rotating shaft; the number of the adsorption magnetic blocks (818) is two, and the adsorption magnetic blocks are symmetrically arranged on the first transmission assembly; the hexagonal driving short column is rotatably arranged on the cooling bottom cylinder; the second transmission assembly is arranged between the hexagonal driving short column and the transmission short shaft; driven trompil axle, driven trompil axle rotary type are installed and are being placed the diaphragm, driven trompil axle and the cooperation of hexagonal drive short column.

Optionally, still including clearance mechanism, clearance mechanism includes: the lower pressing column is arranged on the lifting special-shaped frame in a sliding manner; the third return spring is arranged between the lifting special-shaped frame and the lower pressing column; the first pressurizing bottom cylinder is arranged on the supporting bottom box; the driving push rod is arranged on the first pressurizing bottom cylinder in a sliding mode and is matched with the lower pressing column; the fourth return spring is arranged between the driving push rod and the first pressurizing bottom barrel; the second pressurizing bottom cylinder is arranged on the supporting bottom box; a conduit installed between the second pressurized bottom cylinder and the first pressurized bottom cylinder; the driven push rod is arranged on the second pressurizing bottom cylinder in a sliding manner; the fifth return spring is arranged between the driven push rod and the second pressurizing bottom barrel; the connecting transverse plate is arranged on the driven push rod; the second pressure sensor is arranged on the supporting bottom box, and the connecting transverse plate is matched with the second pressure sensor; the material receiving bottom frame is arranged on the cooling bottom cylinder in a sliding mode and is fixedly connected with the connecting transverse plate; the telescopic electromagnetic valve is arranged on the material receiving bottom frame; the connecting vertical plate is arranged on the telescopic electromagnetic valve; the cleaning clamping block is arranged on the connecting vertical plate; the cleaning roller is rotatably arranged on the cleaning clamping block; the cleaning scrapers are two in number, and are symmetrically arranged on the cleaning clamping block.

Optionally, the device further comprises a clamping mechanism, wherein the clamping mechanism comprises: the right number of the positioning upright columns is four, and the positioning upright columns are arranged on the hexagonal driving short column in a sliding mode at intervals; the hexagonal upright posts are arranged among the four positioning upright posts; the sixth return spring is arranged between one of the positioning upright columns and the hexagonal driving short column; twelve third reset guide rods, wherein every two third reset guide rods are arranged on the driven hole shaft at intervals; the positioning clamping plate is arranged between the two third reset guide rods in a sliding manner; a seventh reset spring, wherein the seventh reset spring is wound on the third reset guide rod, one end of the seventh reset spring is connected with the positioning clamping plate, and the other end of the seventh reset spring is connected with the driven hole shaft; the limiting triangular block is arranged on the positioning clamping plate.

Optionally, still include filter mechanism, filter mechanism includes: the supporting bottom plate is arranged on the supporting bottom box; the filter box is arranged on the supporting bottom plate and is connected with the liquid outlet pipe; the filter screen is arranged on the filter box; the liquid discharging pipe is arranged on the filter box.

Optionally, the cooling system further comprises an electric cabinet, the electric cabinet is arranged on one side of the supporting bottom box far away from the cooling liquid box, a switching power supply, a power supply module and a control module are arranged in the electric cabinet, the switching power supply supplies power to cooling equipment applied to hardware fitting production, the power supply module is connected with a power main switch through a circuit, and the control module is electrically connected with the power supply module; the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the starting button, the liquid changing button, the photoelectric sensor, the first pressure sensor, the second pressure sensor and the liquid level sensor are electrically connected with the control module, and the electric push rod, the telescopic electromagnetic valve, the spherical electromagnetic valve and the water pump are connected with the control module through a peripheral circuit.

The beneficial effects are that:

1. according to the invention, the electric push rod is started to contract, the electric push rod drives the lifting special-shaped frame to move downwards, the lifting special-shaped frame moves downwards to drive the placing transverse plate to move downwards, the placing transverse plate moves downwards to drive the fittings to move downwards, and the fittings move downwards and are immersed in clear water for cooling.

2. Under the action of the rotating mechanism, the driven hole shaft reversely rotates to drive the hexagonal driving short column to reversely rotate, and the hexagonal driving short column reversely rotates to drive the accessory to reversely rotate, so that the accessory cooling efficiency can be improved.

3. Under the action of the cleaning mechanism, the cleaning clamping block moves backwards to drive the cleaning roller and the cleaning scraper to move backwards, people can pull the accessory to rotate, and the cleaning roller and the cleaning scraper can clean the accessory, so that an oxide layer can be cleaned.

Drawings

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

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a schematic view of a first partially-separated body structure of the lifting mechanism of the present invention.

Fig. 5 is a schematic diagram of a second partial body structure of the lifting mechanism of the present invention.

Fig. 6 is a schematic view of a first partial body structure of the cooling mechanism of the present invention.

Fig. 7 is a schematic view of a second partial body structure of the cooling mechanism of the present invention.

Fig. 8 is an enlarged schematic view of part a of the present invention.

Fig. 9 is a perspective view of a third part of the cooling mechanism of the present invention.

Fig. 10 is a schematic view of a first partially separated body structure of the rotating mechanism of the present invention.

Fig. 11 is a schematic view of a second partial body structure of the rotating mechanism of the present invention.

Fig. 12 is an enlarged view of part B of the present invention.

Fig. 13 is a perspective view of a third part of the rotating mechanism of the present invention.

FIG. 14 is a schematic view of a first partially assembled body of the cleaning mechanism of the present invention.

FIG. 15 is a schematic view of a second partial body structure of the cleaning mechanism of the present invention.

Fig. 16 is a perspective view of a third part of the cleaning mechanism of the present invention.

Fig. 17 is a perspective view of a fourth embodiment of the present invention.

Fig. 18 is a schematic view of a first partially assembled body of the clamping mechanism of the present invention.

Fig. 19 is a schematic view of a second partially integral construction of the clamping mechanism of the present invention.

Fig. 20 is a perspective view of a third portion of the clamping mechanism of the present invention.

Fig. 21 is an enlarged view of part C of the present invention.

Fig. 22 is a schematic perspective view of a portion of the filter mechanism of the present invention.

FIG. 23 is a block circuit diagram of the present invention.

Fig. 24 is a schematic circuit diagram of the present invention.

The meaning of the reference symbols in the figures: 1-supporting bottom box, 2-supporting base, 3-protective cover, 4-electric control box, 41-dust cover, 42-starting button, 43-liquid changing button, 5-cooling bottom cylinder, 6-lifting mechanism, 61-electric push rod, 62-photoelectric sensor, 63-lifting special-shaped frame, 64-placing transverse plate, 65-supporting guide post, 66-supporting spring, 7-cooling mechanism, 71-cooling liquid box, 72-water pump, 73-liquid inlet pipe, 74-liquid level sensor, 75-floating plate, 76-first pressure sensor, 77-liquid outlet pipe, 78-spherical electromagnetic valve, 8-rotating mechanism, 81-positioning transverse plate, 82-driving rack, 83-first resetting guide rod, 84-first resetting spring, 85-a limiting transverse plate, 86-a guiding transverse plate, 87-a limiting roller, 88-a driven gear, 89-a positioning short shaft, 810-a reversing bottom box, 811-a reversing bevel gear component, 812-a vertical rotating shaft, 813-a first transmission component, 814-a second reset guide rod, 815-a second reset spring, 816-a positioning bottom block, 817-a stress circular plate, 818-an adsorption magnetic block, 819-a transmission short shaft, 820-a second transmission component, 821-a hexagonal driving short column, 822-a driven hole opening shaft, 9-a cleaning mechanism, 91-a lower pressing column, 92-a third reset spring, 93-a driving push rod, 94-a first pressurizing bottom cylinder, 95-a fourth reset spring, 96-a conduit, 97-a second pressurizing bottom cylinder and 98-a driven push rod, 99-fifth return spring, 910-connecting transverse plate, 911-second pressure sensor, 912-material receiving bottom frame, 913-telescopic electromagnetic valve, 914-connecting vertical plate, 915-cleaning clamping block, 916-cleaning roller, 917-cleaning scraper, 10-clamping mechanism, 101-hexagonal upright post, 102-positioning upright post, 103-sixth return spring, 104-positioning clamping plate, 105-third return guide rod, 106-seventh return spring, 107-limiting triangular block, 11-filtering mechanism, 111-filtering box, 112-supporting bottom plate, 113-filtering screen and 114-liquid discharging pipe.

Detailed Description

The following further describes the technical solution with reference to specific embodiments, and it should be noted that: the words upper, lower, left, right, and the like used herein to indicate orientation are merely for the location of the illustrated structure in the corresponding figures. The serial numbers of the parts are themselves numbered herein, for example: first, second, etc. are used solely to distinguish one from another as to objects described herein, and do not have any sequential or technical meaning. The application states that: the connection and coupling, unless otherwise indicated, include both direct and indirect connections (couplings).

Example 1

A cooling device applied to production of hardware accessories is disclosed, as shown in figures 1-9, and comprises a supporting bottom box 1, a supporting base 2, a protective cover 3, a dust cover 41, a starting button 42, a liquid changing button 43, a cooling bottom cylinder 5, a lifting mechanism 6 and a cooling mechanism 7, wherein the supporting base 2 is fixedly connected to the bottom of the supporting bottom box 1, the protective cover 3 is fixedly connected to the rear side of the top of the supporting bottom box 1, the dust cover 41 is hinged to the middle of the right side of the supporting bottom box 1, the starting button 42 is fixedly connected to the middle of the right side of the supporting bottom box 1, the liquid changing button 43 is located on the front side of the starting button 42, the cooling bottom cylinder 5 is embedded in the upper side of the supporting bottom box 1, the lifting mechanism 6 is arranged on the supporting bottom box 1, and the cooling mechanism 7 is arranged between the cooling bottom cylinder 5 and the supporting bottom box 1.

Elevating system 6 is including electric putter 61, photoelectric sensor 62, lift type frame 63, place diaphragm 64, support guide pillar 65 and supporting spring 66, the rear side rigid coupling in support bottom case 1 upper portion has electric putter 61, the upper left portion rigid coupling of rear side has photoelectric sensor 62 in support bottom case 1, be connected with lift type frame 63 on the electric putter 61, the bilateral symmetry rigid coupling in support bottom case 1 upper portion has support guide pillar 65, it places diaphragm 64 to be equipped with the slidingtype between the left and right sides support guide pillar 65, place diaphragm 64 and lift type frame 63 fixed connection, it has supporting spring 66 to wind on the support guide pillar 65, supporting spring 66 one end with place the diaphragm 64 and be connected, the other end is connected with support bottom case 1.

The cooling mechanism 7 comprises a cooling liquid tank 71, a water pump 72, a liquid inlet pipe 73, a liquid level sensor 74, a floating plate 75, a first pressure sensor 76, a liquid outlet pipe 77 and a spherical electromagnetic valve 78, the cooling liquid tank 71 is fixedly connected to the lower side of the front part of the support bottom box 1, the water pump 72 is arranged on the lower side of the left part of the cooling liquid tank 71, the liquid inlet pipe 73 is connected between a water outlet of the water pump 72 and the cooling bottom barrel 5, the liquid level sensor 74 is fixedly connected to the lower left side of the inner front wall of the cooling bottom barrel 5, the first pressure sensor 76 is fixedly connected to the middle front side of the inner bottom part of the cooling liquid tank 71, the floating plate 75 is slidably arranged on the first pressure sensor 76, the spherical electromagnetic valve 78 is fixedly connected to the middle part of the left part of the support bottom box 1, the spherical electromagnetic valve 78 is connected with the cooling bottom barrel 5, and the liquid outlet pipe 77 is connected to the left part of the spherical electromagnetic valve 78.

The main switch of the power supply is pressed by people to electrify the device, initially, a proper amount of clean water is filled in the cooling bottom cylinder 5, the floating plate 75 floats upwards by the clean water, firstly, an operator places the accessories on the placing transverse plate 64, presses the starting button 42 once, the starting button 42 sends a signal, the control module receives the signal and controls the electric push rod 61 to contract, the electric push rod 61 drives the lifting special-shaped frame 63 to move downwards, the lifting special-shaped frame 63 moves downwards and drives the placing transverse plate 64 to move downwards, the supporting spring 66 is compressed, the placing transverse plate 64 moves downwards and drives the accessories to move downwards, the accessories move downwards and are immersed in the clean water for cooling, the photoelectric sensor 62 detects that the lifting special-shaped frame 63 corresponds to the lifting special-shaped frame, the photoelectric sensor 62 sends a signal, the control module receives the signal and controls the electric push rod 61 to stop operating, after the accessories are cooled, the starting button 42 is pressed again, the start button 42 sends out a signal, the control module receives the signal and controls the electric push rod 61 to extend and reset, the lifting special-shaped frame 63 drives the placing transverse plate 64 to move upwards and reset, the supporting spring 66 plays a role in assisting power, then the accessories are taken down for subsequent treatment, if the clear water is used for multiple times and becomes turbid, the liquid changing button 43 is pressed once, the liquid changing button 43 sends out a signal, the control module receives the signal and controls the spherical electromagnetic valve 78 to be opened, the clear water is discharged through the liquid outlet pipe 77, the floating plate 75 moves downwards and resets to be in contact with the first pressure sensor 76 along with the continuous discharge of the clear water, the first pressure sensor 76 sends out a signal, the control module receives the signal and controls the spherical electromagnetic valve 78 to be closed, meanwhile, the control module receives the signal and controls the water pump 72 to work, the clear water is discharged into the cooling bottom cylinder 5 through the liquid inlet pipe 73 by the water pump 72, and the liquid level sensor 74 monitors the water level, when the level sensor 74 detects that the water level is above the control module rating, the level sensor 74 sends a signal, and the control module receives the signal and controls the water pump 72 to stop operating.

Example 2

On the basis of embodiment 1, as shown in fig. 10 to 16, the present invention further includes a rotating mechanism 8, the rotating mechanism 8 includes a positioning transverse plate 81, a driving rack 82, a first reset guide rod 83, a first reset spring 84, a limiting transverse plate 85, a guiding transverse plate 86, a limiting roller 87, a driven gear 88, a positioning short shaft 89, a reversing bottom box 810, a reversing bevel gear assembly 811, a vertical rotating shaft 812, a first transmission assembly 813, a second reset guide rod 814, a second reset spring 815, a positioning bottom block 816, a stress circular plate 817, an adsorbing magnetic block 818, a transmission short shaft 819, a second transmission assembly 820, a hexagonal driving short column 821 and a driven hole-opening shaft 822, the positioning transverse plate 81 is fixedly connected to the rear side of the lifting special-shaped frame 63, the first reset guide rod 83 is fixedly connected to the right portion of the positioning transverse plate 81, the driving rack 82 is slidably arranged between the first reset guide rods 83 on the upper and lower sides, the first reset guide rod 83 is wound with the first reset spring 84, one end of a first reset spring 84 is connected with a driving rack 82, the other end is connected with a positioning transverse plate 81, the upper part of the outer rear side of the supporting bottom box 1 is fixedly connected with a limiting transverse plate 85, the middle part of the outer rear side of the supporting bottom box 1 is provided with a guiding transverse plate 86, the lower part of the driving rack 82 is rotatably provided with a limiting roller 87, the limiting roller 87 is matched with the guiding transverse plate 86, the upper right side of the rear part of the supporting bottom box 1 is rotatably provided with a positioning short shaft 89, the upper right side of the rear part of the supporting bottom box 1 is fixedly connected with a reversing bottom box 810, the positioning short shaft 89 passes through the reversing bottom box 810, the positioning short shaft 89 is rotatably connected with the reversing bottom box 810, the middle part of the lower part of the reversing bottom box 810 is rotatably provided with a vertical rotating shaft 812, the rear part of the positioning short shaft 89 is fixedly connected with a driven gear 88, the driving rack 82 moves downwards to drive the driven gear 88 to rotate, a reversing bevel gear assembly 811 is connected between the upper part of the vertical rotating shaft 812 and the middle part of the positioning short shaft 89, the reversing bevel assembly 811 is composed of two bevel gears, one bevel gear is arranged at the upper part of a vertical rotating shaft 812, the other bevel gear is arranged at the middle part of a positioning short shaft 89, the two bevel gears are meshed, a second reset guide rod 814 is symmetrically and fixedly connected at the left and right side of the lower right part of a supporting bottom box 1, a stress circular plate 817 is slidably arranged on the second reset guide rod 814, a second reset spring 815 is wound between the front side surface of the stress circular plate 817 and the front part of the second reset guide rod 814, a positioning bottom block 816 is symmetrically and fixedly connected at the left and right side of the lower right part of the supporting bottom box 1, a transmission short shaft 819 is rotatably arranged at the front lower side of the right part of the supporting bottom box 1, a first transmission assembly 813 is connected between the upper part of the transmission short shaft 819 and the lower part of the vertical rotating shaft 812, the first transmission assembly 813 comprises two belt pulleys and a belt, one belt pulley is arranged at the upper part of the transmission short shaft 819, the belt is wound between the two belt pulleys, and an adsorption magnetic block 818 is symmetrically and fixedly connected at the left and right side of the rear part of the first transmission assembly 813, the adsorption magnetic block 818 is matched with the stress circular plate 817, a hexagonal driving short column 821 is rotatably arranged on the middle side of the lower portion of the cooling bottom cylinder 5, a second transmission assembly 820 is connected between the lower portion of the hexagonal driving short column 821 and the lower portion of the transmission short shaft 819, the second transmission assembly 820 is composed of two belt pulleys and a belt, one belt is installed on the lower portion of the hexagonal driving short column 821, the other belt is installed on the lower portion of the transmission short shaft 819, the belt is wound between the two belt pulleys, a driven opening shaft 822 is rotatably arranged in the middle of the placement transverse plate 64, and the driven opening shaft 822 is matched with the hexagonal driving short column 821.

The cleaning device also comprises a cleaning mechanism 9, the cleaning mechanism 9 comprises a lower pressing column 91, a third return spring 92, a driving push rod 93, a first pressurizing bottom cylinder 94, a fourth return spring 95, a guide pipe 96, a second pressurizing bottom cylinder 97, a driven push rod 98, a fifth return spring 99, a connecting transverse plate 910, a second pressure sensor 911, a material receiving bottom frame 912, a telescopic electromagnetic valve 913, a connecting vertical plate 914, a cleaning fixture block 915, a cleaning roller 916 and a cleaning scraper 917, the lower pressing column 91 is arranged at the front part of the lifting special-shaped frame 63 in a sliding manner, the third return spring 92 is wound between the front side of the inner top part of the lifting special-shaped frame 63 and the lower part of the lower pressing column 91, the first pressurizing bottom cylinder 94 is arranged at the upper middle side of the rear part of the supporting bottom box 1, the driving push rod 93 is arranged in the first pressurizing bottom cylinder 94 in a sliding manner, the driving push rod 93 is matched with the lower pressing column 91, the fourth return spring 95 is fixedly connected between the bottom end of the driving push rod 93 and the inner side of the first pressurizing bottom cylinder 94, a second pressurizing bottom barrel 97 is arranged on the upper right side of the front portion of the supporting bottom box 1, a guide pipe 96 is connected between the second pressurizing bottom barrel 97 and the first pressurizing bottom barrel 94, a driven push rod 98 is arranged in the second pressurizing bottom barrel 97 in a sliding mode, a fifth return spring 99 is wound between the inner side of the second pressurizing bottom barrel 97 and the rear portion of the driven push rod 98, a connecting transverse plate 910 is fixedly connected to the front portion of the driven push rod 98, a second pressure sensor 911 is arranged on the upper right side of the front portion of the supporting bottom box 1, the connecting transverse plate 910 is matched with the second pressure sensor 911, a material receiving bottom frame 912 is arranged on the upper side of the front portion of the cooling bottom barrel 5 in a sliding mode, the material receiving bottom frame 912 is fixedly connected with the connecting transverse plate 910, a telescopic electromagnetic valve 913 is fixedly connected to the middle side of the front portion of the material receiving bottom frame 912, a connecting vertical plate 914 is connected to the telescopic electromagnetic valve 913, a cleaning clamping block is fixedly connected to the upper portion of the connecting 914, a cleaning clamping block 915 is rotatably provided with a cleaning roller 916 in a rotating mode, and cleaning scraping plates 917 are fixedly connected to the upper and lower sides of the inner rear portion of the cleaning clamping block 915.

When the electric push rod 61 contracts, the lifting special-shaped frame 63 moves downwards to drive the positioning transverse plate 81 to move downwards, the positioning transverse plate 81 moves downwards to drive the driving rack 82 to move downwards, the driving rack 82 moves downwards to be meshed with the driven gear 88, the driving rack 82 drives the driven gear 88 to rotate reversely, the driven gear 88 rotates reversely to drive the positioning short shaft 89 to rotate reversely, the positioning short shaft 89 rotates reversely to drive the vertical rotating shaft 812 to rotate forwards through the reversing bevel gear assembly 811, the vertical rotating shaft 812 rotates forwards to drive the first transmission assembly 813 to rotate forwards, the first transmission assembly 813 rotates forwards to drive the adsorption magnetic block 818 to rotate forwards, the right stress circular plate 817 moves forwards through the forward rotation of the adsorption magnetic block 818, the right second return spring 815 is compressed, meanwhile, the lifting special-shaped frame 63 moves downwards to drive the driven hole opening shaft 822 to move downwards, the driven hole opening shaft 822 moves downwards to be sleeved on the six-side driving short column 821, and the driving rack 82 continues to move downwards to be contacted with the guiding transverse plate 86, the driving rack 82 moves leftwards due to the guiding transverse plate 86, the first return spring 84 is compressed, the driving rack 82 moves leftwards and is separated from the driven gear 88, due to the action of the second return spring 815, the right force bearing circular plate 817 moves backwards and returns to enable the magnetic adsorption block 818 to rotate reversely, the magnetic adsorption block 818 rotates reversely to drive the first transmission assembly 813 to rotate reversely, the first transmission assembly 813 rotates reversely to drive the transmission short shaft 819 to rotate reversely, the transmission short shaft 819 rotates reversely to drive the second transmission assembly 820 to rotate reversely, the second transmission assembly 820 rotates reversely to drive the six-side driving short column 821 to rotate reversely, the six-side driving short column 821 rotates reversely to drive the driven hole shaft 822 to rotate reversely, the driven hole shaft 822 rotates reversely to drive the accessories to rotate reversely, the starting button 42 is pressed once again, the starting button 42 sends a signal, the control module controls the electric push rod 61 to extend and return after receiving the signal, the lifting special-shaped frame 63 drives the placing transverse plate 64 to move upwards and return, the driving rack 82 also moves upward to be separated from the limiting transverse plate 85, the driving rack 82 also moves rightward to be reset due to the action of the first return spring 84, and the hexagonal driving stub 821 moves upward to be separated from the driven opening shaft 822, so that the cooling efficiency of the accessories can be increased.

When the electric push rod 61 contracts, the lifting special-shaped frame 63 moves downwards to drive the lower pressing column 91 to move downwards, the lower pressing column 91 moves downwards to drive the driving push rod 93 to move downwards, the third return spring 92 plays a role in buffering, the fourth return spring 95 is compressed, hydraulic oil is filled in the guide pipe 96, the driving push rod 93 moves downwards, the driven push rod 98 moves forwards through the hydraulic oil, the fifth return spring 99 is compressed, the driven push rod 98 moves forwards to drive the connecting transverse plate 910 to move forwards, the connecting transverse plate 910 moves forwards to drive the material receiving bottom frame 912 to push forwards, the material receiving bottom frame 912 pushes forwards to drive the telescopic electromagnetic valve 913 to move forwards, the telescopic electromagnetic valve 913 moves forwards to drive the cleaning fixture block 915 to move forwards, the starting button 42 is pressed once, the starting button 42 sends a signal, the control module receives the signal and controls the electric push rod 61 to extend and reset, due to the action of the fifth return spring 99, the driven push rod 98 drives the connecting transverse plate 910 to move backwards and reset, due to the action of the fourth reset spring 95, the driving push rod 93 drives the lower pressing column 91 to move upwards and reset, meanwhile, the connecting transverse plate 910 moves backwards to be in contact with the second pressure sensor 911, the second pressure sensor 911 sends a signal, the control module receives the signal and controls the telescopic solenoid valve 913 to contract for 5 seconds, the telescopic solenoid valve 913 drives the connecting vertical plate 914 to move backwards, the connecting vertical plate 914 moves backwards to drive the cleaning fixture block 915 to move backwards, the cleaning fixture block 915 moves backwards to drive the cleaning roller 916 and the cleaning scraper 917 to move backwards, people can pull the accessory to rotate, the cleaning roller 916 and the cleaning scraper 917 can also clean the accessory, after 5 seconds, the control module controls the telescopic solenoid valve 913 to extend and reset, the cleaning fixture block 915 also drives the cleaning roller 916 and the cleaning scraper 917 to move forwards and reset, and then the accessory is taken down for subsequent processing, thus, the oxide layer can be cleaned.

Example 3

On the basis of the embodiments 1 and 2, as shown in fig. 17 to 22, the clamping device 10 further includes a clamping mechanism 10, the clamping mechanism 10 includes a hexagonal column 101, a positioning column 102, a sixth return spring 103, a positioning clamp 104, a third return guide 105, a seventh return spring 106, and a limit triangular block 107, four positioning columns 102 are arranged on the upper portion of a hexagonal driving stub 821 in a sliding manner at intervals, the hexagonal column 101 is fixedly connected between the top ends of the four positioning columns 102, the sixth return spring 103 is connected between the bottom end of the most medial positioning column 102 and the interior of the hexagonal driving stub 821, twelve third return guide 105 are arranged on a driven opening shaft 822 at intervals, every two third return guide 105 are a group of the third return guide 105, the positioning clamp 104 is arranged between the two third return guide 105 in a sliding manner, the seventh return spring 106 is wound on the third return guide 105, one end of the seventh return spring 106 is connected with the positioning clamp 104, the other end is connected with a driven opening shaft 822, and the upper part of the outer side surface of the positioning splint 104 is fixedly connected with a limit triangular block 107.

Still including filter mechanism 11, filter mechanism 11 is including filter tank 111, supporting baseplate 112, filter screen 113 and casting pipe 114, and the middle part rigid coupling has supporting baseplate 112 under the outer left surface of supporting baseplate 1, and supporting baseplate 112 top rigid coupling has filter tank 111, and filter tank 111 is connected with drain pipe 77, and the lower side rigid coupling of filter tank 111 left part has and is connected with casting pipe 114, and the inboard upper portion rigid coupling of filter tank 111 has filter screen 113.

When the placing transverse plate 64 drives the accessory to move downwards, the placing transverse plate 64 also drives the driven opening shaft 822 to move downwards, the driven opening shaft 822 moves downwards to be in contact with the hexagonal upright post 101, the hexagonal upright post 101 is inserted into the driven opening shaft 822, the hexagonal upright post 101 enables the positioning clamping plate 104 to move outwards, the seventh return spring 106 is compressed, the positioning clamping plate 104 moves outwards to drive the limiting triangular blocks 107 to move outwards, the limiting triangular blocks 107 move outwards to limit the accessory, the driven opening shaft 822 drives the hexagonal upright post 101 to move downwards, the hexagonal upright post 101 moves downwards to drive the positioning upright post 102 to move downwards, the sixth return spring 103 is compressed, the placing transverse plate 64 drives the driven opening shaft 822 to move upwards to return, the sixth return spring 103 plays a boosting role, the driven opening shaft 822 continues to move upwards to return to be separated from the hexagonal upright post 101, and due to the effect of the seventh return spring 106, the positioning clamp plate 104 drives the limiting triangular block 107 to move inwards to reset, so that the accessory is prevented from falling off when moving.

Firstly, an operator places a collection container under a liquid discharge pipe 114, when clear water is discharged through a liquid discharge pipe 77, clear water is discharged into a filter box 111, a filter screen 113 screens impurities, the screened clear water is discharged into the collection container through the liquid discharge pipe 114, after all clear water is discharged, the collection container is taken up for subsequent treatment, and therefore, the discharged wastewater can be screened.

As shown in fig. 2, 23 and 24, the cooling device further comprises an electric cabinet 4, the electric cabinet 4 is installed on the lower side of the rear portion of the supporting bottom box 1, a switching power supply, a power supply module and a control module are included in the electric cabinet 4, the switching power supply supplies power for cooling equipment applied to hardware fitting production, the power supply module is connected with a power supply main switch through a circuit, and the control module is electrically connected with the power supply module; the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the start button 42, the liquid changing button 43, the photoelectric sensor 62, the first pressure sensor 76, the second pressure sensor 911 and the liquid level sensor 74 are all electrically connected with the control module, and the electric push rod 61, the telescopic electromagnetic valve 913, the spherical electromagnetic valve 78 and the water pump 72 are all connected with the control module through peripheral circuits.

While the disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims and their equivalents. Accordingly, the scope of the present disclosure should not be limited to the above-described embodiments, but should be defined not only by the appended claims, but also by equivalents thereof.

Claims (8)

1. The utility model provides a be applied to cooling arrangement that production hardware fitting used which characterized by including:

the supporting bottom box (1), a supporting base (2) is arranged on the supporting bottom box (1);

the protective cover (3), the protective cover (3) is installed on the supporting bottom box (1);

the dust cover (41), the dust cover (41) is hinged on the supporting bottom box (1);

a start button (42), the start button (42) being mounted on the support chassis (1);

the liquid changing button (43), the liquid changing button (43) is arranged on the supporting bottom box (1);

the cooling bottom cylinder (5), the cooling bottom cylinder (5) is installed on the supporting bottom box (1);

the lifting mechanism (6) is arranged on the supporting bottom box (1) and is used for driving accessories to lift;

and the cooling mechanism (7) is arranged between the cooling bottom cylinder (5) and the supporting bottom box (1) and is used for cooling the accessories.

2. A cooling device for use in the production of hardware accessories, as claimed in claim 1, wherein the lifting mechanism (6) comprises:

the electric push rod (61), the electric push rod (61) is installed on the supporting bottom box (1);

the photoelectric sensor (62), the photoelectric sensor (62) is installed on the supporting bottom case (1);

the lifting special-shaped frame (63), the lifting special-shaped frame (63) is arranged on the electric push rod (61);

the number of the supporting guide columns (65) is two, and the supporting guide columns (65) are symmetrically arranged on the supporting bottom box (1);

the placing transverse plate (64), the placing transverse plate (64) is installed between the two supporting guide columns (65) in a sliding mode;

and the supporting spring (66), the supporting spring (66) is wound on the supporting guide post (65), one end of the supporting spring (66) is connected with the placing transverse plate (64), and the other end of the supporting spring (66) is connected with the supporting bottom box (1).

3. A cooling device for use in the production of hardware accessories, as claimed in claim 2, characterized in that the cooling means (7) comprise:

a coolant tank (71), wherein the coolant tank (71) is arranged on the supporting bottom box (1);

the water pump (72), the water pump (72) is installed on the cooling liquid tank (71);

the liquid inlet pipe (73), the liquid inlet pipe (73) is installed between the water pump (72) and the cooling bottom cylinder (5);

the liquid level sensor (74), the liquid level sensor (74) is installed on the cooling bottom cylinder (5);

a first pressure sensor (76), wherein the first pressure sensor (76) is installed on the cooling liquid tank (71);

the floating plate (75), the floating plate (75) is installed on the first pressure sensor (76) in a sliding way;

the spherical electromagnetic valve (78), the spherical electromagnetic valve (78) is installed on the supporting bottom box (1), and the spherical electromagnetic valve (78) is connected with the cooling bottom cylinder (5);

the liquid outlet pipe (77), the liquid outlet pipe (77) is installed on the spherical solenoid valve (78).

4. A cooling device for use in the production of hardware accessories, as claimed in claim 3, further comprising a rotary mechanism (8), the rotary mechanism (8) comprising:

the positioning transverse plate (81), the positioning transverse plate (81) is arranged on the lifting special-shaped frame (63);

the number of the first reset guide rods (83) is two, and the first reset guide rods (83) are symmetrically arranged on the positioning transverse plate (81);

the driving rack (82), the driving rack (82) is installed between the two first reset guide rods (83) in a sliding manner;

the first return spring (84), the first return spring (84) winds on the first return guide rod (83), one end of the first return spring (84) is connected with the driving rack (82), and the other end of the first return spring (84) is connected with the positioning transverse plate (81);

the limiting transverse plate (85), the limiting transverse plate (85) is arranged on the supporting bottom box (1);

the guide transverse plate (86), the guide transverse plate (86) is installed on the support bottom box (1);

the limiting idler wheel (87), the limiting idler wheel (87) is rotatably arranged on the driving rack (82), and the driving rack (82) is matched with the guide transverse plate (86);

the positioning short shaft (89) is rotatably arranged on the supporting bottom box (1);

the driven gear (88), the driven gear (88) is installed on the positioning short shaft (89), the driving rack (82) moves downwards and can drive the driven gear (88) to rotate;

the reversing bottom box (810), the reversing bottom box (810) is installed on the supporting bottom box (1), the positioning short shaft (89) penetrates through the reversing bottom box (810), and the positioning short shaft (89) is rotatably connected with the reversing bottom box (810);

the vertical rotating shaft (812), the vertical rotating shaft (812) is rotatably arranged on the supporting bottom box (1);

the reversing bevel gear component (811), the reversing bevel gear component (811) is arranged between the positioning short shaft (89) and the vertical rotating shaft (812);

the number of the second reset guide rods (814) is two, and the second reset guide rods (814) are symmetrically arranged on the supporting bottom box (1);

the number of the positioning bottom blocks (816) is two, and the positioning bottom blocks (816) are symmetrically arranged on the supporting bottom box (1);

the stress circular plate (817) is slidably mounted on the second reset guide rod (814);

the second return spring (815), the second return spring (815) is installed between forced circular plate (817) and second reset guide arm (814);

the transmission short shaft (819), the transmission short shaft (819) is installed on the supporting bottom box (1) in a rotating mode;

the first transmission assembly (813), the first transmission assembly (813) is installed between the transmission short shaft (819) and the vertical rotating shaft (812);

the number of the adsorption magnetic blocks (818) is two, and the adsorption magnetic blocks (818) are symmetrically arranged on the first transmission assembly (813);

the hexagonal driving short column (821), the hexagonal driving short column (821) is installed on the cooling bottom cylinder (5) in a rotating mode;

a second transmission assembly (820), the second transmission assembly (820) being mounted between the hexagonal drive stub (821) and the transmission stub shaft (819);

driven trompil axle (822), driven trompil axle (822) rotary type is installed and is being placed diaphragm (64), and driven trompil axle (822) and hexagonal drive short column (821) cooperation.

5. A cooling device for use in the production of hardware accessories, as claimed in claim 4, further comprising a cleaning mechanism (9), the cleaning mechanism (9) comprising:

the lower pressing column (91), the lower pressing column (91) is installed on the lifting special-shaped frame (63) in a sliding manner;

the third return spring (92), the third return spring (92) is installed between lifting special-shaped frame (63) and the lower pressing column (91);

a first pressurized bottom cylinder (94), the first pressurized bottom cylinder (94) being mounted on the support bottom box (1);

the driving push rod (93), the driving push rod (93) is installed on the first pressurizing bottom cylinder (94) in a sliding mode, and the driving push rod (93) is matched with the lower pressing column (91);

a fourth return spring (95), the fourth return spring (95) being installed between the driving push rod (93) and the first pressurizing bottom cylinder (94);

a second pressurized bottom tube (97), the second pressurized bottom tube (97) being mounted on the support bottom case (1);

a conduit (96), the conduit (96) being mounted between the second pressurized bottom cylinder (97) and the first pressurized bottom cylinder (94);

the driven push rod (98), the driven push rod (98) is installed on the second pressurizing bottom cylinder (97) in a sliding way;

a fifth return spring (99), the fifth return spring (99) being installed between the driven push rod (98) and the second pressurizing bottom cylinder (97);

the connecting transverse plate (910), the connecting transverse plate (910) is arranged on the driven push rod (98);

the second pressure sensor (911), the second pressure sensor (911) is installed on the supporting bottom box (1), and the connecting transverse plate (910) is matched with the second pressure sensor (911);

the material receiving bottom frame (912), the material receiving bottom frame (912) is slidably mounted on the cooling bottom barrel (5), and the material receiving bottom frame (912) is fixedly connected with the connecting transverse plate (910);

the telescopic electromagnetic valve (913), the telescopic electromagnetic valve (913) is installed on the material receiving bottom frame (912);

the connecting vertical plate (914), the connecting vertical plate (914) is installed on the telescopic electromagnetic valve (913);

the cleaning clamping block (915), the cleaning clamping block (915) is arranged on the connecting vertical plate (914);

the cleaning roller (916), the cleaning roller (916) is rotatably arranged on the cleaning clamping block (915);

the cleaning scrapers (917) are two in proper amount, and the cleaning scrapers (917) are symmetrically arranged on the cleaning clamping block (915).

6. A cooling device for use in the production of hardware accessories, as claimed in claim 5, further comprising a clamping mechanism (10), the clamping mechanism (10) comprising:

the positioning columns (102), the number of the positioning columns (102) is four, and the positioning columns (102) are arranged on the hexagonal driving short column (821) in a sliding mode at intervals;

the six-side type upright post (101), wherein the six-side type upright post (101) is arranged among the four positioning upright posts (102);

the sixth return spring (103), the sixth return spring (103) is installed between one of the positioning columns (102) and the hexagonal driving stub (821);

twelve third reset guide rods (105), wherein every two third reset guide rods (105) are arranged on the driven hole opening shaft (822) at intervals;

the positioning clamp plate (104), the positioning clamp plate (104) is arranged between the two third reset guide rods (105) in a sliding manner;

a seventh reset spring (106), wherein the seventh reset spring (106) is wound on the third reset guide rod (105), one end of the seventh reset spring (106) is connected with the positioning clamping plate (104), and the other end of the seventh reset spring (106) is connected with the driven opening shaft (822);

the limiting triangular block (107), the limiting triangular block (107) is installed on the positioning splint (104).

7. A cooling device for use in the production of hardware accessories, as claimed in claim 6, further comprising a filter mechanism (11), the filter mechanism (11) comprising:

the supporting bottom plate (112), the supporting bottom plate (112) is installed on the supporting bottom box (1);

the filter box (111), the filter box (111) is installed on the supporting bottom plate (112), the filter box (111) is connected with the liquid outlet pipe (77);

the filter screen (113), the filter screen (113) is installed on the filter box (111);

a liquid discharging pipe (114), and the liquid discharging pipe (114) is arranged on the filter box (111).

8. The cooling device applied to the production of hardware accessories of claim 7, further comprising an electric cabinet (4), wherein the electric cabinet (4) is installed at one side of the supporting bottom box (1) far away from the cooling liquid box (71), the electric cabinet (4) internally comprises a switching power supply, a power supply module and a control module, the switching power supply supplies power to the cooling device applied to the production of hardware accessories, the power supply module is connected with a main power switch through a circuit, and the control module is electrically connected with the power supply module; the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the starting button (42), the liquid changing button (43), the photoelectric sensor (62), the first pressure sensor (76), the second pressure sensor (911) and the liquid level sensor (74) are all electrically connected with the control module, and the electric push rod (61), the telescopic electromagnetic valve (913), the spherical electromagnetic valve (78) and the water pump (72) are all connected with the control module through a peripheral circuit.

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