WO2016049901A1

WO2016049901A1 - Device for manufacturing oil-storing cotton cores

Info

Publication number: WO2016049901A1
Application number: PCT/CN2014/088024
Authority: WO
Inventors: 向智勇
Original assignee: 惠州市吉瑞科技有限公司
Priority date: 2014-09-30
Filing date: 2014-09-30
Publication date: 2016-04-07
Also published as: CN206926147U

Abstract

Provided is a device for manufacturing oil-storing cotton cores, used for manufacturing electronic cigarette components and comprising: a melt blowing apparatus (101), and a meltblown-cotton receiving apparatus used for receiving the meltblown fiber ejected by the melt blowing apparatus; the meltblown-cotton receiving apparatus is provided with a meltblown-fiber receiving sheath rod (102) and a first powered apparatus (103); the meltblown-cotton receiving apparatus is also provided with an externally threaded screw rod (104) and a connecting rod (105); the meltblown-cotton receiving apparatus is also provided with a second powered apparatus (106) used for driving the connecting rod and the screw rod in concomitant rotation; the meltblown-fiber receiving sheath rod is sleeved on the connecting rod; when the rotational speed of the connecting rod and the screw rod is greater than the rotational speed of said meltblown-fiber receiving sheath rod, the screw rod disengages from the cylindrical cotton on the meltblown-fiber receiving sheath rod; the device for manufacturing oil-storing cotton cores also comprises a cooling apparatus (107); the cooling apparatus is provided with a meltblown-fiber receiving sheath rod condensate, used for cooling the meltblown-fiber receiving sheath rod. The cooling apparatus sprays the condensate onto the meltblown-fiber receiving sheath rod, reducing the temperature of the meltblown-fiber receiving sheath rod and effectively causing the meltblown fiber to cool and become formed.

Description

一种储油棉芯制造设备Oil storage cotton core manufacturing equipment

技术领域Technical field

本发明涉及电子烟零部件制作领域，特别是一种储油棉芯制造设备。The invention relates to the field of manufacturing electronic cigarette parts, in particular to an oil storage cotton core manufacturing equipment.

背景技术Background technique

在电子烟构造中，电子烟包括用于存储烟油的储油组件和用于雾化烟油的雾化组件，其中，雾化组件还包括用于雾化烟油的电热丝组件。当电子烟作业时，烟油从储油组件流入雾化组件的雾化腔内，电热丝通过电池杆供电发热，将烟油雾化成烟雾，为了提高电热丝雾化的效率，一般需将烟油均匀存储在电热丝的周围，而现在的电子烟中，将烟油均匀存储在电热丝周围的部件是一种柱状棉。In the electronic cigarette construction, the electronic cigarette includes an oil storage assembly for storing the smoke oil and an atomization assembly for atomizing the smoke oil, wherein the atomization assembly further includes an electric heating wire assembly for atomizing the smoke oil. When the electronic cigarette is in operation, the smoke oil flows from the oil storage assembly into the atomization chamber of the atomization assembly, and the heating wire is heated by the battery rod to atomize the smoke oil into smoke. In order to improve the efficiency of the atomization of the heating wire, the smoke is generally required. The oil is evenly stored around the heating wire, and in the current electronic cigarette, the component that uniformly stores the smoke oil around the heating wire is a kind of columnar cotton.

现有技术中，柱状棉的制作是方法是，熔喷装置向熔丝接收套杆不断喷出熔丝，电机带动熔丝接收套杆不停高速转动，使得粘附在熔丝接收套杆上的熔丝冷却、堆积、逐渐形成柱状，然后将成型的柱状棉脱离熔丝接收套杆。In the prior art, the columnar cotton is produced by the method that the melt-blown device continuously ejects the fuse to the fuse receiving sleeve, and the motor drives the fuse receiving sleeve to rotate at a high speed so as to adhere to the fuse receiving sleeve. The fuses are cooled, stacked, and gradually formed into a column shape, and then the formed columnar cotton is detached from the fuse receiving sleeve.

由于熔丝接收套杆一直在接收熔喷装置喷出的熔丝，熔喷装置喷出的熔丝以及喷出的气流都具有一定的温度，使得熔丝接收套杆上的温度也会越来越高，并且电机一直带动着熔丝接收套杆不停高速转动，也会自身产生很高的温度。而电子烟一般需要的柱状棉直径很小，则要求熔丝接收套杆的直径更小，这样，熔丝接收套杆的外周面面积非常小，所以散热效果极差，就必然导致了熔丝接收套杆上的熔丝不易冷却成型，还可能造成柱状棉内部撕裂、崩断，在将柱状棉脱离熔丝接收套杆时，也会造成熔丝粘附滞留的情况。Since the fuse receiving sleeve always receives the fuse blown by the melt blowing device, the fuse blown by the melt blowing device and the jetted airflow have a certain temperature, so that the temperature on the fuse receiving sleeve will also come. The higher the speed, and the motor always drives the fuse receiving sleeve to rotate at high speed, it will also generate a very high temperature. The diameter of the columnar cotton generally required for the electronic cigarette is small, and the diameter of the fuse receiving sleeve is required to be smaller. Thus, the outer peripheral surface area of the fuse receiving sleeve is very small, so the heat dissipation effect is extremely poor, which inevitably leads to the fuse. The fuse on the receiving sleeve is not easy to be cooled and formed, and the inside of the columnar cotton may be torn and collapsed. When the columnar cotton is detached from the fuse receiving sleeve, the fuse adhesion may also be retained.

发明内容Summary of the invention

有鉴于此，本发明提供了用于制造电子烟部件的一种储油棉芯制造设备。In view of this, the present invention provides an oil storage wick manufacturing apparatus for manufacturing an electronic cigarette component.

一种储油棉芯制造设备，其中，包括：An oil storage cotton core manufacturing equipment, comprising:

熔喷装置及用于接收所述熔喷装置喷出的熔丝以制成柱状的储油棉芯的熔喷棉接收装置；a meltblowing device and a meltblown cotton receiving device for receiving a fuse blown by the meltblown device to form a columnar oil storage wick;

所述熔喷棉接收装置设置有用于粘附熔丝形成柱状棉的熔丝接收套杆，以及带动所述熔丝接收套杆转动的第一动力装置； The meltblown cotton receiving device is provided with a fuse receiving sleeve for adhering the fuse to form the columnar cotton, and a first power device for driving the fuse receiving sleeve to rotate;

所述熔喷棉接收装置还设置有外周面设置有外螺纹的螺纹杆以及与所述螺纹杆紧密连接的连接杆；The melt blown cotton receiving device is further provided with a threaded rod provided with an external thread on the outer peripheral surface and a connecting rod closely connected with the threaded rod;

所述熔喷接收装置还设置有用于带动所述连接杆与所述螺纹杆同步转动的第二动力装置；The melt-blown receiving device is further provided with a second power device for driving the connecting rod to rotate synchronously with the threaded rod;

所述熔丝接收套杆套设在所述连接杆上；The fuse receiving sleeve is sleeved on the connecting rod;

所述熔丝接收套杆设置有连接段及接收段，所述连接段与所述第一动力装置连接；所述接收段用于接收熔丝并与所述螺纹杆贴合；The fuse receiving sleeve is provided with a connecting section and a receiving section, and the connecting section is connected to the first power device; the receiving section is configured to receive a fuse and fit the threaded rod;

当所述连接杆与所述螺纹杆的转速大于所述熔丝接收套杆的转速时，所述螺纹杆将所述熔丝接收套杆上的柱状棉脱离；When the rotation speed of the connecting rod and the threaded rod is greater than the rotation speed of the fuse receiving sleeve, the threaded rod detaches the columnar cotton on the fuse receiving sleeve;

所述储油棉芯制造设备还包括冷却装置；所述冷却装置设置有冷凝物，用于喷射在所述熔丝接收套杆上，冷却所述熔丝接收套杆。The oil storage wick manufacturing apparatus further includes a cooling device; the cooling device is provided with condensate for spraying on the fuse receiving sleeve to cool the fuse receiving sleeve.

所述储油棉芯制造设备，其中，所述冷凝物为冷凝液；The oil storage wick manufacturing apparatus, wherein the condensate is a condensate;

所述冷却装置包括：冷凝机、第一导管、第二导管、以及冷凝密封箱；The cooling device includes: a condenser, a first conduit, a second conduit, and a condensing sealed box;

所述冷凝密封箱套设在所述熔丝接收套杆上；The condensing sealing box is sleeved on the fuse receiving sleeve;

所述冷凝机用于生成所述冷凝液；The condenser is used to generate the condensate;

所述第一导管用于将所述冷凝液传送至所述冷凝密封箱；The first conduit is for conveying the condensate to the condensing sealed box;

所述冷凝密封箱用于阻挡所述冷凝液流入所述接收段上；The condensing sealing box is configured to block the condensate from flowing into the receiving section;

所述第二导管用于将冷凝液排出。The second conduit is for discharging condensate.

所述储油棉芯制造设备，其中，其特征在于，The oil storage wick manufacturing apparatus, wherein

所述冷凝密封箱内还设置有喷嘴，用于将所述冷凝液喷射至所述熔丝接收套杆上。A nozzle is also disposed in the condensing seal box for injecting the condensate onto the fuse receiving sleeve.

所述储油棉芯制造设备，其中，其特征在于，所述冷却装置还包括温度感应器；The oil storage wick manufacturing apparatus, wherein the cooling device further comprises a temperature sensor;

所述温度感应器位于所述熔丝接收套杆的一侧，并靠近所述熔丝接收套杆，使得所述温度感应器能够感应到所述熔丝接收套杆的温度。The temperature sensor is located on one side of the fuse receiving sleeve and adjacent to the fuse receiving sleeve such that the temperature sensor can sense the temperature of the fuse receiving sleeve.

当所述温度感应器感应到所述熔丝接收套杆的温度达到预置温度值时，所述温度感应器控制所述冷凝机生成冷凝液，并将所述冷凝液通过所述第一导管传送至所述冷凝密封箱内，喷洒所述冷凝液至所述熔丝接收套杆上；When the temperature sensor senses that the temperature of the fuse receiving sleeve reaches a preset temperature value, the temperature sensor controls the condenser to generate condensate, and passes the condensate through the first conduit Transmitting into the condensing sealed box, spraying the condensate onto the fuse receiving sleeve;

当所述温度感应器感应到所述熔丝接收套杆的温度小于预置温度值时，所述温度感应器控制所述冷凝机暂停生成冷凝液。When the temperature sensor senses that the temperature of the fuse receiving sleeve is less than a preset temperature value, The temperature sensor controls the condenser to suspend the generation of condensate.

所述储油棉芯制造设备，其中，所述冷却装置还包括冷凝液接收槽以及冷凝液吸取装置；The oil storage wick manufacturing apparatus, wherein the cooling device further comprises a condensate receiving tank and a condensate suction device;

所述冷凝液接收槽与所述第二导管连接，用于接收从所述冷凝液密封箱内排出的冷凝液；The condensate receiving tank is connected to the second conduit for receiving condensate discharged from the condensate sealed box;

所述冷凝液吸取装置位于所述冷凝液接收槽内并设置有吸取管；The condensate suction device is located in the condensate receiving tank and is provided with a suction pipe;

所述冷凝液吸取装置用于将所述冷凝液接收槽内的冷凝液通过所述吸取管传送至所述冷凝机内。The condensate suction device is configured to transfer condensate in the condensate receiving tank to the condenser through the suction pipe.

所述储油棉芯制造设备，其中，所述冷凝物为冷气；The oil storage wick manufacturing apparatus, wherein the condensate is cold air;

所述螺纹杆与所述连接杆内部均设置为空心，所述螺纹杆与所述连接杆连接形成冷却通道；The threaded rod and the connecting rod are both disposed hollow inside, and the threaded rod is connected with the connecting rod to form a cooling passage;

所述冷却装置包括冷气喷送机以及冷气喷送管；The cooling device includes a cold air jet machine and a cold air spray pipe;

所述冷气喷送管与所述连接杆连通；The cold air blowing pipe is in communication with the connecting rod;

所述冷气喷送机用于，生成所述冷气并通过所述冷气喷送管喷送到所述冷却通道内。The cold air jetting machine is configured to generate the cold air and spray it into the cooling passage through the cold air blowing pipe.

所述储油棉芯制造设备，其中，所述储油棉芯制造设备还包括碾压部件；The oil storage core manufacturing apparatus, wherein the oil storage core manufacturing apparatus further comprises a rolling component;

所述碾压部件用于碾压从所述熔丝接收套杆脱离的柱状棉。The rolling member is used to crush columnar cotton detached from the fuse receiving sleeve.

所述储油棉芯制造设备，其中，The oil storage core manufacturing device, wherein

所述碾压部件包括：若干个滚筒、以及用于支撑所述滚筒的滚筒支撑架；The rolling component includes: a plurality of rollers, and a roller support for supporting the roller;

当所述被所述柱状棉移动至所述碾压部件内时，所述滚筒与所述柱状棉紧密贴合同步运动。When the columnar cotton is moved into the rolling member, the drum and the columnar cotton are in close contact with each other to move synchronously.

所述储油棉芯制造设备还包括棉芯接收槽、以及用于固定所述接收槽的固定块；The oil storage wick manufacturing apparatus further includes a cotton core receiving groove, and a fixing block for fixing the receiving groove;

所述棉芯接收槽用于接收被所述碾压部件碾压过的柱状棉。The wick receiving groove is for receiving cylindrical cotton that has been crushed by the rolling member.

所述熔喷棉接收装置还设置有用于连接所述熔丝接收套杆与所述第一动力装置的第一连接部件；The melt blown cotton receiving device is further provided with a first connecting member for connecting the fuse receiving sleeve and the first power device;

所述第一连接部件设置有第一齿轮，第一空心轴，以及固定第一空心轴的第一轴承，以及用于容置所述第一轴承的第一轴承座，所述第一齿轮套设在所述第一空心轴上，所述第一空心轴套设在所述第一轴承上，所述第一轴承套设在所述第一轴承座上，所述熔丝接收套杆的连接段与所述第一空心轴连接；The first connecting member is provided with a first gear, a first hollow shaft, and a first hollow shaft fixed a first bearing, and a first bearing seat for accommodating the first bearing, the first gear sleeve is sleeved on the first hollow shaft, and the first hollow shaft is sleeved on the first bearing The first bearing sleeve is sleeved on the first bearing seat, and the connecting portion of the fuse receiving sleeve rod is connected to the first hollow shaft;

所述连接部件还设置有第二齿轮，所述第一动力装置与所述第二齿轮连接；The connecting member is further provided with a second gear, and the first power device is connected to the second gear;

所述连接部件还设置有第一传送带，所述传送带套设在所述第一齿轮与所述第二齿轮上，用于当所述第二齿轮转动时带动所述第一齿轮转动。The connecting member is further provided with a first conveyor belt, and the conveyor belt is sleeved on the first gear and the second gear for driving the first gear to rotate when the second gear rotates.

所述熔喷棉接收装置还设置有用于连接所述连接杆与所述第二动力装置的第二连接部件；The meltblown cotton receiving device is further provided with a second connecting member for connecting the connecting rod and the second power device;

所述第二连接部件设置有第三齿轮，第二空心轴，以及固定第二空心轴的第二轴承，以及用于容置所述第二轴承的第二轴承座，所述第三齿轮套设在所述第二空心轴上，所述第二空心轴套设在所述第二轴承上，所述第二轴承套设在所述第二轴承座上，所述连接杆与所述第二空心轴连接；The second connecting member is provided with a third gear, a second hollow shaft, and a second bearing fixing the second hollow shaft, and a second bearing seat for accommodating the second bearing, the third gear sleeve Provided on the second hollow shaft, the second hollow shaft is sleeved on the second bearing, the second bearing is sleeved on the second bearing seat, the connecting rod and the first Two hollow shaft connections;

所述第二连接部件还设置有第四齿轮，所述第二动力装置与所述第四齿轮连接；The second connecting member is further provided with a fourth gear, and the second power device is connected to the fourth gear;

所述第二连接部件还设置有第二传送带，所述第二传送带套设在所述第三齿轮与所述第四齿轮上，用于当所述第四齿轮转动时带动所述第三齿轮转动。The second connecting member is further provided with a second conveyor belt, and the second conveyor belt is sleeved on the third gear and the fourth gear for driving the third gear when the fourth gear rotates Turn.

所述储油棉芯制造设备，其中，所述接收段沿其轴向不同位置处的横截面呈凸多边形。The oil storage wick manufacturing apparatus, wherein a cross section of the receiving section at different positions along the axial direction thereof is a convex polygon.

所述储油棉芯制造设备还设置有用于固定所述熔喷装置以及所述熔喷棉接收装置的底板。The oil storage wick manufacturing apparatus is further provided with a bottom plate for fixing the melt blowing device and the melt blasting cotton receiving device.

本发明实施例中提供一种储油棉芯制造设备，用于电子烟部件的制作，包括：熔喷装置及用于接收所述熔喷装置喷出的熔丝以制成柱状的储油棉芯的熔喷棉接收装置，熔喷棉接收装置设置有用于粘附熔丝形成柱状棉的熔丝接收套杆，以及带动熔丝接收套杆转动的第一动力装置，熔喷棉接收装置还设置有外周面设置有外螺纹的螺纹杆以及与螺纹杆紧密连接的连接杆，熔喷接收装置还设置有用于带动连接杆与螺纹杆同步转动的第二动力装置，熔丝接收套杆套设在连接杆上，熔丝接收套杆设置有连接段及接收段，连接段与所述第一动力装置连接，接收段用于接收熔丝并与螺纹杆贴合，当连接杆与螺纹杆的转速大于所述熔丝接收套杆的转速时，螺纹杆将熔丝接收套杆上的柱状棉脱离，储油棉芯制造设备还包括冷却装置，冷却装置设置有喷射熔丝接收套杆的冷凝物，用于冷却熔丝接收套杆。这样，因为冷却装置将冷凝物喷射在熔丝接收套杆上，降低了熔丝接收套杆的温度，有效地使熔丝冷却成型，避免了熔丝堆积，柱状棉内部撕裂的情况。An embodiment of the present invention provides an oil storage cotton core manufacturing apparatus for manufacturing an electronic cigarette component, comprising: a melt blowing device and a fuse for receiving the melted spray device to form a columnar oil storage cotton a meltblown cotton receiving device of the core, the meltblown cotton receiving device is provided with a fuse receiving sleeve for adhering the fuse to form the columnar cotton, and a first power device for driving the fuse receiving sleeve to rotate, the meltblown cotton receiving device further The utility model is provided with a threaded rod provided with an external thread on the outer peripheral surface and a connecting rod closely connected with the threaded rod, and the melt blowing receiving device is further provided with a second power device for driving the connecting rod and the threaded rod to rotate synchronously, and the fuse receiving sleeve is sleeved On the connecting rod, the fuse receiving sleeve is provided with a connecting section and a receiving section, the connecting section is connected with the first power device, and the receiving section is for receiving the fuse and fitting with the threaded rod, when connecting the rod and the threaded rod When the rotation speed is greater than the rotation speed of the fuse receiving sleeve, the threaded rod disengages the columnar cotton on the fuse receiving sleeve, and the oil storage core manufacturing device further comprises a cooling device, and the cooling device is provided with the condensation of the injection fuse receiving sleeve Object for cooling the fuse receiving sleeve. Thus, since the cooling device sprays the condensate on the fuse receiving sleeve, the temperature of the fuse receiving sleeve is lowered, the fuse is effectively cooled, and the fuse is prevented from being piled up, and the inside of the cylindrical cotton is torn.

附图说明DRAWINGS

为了更清楚地说明本发明实施例或现有技术中的技术方案，下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍，显而易见地，下面描述中的附图仅仅是本发明的一些实施例，对于本领域普通技术人员来讲，在不付出创造性劳动的前提下，还可以根据这些附图获得其他的附图。In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the description of the prior art will be briefly described below. Obviously, the drawings in the following description are only It is a certain embodiment of the present invention, and other drawings can be obtained from those skilled in the art without any creative work.

图1为本发明所提供的一种储油棉芯制造设备的结构示意图；1 is a schematic structural view of an oil storage cotton core manufacturing apparatus provided by the present invention;

图2为本发明所提供的一种冷凝物为冷凝液的储油棉芯制造设备的结构示意图；2 is a schematic structural view of a storage cotton core manufacturing apparatus for condensing a condensate according to the present invention;

图3为本发明所提供的另一种冷凝物为冷凝液的储油棉芯制造设备的结构示意图；3 is a schematic structural view of another apparatus for manufacturing a wick of a condensate which is a condensate according to the present invention;

图4为本发明所提供的一种冷凝物为冷气的储油棉芯制造设备的结构示意图；4 is a schematic structural view of a storage cotton core manufacturing apparatus for condensing a cold air according to the present invention;

图5为本发明所提供的一种包括碾压组件的储油棉芯制造设备的结构示意图；FIG. 5 is a schematic structural view of an oil storage wick manufacturing apparatus including a rolling assembly according to the present invention; FIG.

图6为本发明所提供的一种包括连接部件的储油棉芯制造设备的局部剖面示意图。FIG. 6 is a partial cross-sectional view showing a storage wick manufacturing apparatus including a connecting member according to the present invention.

具体实施方式detailed description

本发明公开了一储油棉芯制造设备，以下结合图1所示对本发明所提供的储油棉芯制造设备的具体结构进行详细说明。The invention discloses a storage wick manufacturing equipment. The specific structure of the oil storage wick manufacturing apparatus provided by the present invention will be described in detail below with reference to FIG.

本实施例中，该储油棉芯制造设备包括：In this embodiment, the oil storage wick manufacturing equipment comprises:

熔喷装置101及用于接收所述熔喷装置101喷出的熔丝以制成柱状的储油棉芯的熔喷棉接收装置；a melt blowing device 101 and a fuse for receiving the melt blowing device 101 to form a columnar oil storage Cotton core meltblown cotton receiving device;

所述熔喷棉接收装置设置有用于粘附熔丝形成柱状棉的熔丝接收套杆102，以及带动所述熔丝接收套杆102转动的第一动力装置103；The meltblown cotton receiving device is provided with a fuse receiving sleeve 102 for adhering the fuse to form the columnar cotton, and a first power device 103 for driving the fuse receiving sleeve 102 to rotate;

熔喷装置位于熔丝接收套杆的一侧，并不断向熔丝接收套杆喷送熔丝，第一动力装置带动熔丝接收套杆不停转动，则使得熔丝接收套杆均匀接收熔丝，形成柱状棉。The melt-blown device is located on one side of the fuse receiving sleeve, and continuously sprays the fuse to the fuse receiving sleeve. The first power device drives the fuse receiving sleeve to rotate continuously, so that the fuse receiving sleeve is uniformly received and melted. Silk, forming columnar cotton.

所述熔喷棉接收装置还设置有外周面设置有外螺纹的螺纹杆104以及与所述螺纹杆104紧密连接的连接杆105；The melt blown cotton receiving device is further provided with a threaded rod 104 having an outer peripheral surface provided with an external thread and a connecting rod 105 closely connected with the threaded rod 104;

所述熔喷接收装置还设置有用于带动所述连接杆105与所述螺纹杆104同步转动的第二动力装置106；The melt-blown receiving device is further provided with a second power device 106 for driving the connecting rod 105 to rotate synchronously with the threaded rod 104;

所述熔丝接收套杆102套设在所述连接杆105上；The fuse receiving sleeve 102 is sleeved on the connecting rod 105;

由于螺纹杆与连接杆紧密连接，当第二动力装置带动连接杆转动时，螺纹杆也会一起同步转动，而熔丝接收套杆是套设在连接杆上的，熔丝接收套杆与第一动力装置连接，所以连接杆与螺纹杆的转动不会影响熔丝接收套杆，使其一起转动。Since the threaded rod is tightly connected with the connecting rod, when the second power device drives the connecting rod to rotate, the threaded rod also rotates synchronously, and the fuse receiving sleeve is sleeved on the connecting rod, and the fuse receiving sleeve and the first A power unit is connected, so the rotation of the connecting rod and the threaded rod does not affect the fuse receiving sleeve, causing it to rotate together.

所述熔丝接收套杆102设置有连接段及接收段，所述连接段与所述第一动力装置103连接；所述接收段用于接收熔丝并与所述螺纹杆104贴合；The fuse receiving sleeve 102 is provided with a connecting section and a receiving section, the connecting section is connected to the first power device 103; the receiving section is configured to receive a fuse and fit the threaded rod 104;

当所述连接杆105与所述螺纹杆104的转速大于所述熔丝接收套杆102的转速时，所述螺纹杆104将所述熔丝接收套杆102上的柱状棉脱离；When the rotation speed of the connecting rod 105 and the threaded rod 104 is greater than the rotation speed of the fuse receiving sleeve 102, the threaded rod 104 disengages the columnar cotton on the fuse receiving sleeve 102;

因为熔丝接收套杆与螺纹杆都在接收熔丝，且两者是贴合的，当熔丝粘附在螺纹杆与熔丝接收套杆上形成柱状棉时，则会将螺纹杆与熔丝接收套杆连接，当螺纹杆的转速大于熔丝接收套杆的转速时，由于柱状棉与螺纹杆的摩擦力大于柱状棉与熔丝接收套杆的摩擦力，便使得柱状棉从熔丝接收套杆上脱离。Because the fuse receiving sleeve and the threaded rod are both receiving the fuse, and the two are fitted, when the fuse is adhered to the threaded rod and the fuse receiving sleeve to form the columnar cotton, the threaded rod and the melting will be The wire receiving sleeve is connected. When the rotation speed of the threaded rod is greater than the rotation speed of the fuse receiving sleeve, since the friction between the columnar cotton and the threaded rod is greater than the friction between the columnar cotton and the fuse receiving sleeve, the columnar cotton is obtained from the fuse. The receiving sleeve is detached.

所述储油棉芯制造设备还包括冷却装置107；所述冷却装置107设置有冷凝物，用于喷射在所述熔丝接收套杆102上，冷却所述熔丝接收套杆102。The oil slick core manufacturing apparatus further includes a cooling device 107; the cooling device 107 is provided with condensate for spraying on the fuse receiving sleeve 102 to cool the fuse receiving sleeve 102.

本实施例中，通过冷却装置喷射冷凝物至熔丝接收套杆上，对熔丝接收套杆进行冷却，降低了熔丝接收套杆的温度，有效地使熔丝冷却成型，避免了熔丝堆积，柱状棉内部撕裂的情况。 In this embodiment, the condensate is sprayed onto the fuse receiving sleeve by the cooling device, and the fuse receiving sleeve is cooled, the temperature of the fuse receiving sleeve is lowered, the fuse is cooled and formed, and the fuse is avoided. Stacked, the inside of the columnar cotton is torn.

上述实施例中，描述了冷却装置通过冷凝物对熔丝接收套杆进行冷却，在实际应用中，冷凝物包括冷凝液，结合图2所示，下面对冷凝物为冷凝液与对冷却装置的各部件进行具体描述，本发明实施例中，储油棉芯制造设备的另一实施例包括：In the above embodiment, the cooling device is described to cool the fuse receiving sleeve by condensate. In practical applications, the condensate includes condensate, as shown in FIG. 2, the condensate is condensate and the pair cooling device. The components of the oil storage wick manufacturing apparatus of the present invention include:

熔喷装置101及用于接收所述熔喷装置101喷出的熔丝以制成柱状的储油棉芯的熔喷棉接收装置；a meltblowing device 101 and a meltblown cotton receiving device for receiving a fuse blown by the meltblown device 101 to form a columnar oil storage wick;

因为熔丝接收套杆与螺纹杆都在接收熔丝，且两者是贴合的，当熔丝粘附在螺纹杆与熔丝接收套杆上形成柱状棉时，则会将螺纹杆与熔丝接收套杆连接，当螺纹杆的转速大于熔丝接收套杆的转速时，由于柱状棉与螺纹杆的摩擦力大于柱状棉与熔丝接收套杆的摩擦力，便使得柱状棉从熔丝接收套杆上脱离。 Because the fuse receiving sleeve and the threaded rod are both receiving the fuse, and the two are fitted, when the fuse is adhered to the threaded rod and the fuse receiving sleeve to form the columnar cotton, the threaded rod and the melting will be The wire receiving sleeve is connected. When the rotation speed of the threaded rod is greater than the rotation speed of the fuse receiving sleeve, since the friction between the columnar cotton and the threaded rod is greater than the friction between the columnar cotton and the fuse receiving sleeve, the columnar cotton is obtained from the fuse. The receiving sleeve is detached.

所述储油棉芯制造设备还包括冷却装置；所述冷却装置设置有冷凝物，用于喷射在所述熔丝接收套杆102上，冷却所述熔丝接收套杆102。The oil storage wick manufacturing apparatus further includes a cooling device; the cooling device is provided with condensate for spraying on the fuse receiving sleeve 102 to cool the fuse receiving sleeve 102.

所述冷凝物为冷凝液；The condensate is a condensate;

所述冷却装置包括：冷凝机201、第一导管202、第二导管203、以及冷凝密封箱204；The cooling device includes: a condenser 201, a first conduit 202, a second conduit 203, and a condensing sealing box 204;

所述冷凝密封箱204套设在所述熔丝接收套杆102上；The condensing sealing box 204 is sleeved on the fuse receiving sleeve 102;

所述冷凝机201用于生成所述冷凝液；The condenser 201 is configured to generate the condensate;

所述第一导管202用于将所述冷凝液传送至所述冷凝密封箱204；The first conduit 202 is used to transfer the condensate to the condensing sealing box 204;

所述冷凝密封箱204用于阻挡所述冷凝液流入所述接收段上；The condensing sealing box 204 is configured to block the condensate from flowing into the receiving section;

所述第二导管203用于将冷凝液排出。The second conduit 203 is for discharging condensate.

优选的，所述冷凝密封箱204内还设置有喷嘴，用于将所述冷凝液喷射至所述熔丝接收套杆102上。Preferably, a nozzle is disposed in the condensing sealing box 204 for injecting the condensate onto the fuse receiving sleeve 102.

本实施例中，冷凝机通过第一导管喷射冷凝液至冷凝密封箱内的熔丝接收套杆上，由于温度守恒定律，当冷凝液将熔丝接收套杆的部分位置冷却后，会使得熔丝接收套杆上的其他位置的温度都会下降，使得可以有效地冷却熔丝接收套杆，更易使柱状棉冷却成型。In this embodiment, the condensing machine sprays the condensate through the first conduit to the fuse receiving sleeve in the condensing sealing box. Due to the law of temperature conservation, when the condensing liquid cools part of the position of the fuse receiving sleeve, the melting is caused. The temperature at other locations on the wire receiving sleeve will drop, making it possible to effectively cool the fuse receiving sleeve, making it easier to cool the cylindrical cotton.

上述实施例中，描述了冷却装置包括冷凝机、第一导管、第二导管、冷凝液、以及冷凝密封箱，在实际应用中，冷却装置还可以包括温度感应器以及冷凝液接收槽，结合图3所示，下面对温度感应器以及冷凝液接收槽进行具体描述，本发明实施例中，储油棉芯制造设备的另一实施例包括：In the above embodiment, the cooling device includes a condenser, a first conduit, a second conduit, a condensate, and a condensing sealing box. In practical applications, the cooling device may further include a temperature sensor and a condensate receiving tank, in combination with the figure. As shown in FIG. 3, the temperature sensor and the condensate receiving tank are specifically described below. In the embodiment of the present invention, another embodiment of the oil storage wick manufacturing apparatus includes:

所述熔喷棉接收装置设置有用于粘附熔丝形成柱状棉的熔丝接收套杆，以及带动所述熔丝接收套杆转动的第一动力装置103；The meltblown cotton receiving device is provided with a fuse receiving sleeve for adhering the fuse to form the columnar cotton, and a first power device 103 for driving the fuse receiving sleeve to rotate;

所述熔喷棉接收装置还设置有外周面设置有外螺纹的螺纹杆以及与所述螺纹杆紧密连接的连接杆； The melt blown cotton receiving device is further provided with a threaded rod provided with an external thread on the outer peripheral surface and a connecting rod closely connected with the threaded rod;

所述熔喷接收装置还设置有用于带动所述连接杆与所述螺纹杆同步转动的第二动力装置106；The melt-blown receiving device is further provided with a second power device 106 for driving the connecting rod to rotate synchronously with the threaded rod;

所述熔丝接收套杆设置有连接段及接收段，所述连接段与所述第一动力装置103连接；所述接收段用于接收熔丝并与所述螺纹杆贴合；The fuse receiving sleeve is provided with a connecting section and a receiving section, and the connecting section is connected to the first power device 103; the receiving section is configured to receive a fuse and fit the threaded rod;

所述冷凝物为冷凝液；The condensate is a condensate;

所述冷凝密封箱204套设在所述熔丝接收套杆上；The condensing sealing box 204 is sleeved on the fuse receiving sleeve;

优选的，所述冷凝密封箱204内还设置有喷嘴，用于将所述冷凝液喷射至所述熔丝接收套杆上。Preferably, a nozzle is disposed in the condensing sealing box 204 for injecting the condensate onto the fuse receiving sleeve.

所述冷却装置还包括温度感应器301； The cooling device further includes a temperature sensor 301;

所述温度感应器301位于所述熔丝接收套杆的一侧，并靠近所述熔丝接收套杆，使得所述温度感应器301能够感应到所述熔丝接收套杆的温度。The temperature sensor 301 is located on one side of the fuse receiving sleeve and adjacent to the fuse receiving sleeve so that the temperature sensor 301 can sense the temperature of the fuse receiving sleeve.

当所述温度感应器感301应到所述熔丝接收套杆的温度达到预置温度值时，所述温度感应器301控制所述冷凝机201生成冷凝液，并将所述冷凝液通过所述第一导管202传送至所述冷凝密封箱204内，喷洒所述冷凝液至所述熔丝接收套杆上；When the temperature sensor sense 301 is that the temperature of the fuse receiving sleeve reaches a preset temperature value, the temperature sensor 301 controls the condenser 201 to generate condensate, and passes the condensate through the The first conduit 202 is transferred into the condensing sealing box 204, and the condensed liquid is sprayed onto the fuse receiving sleeve;

当所述温度感应器301感应到所述熔丝接收套杆的温度小于预置温度值时，所述温度感应器301控制所述冷凝机201暂停生成冷凝液。When the temperature sensor 301 senses that the temperature of the fuse receiving sleeve is less than a preset temperature value, the temperature sensor 301 controls the condenser 201 to suspend the generation of condensate.

优选的，所述冷却装置还包括冷凝液接收槽302以及冷凝液吸取装置303；Preferably, the cooling device further includes a condensate receiving tank 302 and a condensate suction device 303;

所述冷凝液接收槽302与所述第二导管203连接，用于接收从所述冷凝液密封箱204内排出的冷凝液；The condensate receiving tank 302 is connected to the second conduit 203 for receiving condensate discharged from the condensate sealing tank 204;

所述冷凝液吸取装置303位于所述冷凝液接收槽302内并设置有吸取管304；The condensate suction device 303 is located in the condensate receiving tank 302 and is provided with a suction pipe 304;

所述冷凝液吸取装置303用于将所述冷凝液接收槽302内的冷凝液通过所述吸取管304传送至所述冷凝机201内；The condensate suction device 303 is configured to transfer the condensate in the condensate receiving tank 302 to the condenser 201 through the suction pipe 304;

冷凝液吸取装置可以包括水泵。The condensate suction device can include a water pump.

本实施例中，通过温度感应器设置一个预置的温度值，先感应熔丝接收套杆上的温度是否达到预置的温度值，再控制冷凝机开始和停止工作，预置温度值可以根据实际情况进行调节。这样，冷凝机不用一直工作，减少了生产功耗。冷凝密封箱用于阻挡冷凝液喷洒至接收段，则放置了冷凝液流至柱状棉上，污染柱状棉。冷凝液接收槽接收被排出的冷凝液，然后通过冷凝液吸取装置将冷凝液接收槽内的冷凝液传送至冷凝机内，这样，实现了循环利用，减少了生产成本，减少了环境污染。In this embodiment, a preset temperature value is set by the temperature sensor, firstly, whether the temperature on the fuse receiving sleeve reaches the preset temperature value, and then the condensation machine starts and stops working, and the preset temperature value can be based on Adjust the actual situation. In this way, the condenser does not have to work all the time, reducing production power consumption. The condensing seal box is used to block the condensate from being sprayed onto the receiving section, and the condensate is placed on the columnar cotton to contaminate the columnar cotton. The condensate receiving tank receives the discharged condensate, and then transfers the condensate in the condensate receiving tank to the condenser through the condensate suction device, thereby realizing recycling, reducing production cost and reducing environmental pollution.

上述实施例中，描述了冷凝物为冷凝液以及冷却装置包括的各部件，在实际应用中，冷凝物可以为冷气，结合图4所示，下面对冷凝物为冷气，以及冷却装置的各部件进行具体描述，本发明实施例中，储油棉芯制造设备的另一实施例包括：In the above embodiments, the condensate is described as a condensate and various components included in the cooling device. In practical applications, the condensate may be cold air, as shown in FIG. 4, the condensate is cold air, and each of the cooling devices The components are specifically described. In the embodiment of the present invention, another embodiment of the oil storage wick manufacturing apparatus includes:

熔喷装置101及用于接收所述熔喷装置101喷出的熔丝以制成柱状的储油棉芯的熔喷棉接收装置； a meltblowing device 101 and a meltblown cotton receiving device for receiving a fuse blown by the meltblown device 101 to form a columnar oil storage wick;

所述冷凝物为冷气；The condensate is cold air;

所述冷却装置包括冷气喷送机401以及冷气喷送管402； The cooling device includes a cold air jet machine 401 and a cold air spray pipe 402;

所述冷气喷送管402与所述连接杆连通；The cold air spray pipe 402 is in communication with the connecting rod;

所述冷气喷送401机用于生成所述冷气并通过所述冷气喷送管402喷送到所述冷却通道内。The cold air blowing 401 machine is configured to generate the cold air and spray it into the cooling passage through the cold air blowing pipe 402.

本实施例中，通过将连接杆为螺纹杆设置为空心，形成冷却通道，冷气喷送机喷向冷却通道喷送冷气，因为熔丝接收套杆是套设在连接杆上的，通过温度传递，可以使得熔丝接收套杆的温度下降，这样，既可以有效地将熔丝接收套杆的温度下降，还能保证熔丝接收套杆上的柱状棉不受污染。In this embodiment, the cooling rod is formed by setting the connecting rod as a threaded rod to be hollow, and the cold air jetting machine sprays cold air to the cooling passage because the fuse receiving sleeve is sleeved on the connecting rod and passes through the temperature. The temperature of the fuse receiving sleeve can be lowered, so that the temperature of the fuse receiving sleeve can be effectively lowered, and the columnar cotton on the fuse receiving sleeve can be protected from contamination.

上述实施例中，描述了螺纹杆对熔丝接收套杆上的柱状棉进行脱离，在实际应用中，碾压部件，用于对从熔丝接收套杆上脱离的柱状棉，结合图5所示，下面对碾压部件进行具体描述，本发明实施例中，储油棉芯制造设备的另一实施例包括：In the above embodiment, the threaded rod is described for detaching the columnar cotton on the fuse receiving sleeve. In practical applications, the rolling member is used for the columnar cotton detached from the fuse receiving sleeve, in combination with FIG. The following is a detailed description of the rolling component. In the embodiment of the present invention, another embodiment of the oil storage core manufacturing device includes:

所述熔丝接收套杆102设置有连接段及接收段，所述连接段与所述第一动力装置103连接；所述接收段用于接收熔丝并与所述螺纹杆104贴合； The fuse receiving sleeve 102 is provided with a connecting section and a receiving section, the connecting section is connected to the first power device 103; the receiving section is configured to receive a fuse and fit the threaded rod 104;

所述储油棉芯制造设备还包括碾压部件；The oil storage wick manufacturing apparatus further includes a rolling component;

所述碾压部件用于碾压从所述熔丝接收套杆102脱离的柱状棉。The roller compacting member is used to crush the columnar cotton detached from the fuse receiving sleeve 102.

优选的，所述碾压部件包括：若干个滚筒501、以及用于支撑所述滚筒501的滚筒支撑架502；Preferably, the rolling component comprises: a plurality of rollers 501, and a roller support frame 502 for supporting the roller 501;

当所述被所述柱状棉移动至所述碾压部件内时，所述滚筒501与所述柱状棉紧密贴合同步运动。When the columnar cotton is moved into the rolling member, the drum 501 is in close synchronization with the columnar cotton.

优选的，所述储油棉芯制造设备还包括棉芯接收槽503、以及用于固定所述接收槽503的固定块504；Preferably, the oil storage wick manufacturing apparatus further includes a wick receiving groove 503, and a fixing block 504 for fixing the receiving groove 503;

所述棉芯接收槽503用于接收被所述碾压部件碾压过的柱状棉。The wick receiving groove 503 is for receiving cylindrical cotton that has been crushed by the rolling member.

本实施例中，通过若干个滚筒与柱状棉同步转动，滚筒对柱状棉外周面进行均匀碾压，使得碾压过后的柱状棉外周面光滑。In this embodiment, a plurality of rollers are synchronously rotated with the columnar cotton, and the roller uniformly welds the outer peripheral surface of the columnar cotton, so that the outer peripheral surface of the columnar cotton after the rolling is smooth.

上述实施例中，描述了第一动力装置带动熔丝接收套杆转动，第二动力装置带动连接杆与螺纹杆转动，在实际应用中，还包括第一连接部件，用于连接第一动力装置与熔丝接收套杆，还包括第二连接部件，用于连接第二动力装置与连接杆，结合图6所示，下面对两个连接部件进行具体描述，本发明实施例中，储油棉芯制造设备的另一实施例包括：In the above embodiment, the first power unit is driven to drive the fuse receiving sleeve to rotate, and the second power unit drives the connecting rod and the threaded rod to rotate. In practical applications, the first connecting component is further included for connecting the first power unit. And the fuse receiving sleeve, further comprising a second connecting member for connecting the second power device and the connecting rod, as shown in FIG. 6, the two connecting members are specifically described below. In the embodiment of the invention, the oil is stored. Another embodiment of the wick manufacturing apparatus includes:

所述熔喷棉接收装置设置有用于粘附熔丝形成柱状棉的熔丝接收套杆102，以及带动所述熔丝接收套杆102转动的第一动力装置103； The meltblown cotton receiving device is provided with a fuse receiving sleeve 102 for adhering the fuse to form the columnar cotton, and a first power device 103 for driving the fuse receiving sleeve 102 to rotate;

所述熔喷棉接收装置还设置有外周面设置有外螺纹的螺纹杆以及与所述螺纹杆紧密连接的连接杆105；The meltblown cotton receiving device is further provided with a threaded rod having an outer peripheral surface provided with an external thread and a connecting rod 105 closely connected with the threaded rod;

所述熔喷接收装置还设置有用于带动所述连接杆105与所述螺纹杆同步转动的第二动力装置106；The melt-blown receiving device is further provided with a second power device 106 for driving the connecting rod 105 to rotate synchronously with the threaded rod;

当所述连接杆105与所述螺纹杆的转速大于所述熔丝接收套杆102的转速时，所述螺纹杆将所述熔丝接收套杆102上的柱状棉脱离；When the rotation speed of the connecting rod 105 and the threaded rod is greater than the rotation speed of the fuse receiving sleeve 102, the threaded rod detaches the columnar cotton on the fuse receiving sleeve 102;

所述熔喷棉接收装置还设置有用于连接所述熔丝接收套杆102与所述第一动力装置103的第一连接部件；The melt blown cotton receiving device is further provided with a first connecting member for connecting the fuse receiving sleeve 102 and the first power device 103;

所述第一连接部件设置有第一齿轮601，第一空心轴602，以及固定第一空心轴的第一轴承603，以及用于容置所述第一轴承的第一轴承座(图中未示)，所述第一齿轮601套设在所述第一空心轴602上，所述第一空心轴602套设在所述第一轴承603上，所述第一轴承603套设在所述第一轴承座上，所述熔丝接收套杆102的连接段与所述第一空心轴602连接；The first connecting member is provided with a first gear 601, a first hollow shaft 602, and a first bearing 603 for fixing the first hollow shaft, and a first bearing seat for accommodating the first bearing (not shown) The first gear 601 is sleeved on the first hollow shaft 602, the first hollow shaft 602 is sleeved on the first bearing 603, and the first bearing 603 is sleeved on the First bearing seat, The connecting portion of the fuse receiving sleeve 102 is connected to the first hollow shaft 602;

所述连接部件还设置有第二齿轮604，所述第一动力装置103与所述第二齿轮连接；The connecting member is further provided with a second gear 604, and the first power device 103 is connected to the second gear;

所述连接部件还设置有第一传送带605，所述传送带套605设在所述第一齿轮601与所述第二齿轮604上，用于当所述第二齿轮604转动时带动所述第一齿轮601转动。The connecting member is further provided with a first conveyor belt 605, and the conveyor belt sleeve 605 is disposed on the first gear 601 and the second gear 604 for driving the first gear 604 when the second gear 604 rotates The gear 601 rotates.

优选的，所述熔喷棉接收装置还设置有用于连接所述连接杆105与所述第二动力装置106的第二连接部件；Preferably, the meltblown cotton receiving device is further provided with a second connecting member for connecting the connecting rod 105 and the second power device 106;

所述第二连接部件设置有第三齿轮606，第二空心轴607，以及固定第二空心轴607的第二轴承608，以及用于容置所述第二轴承608的第二轴承座(图中未示)，所述第三齿轮606套设在所述第二空心轴607上，所述第二空心轴607套设在所述第二轴承608上，所述第二轴承608套设在所述第二轴承座上，所述连接杆105与所述第二空心轴607连接；The second connecting member is provided with a third gear 606, a second hollow shaft 607, and a second bearing 608 for fixing the second hollow shaft 607, and a second bearing seat for accommodating the second bearing 608 (Fig. The third gear 606 is sleeved on the second hollow shaft 607, the second hollow shaft 607 is sleeved on the second bearing 608, and the second bearing 608 is sleeved on the second bearing 608. The connecting rod 105 is connected to the second hollow shaft 607 on the second bearing seat;

所述第二连接部件还设置有第四齿轮(图中未示)，所述第二动力装置106与所述第四齿轮连接；The second connecting member is further provided with a fourth gear (not shown), and the second power device 106 is connected to the fourth gear;

所述第二连接部件还设置有第二传送带(图中未示)，所述第二传送带套设在所述第三齿轮606与所述第四齿轮上，用于当所述第四齿轮转动时带动所述第三齿轮转动。The second connecting member is further provided with a second conveyor belt (not shown), and the second conveyor belt is sleeved on the third gear 606 and the fourth gear wheel for rotating the fourth gear wheel The third gear is rotated.

优选的，所述接收段沿其轴向不同位置处的横截面呈凸多边形；Preferably, the cross section of the receiving section at different positions along the axial direction thereof is a convex polygon;

将接收段位置的熔丝接收套杆设置有凸起，可以便于熔丝的粘附。The fuse receiving sleeve of the receiving section position is provided with a protrusion to facilitate adhesion of the fuse.

结合图5所示，优选的，所述储油棉芯制造设备还设置有用于固定所述熔喷装置以及所述熔喷棉接收装置的底板611。As shown in FIG. 5, preferably, the oil-storage core manufacturing apparatus is further provided with a bottom plate 611 for fixing the melt-blown device and the melt-blown cotton receiving device.

本实施例中，通过设置轴承与传送带将第一动力装置与熔丝接收套杆连接，和将第二动力装置与连接杆连接，这样，便于拆卸与安装，提高了维护的效率。熔丝接收套杆的接收段外周面设置有凸起，可以便于熔丝的粘附。In this embodiment, the first power unit is connected to the fuse receiving sleeve by providing a bearing and a conveyor belt, and the second power unit is connected to the connecting rod, so that the disassembly and installation are facilitated, and the maintenance efficiency is improved. The outer peripheral surface of the receiving section of the fuse receiving sleeve is provided with a protrusion to facilitate adhesion of the fuse.

以上实施例仅用以说明本发明的技术方案，而非对其限制；尽管参照前述实施例对本发明进行了详细的说明，本领域的普通技术人员应当理解：其依然可以对前述各实施例所记载的技术方案进行修改，或者对其中部分技术特征进行等同替换；而这些修改或者替换，并不使相应技术方案的本质脱离本发明各实施例技术方案的精神和范围。 The above embodiments are only used to illustrate the technical solutions of the present invention, and are not intended to be limiting; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that Modifications of the technical solutions described, or equivalent replacement of some of the technical features; and such modifications or substitutions do not detract from the essence of the corresponding technical solutions. The spirit and scope of the technical solutions of the embodiments.

Claims

一种储油棉芯制造设备，其特征在于，包括：熔喷装置及用于接收所述熔喷装置喷出的熔丝以制成柱状的储油棉芯的熔喷棉接收装置；An oil storage wick manufacturing apparatus, comprising: a melt blowing device and a melt blown cotton receiving device for receiving a fuse sprayed by the melt blowing device to form a columnar oil storage wick;

所述熔喷棉接收装置设置有用于粘附熔丝形成柱状棉的熔丝接收套杆，以及带动所述熔丝接收套杆转动的第一动力装置；The meltblown cotton receiving device is provided with a fuse receiving sleeve for adhering the fuse to form the columnar cotton, and a first power device for driving the fuse receiving sleeve to rotate;

所述熔喷棉接收装置还设置有外周面设置有外螺纹的螺纹杆以及与所述螺纹杆紧密连接的连接杆；The melt blown cotton receiving device is further provided with a threaded rod provided with an external thread on the outer peripheral surface and a connecting rod closely connected with the threaded rod;

所述熔喷接收装置还设置有用于带动所述连接杆与所述螺纹杆同步转动的第二动力装置；The melt-blown receiving device is further provided with a second power device for driving the connecting rod to rotate synchronously with the threaded rod;

所述熔丝接收套杆套设在所述连接杆上；The fuse receiving sleeve is sleeved on the connecting rod;

所述熔丝接收套杆设置有连接段及接收段，所述连接段与所述第一动力装置连接；所述接收段用于接收熔丝并与所述螺纹杆贴合；The fuse receiving sleeve is provided with a connecting section and a receiving section, and the connecting section is connected to the first power device; the receiving section is configured to receive a fuse and fit the threaded rod;

当所述连接杆与所述螺纹杆的转速大于所述熔丝接收套杆的转速时，所述螺纹杆将所述熔丝接收套杆上的柱状棉脱离；When the rotation speed of the connecting rod and the threaded rod is greater than the rotation speed of the fuse receiving sleeve, the threaded rod detaches the columnar cotton on the fuse receiving sleeve;

所述储油棉芯制造设备还包括冷却装置；所述冷却装置设置有冷凝物，用于喷射在所述熔丝接收套杆上，冷却所述熔丝接收套杆。The oil storage wick manufacturing apparatus further includes a cooling device; the cooling device is provided with condensate for spraying on the fuse receiving sleeve to cool the fuse receiving sleeve.
根据权利要求1所述储油棉芯制造设备，其特征在于，所述冷凝物为冷凝液；The oil storage wick manufacturing apparatus according to claim 1, wherein the condensate is a condensate;

所述冷却装置包括：冷凝机、第一导管、第二导管、以及冷凝密封箱；The cooling device includes: a condenser, a first conduit, a second conduit, and a condensing sealed box;

所述冷凝密封箱套设在所述熔丝接收套杆上；The condensing sealing box is sleeved on the fuse receiving sleeve;

所述冷凝机用于生成所述冷凝液；The condenser is used to generate the condensate;

所述第一导管用于将所述冷凝液传送至所述冷凝密封箱；The first conduit is for conveying the condensate to the condensing sealed box;

所述冷凝密封箱用于阻挡所述冷凝液流入所述接收段上；The condensing sealing box is configured to block the condensate from flowing into the receiving section;

所述第二导管用于将冷凝液排出。The second conduit is for discharging condensate.
根据权利要求2所述储油棉芯制造设备，其特征在于，The oil-storage core manufacturing apparatus according to claim 2, wherein

所述冷凝密封箱内还设置有喷嘴，用于将所述冷凝液喷射至所述熔丝接收套杆上。A nozzle is also disposed in the condensing seal box for injecting the condensate onto the fuse receiving sleeve.
根据权利要求3所述储油棉芯制造设备，其特征在于，所述冷却装置还包括温度感应器； The oil storage wick manufacturing apparatus according to claim 3, wherein said cooling device further comprises a temperature sensor;

所述温度感应器位于所述熔丝接收套杆的一侧，并靠近所述熔丝接收套杆，使得所述温度感应器能够感应到所述熔丝接收套杆的温度。The temperature sensor is located on one side of the fuse receiving sleeve and adjacent to the fuse receiving sleeve such that the temperature sensor can sense the temperature of the fuse receiving sleeve.

当所述温度感应器感应到所述熔丝接收套杆的温度达到预置温度值时，所述温度感应器控制所述冷凝机生成冷凝液，并将所述冷凝液通过所述第一导管传送至所述冷凝密封箱内，喷洒所述冷凝液至所述熔丝接收套杆上；When the temperature sensor senses that the temperature of the fuse receiving sleeve reaches a preset temperature value, the temperature sensor controls the condenser to generate condensate, and passes the condensate through the first conduit Transmitting into the condensing sealed box, spraying the condensate onto the fuse receiving sleeve;

当所述温度感应器感应到所述熔丝接收套杆的温度小于预置温度值时，所述温度感应器控制所述冷凝机暂停生成冷凝液。The temperature sensor controls the condenser to suspend the generation of condensate when the temperature sensor senses that the temperature of the fuse receiving sleeve is less than a preset temperature value.
根据权利要求4述储油棉芯制造设备，其特征在于，所述冷却装置还包括冷凝液接收槽以及冷凝液吸取装置；A storage wick manufacturing apparatus according to claim 4, wherein said cooling means further comprises a condensate receiving tank and a condensate suction means;

所述冷凝液接收槽与所述第二导管连接，用于接收从所述冷凝液密封箱内排出的冷凝液；The condensate receiving tank is connected to the second conduit for receiving condensate discharged from the condensate sealed box;

所述冷凝液吸取装置位于所述冷凝液接收槽内并设置有吸取管；The condensate suction device is located in the condensate receiving tank and is provided with a suction pipe;

所述冷凝液吸取装置用于将所述冷凝液接收槽内的冷凝液通过所述吸取管传送至所述冷凝机内。The condensate suction device is configured to transfer condensate in the condensate receiving tank to the condenser through the suction pipe.
根据权利要求1所述储油棉芯制造设备，其特征在于，所述冷凝物为冷气；The oil storage wick manufacturing apparatus according to claim 1, wherein the condensate is cold air;

所述螺纹杆与所述连接杆内部均设置为空心，所述螺纹杆与所述连接杆连接形成冷却通道；The threaded rod and the connecting rod are both disposed hollow inside, and the threaded rod is connected with the connecting rod to form a cooling passage;

所述冷却装置包括冷气喷送机以及冷气喷送管；The cooling device includes a cold air jet machine and a cold air spray pipe;

所述冷气喷送管与所述连接杆连通；The cold air blowing pipe is in communication with the connecting rod;

所述冷气喷送机用于生成所述冷气并通过所述冷气喷送管喷送到所述冷却通道内。The cold air jet machine is configured to generate the cold air and spray it into the cooling passage through the cold air spray pipe.
根据权利要求1至6其中任意一项所述储油棉芯制造设备，其特征在于，所述储油棉芯制造设备还包括碾压部件；The oil storage wick manufacturing apparatus according to any one of claims 1 to 6, wherein the oil scum core manufacturing apparatus further comprises a rolling member;

所述碾压部件用于碾压从所述熔丝接收套杆脱离的柱状棉。The rolling member is used to crush columnar cotton detached from the fuse receiving sleeve.
根据权利要求7所述储油棉芯制造设备，其特征在于，The oil storage wick manufacturing apparatus according to claim 7, wherein

所述碾压部件包括：若干个滚筒、以及用于支撑所述滚筒的滚筒支撑架；The rolling component includes: a plurality of rollers, and a roller support for supporting the roller;

当所述被所述柱状棉移动至所述碾压部件内时，所述滚筒与所述柱状棉紧密贴合同步运动。 When the columnar cotton is moved into the rolling member, the drum and the columnar cotton are in close contact with each other to move synchronously.
根据权利要求8所述储油棉芯制造设备，其特征在于，The oil storage wick manufacturing apparatus according to claim 8, wherein

所述储油棉芯制造设备还包括棉芯接收槽、以及用于固定所述接收槽的固定块；The oil storage wick manufacturing apparatus further includes a cotton core receiving groove, and a fixing block for fixing the receiving groove;

所述棉芯接收槽用于接收被所述碾压部件碾压过的柱状棉。The wick receiving groove is for receiving cylindrical cotton that has been crushed by the rolling member.
根据权利要求1至6其中任意一项所述储油棉芯制造设备，其特征在于，The oil storage wick manufacturing apparatus according to any one of claims 1 to 6, wherein

所述熔喷棉接收装置还设置有用于连接所述熔丝接收套杆与所述第一动力装置的第一连接部件；The melt blown cotton receiving device is further provided with a first connecting member for connecting the fuse receiving sleeve and the first power device;

所述第一连接部件设置有第一齿轮，第一空心轴，以及固定第一空心轴的第一轴承，以及用于容置所述第一轴承的第一轴承座，所述第一齿轮套设在所述第一空心轴上，所述第一空心轴套设在所述第一轴承上，所述第一轴承套设在所述第一轴承座上，所述熔丝接收套杆的连接段与所述第一空心轴连接；The first connecting member is provided with a first gear, a first hollow shaft, and a first bearing fixing the first hollow shaft, and a first bearing seat for accommodating the first bearing, the first gear sleeve Provided on the first hollow shaft, the first hollow shaft is sleeved on the first bearing, the first bearing is sleeved on the first bearing seat, and the fuse receives the sleeve a connecting section connected to the first hollow shaft;

所述连接部件还设置有第二齿轮，所述第一动力装置与所述第二齿轮连接；The connecting member is further provided with a second gear, and the first power device is connected to the second gear;

所述连接部件还设置有第一传送带，所述传送带套设在所述第一齿轮与所述第二齿轮上，用于当所述第二齿轮转动时带动所述第一齿轮转动。The connecting member is further provided with a first conveyor belt, and the conveyor belt is sleeved on the first gear and the second gear for driving the first gear to rotate when the second gear rotates.
根据权利要求1至6其中任意一项所述储油棉芯制造设备，其特征在于，The oil storage wick manufacturing apparatus according to any one of claims 1 to 6, wherein

所述熔喷棉接收装置还设置有用于连接所述连接杆与所述第二动力装置的第二连接部件；The meltblown cotton receiving device is further provided with a second connecting member for connecting the connecting rod and the second power device;

所述第二连接部件设置有第三齿轮，第二空心轴，以及固定第二空心轴的第二轴承，以及用于容置所述第二轴承的第二轴承座，所述第三齿轮套设在所述第二空心轴上，所述第二空心轴套设在所述第二轴承上，所述第二轴承套设在所述第二轴承座上，所述连接杆与所述第二空心轴连接；The second connecting member is provided with a third gear, a second hollow shaft, and a second bearing fixing the second hollow shaft, and a second bearing seat for accommodating the second bearing, the third gear sleeve Provided on the second hollow shaft, the second hollow shaft is sleeved on the second bearing, the second bearing is sleeved on the second bearing seat, the connecting rod and the first Two hollow shaft connections;

所述第二连接部件还设置有第四齿轮，所述第二动力装置与所述第四齿轮连接；The second connecting member is further provided with a fourth gear, and the second power device is connected to the fourth gear;

所述第二连接部件还设置有第二传送带，所述第二传送带套设在所述第三齿轮与所述第四齿轮上，用于当所述第四齿轮转动时带动所述第三齿轮转动。The second connecting member is further provided with a second conveyor belt, and the second conveyor belt is sleeved on the third gear and the fourth gear for driving the third gear when the fourth gear rotates Turn.
根据权利要求1至6其中任意一项所述储油棉芯制造设备，其特征在于，所述接收段沿其轴向不同位置处的横截面呈凸多边形。The oil storage wick manufacturing apparatus according to any one of claims 1 to 6, wherein The cross section of the receiving section at different positions along its axial direction is a convex polygon.
根据权利要求1至6其中任意一项所述储油棉芯制造设备，其特征在于，The oil storage wick manufacturing apparatus according to any one of claims 1 to 6, wherein

所述储油棉芯制造设备还设置有用于固定所述熔喷装置以及所述熔喷棉接收装置的底板。 The oil storage wick manufacturing apparatus is further provided with a bottom plate for fixing the melt blowing device and the melt blasting cotton receiving device.