A method measures inside a blanket of mineral and/or plant fibres being moved by at least one conveyor with a conveyor belt. The method uses a measuring system including a sensor and an actuator for introducing the sensor into the blanket, the actuator being mounted on the conveyor belt and able to move the sensor between a retracted position and a measuring position inside the blanket. The method also includes introducing the sensor into the blanket by the actuator under the effect of the movement of the conveyor belt.

A tofu transfer mechanism is configured to transfer tofu from a first production device to a second production device in a tofu continuous production device. The tofu transfer mechanism includes: a transfer member disposed so as to bridge a terminal end of the first production device and a starting end of the second production device, the starting end of the second production device facing the terminal end of the first production device; and a folding-back guide unit configured to guide an endless conveyor of the second production device at the starting end of the second production device such that the endless conveyor of the second production device is bent downward at an acute angle with respect to a conveyance surface on which the tofu is conveyed.

A tofu transfer mechanism is configured to transfer tofu from a first production device to a second production device in a tofu continuous production device. The tofu transfer mechanism includes: a transfer member disposed so as to bridge a terminal end of the first production device and a starting end of the second production device, the starting end of the second production device facing the terminal end of the first production device; and a folding-back guide unit configured to guide an endless conveyor of the second production device at the starting end of the second production device such that the endless conveyor of the second production device is bent downward at an acute angle with respect to a conveyance surface on which the tofu is conveyed.

Disclosed are a method and apparatus for setting an object conveying speed, relating to the technical field of computers. The method comprises: acquiring historical feature data of an object within multiple predefined time periods, and constructing a conveying speed level model, which indicates a corresponding relationship between the historical feature data and a conveying speed level, and which further includes a feature index that indicates the conveying speed level (S101); acquiring feature data of an object to be conveyed, and determining, by using the conveying speed level model, the conveying speed level of the object to be conveyed (S102); and determining the conveying speed of the object to be conveyed according to the conveying speed level (S103).

Disclosed are a method and apparatus for setting an object conveying speed, relating to the technical field of computers. The method comprises: acquiring historical feature data of an object within multiple predefined time periods, and constructing a conveying speed level model, which indicates a corresponding relationship between the historical feature data and a conveying speed level, and which further includes a feature index that indicates the conveying speed level (S101); acquiring feature data of an object to be conveyed, and determining, by using the conveying speed level model, the conveying speed level of the object to be conveyed (S102); and determining the conveying speed of the object to be conveyed according to the conveying speed level (S103).

According to an embodiment, a conveyance apparatus includes an upstream-side conveyance portion and a downstream-side conveyance portion. The upstream-side conveyance portion is configured to convey a test object from a conveyance direction deviating with respect to a conveyance direction of a conveyance path of a radiation inspection apparatus to the conveyance path. The radiation inspection apparatus is configured to irradiate the test object with radiation to inspect the test object. The downstream-side conveyance portion is configured to convey the test object from the conveyance path in a conveyance direction deviating with respect to the conveyance direction of the conveyance path. The upstream-side conveyance portion and the downstream-side conveyance portion respectively include a shielding section that is on an extension line of the conveyance direction of the conveyance path and is configured to block the radiation.

According to an embodiment, a conveyance apparatus includes an upstream-side conveyance portion and a downstream-side conveyance portion. The upstream-side conveyance portion is configured to convey a test object from a conveyance direction deviating with respect to a conveyance direction of a conveyance path of a radiation inspection apparatus to the conveyance path. The radiation inspection apparatus is configured to irradiate the test object with radiation to inspect the test object. The downstream-side conveyance portion is configured to convey the test object from the conveyance path in a conveyance direction deviating with respect to the conveyance direction of the conveyance path. The upstream-side conveyance portion and the downstream-side conveyance portion respectively include a shielding section that is on an extension line of the conveyance direction of the conveyance path and is configured to block the radiation.

Disclosed is a garment folding apparatus, which serves to fold a garment during a process of conveying the garment, the garment folding apparatus including a loading assembly configured to load a garment, a folding assembly configured to fold the loaded garment while conveying the garment, and an unloading assembly disposed below the folding assembly and configured to unload a completely folded garment, in which the folding assembly includes a first conveyor configured to convey the garment in a horizontal direction, a second conveyor disposed to be spaced apart from the first conveyor in the horizontal direction, and a horizontal folding assembly including a folding bar configured to be inserted into a separation space between the first conveyor and the second conveyor, in which an inclined surface of the first conveyor and an inclined surface of the second conveyor face each other, such that various horizontal folding processes may be successfully performed within a limited space.

Disclosed is a garment folding apparatus, which serves to fold a garment during a process of conveying the garment, the garment folding apparatus including a loading assembly configured to load a garment, a folding assembly configured to fold the loaded garment while conveying the garment, and an unloading assembly disposed below the folding assembly and configured to unload a completely folded garment, in which the folding assembly includes a first conveyor configured to convey the garment in a horizontal direction, a second conveyor disposed to be spaced apart from the first conveyor in the horizontal direction, and a horizontal folding assembly including a folding bar configured to be inserted into a separation space between the first conveyor and the second conveyor, in which an inclined surface of the first conveyor and an inclined surface of the second conveyor face each other, such that various horizontal folding processes may be successfully performed within a limited space.

The present disclosure relates to a garment folding apparatus, which serves to fold a garment during a process of conveying the garment, the garment folding apparatus including a loading assembly configured to load the garment, a folding assembly configured to fold the loaded garment while conveying the garment, and an unloading assembly disposed below the folding assembly and configured to unload a completely folded garment, in which the folding assembly comprises a vertical folding assembly configured to actively fold the garment deployed on a conveyor by using a drive motor, such that a vertical folding operation is performed along a rectilinear trajectory, which makes it possible to reduce a required operation space and contribute to miniaturization of the apparatus.