CN203462949U - Thermal-insulation door device for animal house - Google Patents

Abstract

The utility model discloses a thermal-insulation door device for an animal house. The thermal-insulation door device comprises a door frame, a plurality of thermal-insulation doors and a power component, wherein the plurality of thermal-insulation doors are horizontally arranged and installed on the door frame, bottom edges of the plurality of thermal-insulation doors are connected with a bottom border of the door frame through hinges; the top edge of each thermal-insulation door is connected with a sliding pull rod arranged on a top border of the door frame through respective sling; the plurality of thermal-insulation doors are driven by the slings to open/close in the state that the sliding pull rod slides along the top border of the door frame; and the power component is used for driving the pull rod to slide. Due to the structural design of the thermal-insulation door device, the opening and closing of the plurality or multiple rows of thermal-insulation doors as well as opening angles can be controlled simultaneously by only one power component.

Description

Thermal insulation door device for poultry house

Technical field

The utility model relates to poultry house assembly field, specifically, relates to a kind of thermal insulation door device for poultry house.

Background technology

Along with the rising day by day of present livestock and poultry cultivation heat cost, the roller shutter of existing poultry house (curtain) device has increased a lot of unnecessary heat costs in the very big ，Gei of the confession heat waste plant causing the winter of severe cold.The newborn technology that thermal insulation door is this not only can have been replaced the longitudinal ventilation of roller shutter but also can reduce to greatest extent heat waste is arisen at the historic moment.In succession occurred a lot of thermal insulation door products both at home and abroad, these thermal insulation door materials are all roughly panel material & inner clamps core material, and control device is also all used automatic control electric machine and torque arm device, and the junction of door main body and control device also all reinforces.

It is higher that existing thermal insulation door device is installed cost, and a side wall must be controlled thermal insulation door and synchronously opens and closes with being no less than 1 motor.If control the thermal insulation door of both walls simultaneously, synchronously open and close, need multiple electric motors to control simultaneously.In addition, in prior art, chain type turning cylinder must be higher with motor coaxle degree, and the degree of plainness for wall surface of external wall, coplanar degree are had relatively high expectations, and together with arc-shaped chain, these certainly will increase cost.

Utility model content

Technical problem to be solved in the utility model is that existing thermal insulation door device needs multiple electric motors could control the synchronous opening and closing of a plurality of thermal insulation doors, excellent sealing degree of plainness for wall surface, coplanar degree are difficult to realize thermal insulation door and close the in the situation that of low after, controls difficulty and cost higher.

The technical solution of the utility model is as follows:

For a thermal insulation door device for poultry house, comprise doorframe and transversely arranged be arranged on a plurality of thermal insulation doors on described doorframe; The base of described a plurality of thermal insulation doors is connected with the underframe of described doorframe by hinge; Described in each, the Current Collector Sleave of the top margin of thermal insulation door by is separately connected with the sliding tie rod that is arranged on the top frame of described doorframe; At described pull bar, along under the top frame sliding mode of described doorframe, by described Current Collector Sleave, drive described a plurality of thermal insulation door On/Off; Power part, for driving described pull bar to slide.

Further, the described thermal insulation door device for poultry house also comprises: the strip reinforcing rib of flute profile, described in each, on thermal insulation door, fix the described reinforcing rib of a plurality of vertical placements, the two sides of the described reinforcing rib of flute profile and bottom surface are respectively arranged with reinforcing rib side through hole and reinforcing rib bottom surface through hole; The strip torque arm of flute profile, the two sides of the described torque arm of flute profile and bottom surface are respectively arranged with torque arm side through hole and torque arm bottom surface through hole; Torque arm rotating shaft, through described torque arm side through hole and described reinforcing rib side through hole, is rotationally connected by described torque arm rotating shaft between described reinforcing rib and described torque arm, and described torque arm upper end is provided with the torque arm through hole for being connected with described Current Collector Sleave; Screw rod, described screw flight connects described torque arm bottom surface through hole, described reinforcing rib bottom surface through hole, contacts with described thermal insulation door, by the rotation of described screw rod, drives described torque arm to rotate, and adjusts the rate of tension of described Current Collector Sleave.

Further, described power part comprises: motor, hand winch or hydraulic press, for power is provided; Drive disk assembly, drives described pull bar to move for the power by described power part.

Further: described power part is motor or hand winch, described drive disk assembly is wire rope and rope-winding wheel; Described motor or described hand winch connect described rope-winding wheel, and described rope-winding wheel is used for being wound around described wire rope; One end of described wire rope is fixed on described rope-winding wheel, and the other end is fixedly connected with by rope cramp with one end of described pull bar; Described motor or described hand winch drive described rope-winding wheel to rotate, and make described wire rope stretch out or regain, and described wire rope drives described pull bar to move.

Further, the described thermal insulation door device for poultry house also comprises: a plurality of hanged hooks, and a plurality of described hanged hooks are arranged on the top frame of described doorframe, for holding described pull bar; A plurality of positioning pulleys, a plurality of described positioning pulleys are arranged on the top frame of described doorframe, and described in each, positioning pulley matches with a described Current Collector Sleave wherein, adjusts the motion track of described Current Collector Sleave.

Further: described thermal insulation door device comprises many rows; Described each row's thermal insulation door device shares same power part, and the quantity of described wire rope is many, and every wire rope connects the wherein pull bar of a row thermal insulation door device; On described rope-winding wheel, be provided with a plurality of wheel tracks that are arranged in parallel, many described wire rope be arranged in parallel and be synchronously wound around.

Further: the described thermal insulation door for poultry house dress also comprises bound edge and cornerite, described bound edge be shaped as flute profile, for being coated on the upper and lower both sides of described thermal insulation door; Described cornerite be shaped as flute profile, its one end is bent into the angle of 90 °, for being coated on dual-side and four angles of described thermal insulation door; Described in each, thermal insulation door comprises a plurality of warming plates; A side of described warming plate is provided with slot, and adjacent described warming plate is seamless spliced by being inserted into described slot.

Further: the described thermal insulation door device for poultry house also comprises protective cloth, described protective cloth is arranged on the side away from described power part of described thermal insulation door; One side of described protective cloth is crimped in the frame of described doorframe, and the another side of described protective cloth is crimped in the vertical described cornerite of described thermal insulation door.

Further: described thermal insulation door device comprises many rows, also comprise the first flap on the side frame that is arranged on described doorframe and be arranged on the second flap on the top frame of described doorframe, trapezoidal plate and rectangular slab that described the first flap is right angle by angle form, described trapezoidal plate is right-angled trapezium, one side of the described trapezoidal plate at the long end of close described right-angled trapezium is positioned at the top near a side of the described trapezoidal plate at the short end of described right-angled trapezium, one side of the described trapezoidal plate of the right angle waist of close described right-angled trapezium is overlapped on the side frame of described doorframe, one side of described trapezoidal plate and a side of described rectangular slab of the inclination waist of close described right-angled trapezium are connected, described thermal insulation door is closure state, described thermal insulation door is crimped on described rectangular slab, transverse slat and riser that described the second flap is right angle by angle form, described riser straight up, one side overlap joint of the described trapezoidal plate at the long end of described transverse slat and close described right-angled trapezium, described thermal insulation door is closure state, described thermal insulation door and described riser crimping.

Technique effect of the present utility model is as follows:

1, the angular dimension that makes the utility model only use a power part just can control a plurality of, to arrange thermal insulation door unlatchings more simultaneously, close and open by structure design of the present utility model.

2, the parts such as wire rope of the present utility model, pull bar all abut against on metope, and its position is reasonable, very little for the layout impact of other devices in poultry house.

3, the unfolding mode of thermal insulation door of the present utility model, makes air blow to blowing to after roof convection current with it the livestock and poultry on ground along thermal insulation door plane again, and this process can the external air of preheating, reduces livestock and poultry cold stress.

4, thermal insulation door device of the present utility model can be used for longitudinal ventilation after opening, and also can close so that energy-saving heat preserving at heating season.

5, thermal insulation door device simple installation of the present utility model, goes for multiple metope.

Accompanying drawing explanation

Fig. 1 is the structural representation of thermal insulation door device of the present utility model;

Fig. 2 is the structural representation of torque arm of the present utility model and reinforcing rib;

Fig. 3 is the structural representation of the protective cloth of thermal insulation door device of the present utility model;

Fig. 4 is the structural representation of a preferred embodiment of the thermal insulation door device after installation of the present utility model;

Fig. 5 is the structural representation after the installation of the first flap on the side frame of doorframe of the present utility model and the second flap on the frame of top;

Fig. 6 is the first flap of utility model and the structural representation of the second flap;

Fig. 7 is the air-flow schematic diagram at the air intake place of the thermal insulation door device with the first flap and the second flap of the present utility model, and wherein (a) is thermal insulation door closed condition, is (b) thermal insulation door opening;

Fig. 8 is the air-flow schematic diagram at air intake place that is unkitted the thermal insulation door device of the first flap and the second flap;

The crossflow sectional view at air intake place when Fig. 9 is the poultry house ventilation that thermal insulation door device of the present utility model is housed;

Figure 10 is that the poultry house longitudinal ventilation air-flow that thermal insulation door device of the present utility model is housed moves towards figure;

Figure 11 is the crossflow sectional view at air intake place while being unkitted the poultry house longitudinal ventilation of thermal insulation door;

Figure 12 is that the poultry house longitudinal ventilation air-flow that is unkitted thermal insulation door moves towards figure;

Figure 13 is the flow chart of mounting method of the thermal insulation door device for poultry house of the utility model one preferred embodiment.

The specific embodiment

As shown in Figure 1, be the structural representation of thermal insulation door device of the present utility model.

Thermal insulation door device of the present utility model comprises doorframe and transversely arranged is arranged on a plurality of thermal insulation doors 101 on doorframe.The base of a plurality of thermal insulation doors 101 is connected with the underframe 108 of doorframe by hinge, and thermal insulation door 101 can be opened and closed.Doorframe is for being arranged on the wall hole of side wall.Doorframe is the Two bors d's oeuveres rectangle square tube of rectangle square tube or rectangle square tubes soldering.Preferably, by the thick heat zinc coating plate of 1.2mm, (zinc coating thickness is 275g/m to square tube ²) bending is welded, acid-proof alkaline is good.Wherein, the top frame 102 of doorframe is boring rectangular tube, two side frames 301 of doorframe and the underframe 108 of doorframe are Two bors d's oeuveres boring rectangular tube, the intermediate transverse girder of doorframe is Two bors d's oeuveres atresia rectangular tube, the two ends of the intermediate transverse girder of doorframe are stuck in the draw-in groove of leg, then by self tapping, on two side frames 301 that bore nail leg is fixed on doorframe, make the intermediate transverse girder of doorframe be parallel to the top frame 102 of doorframe.

The top margin of each thermal insulation door 101 is connected with the sliding tie rod 103 that is arranged on the top frame 102 of doorframe by Current Collector Sleave 104 separately.Current Collector Sleave 104 can be connected with pull bar 103 by rope cramp 107.At pull bar 103, along under top frame 102 sliding modes of doorframe, by Current Collector Sleave 104, drive a plurality of thermal insulation door 101 On/Off.Power part is used for driving pull bar 103 to slide.Preferably, this Current Collector Sleave 104 is nylon rope, not only has good intensity, also has good toughness, can bear the gravity of thermal insulation door 101, also easily crooked.Preferably, a plurality of hanged hooks are arranged on the top frame 102 of doorframe, for holding pull bar 103, pull bar 103 are slided on a plurality of hanged hooks.Because the rigidity of pull bar 103 is large, in the process opening and closing at thermal insulation door 101, it is less that pull bar 103 is subject to the impact of pulling force of Current Collector Sleave 104, thus the distance that the Current Collector Sleave 104 that has guaranteed to be to greatest extent connected with pull bar 103 moves equate, the angle that each thermal insulation door 101 is opened is consistent.A plurality of positioning pulleys 105 are arranged on the top frame 102 of doorframe, and each positioning pulley 105 matches with a Current Collector Sleave 104 wherein, adjust the motion track of Current Collector Sleave 104.This positioning pulley 105 can be fixed on the top frame 102 of doorframe by hanged hook.

Because each thermal insulation door 101 is connected on same pull bar 103 by Current Collector Sleave 104, therefore the utility model can be only by mechanical connected mode, arrange one with pull bar 103 connections and when driving actuating unit that pull bar 103 moves can realize thermal insulation door 101 opening angle of opening and closing and control thermal insulation door 101 consistent.

Preferably, in order to make the sealing effectiveness of thermal insulation door 101 better, thermal insulation door 101 also comprises bound edge 106 and cornerite 302.Bound edge 106 be shaped as flute profile, for being coated on the upper and lower both sides of thermal insulation door 101.Cornerite 302 be shaped as flute profile, its one end is bent into the angle of 90 °, for being coated on dual-side and four angles of thermal insulation door 101.Between bound edge 106 and doorframe, be provided with weather strip between cornerite 302 and doorframe, the direction that weather strip shrinks towards wall hole, and compress from boring nail by seal trim strip and self tapping.When thermal insulation door device of the present utility model is installed, weather strip can be installed on body of wall, can reduce entering the interference of Air Flow route in poultry house.

Preferably, each thermal insulation door 101 of the present utility model comprises a plurality of warming plates.A side of warming plate is provided with slot.Adjacent warming plate is seamless spliced by being inserted into slot.This structure of warming plate can make these warming plate installation and removal convenient.Warming plate material is preferably as fiberglass sandwich plate, and thickness is preferably 5cm.Two outer side panels of this fiberglass sandwich plate are glass reinforced plastic panel, and thickness is preferably 0.8mm, and fire-protection rating can reach B2, have the characteristic of difficult combustion, the vertical bar texture that upper attached preferred distance is 1cm.Inner Sandwich materials is preferably foamed polystyrene board, and density is not less than 15kg/m ³, fire-protection rating can reach B1, naked light can be lighted, from 2s after fire from putting out.The fire-protection rating of this material is higher than the most of like product in existing market.

As shown in Figure 2, be the structural representation of torque arm of the present utility model and reinforcing rib.

Preferably, this thermal insulation door device also comprises the strip reinforcing rib 204 of flute profile, the strip torque arm 201 of flute profile and screw rod 205.On each thermal insulation door 101, fix the reinforcing rib 204 of a plurality of vertical placements, by four bolts 208, reinforcing rib 204 is fixed on thermal insulation door 101, thermal insulation door 101 back sides are lined with four large pads 209.The two sides of the reinforcing rib 204 of flute profile and bottom surface are respectively arranged with reinforcing rib side through hole and reinforcing rib bottom surface through hole.The two sides of the torque arm 201 of flute profile and bottom surface are respectively arranged with torque arm side through hole and torque arm bottom surface through hole.Torque arm rotating shaft 203 is through torque arm side through hole and reinforcing rib side through hole.Between reinforcing rib 204 and torque arm 201, by torque arm rotating shaft 203, be rotationally connected.Torque arm 201 upper ends are provided with the torque arm through hole 202 for being connected with Current Collector Sleave 104.Screw rod 205 be threaded torque arm bottom surface through hole, reinforcing rib bottom surface through hole, contact with thermal insulation door 101, by the rotation of screw rod 205, drives torque arm 201 to rotate, and adjusts the rate of tension of Current Collector Sleave 104.

Torque arm 201 can be finely tuned the position of thermal insulation door 101 easily.Owing to there is trickle difference in the planeness of surface of wall, now, by adjusting the length of Current Collector Sleave 104, on the locking degree of thermal insulation door 101, affect less, can make 201 pairs of thermal insulation doors of torque arm 101 compress or slightly unclamp by tightening screw rod 205 or Unscrew 205, thereby the locking degree of thermal insulation door 101 is finely tuned.In addition, Current Collector Sleave 104 may occur in the situation that not affecting its use, there is no need in various degree lax Current Collector Sleave 104 to reinstall or debug in the long-term process of using.Now, can make 201 pairs of thermal insulation doors of torque arm 101 compress or slightly unclamp by rotating screw bolt 205, reach the object of the locking degree of adjusting thermal insulation door 101.

As shown in Figure 3, be the structural representation of the protective cloth of thermal insulation door device of the present utility model.

Preferably, the utility model also comprises protective cloth 303.Protective cloth 303 is arranged on the side away from power part of thermal insulation door 101.One side of protective cloth 303 is crimped in the frame 301 of doorframe, and the another side of protective cloth 302 is crimped in the vertical cornerite 302 of thermal insulation door 101.The material of protective cloth 303 is to be quantitatively 230g/m ²double plastic-coated cloth.Protective cloth 303 is equilateral triangle, when thermal insulation door 101, opens when complete, and protective cloth 303 is equilateral triangle.

When thermal insulation door does not add this device away from a side of power part, longitudinally cold air can put down and directly blown to livestock and poultry and cause cold stress with it, and the time has been grown and will cause livestock and poultry cold, is unfavorable near the health of livestock and poultry tail end.Add after this device, cold air can heat in the process of circulation, stops the generation of above problem.In addition, this protective cloth can also prevent that livestock and poultry from slipping away from crack between a door and its frame, the safety of protection livestock and poultry.With flexible double plastic-coated cloth, in the situation that thermal insulation door opens and uses, can play effect as above, no matter after thermal insulation door is closed be, plastic-coated fabric is pressed in below thermal insulation door or other situation can not cause any harmful effect to the sealing of thermal insulation door.

Preferably, power part comprises motor, hand winch or hydraulic press, for power is provided.Power part also comprises drive disk assembly, for the power by power part, drives pull bar to move.Hydraulic press or hand winch be by worm gear, worm-drive, for the slip of pull bar provides power.Motor is by driving wire rope that the pull bar being connected with wire rope is slided.

Preferably, power part is motor or hand winch.When power part is motor or hand winch, preferably adopt following structure setting.

Motor or hand winch connect rope-winding wheel.Rope-winding wheel is for lay winding wire ropes.On rope-winding wheel, be provided with a plurality of wheel tracks that are arranged in parallel, many wire rope be arranged in parallel and be synchronously wound around.One end of wire rope is fixed on rope-winding wheel, and the other end is fixedly connected with by rope cramp with one end of pull bar.Motor Drive rope-winding wheel rotates, and wire rope is stretched out or regain, thereby making wire rope can drive pull bar to move.Steel cable is used for connecting a pull bar, and steel cable is controlled row's thermal insulation door.

When thermal insulation door device comprises many rows, each row's thermal insulation door device shares same power part.Now, the quantity of wire rope is many, and every wire rope connects the wherein pull bar of a row thermal insulation door device.

When thermal insulation door device and power part are arranged on different metopes, this thermal insulation door device can also be provided with a plurality of angle pulleies, bearing of trend for the wire rope between motivation of adjustment parts and pull bar, make wire rope can be close to metope and extend, can not affect the device of other positions in poultry house.

In order to prevent that thermal insulation door drops when Current Collector Sleave surprisingly disconnects, easily injure people, animal fowl by a crashing object or smash other devices, thermal insulation door device of the present utility model can also arrange protective chain.Preferably, the upper end of thermal insulation door connects the top frame of doorframe by protective chain, so that thermal insulation door is stressed evenly, can play a protective role to greatest extent.

As shown in Figure 4, be the structural representation of a preferred embodiment of the thermal insulation door device after installation of the present utility model.

The preferred embodiment comprises two row's thermal insulation doors, and first row thermal insulation door 401 and second row thermal insulation door 402 are respectively arranged on two row's doorframes.Two row's doorframes are arranged on the wall hole of side wall 414.Motor 406 is arranged on the gable 415 adjacent with side wall 414.In order to reduce the tension force of wire rope 412 and wire rope 413 and the friction between wire rope 412 and wire rope 413 and rope-winding wheel, be provided with a plurality of break-in wheels.Intersection place at gable 415 with side wall 414, with respect to first row thermal insulation door 401, Yi Ge corner break-in wheel 408 is set, with respect to second row thermal insulation door 402, Yi Ge corner break-in wheel 409 is set, for making wire rope 412 and wire rope 413 extend from the metope along side wall 414 metope redirecting to along gable 415, extends.Directly over rope-winding wheel, be provided with a break-in wheel 407, wire rope 412 and wire rope 413 were wound around this break-in wheel 407, thereby make wire rope 412 along vertical direction, enter rope-winding wheel with wire rope 413, the friction that can alleviate wire rope 412 and 413 pairs of rope-winding wheels of wire rope is shortened its application life.Preferably, break-in wheel 407 and break-in wheel 408 are horizontally disposed with.For second row thermal insulation door 402, on gable 415, be also provided with break-in wheel 410 and break-in wheel 411, for making to connect wire rope 413 break-ins of the pull bar on second row thermal insulation door 402.Preferably, break-in wheel 410 is positioned on the line of break-in wheel 407 and break-in wheel 408, not only attractive in appearancely also makes the extension of wire rope 413 less on the installation impact of other devices.Break-in wheel 411 be arranged on break-in wheel 410 under, the direction of motion that has limited the wire rope 413 of walking around these two break-ins wheels is vertical, can reduce the friction to two break-ins wheels; And the effect due to the self gravitation of wire rope 413, also can reduce because wire rope 413 extends the tension force bringing at an angle, extend the application life of wire rope 413.Preferably, break-in wheel 411 and break-in wheel 409 are horizontally disposed with, and wire rope 413 along continuous straight runs are extended, and also can reduce the tension force of wire rope 413.

As illustrated in Figures 5 and 6, be the structural representation of the structural representation after the installation of the first flap on the side frame of doorframe of the present utility model and the second flap on the frame of top and the first flap and the second flap.

Preferably, thermal insulation door device comprises many rows, and the utility model also comprises the first flap 501 on the side frame 301 that is arranged on doorframe and is arranged on the second flap 502 on the top frame 102 of doorframe.

Trapezoidal plate 601 and rectangular slab 602 that the first flap 501 is right angle by angle form.Trapezoidal plate 601 is right-angled trapezium.One side of the trapezoidal plate 601 at the long end of close right-angled trapezium is positioned at the top near a side of the trapezoidal plate 601 at the short end of right-angled trapezium.One side of the trapezoidal plate 601 of the right angle waist of close right-angled trapezium is overlapped on the side frame 301 of doorframe.One side of trapezoidal plate 601 and a side of rectangular slab 602 of the inclination waist of close right-angled trapezium are connected.Thermal insulation door is closure state, and thermal insulation door is crimped on rectangular slab 602.

Transverse slat 603 and riser 604 that the first flap 502 is right angle by angle form.Riser 604 straight up.One side overlap joint of the trapezoidal plate 601 at the long end of transverse slat 603 and close right-angled trapezium.Thermal insulation door is closure state, thermal insulation door and riser 604 crimping.

The long end of the right-angled trapezium described in the utility model is a base long in two bases, and the short end is a base shorter in two bases; The right angle waist of right-angled trapezium is a waist perpendicular to two bases, and inclination waist is and waist of two base off plumbs.

The first flap 501 and the second flap 502 are preferably the heat zinc coating plate that 2mm is thick, and wherein the thickness containing zinc layer is 275g/m ².Preferably, when the second flap 502 is when longer, can between the second flap 502 and the underframe 108 of doorframe, stainless steel tube be set, for withstanding the second flap 502, prevent its shakiness.Preferably, on rectangular slab 602 and riser 604, weather strip can be set, so that the sealing effectiveness of thermal insulation door is better.Now, thermal insulation door is crimped on weather strip.

As shown in Figure 7, be the air-flow schematic diagram at the air intake place of the thermal insulation door device with the first flap and the second flap of the present utility model.As shown in Figure 8, for being unkitted the air-flow schematic diagram at air intake place of the thermal insulation door device of the first flap and the second flap.

From the contrast of Fig. 7 and Fig. 8, can find out, this first fold strip has constant slope, and the center of gravity after thermal insulation door is closed is left hinge certain distance.When opening thermal insulation door, thermal insulation door can rely on own wt to open, and saves a part required power that opens the door.Thermal insulation door opening angle hour, this the first flap defines the flow direction of the wind of opening part, make it can directly not blow to the bottom of upper strata thermal insulation door, therefore, upper strata thermal insulation door can not block wind mobile cause wind that wind that air turbulence ，Cong lower floor thermal insulation door opening part enters enters with upper strata thermal insulation door opening part together more parallel blowing to roof, form circulation.While being unkitted the first flap and the second flap, particularly thermal insulation door opening hour there will be the air turbulence as Fig. 8, causes occurring that baffling wind conflicts mutually with the cross-ventilation theory of Fig. 9 below.

When poultry house is the poultry house with side room air intake, thermal insulation door device is for longitudinal ventilation and insulation.Now, two of the poultry house side walls that are oppositely arranged all need to install thermal insulation door.Now, the rope-winding wheel of thermal insulation door device of the present utility model is two, is all connected with motor.Break-in wheel can be sister block, is respectively used to the thermal insulation door arranging on a side side wall.Other arrange identical with arranging of thermal insulation door device on one-sided side wall.Therefore, the thermal insulation door in same motor opening and closing simultaneously both walls, and make its opening angle consistent.While as shown in Figure 9 and Figure 10, being respectively the poultry house ventilation that thermal insulation door device of the present utility model is housed, crossflow sectional view and the longitudinal ventilation air-flow at air intake place move towards figure.As shown in Figure 11 and Figure 12, while being respectively the poultry house ventilation of being unkitted thermal insulation door, crossflow sectional view and the longitudinal ventilation air-flow at air intake place move towards figure.As can be seen from the figure, thermal insulation door device of the present utility model has been eliminated the dead corner of air intake downside and inner side, air blows to blowing to after roof convection current with it the livestock and poultry on ground along thermal insulation door plane again, and this process can the external air of preheating, reduces livestock and poultry cold stress.

As shown in figure 13, be the flow chart of the mounting method of the thermal insulation door device for poultry house of the utility model one preferred embodiment.The mounting method of the thermal insulation door device for poultry house of the present utility model is as follows:

Step S1: doorframe is installed

The hole that the underframe of the top frame of doorframe, two side frames of doorframe and doorframe sees through on rectangular tube with expansion bolt is fixed on the body of wall of side wall, with plastics circle plug, top circular hole is shut thereafter.The leg that blocks doorframe intermediate transverse girder is fixed on the side frame of two doorframes with expansion bolt.If run into the hole that span surpasses 3.5m, must reinforce doorframe intermediate transverse girder with square tube beam, leg that draw-in groove is less, L-type junction plate, be specially and block after square tube beam fixing from boring nail with self tapping with the less leg of draw-in groove, then the less leg of draw-in groove is fixed on wall with expansion bolt, L-type junction plate is placed on square tube beam and doorframe intermediate transverse girder, fixing from boring nail with self tapping.With self tapping, from boring nail or bolt and nut, the first flap and the second flap are separately fixed on the side frame of doorframe and the top frame of doorframe, with stainless steel tube, withstand the second flap.

Step S2: weather strip is installed

Weather strip is placed on doorframe, and weather strip press strip is pressed on weather strip subsequently, then with round end self tapping, from boring nail or self-plugging rivet, both is marked closely on doorframe to the direction that weather strip will shrink towards hole.Weather strip can also be arranged on the first flap and the second flap.

Step S3: assembling thermal insulation door, reinforcing rib and torque arm

(1) first with two cornerites, two jiaos of first warming plate have been wrapped and given as security tightly, pulling rivet after corresponding boring.

(2) piece of warming plate successively slot is connected, until reach required length, upper and lower both sides are risen and are given as security tightly with bound edge bag, pulling rivet after corresponding boring.

(3) with two cornerites, two jiaos of last piece warming plate have been wrapped and given as security tightly equally, pulling rivet after corresponding boring.In relevant position, bore warming plate, then reinforcing rib is placed on warming plate, hinge is placed on reinforcing rib, put on bolt, then put overleaf large pad, install locknut.The position that protective chain need to be installed is installed on protective chain between large pad and locknut.

(4) torque arm is installed, then torque arm cushion block and screw rod are installed.

Step S4: thermal insulation door is arranged on doorframe

Vertical parallel the rising to after corresponding height with self tapping of thermal insulation door followed closely or expansion bolt is arranged on doorframe by hinge from boring.

Step S5: protective cloth is installed

With weather strip press strip and self tapping, from boring nail or self-plugging rivet, one side of protective cloth is pressed on the side frame away from the doorframe of a side of power part, another side is pressed on the vertical cornerite of thermal insulation door.

Step S6: power part is installed

(1) in position corresponding to torque arm, with self tapping, from boring nail, expansion flower & stockline hanged hook or half hook, positioning pulley is installed, and one end of prefabricated Current Collector Sleave is fixed in torque arm with screw thread rope clamp, the other end is through positioning pulley.

(2) on the corner of gable and side wall, gable, correspondence position is installed break-in wheel support with correspondence direction, and installs corner's angle pulley;

(3) on gable, motor is installed in corresponding position, then according to the position of the position of motor and break-in wheel, break-in wheel support is installed in relevant position, and hangs up break-in wheel.

(4) pull on pull bar and wire rope, pull bar is connected with wire rope, wire rope is connected with the rope-winding wheel on motor, connects safe and reliable.

(5) connect motor circuit

Step S7: check the sealing of doorframe and wall, sentence tubular type foamed glue and glass cement sealing at poor sealing.

So, complete can be used for longitudinal ventilation, also can be in the thermal insulation door device installation of heating season energy-saving heat preserving.

Claims (10)

1. for a thermal insulation door device for poultry house, it is characterized in that, comprise doorframe and transversely arranged be arranged on a plurality of thermal insulation doors on described doorframe;

The base of described a plurality of thermal insulation doors is connected with the underframe of described doorframe by hinge;

Described in each, the Current Collector Sleave of the top margin of thermal insulation door by is separately connected with the sliding tie rod that is arranged on the top frame of described doorframe; At described pull bar, along under the top frame sliding mode of described doorframe, by described Current Collector Sleave, drive described a plurality of thermal insulation door On/Off;

Power part, for driving described pull bar to slide.

2. the thermal insulation door device for poultry house as claimed in claim 1, is characterized in that, also comprises:

The strip reinforcing rib of flute profile, fixes the described reinforcing rib of a plurality of vertical placements on thermal insulation door described in each, the two sides of the described reinforcing rib of flute profile and bottom surface are respectively arranged with reinforcing rib side through hole and reinforcing rib bottom surface through hole;

The strip torque arm of flute profile, the two sides of the described torque arm of flute profile and bottom surface are respectively arranged with torque arm side through hole and torque arm bottom surface through hole; Torque arm rotating shaft, through described torque arm side through hole and described reinforcing rib side through hole, is rotationally connected by described torque arm rotating shaft between described reinforcing rib and described torque arm, and described torque arm upper end is provided with the torque arm through hole for being connected with described Current Collector Sleave;

Screw rod, described screw flight connects described torque arm bottom surface through hole, described reinforcing rib bottom surface through hole, contacts with described thermal insulation door, by the rotation of described screw rod, drives described torque arm to rotate, and adjusts the rate of tension of described Current Collector Sleave.

3. the thermal insulation door device for poultry house as claimed in claim 1, is characterized in that, described power part comprises:

Motor, hand winch or hydraulic press, for providing power;

Drive disk assembly, drives described pull bar to move for the power by described power part.

4. the thermal insulation door device for poultry house as claimed in claim 3, is characterized in that: described power part is motor or hand winch, and described drive disk assembly is wire rope and rope-winding wheel;

Described motor or described hand winch connect described rope-winding wheel, and described rope-winding wheel is used for being wound around described wire rope;

One end of described wire rope is fixed on described rope-winding wheel, and the other end is fixedly connected with by rope cramp with one end of described pull bar;

Described motor or described hand winch drive described rope-winding wheel to rotate, and make described wire rope stretch out or regain, and described wire rope drives described pull bar to move.

5. the thermal insulation door device for poultry house as claimed in claim 1, is characterized in that, also comprises:

A plurality of hanged hooks, a plurality of described hanged hooks are arranged on the top frame of described doorframe, for holding described pull bar;

A plurality of positioning pulleys, a plurality of described positioning pulleys are arranged on the top frame of described doorframe, and described in each, positioning pulley matches with a described Current Collector Sleave wherein, adjusts the motion track of described Current Collector Sleave.

6. the thermal insulation door device for poultry house as claimed in claim 4, is characterized in that: described thermal insulation door device comprises many rows;

Described each row's thermal insulation door device shares same power part, and the quantity of described wire rope is many, and every wire rope connects the wherein pull bar of a row thermal insulation door device;

On described rope-winding wheel, be provided with a plurality of wheel tracks that are arranged in parallel, many described wire rope be arranged in parallel and be synchronously wound around.

7. the thermal insulation door device for poultry house as claimed in claim 6, is characterized in that, also comprises:

A plurality of angle pulleies, for adjusting the bearing of trend of the wire rope between described power part and described pull bar.

8. the thermal insulation door device for poultry house as claimed in claim 1, is characterized in that: also comprise bound edge and cornerite,

Described bound edge be shaped as flute profile, for being coated on the upper and lower both sides of described thermal insulation door;

Described cornerite be shaped as flute profile, its one end is bent into the angle of 90 °, for being coated on dual-side and four angles of described thermal insulation door;

Described in each, thermal insulation door comprises a plurality of warming plates;

A side of described warming plate is provided with slot, and adjacent described warming plate is seamless spliced by being inserted into described slot.

9. the thermal insulation door device for poultry house as claimed in claim 8, is characterized in that: also comprise protective cloth, described protective cloth is arranged on the side away from described power part of described thermal insulation door;

One side of described protective cloth is crimped in the frame of described doorframe, and the another side of described protective cloth is crimped in the vertical described cornerite of described thermal insulation door.

10. the thermal insulation door device for poultry house as claimed in claim 1, is characterized in that: described thermal insulation door device comprises many rows, also comprises the first flap on the side frame that is arranged on described doorframe and is arranged on the second flap on the top frame of described doorframe;

Trapezoidal plate and rectangular slab that described the first flap is right angle by angle form, described trapezoidal plate is right-angled trapezium, one side of the described trapezoidal plate at the long end of close described right-angled trapezium is positioned at the top near a side of the described trapezoidal plate at the short end of described right-angled trapezium, one side of the described trapezoidal plate of the right angle waist of close described right-angled trapezium is overlapped on the side frame of described doorframe, one side of described trapezoidal plate and a side of described rectangular slab of the inclination waist of close described right-angled trapezium are connected, described thermal insulation door is closure state, described thermal insulation door is crimped on described rectangular slab,

Transverse slat and riser that described the second flap is right angle by angle form, described riser straight up, one side overlap joint of the described trapezoidal plate at the long end of described transverse slat and close described right-angled trapezium, described thermal insulation door is closure state, described thermal insulation door and described riser crimping.

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